motor_params/AD_Keil_Project/MDK-ARM/IHM08M/IHM08M.htm

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<title>Static Call Graph - [IHM08M\IHM08M.axf]</title></head>
<body><HR>
<H1>Static Call Graph for image IHM08M\IHM08M.axf</H1><HR>
<BR><P>#&#060CALLGRAPH&#062# ARM Linker, 6220000: Last Updated: Fri Jun  5 12:07:06 2026
<BR><P>
<H3>Maximum Stack Usage =        568 bytes + Unknown(Functions without stacksize, Cycles, Untraceable Function Pointers)</H3><H3>
Call chain for Maximum Stack Depth:</H3>
__rt_entry_main &rArr; main &rArr; AD_Project_Loop &rArr; AD_Modbus_Loop &rArr; process_frame &rArr; process_write_single &rArr; write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
<P>
<H3>
Functions with no stack information
</H3><UL>
 <LI><a href="#[8c]">__user_initial_stackheap</a>
</UL>
</UL>
<P>
<H3>
Mutually Recursive functions
</H3> <LI><a href="#[1c]">ADC1_2_IRQHandler</a>&nbsp;&nbsp;&nbsp;&rArr;&nbsp;&nbsp;&nbsp;<a href="#[1c]">ADC1_2_IRQHandler</a><BR>
</UL>
<P>
<H3>
Function Pointers
</H3><UL>
 <LI><a href="#[1c]">ADC1_2_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[39]">ADC3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[47]">ADC4_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[48]">ADC5_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[4]">BusFault_Handler</a> from stm32g4xx_it.o(.text.BusFault_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[4a]">COMP1_2_3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[4b]">COMP4_5_6_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[4c]">COMP7_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[6d]">CORDIC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[55]">CRS_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[15]">DMA1_Channel1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[16]">DMA1_Channel2_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[17]">DMA1_Channel3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[18]">DMA1_Channel4_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[19]">DMA1_Channel5_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[1a]">DMA1_Channel6_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[1b]">DMA1_Channel7_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[69]">DMA1_Channel8_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[42]">DMA2_Channel1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[43]">DMA2_Channel2_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[44]">DMA2_Channel3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[45]">DMA2_Channel4_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[46]">DMA2_Channel5_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[6a]">DMA2_Channel6_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[6b]">DMA2_Channel7_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[6c]">DMA2_Channel8_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[67]">DMAMUX_OVR_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[7]">DebugMon_Handler</a> from stm32g4xx_it.o(.text.DebugMon_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[10]">EXTI0_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[32]">EXTI15_10_IRQHandler</a> from stm32g4xx_it.o(.text.EXTI15_10_IRQHandler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[11]">EXTI1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[12]">EXTI2_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[13]">EXTI3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[14]">EXTI4_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[21]">EXTI9_5_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[1f]">FDCAN1_IT0_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[20]">FDCAN1_IT1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[5f]">FDCAN2_IT0_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[60]">FDCAN2_IT1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[61]">FDCAN3_IT0_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[62]">FDCAN3_IT1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[e]">FLASH_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[6e]">FMAC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[3a]">FMC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[5b]">FPU_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[53]">HRTIM1_FLT_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[4d]">HRTIM1_Master_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[4e]">HRTIM1_TIMA_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[4f]">HRTIM1_TIMB_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[50]">HRTIM1_TIMC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[51]">HRTIM1_TIMD_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[52]">HRTIM1_TIME_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[54]">HRTIM1_TIMF_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[2]">HardFault_Handler</a> from stm32g4xx_it.o(.text.HardFault_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[2a]">I2C1_ER_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[29]">I2C1_EV_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[2c]">I2C2_ER_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[2b]">I2C2_EV_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[66]">I2C3_ER_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[65]">I2C3_EV_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[5d]">I2C4_ER_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[5c]">I2C4_EV_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[3b]">LPTIM1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[64]">LPUART1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[3]">MemManage_Handler</a> from stm32g4xx_it.o(.text.MemManage_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[1]">NMI_Handler</a> from stm32g4xx_it.o(.text.NMI_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[b]">PVD_PVM_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[8]">PendSV_Handler</a> from stm32g4xx_it.o(.text.PendSV_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[68]">QUADSPI_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[f]">RCC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[63]">RNG_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[33]">RTC_Alarm_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[c]">RTC_TAMP_LSECSS_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[d]">RTC_WKUP_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[0]">Reset_Handler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[56]">SAI1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[2d]">SPI1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[2e]">SPI2_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[3d]">SPI3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[5e]">SPI4_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[6]">SVC_Handler</a> from stm32g4xx_it.o(.text.SVC_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[9]">SysTick_Handler</a> from stm32g4xx_it.o(.text.SysTick_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[6f]">SystemInit</a> from system_stm32g4xx.o(.text.SystemInit) referenced from startup_stm32g474xx.o(.text)
 <LI><a href="#[22]">TIM1_BRK_TIM15_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[25]">TIM1_CC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[24]">TIM1_TRG_COM_TIM17_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[23]">TIM1_UP_TIM16_IRQHandler</a> from stm32g4xx_it.o(.text.TIM1_UP_TIM16_IRQHandler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[57]">TIM20_BRK_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[5a]">TIM20_CC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[59]">TIM20_TRG_COM_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[58]">TIM20_UP_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[26]">TIM2_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[27]">TIM3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[28]">TIM4_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[3c]">TIM5_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[40]">TIM6_DAC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[41]">TIM7_DAC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[35]">TIM8_BRK_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[38]">TIM8_CC_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[37]">TIM8_TRG_COM_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[36]">TIM8_UP_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[3e]">UART4_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[3f]">UART5_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[71]">UART_DMAAbortOnError</a> from stm32g4xx_hal_uart.o(.text.UART_DMAAbortOnError) referenced 2 times from stm32g4xx_hal_uart.o(.text.HAL_UART_IRQHandler)
 <LI><a href="#[72]">UART_RxISR_16BIT</a> from stm32g4xx_hal_uart.o(.text.UART_RxISR_16BIT) referenced 2 times from stm32g4xx_hal_uart.o(.text.UART_RxISR_16BIT_FIFOEN)
 <LI><a href="#[72]">UART_RxISR_16BIT</a> from stm32g4xx_hal_uart.o(.text.UART_RxISR_16BIT) referenced 2 times from stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
 <LI><a href="#[74]">UART_RxISR_16BIT_FIFOEN</a> from stm32g4xx_hal_uart.o(.text.UART_RxISR_16BIT_FIFOEN) referenced 2 times from stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
 <LI><a href="#[73]">UART_RxISR_8BIT</a> from stm32g4xx_hal_uart.o(.text.UART_RxISR_8BIT) referenced 2 times from stm32g4xx_hal_uart.o(.text.UART_RxISR_8BIT_FIFOEN)
 <LI><a href="#[73]">UART_RxISR_8BIT</a> from stm32g4xx_hal_uart.o(.text.UART_RxISR_8BIT) referenced 2 times from stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
 <LI><a href="#[75]">UART_RxISR_8BIT_FIFOEN</a> from stm32g4xx_hal_uart.o(.text.UART_RxISR_8BIT_FIFOEN) referenced 2 times from stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
 <LI><a href="#[49]">UCPD1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[2f]">USART1_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[30]">USART2_IRQHandler</a> from stm32g4xx_it.o(.text.USART2_IRQHandler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[31]">USART3_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[34]">USBWakeUp_IRQHandler</a> from stm32g4xx_it.o(.text.USBWakeUp_IRQHandler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[1d]">USB_HP_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[1e]">USB_LP_IRQHandler</a> from stm32g4xx_it.o(.text.USB_LP_IRQHandler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[5]">UsageFault_Handler</a> from stm32g4xx_it.o(.text.UsageFault_Handler) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[a]">WWDG_IRQHandler</a> from startup_stm32g474xx.o(.text) referenced from startup_stm32g474xx.o(RESET)
 <LI><a href="#[70]">__main</a> from __main.o(!!!main) referenced from startup_stm32g474xx.o(.text)
</UL>
<P>
<H3>
Global Symbols
</H3>
<P><STRONG><a name="[70]"></a>__main</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, __main.o(!!!main))
<BR><BR>[Calls]<UL><LI><a href="#[76]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload
<LI><a href="#[77]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(.text)
</UL>
<P><STRONG><a name="[76]"></a>__scatterload</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter))
<BR><BR>[Called By]<UL><LI><a href="#[70]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__main
</UL>

<P><STRONG><a name="[78]"></a>__scatterload_rt2</STRONG> (Thumb, 84 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[77]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry
</UL>

<P><STRONG><a name="[215]"></a>__scatterload_rt2_thumb_only</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED)

<P><STRONG><a name="[216]"></a>__scatterload_loop</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __scatter.o(!!!scatter), UNUSED)

<P><STRONG><a name="[79]"></a>__scatterload_copy</STRONG> (Thumb, 26 bytes, Stack size unknown bytes, __scatter_copy.o(!!handler_copy), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[79]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_copy
</UL>
<BR>[Called By]<UL><LI><a href="#[79]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_copy
</UL>

<P><STRONG><a name="[217]"></a>__scatterload_null</STRONG> (Thumb, 2 bytes, Stack size unknown bytes, __scatter.o(!!handler_null), UNUSED)

<P><STRONG><a name="[218]"></a>__scatterload_zeroinit</STRONG> (Thumb, 28 bytes, Stack size unknown bytes, __scatter_zi.o(!!handler_zi), UNUSED)

<P><STRONG><a name="[7f]"></a>__rt_lib_init</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit.o(.ARM.Collect$$libinit$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[7e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_li
</UL>

<P><STRONG><a name="[7a]"></a>__rt_lib_init_fp_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000001))
<BR><BR>[Calls]<UL><LI><a href="#[7b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_fp_init
</UL>

<P><STRONG><a name="[219]"></a>__rt_lib_init_alloca_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000030))

<P><STRONG><a name="[21a]"></a>__rt_lib_init_argv_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000002E))

<P><STRONG><a name="[21b]"></a>__rt_lib_init_atexit_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001D))

<P><STRONG><a name="[21c]"></a>__rt_lib_init_clock_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000023))

<P><STRONG><a name="[21d]"></a>__rt_lib_init_cpp_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000034))

<P><STRONG><a name="[21e]"></a>__rt_lib_init_exceptions_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000032))

<P><STRONG><a name="[21f]"></a>__rt_lib_init_fp_trap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000021))

<P><STRONG><a name="[220]"></a>__rt_lib_init_getenv_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000025))

<P><STRONG><a name="[221]"></a>__rt_lib_init_heap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000C))

<P><STRONG><a name="[222]"></a>__rt_lib_init_lc_collate_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000013))

<P><STRONG><a name="[223]"></a>__rt_lib_init_lc_ctype_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000015))

<P><STRONG><a name="[224]"></a>__rt_lib_init_lc_monetary_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000017))

<P><STRONG><a name="[225]"></a>__rt_lib_init_lc_numeric_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000019))

<P><STRONG><a name="[226]"></a>__rt_lib_init_lc_time_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001B))

<P><STRONG><a name="[227]"></a>__rt_lib_init_preinit_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000006))

<P><STRONG><a name="[228]"></a>__rt_lib_init_rand_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000010))

<P><STRONG><a name="[229]"></a>__rt_lib_init_relocate_pie_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000004))

<P><STRONG><a name="[22a]"></a>__rt_lib_init_return</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000035))

<P><STRONG><a name="[22b]"></a>__rt_lib_init_signal_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000001F))

<P><STRONG><a name="[22c]"></a>__rt_lib_init_stdio_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$00000027))

<P><STRONG><a name="[22d]"></a>__rt_lib_init_user_alloc_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libinit2.o(.ARM.Collect$$libinit$$0000000E))

<P><STRONG><a name="[84]"></a>__rt_lib_shutdown</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown.o(.ARM.Collect$$libshutdown$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[83]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit_ls
</UL>

<P><STRONG><a name="[22e]"></a>__rt_lib_shutdown_cpp_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000002))

<P><STRONG><a name="[22f]"></a>__rt_lib_shutdown_fp_trap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000007))

<P><STRONG><a name="[230]"></a>__rt_lib_shutdown_heap_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000F))

<P><STRONG><a name="[231]"></a>__rt_lib_shutdown_return</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000010))

<P><STRONG><a name="[232]"></a>__rt_lib_shutdown_signal_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000A))

<P><STRONG><a name="[233]"></a>__rt_lib_shutdown_stdio_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$00000004))

<P><STRONG><a name="[234]"></a>__rt_lib_shutdown_user_alloc_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, libshutdown2.o(.ARM.Collect$$libshutdown$$0000000C))

<P><STRONG><a name="[77]"></a>__rt_entry</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry.o(.ARM.Collect$$rtentry$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[78]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__scatterload_rt2
<LI><a href="#[70]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__main
</UL>

<P><STRONG><a name="[235]"></a>__rt_entry_presh_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$00000002))

<P><STRONG><a name="[7c]"></a>__rt_entry_sh</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry4.o(.ARM.Collect$$rtentry$$00000004))
<BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size
<LI>Call Chain = __rt_entry_sh &rArr; __user_setup_stackheap
</UL>
<BR>[Calls]<UL><LI><a href="#[7d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap
</UL>

<P><STRONG><a name="[7e]"></a>__rt_entry_li</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000A))
<BR><BR>[Calls]<UL><LI><a href="#[7f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_init
</UL>

<P><STRONG><a name="[236]"></a>__rt_entry_postsh_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$00000009))

<P><STRONG><a name="[80]"></a>__rt_entry_main</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000D))
<BR><BR>[Stack]<UL><LI>Max Depth = 568 + Unknown Stack Size
<LI>Call Chain = __rt_entry_main &rArr; main &rArr; AD_Project_Loop &rArr; AD_Modbus_Loop &rArr; process_frame &rArr; process_write_single &rArr; write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
<LI><a href="#[82]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;exit
</UL>

<P><STRONG><a name="[237]"></a>__rt_entry_postli_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, __rtentry2.o(.ARM.Collect$$rtentry$$0000000C))

<P><STRONG><a name="[8d]"></a>__rt_exit</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit.o(.ARM.Collect$$rtexit$$00000000))
<BR><BR>[Called By]<UL><LI><a href="#[82]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;exit
</UL>

<P><STRONG><a name="[83]"></a>__rt_exit_ls</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000003))
<BR><BR>[Calls]<UL><LI><a href="#[84]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_shutdown
</UL>

<P><STRONG><a name="[238]"></a>__rt_exit_prels_1</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000002))

<P><STRONG><a name="[85]"></a>__rt_exit_exit</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rtexit2.o(.ARM.Collect$$rtexit$$00000004))
<BR><BR>[Calls]<UL><LI><a href="#[86]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_sys_exit
</UL>

<P><STRONG><a name="[0]"></a>Reset_Handler</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[1c]"></a>ADC1_2_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR><BR>[Calls]<UL><LI><a href="#[1c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ADC1_2_IRQHandler
</UL>
<BR>[Called By]<UL><LI><a href="#[1c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ADC1_2_IRQHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[39]"></a>ADC3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[47]"></a>ADC4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[48]"></a>ADC5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[4a]"></a>COMP1_2_3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[4b]"></a>COMP4_5_6_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[4c]"></a>COMP7_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[6d]"></a>CORDIC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[55]"></a>CRS_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[15]"></a>DMA1_Channel1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[16]"></a>DMA1_Channel2_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[17]"></a>DMA1_Channel3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[18]"></a>DMA1_Channel4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[19]"></a>DMA1_Channel5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[1a]"></a>DMA1_Channel6_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[1b]"></a>DMA1_Channel7_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[69]"></a>DMA1_Channel8_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[42]"></a>DMA2_Channel1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[43]"></a>DMA2_Channel2_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[44]"></a>DMA2_Channel3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[45]"></a>DMA2_Channel4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[46]"></a>DMA2_Channel5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[6a]"></a>DMA2_Channel6_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[6b]"></a>DMA2_Channel7_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[6c]"></a>DMA2_Channel8_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[67]"></a>DMAMUX_OVR_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[10]"></a>EXTI0_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[11]"></a>EXTI1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[12]"></a>EXTI2_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[13]"></a>EXTI3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[14]"></a>EXTI4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[21]"></a>EXTI9_5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[1f]"></a>FDCAN1_IT0_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[20]"></a>FDCAN1_IT1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[5f]"></a>FDCAN2_IT0_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[60]"></a>FDCAN2_IT1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[61]"></a>FDCAN3_IT0_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[62]"></a>FDCAN3_IT1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[e]"></a>FLASH_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[6e]"></a>FMAC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[3a]"></a>FMC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[5b]"></a>FPU_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[53]"></a>HRTIM1_FLT_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[4d]"></a>HRTIM1_Master_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[4e]"></a>HRTIM1_TIMA_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[4f]"></a>HRTIM1_TIMB_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[50]"></a>HRTIM1_TIMC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[51]"></a>HRTIM1_TIMD_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[52]"></a>HRTIM1_TIME_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[54]"></a>HRTIM1_TIMF_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[2a]"></a>I2C1_ER_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[29]"></a>I2C1_EV_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[2c]"></a>I2C2_ER_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[2b]"></a>I2C2_EV_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[66]"></a>I2C3_ER_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[65]"></a>I2C3_EV_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[5d]"></a>I2C4_ER_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[5c]"></a>I2C4_EV_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[3b]"></a>LPTIM1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[64]"></a>LPUART1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[b]"></a>PVD_PVM_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[68]"></a>QUADSPI_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[f]"></a>RCC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[63]"></a>RNG_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[33]"></a>RTC_Alarm_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[c]"></a>RTC_TAMP_LSECSS_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[d]"></a>RTC_WKUP_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[56]"></a>SAI1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[2d]"></a>SPI1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[2e]"></a>SPI2_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[3d]"></a>SPI3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[5e]"></a>SPI4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[22]"></a>TIM1_BRK_TIM15_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[25]"></a>TIM1_CC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[24]"></a>TIM1_TRG_COM_TIM17_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[57]"></a>TIM20_BRK_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[5a]"></a>TIM20_CC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[59]"></a>TIM20_TRG_COM_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[58]"></a>TIM20_UP_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[26]"></a>TIM2_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[27]"></a>TIM3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[28]"></a>TIM4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[3c]"></a>TIM5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[40]"></a>TIM6_DAC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[41]"></a>TIM7_DAC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[35]"></a>TIM8_BRK_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[38]"></a>TIM8_CC_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[37]"></a>TIM8_TRG_COM_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[36]"></a>TIM8_UP_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[3e]"></a>UART4_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[3f]"></a>UART5_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[49]"></a>UCPD1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[2f]"></a>USART1_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[31]"></a>USART3_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[1d]"></a>USB_HP_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[a]"></a>WWDG_IRQHandler</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, startup_stm32g474xx.o(.text))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[8c]"></a>__user_initial_stackheap</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, startup_stm32g474xx.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[7d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap
</UL>

<P><STRONG><a name="[19d]"></a>__aeabi_uldivmod</STRONG> (Thumb, 0 bytes, Stack size 48 bytes, lludivv7m.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = __aeabi_uldivmod
</UL>
<BR>[Called By]<UL><LI><a href="#[184]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_SetConfig
</UL>

<P><STRONG><a name="[239]"></a>_ll_udiv</STRONG> (Thumb, 240 bytes, Stack size 48 bytes, lludivv7m.o(.text), UNUSED)

<P><STRONG><a name="[c4]"></a>__aeabi_memcpy</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, rt_memcpy_v6.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[1c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send
<LI><a href="#[9f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_QueuePacket
<LI><a href="#[9d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_WritePacket
<LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
<LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
<LI><a href="#[ee]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Loop
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
</UL>

<P><STRONG><a name="[87]"></a>__rt_memcpy</STRONG> (Thumb, 138 bytes, Stack size 0 bytes, rt_memcpy_v6.o(.text), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[88]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy4
</UL>

<P><STRONG><a name="[23a]"></a>_memcpy_lastbytes</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memcpy_v6.o(.text), UNUSED)

<P><STRONG><a name="[88]"></a>__aeabi_memcpy4</STRONG> (Thumb, 0 bytes, Stack size 8 bytes, rt_memcpy_w.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __aeabi_memcpy4
</UL>
<BR>[Called By]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[87]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_memcpy
</UL>

<P><STRONG><a name="[23b]"></a>__aeabi_memcpy8</STRONG> (Thumb, 0 bytes, Stack size 8 bytes, rt_memcpy_w.o(.text), UNUSED)

<P><STRONG><a name="[23c]"></a>__rt_memcpy_w</STRONG> (Thumb, 100 bytes, Stack size 8 bytes, rt_memcpy_w.o(.text), UNUSED)

<P><STRONG><a name="[23d]"></a>_memcpy_lastbytes_aligned</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memcpy_w.o(.text), UNUSED)

<P><STRONG><a name="[be]"></a>__aeabi_memclr</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memclr.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
<LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
<LI><a href="#[eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Init
</UL>

<P><STRONG><a name="[23e]"></a>__rt_memclr</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memclr.o(.text), UNUSED)

<P><STRONG><a name="[89]"></a>_memset</STRONG> (Thumb, 64 bytes, Stack size 0 bytes, rt_memclr.o(.text), UNUSED)
<BR><BR>[Calls]<UL><LI><a href="#[8a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_memset_w
</UL>

<P><STRONG><a name="[91]"></a>__aeabi_memclr4</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memclr_w.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
<LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
<LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
<LI><a href="#[ec]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;set_default_command
<LI><a href="#[c7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Init
<LI><a href="#[eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Init
<LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Init
<LI><a href="#[fe]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Init
<LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ReadMeasurements
<LI><a href="#[a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_Init
<LI><a href="#[a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_apply_command
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
<LI><a href="#[199]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemClock_Config
<LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
</UL>

<P><STRONG><a name="[23f]"></a>__aeabi_memclr8</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memclr_w.o(.text), UNUSED)

<P><STRONG><a name="[240]"></a>__rt_memclr_w</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, rt_memclr_w.o(.text), UNUSED)

<P><STRONG><a name="[8a]"></a>_memset_w</STRONG> (Thumb, 74 bytes, Stack size 4 bytes, rt_memclr_w.o(.text), UNUSED)
<BR><BR>[Called By]<UL><LI><a href="#[89]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;_memset
</UL>

<P><STRONG><a name="[241]"></a>__use_two_region_memory</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED)

<P><STRONG><a name="[242]"></a>__rt_heap_escrow$2region</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED)

<P><STRONG><a name="[243]"></a>__rt_heap_expand$2region</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, heapauxi.o(.text), UNUSED)

<P><STRONG><a name="[7d]"></a>__user_setup_stackheap</STRONG> (Thumb, 74 bytes, Stack size 8 bytes, sys_stackheap_outer.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size
<LI>Call Chain = __user_setup_stackheap
</UL>
<BR>[Calls]<UL><LI><a href="#[8c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_initial_stackheap
<LI><a href="#[8b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_perproc_libspace
</UL>
<BR>[Called By]<UL><LI><a href="#[7c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_sh
</UL>

<P><STRONG><a name="[82]"></a>exit</STRONG> (Thumb, 18 bytes, Stack size 8 bytes, exit.o(.text))
<BR><BR>[Stack]<UL><LI>Max Depth = 8 + Unknown Stack Size
<LI>Call Chain = exit
</UL>
<BR>[Calls]<UL><LI><a href="#[8d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit
</UL>
<BR>[Called By]<UL><LI><a href="#[80]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_main
</UL>

<P><STRONG><a name="[244]"></a>__user_libspace</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, libspace.o(.text), UNUSED)

<P><STRONG><a name="[8b]"></a>__user_perproc_libspace</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, libspace.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[7d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__user_setup_stackheap
</UL>

<P><STRONG><a name="[245]"></a>__user_perthread_libspace</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, libspace.o(.text), UNUSED)

<P><STRONG><a name="[86]"></a>_sys_exit</STRONG> (Thumb, 8 bytes, Stack size 0 bytes, sys_exit.o(.text))
<BR><BR>[Called By]<UL><LI><a href="#[85]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_exit_exit
</UL>

<P><STRONG><a name="[246]"></a>__I$use$semihosting</STRONG> (Thumb, 0 bytes, Stack size 0 bytes, use_no_semi.o(.text), UNUSED)

<P><STRONG><a name="[247]"></a>__use_no_semihosting_swi</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, use_no_semi.o(.text), UNUSED)

<P><STRONG><a name="[248]"></a>__semihosting_library_function</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, indicate_semi.o(.text), UNUSED)

<P><STRONG><a name="[208]"></a>AD_BinaryTransport_GetProtocol</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_GetProtocol))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[8e]"></a>AD_BinaryTransport_GetState</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_GetState))
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = AD_BinaryTransport_GetState &rArr; update_status_flags &rArr; AD_CAN_Telemetry_GetState &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[10f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;project_update_state
</UL>

<P><STRONG><a name="[209]"></a>AD_BinaryTransport_GetTransport</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_GetTransport))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[90]"></a>AD_BinaryTransport_Init</STRONG> (Thumb, 120 bytes, Stack size 24 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 192 + Unknown Stack Size
<LI>Call Chain = AD_BinaryTransport_Init &rArr; AD_USB_CDC_Init &rArr; HAL_PCD_Init &rArr; HAL_PCD_MspInit &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
<LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
<LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[93]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_IsTransportValid
<LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_IsProtocolValid
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[10e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Init
</UL>

<P><STRONG><a name="[92]"></a>AD_BinaryTransport_IsProtocolValid</STRONG> (Thumb, 44 bytes, Stack size 8 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_IsProtocolValid))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = AD_BinaryTransport_IsProtocolValid
</UL>
<BR>[Called By]<UL><LI><a href="#[a0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_SetProtocol
<LI><a href="#[201]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;stage_register_write
<LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Init
</UL>

<P><STRONG><a name="[93]"></a>AD_BinaryTransport_IsTransportValid</STRONG> (Thumb, 58 bytes, Stack size 8 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_IsTransportValid))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = AD_BinaryTransport_IsTransportValid
</UL>
<BR>[Called By]<UL><LI><a href="#[a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_SetTransport
<LI><a href="#[201]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;stage_register_write
<LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Init
</UL>

<P><STRONG><a name="[96]"></a>AD_BinaryTransport_Loop</STRONG> (Thumb, 350 bytes, Stack size 24 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_Loop))
<BR><BR>[Stack]<UL><LI>Max Depth = 308 + Unknown Stack Size
<LI>Call Chain = AD_BinaryTransport_Loop &rArr; AD_USB_CDC_WritePacket &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[9f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_QueuePacket
<LI><a href="#[9d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_WritePacket
<LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
<LI><a href="#[97]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Loop
<LI><a href="#[9e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;transport_uses_can
<LI><a href="#[9c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;transport_uses_usb
<LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[9a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_GetTelemetryBytes
<LI><a href="#[9b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_GetTelemetrySize
<LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
</UL>
<BR>[Called By]<UL><LI><a href="#[110]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Loop
</UL>

<P><STRONG><a name="[a0]"></a>AD_BinaryTransport_SetProtocol</STRONG> (Thumb, 62 bytes, Stack size 16 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_SetProtocol))
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = AD_BinaryTransport_SetProtocol &rArr; update_status_flags &rArr; AD_CAN_Telemetry_GetState &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_IsProtocolValid
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[a1]"></a>AD_BinaryTransport_SetTransport</STRONG> (Thumb, 62 bytes, Stack size 16 bytes, ad_binary_transport.o(.text.AD_BinaryTransport_SetTransport))
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = AD_BinaryTransport_SetTransport &rArr; update_status_flags &rArr; AD_CAN_Telemetry_GetState &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[93]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_IsTransportValid
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[cb]"></a>AD_Board_GetAdcSnapshot</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, ad_board.o(.text.AD_Board_GetAdcSnapshot))
<BR><BR>[Called By]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
</UL>

<P><STRONG><a name="[a2]"></a>AD_Board_GetPhaseShuntResistanceOhm</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, ad_board.o(.text.AD_Board_GetPhaseShuntResistanceOhm))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_phase_shunt_resistance_ohm
</UL>
<BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[a4]"></a>AD_Board_Init</STRONG> (Thumb, 132 bytes, Stack size 16 bytes, ad_board.o(.text.AD_Board_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 144 + Unknown Stack Size
<LI>Call Chain = AD_Board_Init &rArr; board_adc_init &rArr; board_adc_zero_calibrate &rArr; board_adc_read_channel_average &rArr; board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_Init
<LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Init
<LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_apply_command
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
<LI><a href="#[a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_set_led
</UL>
<BR>[Called By]<UL><LI><a href="#[10e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Init
</UL>

<P><STRONG><a name="[aa]"></a>AD_Board_Loop</STRONG> (Thumb, 108 bytes, Stack size 80 bytes, ad_board.o(.text.AD_Board_Loop))
<BR><BR>[Stack]<UL><LI>Max Depth = 504 + Unknown Stack Size
<LI>Call Chain = AD_Board_Loop &rArr; SimulinkInterface_StepFast &rArr; AD_ParamID_StepFast &rArr; AD_ParamID_HardwareStep &rArr; id_step_auto &rArr; id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepSlow
<LI><a href="#[ae]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepFast
<LI><a href="#[ad]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_SetMeasurements
<LI><a href="#[ab]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ToggleDataLogging
<LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ReadMeasurements
<LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_led
</UL>
<BR>[Called By]<UL><LI><a href="#[110]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Loop
</UL>

<P><STRONG><a name="[ac]"></a>AD_Board_ReadMeasurements</STRONG> (Thumb, 76 bytes, Stack size 16 bytes, ad_board.o(.text.AD_Board_ReadMeasurements))
<BR><BR>[Stack]<UL><LI>Max Depth = 168 + Unknown Stack Size
<LI>Call Chain = AD_Board_ReadMeasurements &rArr; board_update_torque_estimate &rArr; board_electrical_torque_estimate &rArr; board_rms_torque_power_estimate &rArr; board_phase_voltage_rms_estimate &rArr; board_sqrtf
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_slip_measurement
<LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_torque_estimate
<LI><a href="#[b2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_current_rms
<LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
</UL>

<P><STRONG><a name="[b5]"></a>AD_Board_ResetAdcFaults</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, ad_board.o(.text.AD_Board_ResetAdcFaults))
<BR><BR>[Stack]<UL><LI>Max Depth = 136 + Unknown Stack Size
<LI>Call Chain = AD_Board_ResetAdcFaults &rArr; board_adc_init &rArr; board_adc_zero_calibrate &rArr; board_adc_read_channel_average &rArr; board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[b6]"></a>AD_Board_SetPhaseShuntResistanceOhm</STRONG> (Thumb, 86 bytes, Stack size 16 bytes, ad_board.o(.text.AD_Board_SetPhaseShuntResistanceOhm))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = AD_Board_SetPhaseShuntResistanceOhm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_normalize_phase_shunt_resistance
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[b8]"></a>AD_Board_StartDataLogging</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, ad_board.o(.text.AD_Board_StartDataLogging))
<BR><BR>[Stack]<UL><LI>Max Depth = 108 + Unknown Stack Size
<LI>Call Chain = AD_Board_StartDataLogging &rArr; board_apply_command &rArr; SimulinkInterface_SetCommand
</UL>
<BR>[Calls]<UL><LI><a href="#[a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_apply_command
</UL>
<BR>[Called By]<UL><LI><a href="#[ab]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ToggleDataLogging
</UL>

<P><STRONG><a name="[b9]"></a>AD_Board_StopParamTest</STRONG> (Thumb, 36 bytes, Stack size 8 bytes, ad_board.o(.text.AD_Board_StopParamTest))
<BR><BR>[Stack]<UL><LI>Max Depth = 112 + Unknown Stack Size
<LI>Call Chain = AD_Board_StopParamTest &rArr; AD_ParamID_Stop &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
<LI><a href="#[a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_apply_command
</UL>
<BR>[Called By]<UL><LI><a href="#[ab]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ToggleDataLogging
</UL>

<P><STRONG><a name="[ab]"></a>AD_Board_ToggleDataLogging</STRONG> (Thumb, 30 bytes, Stack size 8 bytes, ad_board.o(.text.AD_Board_ToggleDataLogging))
<BR><BR>[Stack]<UL><LI>Max Depth = 120 + Unknown Stack Size
<LI>Call Chain = AD_Board_ToggleDataLogging &rArr; AD_Board_StopParamTest &rArr; AD_ParamID_Stop &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_StopParamTest
<LI><a href="#[b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_StartDataLogging
</UL>
<BR>[Called By]<UL><LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
</UL>

<P><STRONG><a name="[bc]"></a>AD_CAN_Telemetry_GetState</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_can_telemetry.o(.text.AD_CAN_Telemetry_GetState))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = AD_CAN_Telemetry_GetState &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>

<P><STRONG><a name="[95]"></a>AD_CAN_Telemetry_Init</STRONG> (Thumb, 368 bytes, Stack size 40 bytes, ad_can_telemetry.o(.text.AD_CAN_Telemetry_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 148 + Unknown Stack Size
<LI>Call Chain = AD_CAN_Telemetry_Init &rArr; HAL_FDCAN_Init &rArr; HAL_FDCAN_MspInit &rArr; HAL_GPIO_Init
</UL>
<BR>[Calls]<UL><LI><a href="#[c2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_Start
<LI><a href="#[c1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_ConfigGlobalFilter
<LI><a href="#[c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_GetError
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_Init
<LI><a href="#[bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
<LI><a href="#[be]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr
</UL>
<BR>[Called By]<UL><LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Init
</UL>

<P><STRONG><a name="[214]"></a>AD_CAN_Telemetry_IsStarted</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_can_telemetry.o(.text.AD_CAN_Telemetry_IsStarted))
<BR><BR>[Called By]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>

<P><STRONG><a name="[213]"></a>AD_CAN_Telemetry_IsTxBusy</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_can_telemetry.o(.text.AD_CAN_Telemetry_IsTxBusy))
<BR><BR>[Called By]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>

<P><STRONG><a name="[98]"></a>AD_CAN_Telemetry_Loop</STRONG> (Thumb, 450 bytes, Stack size 88 bytes, ad_can_telemetry.o(.text.AD_CAN_Telemetry_Loop))
<BR><BR>[Stack]<UL><LI>Max Depth = 152 + Unknown Stack Size
<LI>Call Chain = AD_CAN_Telemetry_Loop &rArr; HAL_FDCAN_AddMessageToTxFifoQ &rArr; FDCAN_CopyMessageToRAM
</UL>
<BR>[Calls]<UL><LI><a href="#[c6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_AddMessageToTxFifoQ
<LI><a href="#[c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_GetTxFifoFreeLevel
<LI><a href="#[c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_GetError
<LI><a href="#[c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;can_dlc_from_len
<LI><a href="#[bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy
</UL>
<BR>[Called By]<UL><LI><a href="#[9f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_QueuePacket
<LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[9f]"></a>AD_CAN_Telemetry_QueuePacket</STRONG> (Thumb, 234 bytes, Stack size 24 bytes, ad_can_telemetry.o(.text.AD_CAN_Telemetry_QueuePacket))
<BR><BR>[Stack]<UL><LI>Max Depth = 176 + Unknown Stack Size
<LI>Call Chain = AD_CAN_Telemetry_QueuePacket &rArr; AD_CAN_Telemetry_Loop &rArr; HAL_FDCAN_AddMessageToTxFifoQ &rArr; FDCAN_CopyMessageToRAM
</UL>
<BR>[Calls]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
<LI><a href="#[bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy
</UL>
<BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[c7]"></a>AD_Debug_Init</STRONG> (Thumb, 24 bytes, Stack size 8 bytes, ad_project.o(.text.AD_Debug_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 352 + Unknown Stack Size
<LI>Call Chain = AD_Debug_Init &rArr; AD_Debug_Update &rArr; AD_Modbus_GetRegisters &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[10e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Init
</UL>

<P><STRONG><a name="[c8]"></a>AD_Debug_Update</STRONG> (Thumb, 914 bytes, Stack size 112 bytes, ad_project.o(.text.AD_Debug_Update))
<BR><BR>[Stack]<UL><LI>Max Depth = 344<LI>Call Chain = AD_Debug_Update &rArr; AD_Modbus_GetRegisters &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_GetOutputBus
<LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_GetRegisters
<LI><a href="#[c9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_GetState
<LI><a href="#[8e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_GetState
<LI><a href="#[ce]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_GetState
<LI><a href="#[d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetFaults
<LI><a href="#[d3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetMode
<LI><a href="#[cc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetLastMeasurements
<LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsPowerStageAllowed
<LI><a href="#[d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetStatus
<LI><a href="#[cb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_GetAdcSnapshot
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
<LI><a href="#[ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_GetState
<LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[88]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy4
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy
</UL>
<BR>[Called By]<UL><LI><a href="#[c7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Init
<LI><a href="#[110]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Loop
</UL>

<P><STRONG><a name="[d5]"></a>AD_Inverter_ApplyCommand</STRONG> (Thumb, 166 bytes, Stack size 16 bytes, ad_inverter.o(.text.AD_Inverter_ApplyCommand))
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsPowerStageAllowed
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
<LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[1d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_six_step_sector
<LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[1ce]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_dc_vector
</UL>

<P><STRONG><a name="[ba]"></a>AD_Inverter_Disable</STRONG> (Thumb, 116 bytes, Stack size 24 bytes, ad_inverter.o(.text.AD_Inverter_Disable))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[db]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Stop
<LI><a href="#[da]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_PWMN_Stop
<LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[d9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_disable_update_irq
<LI><a href="#[d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_stop
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
<LI><a href="#[f3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareDisable
<LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_ApplyCommand
<LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
<LI><a href="#[e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetPwmTimingMode
<LI><a href="#[e5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetPwmPolarityFlags
<LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
<LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
<LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_StopParamTest
<LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Init
</UL>

<P><STRONG><a name="[d7]"></a>AD_Inverter_Enable</STRONG> (Thumb, 312 bytes, Stack size 16 bytes, ad_inverter.o(.text.AD_Inverter_Enable))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[de]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_PWMN_Start
<LI><a href="#[dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Start
<LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsPowerStageAllowed
<LI><a href="#[df]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_enable_update_irq
<LI><a href="#[dc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_clear_break_flags
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_ApplyCommand
<LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[1d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_configure_rotation_pwm
</UL>

<P><STRONG><a name="[ca]"></a>AD_Inverter_GetState</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, ad_inverter.o(.text.AD_Inverter_GetState))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[10f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;project_update_state
<LI><a href="#[1c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_torque_omega_from_pwm
<LI><a href="#[1c2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_phase_voltage_estimate
<LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_slip_measurement
</UL>

<P><STRONG><a name="[a7]"></a>AD_Inverter_Init</STRONG> (Thumb, 90 bytes, Stack size 16 bytes, ad_inverter.o(.text.AD_Inverter_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = AD_Inverter_Init &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[e1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_write_pwm_timing
<LI><a href="#[e0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_write_pwm_polarity
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Init
</UL>

<P><STRONG><a name="[d6]"></a>AD_Inverter_SetDuty</STRONG> (Thumb, 128 bytes, Stack size 32 bytes, ad_inverter.o(.text.AD_Inverter_SetDuty))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[e4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;duty_to_compare
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_ApplyCommand
<LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetPwmTimingMode
<LI><a href="#[20b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_apply_six_step
<LI><a href="#[173]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_service_update
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>

<P><STRONG><a name="[e5]"></a>AD_Inverter_SetPwmPolarityFlags</STRONG> (Thumb, 90 bytes, Stack size 16 bytes, ad_inverter.o(.text.AD_Inverter_SetPwmPolarityFlags))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = AD_Inverter_SetPwmPolarityFlags &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[e0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_write_pwm_polarity
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[e6]"></a>AD_Inverter_SetPwmTimingMode</STRONG> (Thumb, 112 bytes, Stack size 16 bytes, ad_inverter.o(.text.AD_Inverter_SetPwmTimingMode))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = AD_Inverter_SetPwmTimingMode &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[e1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_write_pwm_timing
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[e7]"></a>AD_Inverter_StartPwmOutput</STRONG> (Thumb, 680 bytes, Stack size 64 bytes, ad_inverter.o(.text.AD_Inverter_StartPwmOutput))
<BR><BR>[Stack]<UL><LI>Max Depth = 168<LI>Call Chain = AD_Inverter_StartPwmOutput &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[de]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_PWMN_Start
<LI><a href="#[dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Start
<LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsPowerStageAllowed
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
<LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[e9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;duty_to_compare_inverted
<LI><a href="#[e8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;set_service_debug_duty
<LI><a href="#[dc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_clear_break_flags
<LI><a href="#[e4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;duty_to_compare
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
</UL>

<P><STRONG><a name="[cf]"></a>AD_Modbus_GetRegisters</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_modbus.o(.text.AD_Modbus_GetRegisters))
<BR><BR>[Stack]<UL><LI>Max Depth = 232<LI>Call Chain = AD_Modbus_GetRegisters &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
</UL>
<BR>[Called By]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
</UL>

<P><STRONG><a name="[ce]"></a>AD_Modbus_GetState</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, ad_modbus.o(.text.AD_Modbus_GetState))
<BR><BR>[Called By]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[10f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;project_update_state
</UL>

<P><STRONG><a name="[eb]"></a>AD_Modbus_Init</STRONG> (Thumb, 172 bytes, Stack size 24 bytes, ad_modbus.o(.text.AD_Modbus_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 248 + Unknown Stack Size
<LI>Call Chain = AD_Modbus_Init &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
<LI><a href="#[ed]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;restart_uart_rx
<LI><a href="#[ec]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;set_default_command
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
<LI><a href="#[be]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr
</UL>
<BR>[Called By]<UL><LI><a href="#[10e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Init
</UL>

<P><STRONG><a name="[ee]"></a>AD_Modbus_Loop</STRONG> (Thumb, 206 bytes, Stack size 152 bytes, ad_modbus.o(.text.AD_Modbus_Loop))
<BR><BR>[Stack]<UL><LI>Max Depth = 544 + Unknown Stack Size
<LI>Call Chain = AD_Modbus_Loop &rArr; process_frame &rArr; process_write_single &rArr; write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
<LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy
</UL>
<BR>[Called By]<UL><LI><a href="#[110]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Loop
</UL>

<P><STRONG><a name="[ea]"></a>AD_Modbus_RefreshRegisters</STRONG> (Thumb, 102 bytes, Stack size 16 bytes, ad_modbus.o(.text.AD_Modbus_RefreshRegisters))
<BR><BR>[Stack]<UL><LI>Max Depth = 224<LI>Call Chain = AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[f1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;register_is_readable
<LI><a href="#[f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;refresh_command_shadow
</UL>
<BR>[Called By]<UL><LI><a href="#[203]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_register
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
<LI><a href="#[cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_GetRegisters
<LI><a href="#[ee]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Loop
<LI><a href="#[eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Init
</UL>

<P><STRONG><a name="[d2]"></a>AD_ParamID_GetFaults</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetFaults))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[191]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateInputs
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[10f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;project_update_state
</UL>

<P><STRONG><a name="[cc]"></a>AD_ParamID_GetLastMeasurements</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetLastMeasurements))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
</UL>

<P><STRONG><a name="[d3]"></a>AD_ParamID_GetMode</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetMode))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[191]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateInputs
<LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
</UL>

<P><STRONG><a name="[1ed]"></a>AD_ParamID_GetMotorControlType</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetMotorControlType))
<BR><BR>[Called By]<UL><LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
</UL>

<P><STRONG><a name="[cd]"></a>AD_ParamID_GetParameters</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetParameters))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[191]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateInputs
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[1dc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_nominal_frequency_hz
<LI><a href="#[1d9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_has_valid_parameters
<LI><a href="#[1ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_rr
<LI><a href="#[1eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_ls
<LI><a href="#[1e9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_inertia_friction
<LI><a href="#[1ec]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_lm
<LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[1ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_rs
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
<LI><a href="#[1b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_electrical_torque_estimate
<LI><a href="#[1ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_mechanical_torque_estimate
<LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_slip_measurement
</UL>

<P><STRONG><a name="[204]"></a>AD_ParamID_GetPhaseCurrentPeaks</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetPhaseCurrentPeaks))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[1ff]"></a>AD_ParamID_GetPolePairs</STRONG> (Thumb, 112 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetPolePairs))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_GetPolePairs
</UL>
<BR>[Called By]<UL><LI><a href="#[203]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_register
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[1e0]"></a>AD_ParamID_GetPwmDutyLimit</STRONG> (Thumb, 14 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetPwmDutyLimit))
<BR><BR>[Called By]<UL><LI><a href="#[f5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_test_duty
</UL>

<P><STRONG><a name="[1ee]"></a>AD_ParamID_GetRotationFrequencyHz</STRONG> (Thumb, 14 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetRotationFrequencyHz))
<BR><BR>[Called By]<UL><LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
</UL>

<P><STRONG><a name="[1df]"></a>AD_ParamID_GetRotationModulation</STRONG> (Thumb, 14 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetRotationModulation))
<BR><BR>[Called By]<UL><LI><a href="#[1de]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_rotation_test_duty
</UL>

<P><STRONG><a name="[1d6]"></a>AD_ParamID_GetRotationRampTimeMs</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetRotationRampTimeMs))
<BR><BR>[Called By]<UL><LI><a href="#[1d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_configure_rotation_pwm
</UL>

<P><STRONG><a name="[d1]"></a>AD_ParamID_GetStatus</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_GetStatus))
<BR><BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[191]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateInputs
<LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[10f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;project_update_state
<LI><a href="#[b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_led
</UL>

<P><STRONG><a name="[f3]"></a>AD_ParamID_HardwareDisable</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, ad_inverter.o(.text.AD_ParamID_HardwareDisable))
<BR><BR>[Stack]<UL><LI>Max Depth = 96<LI>Call Chain = AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[102]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetSoftwareEnable
<LI><a href="#[103]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Start
<LI><a href="#[105]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;enter_data_logging_blocked
<LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
</UL>

<P><STRONG><a name="[f4]"></a>AD_ParamID_HardwareStep</STRONG> (Thumb, 360 bytes, Stack size 32 bytes, ad_inverter.o(.text.AD_ParamID_HardwareStep))
<BR><BR>[Stack]<UL><LI>Max Depth = 376<LI>Call Chain = AD_ParamID_HardwareStep &rArr; id_step_auto &rArr; id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_MarkStepFailed
<LI><a href="#[fc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_MarkComplete
<LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
<LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
<LI><a href="#[f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rotor
<LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
<LI><a href="#[f5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_test_duty
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[10d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepSlow
<LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
</UL>

<P><STRONG><a name="[fe]"></a>AD_ParamID_Init</STRONG> (Thumb, 222 bytes, Stack size 16 bytes, ad_parameter_identification.o(.text.AD_ParamID_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 16 + Unknown Stack Size
<LI>Call Chain = AD_ParamID_Init
</UL>
<BR>[Calls]<UL><LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_Init
</UL>

<P><STRONG><a name="[1e4]"></a>AD_ParamID_IsLockedRotorAllowed</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_IsLockedRotorAllowed))
<BR><BR>[Called By]<UL><LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
</UL>

<P><STRONG><a name="[d4]"></a>AD_ParamID_IsPowerStageAllowed</STRONG> (Thumb, 76 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_IsPowerStageAllowed))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_IsPowerStageAllowed
</UL>
<BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[10d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepSlow
<LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
<LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_ApplyCommand
<LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
</UL>

<P><STRONG><a name="[fc]"></a>AD_ParamID_MarkComplete</STRONG> (Thumb, 24 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.AD_ParamID_MarkComplete))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = AD_ParamID_MarkComplete &rArr; AD_ParamID_Stop &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
</UL>

<P><STRONG><a name="[1e5]"></a>AD_ParamID_MarkLockedRotorSkipped</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_MarkLockedRotorSkipped))
<BR><BR>[Called By]<UL><LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
</UL>

<P><STRONG><a name="[1da]"></a>AD_ParamID_MarkPartialComplete</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_MarkPartialComplete))
<BR><BR>[Called By]<UL><LI><a href="#[1d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_finish_auto_partial
</UL>

<P><STRONG><a name="[fd]"></a>AD_ParamID_MarkStepFailed</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_MarkStepFailed))
<BR><BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
<LI><a href="#[1d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_finish_auto_partial
</UL>

<P><STRONG><a name="[ff]"></a>AD_ParamID_Reset</STRONG> (Thumb, 42 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.AD_ParamID_Reset))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = AD_ParamID_Reset &rArr; AD_ParamID_Stop &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[100]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_limit_status
<LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
<LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[1a3]"></a>AD_ParamID_ResetPhaseCurrentPeaks</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.AD_ParamID_ResetPhaseCurrentPeaks))
<BR><BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[1a4]"></a>AD_ParamID_SetLockedRotorAllowed</STRONG> (Thumb, 30 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetLockedRotorAllowed))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_SetLockedRotorAllowed
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[197]"></a>AD_ParamID_SetMotorControlType</STRONG> (Thumb, 48 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetMotorControlType))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_SetMotorControlType
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[1f0]"></a>AD_ParamID_SetParameters</STRONG> (Thumb, 132 bytes, Stack size 28 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetParameters))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = AD_ParamID_SetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[1ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_rr
<LI><a href="#[1eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_ls
<LI><a href="#[1e9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_inertia_friction
<LI><a href="#[1ec]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_lm
<LI><a href="#[1ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_rs
</UL>

<P><STRONG><a name="[1a5]"></a>AD_ParamID_SetPolePairs</STRONG> (Thumb, 120 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetPolePairs))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_SetPolePairs
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[193]"></a>AD_ParamID_SetPwmDutyLimit</STRONG> (Thumb, 104 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetPwmDutyLimit))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_SetPwmDutyLimit
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[194]"></a>AD_ParamID_SetRotationFrequencyHz</STRONG> (Thumb, 140 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetRotationFrequencyHz))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_SetRotationFrequencyHz
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[195]"></a>AD_ParamID_SetRotationModulation</STRONG> (Thumb, 144 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetRotationModulation))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_SetRotationModulation
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[196]"></a>AD_ParamID_SetRotationRampTimeMs</STRONG> (Thumb, 108 bytes, Stack size 4 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetRotationRampTimeMs))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = AD_ParamID_SetRotationRampTimeMs
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[101]"></a>AD_ParamID_SetSafetyLimits</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetSafetyLimits))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = AD_ParamID_SetSafetyLimits
</UL>
<BR>[Calls]<UL><LI><a href="#[100]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_limit_status
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[102]"></a>AD_ParamID_SetSoftwareEnable</STRONG> (Thumb, 194 bytes, Stack size 16 bytes, ad_parameter_identification.o(.text.AD_ParamID_SetSoftwareEnable))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = AD_ParamID_SetSoftwareEnable &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[f3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareDisable
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[103]"></a>AD_ParamID_Start</STRONG> (Thumb, 274 bytes, Stack size 16 bytes, ad_parameter_identification.o(.text.AD_ParamID_Start))
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = AD_ParamID_Start &rArr; enter_data_logging_blocked &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[106]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;mode_requires_power
<LI><a href="#[105]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;enter_data_logging_blocked
<LI><a href="#[104]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;mode_is_valid
<LI><a href="#[f3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareDisable
<LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
</UL>
<BR>[Called By]<UL><LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
</UL>

<P><STRONG><a name="[107]"></a>AD_ParamID_StepFast</STRONG> (Thumb, 436 bytes, Stack size 40 bytes, ad_parameter_identification.o(.text.AD_ParamID_StepFast))
<BR><BR>[Stack]<UL><LI>Max Depth = 416<LI>Call Chain = AD_ParamID_StepFast &rArr; AD_ParamID_HardwareStep &rArr; id_step_auto &rArr; id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[10c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[10b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;mode_uses_test_timeout
<LI><a href="#[10a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_safety_from_measurements
<LI><a href="#[109]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_phase_current_peaks
<LI><a href="#[108]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;set_fault
<LI><a href="#[106]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;mode_requires_power
<LI><a href="#[105]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;enter_data_logging_blocked
<LI><a href="#[100]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_limit_status
<LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
<LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsPowerStageAllowed
</UL>
<BR>[Called By]<UL><LI><a href="#[ae]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepFast
</UL>

<P><STRONG><a name="[10d]"></a>AD_ParamID_StepSlow</STRONG> (Thumb, 130 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.AD_ParamID_StepSlow))
<BR><BR>[Stack]<UL><LI>Max Depth = 384<LI>Call Chain = AD_ParamID_StepSlow &rArr; AD_ParamID_HardwareStep &rArr; id_step_auto &rArr; id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[106]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;mode_requires_power
<LI><a href="#[105]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;enter_data_logging_blocked
<LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
<LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsPowerStageAllowed
</UL>
<BR>[Called By]<UL><LI><a href="#[af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepSlow
</UL>

<P><STRONG><a name="[bb]"></a>AD_ParamID_Stop</STRONG> (Thumb, 70 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.AD_ParamID_Stop))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = AD_ParamID_Stop &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[f3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareDisable
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
<LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
<LI><a href="#[103]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Start
<LI><a href="#[ff]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Reset
<LI><a href="#[108]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;set_fault
<LI><a href="#[fc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_MarkComplete
<LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_StopParamTest
</UL>

<P><STRONG><a name="[c9]"></a>AD_Project_GetState</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, ad_project.o(.text.AD_Project_GetState))
<BR><BR>[Called By]<UL><LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
</UL>

<P><STRONG><a name="[10e]"></a>AD_Project_Init</STRONG> (Thumb, 66 bytes, Stack size 16 bytes, ad_project.o(.text.AD_Project_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 368 + Unknown Stack Size
<LI>Call Chain = AD_Project_Init &rArr; AD_Debug_Init &rArr; AD_Debug_Update &rArr; AD_Modbus_GetRegisters &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[c7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Init
<LI><a href="#[eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Init
<LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Init
<LI><a href="#[10f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;project_update_state
<LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>

<P><STRONG><a name="[110]"></a>AD_Project_Loop</STRONG> (Thumb, 42 bytes, Stack size 8 bytes, ad_project.o(.text.AD_Project_Loop))
<BR><BR>[Stack]<UL><LI>Max Depth = 552 + Unknown Stack Size
<LI>Call Chain = AD_Project_Loop &rArr; AD_Modbus_Loop &rArr; process_frame &rArr; process_write_single &rArr; write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[ee]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Loop
<LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[10f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;project_update_state
<LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
</UL>
<BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>

<P><STRONG><a name="[111]"></a>AD_USB_CDC_GetState</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_usb_cdc.o(.text.AD_USB_CDC_GetState))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = AD_USB_CDC_GetState &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>

<P><STRONG><a name="[113]"></a>AD_USB_CDC_IRQHandler</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_usb_cdc.o(.text.AD_USB_CDC_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 452<LI>Call Chain = AD_USB_CDC_IRQHandler &rArr; HAL_PCD_IRQHandler &rArr; PCD_EP_ISR_Handler &rArr; HAL_PCD_SetupStageCallback &rArr; handle_standard_request &rArr; send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>
<BR>[Called By]<UL><LI><a href="#[34]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USBWakeUp_IRQHandler
<LI><a href="#[1e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_LP_IRQHandler
</UL>

<P><STRONG><a name="[94]"></a>AD_USB_CDC_Init</STRONG> (Thumb, 480 bytes, Stack size 32 bytes, ad_usb_cdc.o(.text.AD_USB_CDC_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 168 + Unknown Stack Size
<LI>Call Chain = AD_USB_CDC_Init &rArr; HAL_PCD_Init &rArr; HAL_PCD_MspInit &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[118]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DevConnect
<LI><a href="#[117]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Start
<LI><a href="#[116]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCDEx_PMAConfig
<LI><a href="#[115]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Init
<LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
<LI><a href="#[be]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr
</UL>
<BR>[Called By]<UL><LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Init
</UL>

<P><STRONG><a name="[211]"></a>AD_USB_CDC_IsConfigured</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_usb_cdc.o(.text.AD_USB_CDC_IsConfigured))
<BR><BR>[Called By]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>

<P><STRONG><a name="[212]"></a>AD_USB_CDC_IsTxBusy</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, ad_usb_cdc.o(.text.AD_USB_CDC_IsTxBusy))
<BR><BR>[Called By]<UL><LI><a href="#[8f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>

<P><STRONG><a name="[97]"></a>AD_USB_CDC_Loop</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, ad_usb_cdc.o(.text.AD_USB_CDC_Loop))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = AD_USB_CDC_Loop &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[9d]"></a>AD_USB_CDC_WritePacket</STRONG> (Thumb, 236 bytes, Stack size 32 bytes, ad_usb_cdc.o(.text.AD_USB_CDC_WritePacket))
<BR><BR>[Stack]<UL><LI>Max Depth = 284<LI>Call Chain = AD_USB_CDC_WritePacket &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[119]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Transmit
<LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy
</UL>
<BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[4]"></a>BusFault_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.BusFault_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[7]"></a>DebugMon_Handler</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.DebugMon_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[32]"></a>EXTI15_10_IRQHandler</STRONG> (Thumb, 12 bytes, Stack size 8 bytes, stm32g4xx_it.o(.text.EXTI15_10_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = EXTI15_10_IRQHandler &rArr; HAL_GPIO_EXTI_IRQHandler &rArr; HAL_GPIO_EXTI_Callback
</UL>
<BR>[Calls]<UL><LI><a href="#[11a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_EXTI_IRQHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[18a]"></a>Error_Handler</STRONG> (Thumb, 14 bytes, Stack size 4 bytes, main.o(.text.Error_Handler))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = Error_Handler
</UL>
<BR>[Called By]<UL><LI><a href="#[199]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemClock_Config
<LI><a href="#[18d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_USART2_UART_Init
<LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
</UL>

<P><STRONG><a name="[17c]"></a>HAL_DMA_Abort</STRONG> (Thumb, 156 bytes, Stack size 8 bytes, stm32g4xx_hal_dma.o(.text.HAL_DMA_Abort))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_DMA_Abort
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
</UL>

<P><STRONG><a name="[17b]"></a>HAL_DMA_Abort_IT</STRONG> (Thumb, 194 bytes, Stack size 16 bytes, stm32g4xx_hal_dma.o(.text.HAL_DMA_Abort_IT))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = HAL_DMA_Abort_IT
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
</UL>

<P><STRONG><a name="[c6]"></a>HAL_FDCAN_AddMessageToTxFifoQ</STRONG> (Thumb, 154 bytes, Stack size 32 bytes, stm32g4xx_hal_fdcan.o(.text.HAL_FDCAN_AddMessageToTxFifoQ))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = HAL_FDCAN_AddMessageToTxFifoQ &rArr; FDCAN_CopyMessageToRAM
</UL>
<BR>[Calls]<UL><LI><a href="#[11b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;FDCAN_CopyMessageToRAM
</UL>
<BR>[Called By]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
</UL>

<P><STRONG><a name="[c1]"></a>HAL_FDCAN_ConfigGlobalFilter</STRONG> (Thumb, 102 bytes, Stack size 20 bytes, stm32g4xx_hal_fdcan.o(.text.HAL_FDCAN_ConfigGlobalFilter))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = HAL_FDCAN_ConfigGlobalFilter
</UL>
<BR>[Called By]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
</UL>

<P><STRONG><a name="[c0]"></a>HAL_FDCAN_GetError</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, stm32g4xx_hal_fdcan.o(.text.HAL_FDCAN_GetError))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_FDCAN_GetError
</UL>
<BR>[Called By]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
<LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
</UL>

<P><STRONG><a name="[c3]"></a>HAL_FDCAN_GetTxFifoFreeLevel</STRONG> (Thumb, 24 bytes, Stack size 8 bytes, stm32g4xx_hal_fdcan.o(.text.HAL_FDCAN_GetTxFifoFreeLevel))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_FDCAN_GetTxFifoFreeLevel
</UL>
<BR>[Called By]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
</UL>

<P><STRONG><a name="[bf]"></a>HAL_FDCAN_Init</STRONG> (Thumb, 716 bytes, Stack size 24 bytes, stm32g4xx_hal_fdcan.o(.text.HAL_FDCAN_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = HAL_FDCAN_Init &rArr; HAL_FDCAN_MspInit &rArr; HAL_GPIO_Init
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[11c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_MspInit
<LI><a href="#[11d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;FDCAN_CalcultateRamBlockAddresses
</UL>
<BR>[Called By]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
</UL>

<P><STRONG><a name="[11c]"></a>HAL_FDCAN_MspInit</STRONG> (Thumb, 154 bytes, Stack size 40 bytes, stm32g4xx_hal_msp.o(.text.HAL_FDCAN_MspInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 84<LI>Call Chain = HAL_FDCAN_MspInit &rArr; HAL_GPIO_Init
</UL>
<BR>[Calls]<UL><LI><a href="#[11e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_Init
</UL>

<P><STRONG><a name="[c2]"></a>HAL_FDCAN_Start</STRONG> (Thumb, 74 bytes, Stack size 8 bytes, stm32g4xx_hal_fdcan.o(.text.HAL_FDCAN_Start))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_FDCAN_Start
</UL>
<BR>[Called By]<UL><LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
</UL>

<P><STRONG><a name="[11f]"></a>HAL_GPIO_EXTI_Callback</STRONG> (Thumb, 78 bytes, Stack size 16 bytes, ad_board.o(.text.HAL_GPIO_EXTI_Callback))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = HAL_GPIO_EXTI_Callback
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
</UL>
<BR>[Called By]<UL><LI><a href="#[11a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_EXTI_IRQHandler
</UL>

<P><STRONG><a name="[11a]"></a>HAL_GPIO_EXTI_IRQHandler</STRONG> (Thumb, 56 bytes, Stack size 16 bytes, stm32g4xx_hal_gpio.o(.text.HAL_GPIO_EXTI_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = HAL_GPIO_EXTI_IRQHandler &rArr; HAL_GPIO_EXTI_Callback
</UL>
<BR>[Calls]<UL><LI><a href="#[11f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_EXTI_Callback
</UL>
<BR>[Called By]<UL><LI><a href="#[32]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;EXTI15_10_IRQHandler
</UL>

<P><STRONG><a name="[11e]"></a>HAL_GPIO_Init</STRONG> (Thumb, 872 bytes, Stack size 44 bytes, stm32g4xx_hal_gpio.o(.text.HAL_GPIO_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = HAL_GPIO_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[182]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_MspInit
<LI><a href="#[146]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_MspInit
<LI><a href="#[11c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_MspInit
<LI><a href="#[167]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_MspPostInit
<LI><a href="#[188]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_GPIO_Init
</UL>

<P><STRONG><a name="[99]"></a>HAL_GetTick</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, stm32g4xx_hal.o(.text.HAL_GetTick))
<BR><BR>[Called By]<UL><LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
<LI><a href="#[186]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Transmit
<LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
<LI><a href="#[11f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_EXTI_Callback
<LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
<LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ReadMeasurements
<LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Init
<LI><a href="#[151]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_ClockConfig
<LI><a href="#[157]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_OscConfig
<LI><a href="#[187]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_WaitOnFlagUntilTimeout
<LI><a href="#[185]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_CheckIdleState
<LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_Init
</UL>

<P><STRONG><a name="[198]"></a>HAL_IncTick</STRONG> (Thumb, 26 bytes, Stack size 0 bytes, stm32g4xx_hal.o(.text.HAL_IncTick))
<BR><BR>[Called By]<UL><LI><a href="#[9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SysTick_Handler
</UL>

<P><STRONG><a name="[120]"></a>HAL_Init</STRONG> (Thumb, 50 bytes, Stack size 16 bytes, stm32g4xx_hal.o(.text.HAL_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 96<LI>Call Chain = HAL_Init &rArr; HAL_InitTick &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[123]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_MspInit
<LI><a href="#[121]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriorityGrouping
<LI><a href="#[122]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_InitTick
</UL>
<BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>

<P><STRONG><a name="[122]"></a>HAL_InitTick</STRONG> (Thumb, 136 bytes, Stack size 16 bytes, stm32g4xx_hal.o(.text.HAL_InitTick))
<BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = HAL_InitTick &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
<LI><a href="#[124]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_SYSTICK_Config
</UL>
<BR>[Called By]<UL><LI><a href="#[151]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_ClockConfig
<LI><a href="#[157]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_OscConfig
<LI><a href="#[120]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_Init
</UL>

<P><STRONG><a name="[123]"></a>HAL_MspInit</STRONG> (Thumb, 72 bytes, Stack size 16 bytes, stm32g4xx_hal_msp.o(.text.HAL_MspInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = HAL_MspInit
</UL>
<BR>[Calls]<UL><LI><a href="#[126]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PWREx_DisableUCPDDeadBattery
</UL>
<BR>[Called By]<UL><LI><a href="#[120]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_Init
</UL>

<P><STRONG><a name="[127]"></a>HAL_NVIC_EnableIRQ</STRONG> (Thumb, 20 bytes, Stack size 16 bytes, stm32g4xx_hal_cortex.o(.text.HAL_NVIC_EnableIRQ))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = HAL_NVIC_EnableIRQ &rArr; __NVIC_EnableIRQ
</UL>
<BR>[Calls]<UL><LI><a href="#[128]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__NVIC_EnableIRQ
</UL>
<BR>[Called By]<UL><LI><a href="#[170]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_MspInit
<LI><a href="#[182]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_MspInit
<LI><a href="#[146]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_MspInit
<LI><a href="#[188]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_GPIO_Init
</UL>

<P><STRONG><a name="[125]"></a>HAL_NVIC_SetPriority</STRONG> (Thumb, 46 bytes, Stack size 32 bytes, stm32g4xx_hal_cortex.o(.text.HAL_NVIC_SetPriority))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[12b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__NVIC_SetPriority
<LI><a href="#[12a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;NVIC_EncodePriority
<LI><a href="#[129]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__NVIC_GetPriorityGrouping
</UL>
<BR>[Called By]<UL><LI><a href="#[170]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_MspInit
<LI><a href="#[182]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_MspInit
<LI><a href="#[146]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_MspInit
<LI><a href="#[188]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_GPIO_Init
<LI><a href="#[122]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_InitTick
</UL>

<P><STRONG><a name="[121]"></a>HAL_NVIC_SetPriorityGrouping</STRONG> (Thumb, 16 bytes, Stack size 16 bytes, stm32g4xx_hal_cortex.o(.text.HAL_NVIC_SetPriorityGrouping))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = HAL_NVIC_SetPriorityGrouping &rArr; __NVIC_SetPriorityGrouping
</UL>
<BR>[Calls]<UL><LI><a href="#[12c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__NVIC_SetPriorityGrouping
</UL>
<BR>[Called By]<UL><LI><a href="#[120]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_Init
</UL>

<P><STRONG><a name="[149]"></a>HAL_PCDEx_ActivateLPM</STRONG> (Thumb, 58 bytes, Stack size 8 bytes, stm32g4xx_hal_pcd_ex.o(.text.HAL_PCDEx_ActivateLPM))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_PCDEx_ActivateLPM
</UL>
<BR>[Called By]<UL><LI><a href="#[115]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Init
</UL>

<P><STRONG><a name="[142]"></a>HAL_PCDEx_LPM_Callback</STRONG> (Thumb, 12 bytes, Stack size 8 bytes, stm32g4xx_hal_pcd_ex.o(.text.HAL_PCDEx_LPM_Callback))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_PCDEx_LPM_Callback
</UL>
<BR>[Called By]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[116]"></a>HAL_PCDEx_PMAConfig</STRONG> (Thumb, 122 bytes, Stack size 16 bytes, stm32g4xx_hal_pcd_ex.o(.text.HAL_PCDEx_PMAConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = HAL_PCDEx_PMAConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
</UL>

<P><STRONG><a name="[12d]"></a>HAL_PCD_DataInStageCallback</STRONG> (Thumb, 148 bytes, Stack size 16 bytes, ad_usb_cdc.o(.text.HAL_PCD_DataInStageCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = HAL_PCD_DataInStageCallback &rArr; HAL_PCD_SetAddress &rArr; USB_SetDevAddress
</UL>
<BR>[Calls]<UL><LI><a href="#[12e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetAddress
<LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[138]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_DB_Transmit
<LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>

<P><STRONG><a name="[12f]"></a>HAL_PCD_DataOutStageCallback</STRONG> (Thumb, 134 bytes, Stack size 24 bytes, ad_usb_cdc.o(.text.HAL_PCD_DataOutStageCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 284<LI>Call Chain = HAL_PCD_DataOutStageCallback &rArr; ep0_send_zlp &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[131]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_GetRxCount
<LI><a href="#[132]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Receive
<LI><a href="#[130]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send_zlp
</UL>
<BR>[Called By]<UL><LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>

<P><STRONG><a name="[118]"></a>HAL_PCD_DevConnect</STRONG> (Thumb, 76 bytes, Stack size 16 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_DevConnect))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = HAL_PCD_DevConnect &rArr; USB_DevConnect
</UL>
<BR>[Calls]<UL><LI><a href="#[133]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_DevConnect
</UL>
<BR>[Called By]<UL><LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
</UL>

<P><STRONG><a name="[134]"></a>HAL_PCD_EP_Close</STRONG> (Thumb, 168 bytes, Stack size 24 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_Close))
<BR><BR>[Stack]<UL><LI>Max Depth = 72<LI>Call Chain = HAL_PCD_EP_Close &rArr; USB_DeactivateEndpoint
</UL>
<BR>[Calls]<UL><LI><a href="#[135]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_DeactivateEndpoint
</UL>
<BR>[Called By]<UL><LI><a href="#[1c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;close_cdc_endpoints
</UL>

<P><STRONG><a name="[131]"></a>HAL_PCD_EP_GetRxCount</STRONG> (Thumb, 34 bytes, Stack size 8 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_GetRxCount))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_PCD_EP_GetRxCount
</UL>
<BR>[Called By]<UL><LI><a href="#[12f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataOutStageCallback
</UL>

<P><STRONG><a name="[13a]"></a>HAL_PCD_EP_Open</STRONG> (Thumb, 222 bytes, Stack size 32 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_Open))
<BR><BR>[Stack]<UL><LI>Max Depth = 184<LI>Call Chain = HAL_PCD_EP_Open &rArr; USB_ActivateEndpoint
</UL>
<BR>[Calls]<UL><LI><a href="#[13b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_ActivateEndpoint
</UL>
<BR>[Called By]<UL><LI><a href="#[141]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_ResetCallback
<LI><a href="#[1cb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;open_cdc_endpoints
</UL>

<P><STRONG><a name="[132]"></a>HAL_PCD_EP_Receive</STRONG> (Thumb, 90 bytes, Stack size 32 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_Receive))
<BR><BR>[Stack]<UL><LI>Max Depth = 252<LI>Call Chain = HAL_PCD_EP_Receive &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[13c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_EPStartXfer
</UL>
<BR>[Called By]<UL><LI><a href="#[12f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataOutStageCallback
<LI><a href="#[1cb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;open_cdc_endpoints
<LI><a href="#[14e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_class_request
</UL>

<P><STRONG><a name="[13d]"></a>HAL_PCD_EP_SetStall</STRONG> (Thumb, 196 bytes, Stack size 24 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_SetStall))
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = HAL_PCD_EP_SetStall &rArr; USB_EPSetStall
</UL>
<BR>[Calls]<UL><LI><a href="#[13e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_EPSetStall
</UL>
<BR>[Called By]<UL><LI><a href="#[14f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_stall
</UL>

<P><STRONG><a name="[119]"></a>HAL_PCD_EP_Transmit</STRONG> (Thumb, 102 bytes, Stack size 32 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_Transmit))
<BR><BR>[Stack]<UL><LI>Max Depth = 252<LI>Call Chain = HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[13c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_EPStartXfer
</UL>
<BR>[Called By]<UL><LI><a href="#[130]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send_zlp
<LI><a href="#[1c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send
<LI><a href="#[9d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_WritePacket
</UL>

<P><STRONG><a name="[114]"></a>HAL_PCD_IRQHandler</STRONG> (Thumb, 488 bytes, Stack size 16 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 444<LI>Call Chain = HAL_PCD_IRQHandler &rArr; PCD_EP_ISR_Handler &rArr; HAL_PCD_SetupStageCallback &rArr; handle_standard_request &rArr; send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[143]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_ResumeCallback
<LI><a href="#[144]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SuspendCallback
<LI><a href="#[12e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetAddress
<LI><a href="#[141]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_ResetCallback
<LI><a href="#[145]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SOFCallback
<LI><a href="#[142]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCDEx_LPM_Callback
<LI><a href="#[13f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_ReadInterrupts
<LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>
<BR>[Called By]<UL><LI><a href="#[113]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_IRQHandler
</UL>

<P><STRONG><a name="[115]"></a>HAL_PCD_Init</STRONG> (Thumb, 404 bytes, Stack size 24 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = HAL_PCD_Init &rArr; HAL_PCD_MspInit &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[146]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_MspInit
<LI><a href="#[149]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCDEx_ActivateLPM
<LI><a href="#[148]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_DevInit
<LI><a href="#[147]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_DisableGlobalInt
</UL>
<BR>[Called By]<UL><LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
</UL>

<P><STRONG><a name="[146]"></a>HAL_PCD_MspInit</STRONG> (Thumb, 152 bytes, Stack size 48 bytes, stm32g4xx_hal_msp.o(.text.HAL_PCD_MspInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = HAL_PCD_MspInit &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[127]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_EnableIRQ
<LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
<LI><a href="#[11e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[115]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Init
</UL>

<P><STRONG><a name="[141]"></a>HAL_PCD_ResetCallback</STRONG> (Thumb, 132 bytes, Stack size 24 bytes, ad_usb_cdc.o(.text.HAL_PCD_ResetCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 208<LI>Call Chain = HAL_PCD_ResetCallback &rArr; HAL_PCD_EP_Open &rArr; USB_ActivateEndpoint
</UL>
<BR>[Calls]<UL><LI><a href="#[13a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Open
<LI><a href="#[12e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetAddress
<LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[143]"></a>HAL_PCD_ResumeCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, ad_usb_cdc.o(.text.HAL_PCD_ResumeCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_PCD_ResumeCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[145]"></a>HAL_PCD_SOFCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_SOFCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_PCD_SOFCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[12e]"></a>HAL_PCD_SetAddress</STRONG> (Thumb, 92 bytes, Stack size 24 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_SetAddress))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = HAL_PCD_SetAddress &rArr; USB_SetDevAddress
</UL>
<BR>[Calls]<UL><LI><a href="#[14a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_SetDevAddress
</UL>
<BR>[Called By]<UL><LI><a href="#[12d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataInStageCallback
<LI><a href="#[141]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_ResetCallback
<LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[14b]"></a>HAL_PCD_SetupStageCallback</STRONG> (Thumb, 100 bytes, Stack size 24 bytes, ad_usb_cdc.o(.text.HAL_PCD_SetupStageCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 348<LI>Call Chain = HAL_PCD_SetupStageCallback &rArr; handle_standard_request &rArr; send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[14f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_stall
<LI><a href="#[14e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_class_request
<LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
<LI><a href="#[14c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;parse_setup
</UL>
<BR>[Called By]<UL><LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>

<P><STRONG><a name="[117]"></a>HAL_PCD_Start</STRONG> (Thumb, 84 bytes, Stack size 16 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_Start))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = HAL_PCD_Start &rArr; USB_EnableGlobalInt
</UL>
<BR>[Calls]<UL><LI><a href="#[133]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_DevConnect
<LI><a href="#[150]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_EnableGlobalInt
</UL>
<BR>[Called By]<UL><LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
</UL>

<P><STRONG><a name="[144]"></a>HAL_PCD_SuspendCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, ad_usb_cdc.o(.text.HAL_PCD_SuspendCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_PCD_SuspendCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[19a]"></a>HAL_PWREx_ControlVoltageScaling</STRONG> (Thumb, 436 bytes, Stack size 20 bytes, stm32g4xx_hal_pwr_ex.o(.text.HAL_PWREx_ControlVoltageScaling))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = HAL_PWREx_ControlVoltageScaling
</UL>
<BR>[Called By]<UL><LI><a href="#[199]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemClock_Config
</UL>

<P><STRONG><a name="[126]"></a>HAL_PWREx_DisableUCPDDeadBattery</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, stm32g4xx_hal_pwr_ex.o(.text.HAL_PWREx_DisableUCPDDeadBattery))
<BR><BR>[Called By]<UL><LI><a href="#[123]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_MspInit
</UL>

<P><STRONG><a name="[151]"></a>HAL_RCC_ClockConfig</STRONG> (Thumb, 806 bytes, Stack size 32 bytes, stm32g4xx_hal_rcc.o(.text.HAL_RCC_ClockConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = HAL_RCC_ClockConfig &rArr; HAL_InitTick &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[153]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetSysClockFreq
<LI><a href="#[152]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;RCC_GetSysClockFreqFromPLLSource
<LI><a href="#[122]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_InitTick
</UL>
<BR>[Called By]<UL><LI><a href="#[199]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemClock_Config
</UL>

<P><STRONG><a name="[155]"></a>HAL_RCC_GetHCLKFreq</STRONG> (Thumb, 12 bytes, Stack size 0 bytes, stm32g4xx_hal_rcc.o(.text.HAL_RCC_GetHCLKFreq))
<BR><BR>[Called By]<UL><LI><a href="#[156]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetPCLK2Freq
<LI><a href="#[154]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetPCLK1Freq
</UL>

<P><STRONG><a name="[154]"></a>HAL_RCC_GetPCLK1Freq</STRONG> (Thumb, 38 bytes, Stack size 8 bytes, stm32g4xx_hal_rcc.o(.text.HAL_RCC_GetPCLK1Freq))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_RCC_GetPCLK1Freq
</UL>
<BR>[Calls]<UL><LI><a href="#[155]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetHCLKFreq
</UL>
<BR>[Called By]<UL><LI><a href="#[184]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_SetConfig
</UL>

<P><STRONG><a name="[156]"></a>HAL_RCC_GetPCLK2Freq</STRONG> (Thumb, 38 bytes, Stack size 8 bytes, stm32g4xx_hal_rcc.o(.text.HAL_RCC_GetPCLK2Freq))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = HAL_RCC_GetPCLK2Freq
</UL>
<BR>[Calls]<UL><LI><a href="#[155]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetHCLKFreq
</UL>
<BR>[Called By]<UL><LI><a href="#[1f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_get_tim1_clock_hz
<LI><a href="#[184]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_SetConfig
</UL>

<P><STRONG><a name="[153]"></a>HAL_RCC_GetSysClockFreq</STRONG> (Thumb, 252 bytes, Stack size 24 bytes, stm32g4xx_hal_rcc.o(.text.HAL_RCC_GetSysClockFreq))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = HAL_RCC_GetSysClockFreq
</UL>
<BR>[Called By]<UL><LI><a href="#[151]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_ClockConfig
<LI><a href="#[184]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_SetConfig
</UL>

<P><STRONG><a name="[157]"></a>HAL_RCC_OscConfig</STRONG> (Thumb, 1974 bytes, Stack size 48 bytes, stm32g4xx_hal_rcc.o(.text.HAL_RCC_OscConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 128<LI>Call Chain = HAL_RCC_OscConfig &rArr; HAL_InitTick &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[122]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_InitTick
</UL>
<BR>[Called By]<UL><LI><a href="#[199]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemClock_Config
</UL>

<P><STRONG><a name="[124]"></a>HAL_SYSTICK_Config</STRONG> (Thumb, 16 bytes, Stack size 16 bytes, stm32g4xx_hal_cortex.o(.text.HAL_SYSTICK_Config))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = HAL_SYSTICK_Config &rArr; SysTick_Config &rArr; __NVIC_SetPriority
</UL>
<BR>[Calls]<UL><LI><a href="#[158]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SysTick_Config
</UL>
<BR>[Called By]<UL><LI><a href="#[122]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_InitTick
</UL>

<P><STRONG><a name="[160]"></a>HAL_TIMEx_Break2Callback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_Break2Callback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIMEx_Break2Callback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[15f]"></a>HAL_TIMEx_BreakCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_BreakCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIMEx_BreakCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[162]"></a>HAL_TIMEx_CommutCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_CommutCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIMEx_CommutCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[18c]"></a>HAL_TIMEx_ConfigBreakDeadTime</STRONG> (Thumb, 322 bytes, Stack size 16 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_ConfigBreakDeadTime))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = HAL_TIMEx_ConfigBreakDeadTime
</UL>
<BR>[Called By]<UL><LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
</UL>

<P><STRONG><a name="[164]"></a>HAL_TIMEx_DirectionChangeCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_DirectionChangeCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIMEx_DirectionChangeCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[163]"></a>HAL_TIMEx_EncoderIndexCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_EncoderIndexCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIMEx_EncoderIndexCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[165]"></a>HAL_TIMEx_IndexErrorCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_IndexErrorCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIMEx_IndexErrorCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[18b]"></a>HAL_TIMEx_MasterConfigSynchronization</STRONG> (Thumb, 372 bytes, Stack size 20 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_MasterConfigSynchronization))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = HAL_TIMEx_MasterConfigSynchronization
</UL>
<BR>[Called By]<UL><LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
</UL>

<P><STRONG><a name="[de]"></a>HAL_TIMEx_PWMN_Start</STRONG> (Thumb, 418 bytes, Stack size 48 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_PWMN_Start))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = HAL_TIMEx_PWMN_Start &rArr; TIM_CCxNChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[159]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_CCxNChannelCmd
</UL>
<BR>[Called By]<UL><LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
</UL>

<P><STRONG><a name="[da]"></a>HAL_TIMEx_PWMN_Stop</STRONG> (Thumb, 208 bytes, Stack size 24 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_PWMN_Stop))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = HAL_TIMEx_PWMN_Stop &rArr; TIM_CCxNChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[159]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_CCxNChannelCmd
</UL>
<BR>[Called By]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>

<P><STRONG><a name="[166]"></a>HAL_TIMEx_TransitionErrorCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim_ex.o(.text.HAL_TIMEx_TransitionErrorCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIMEx_TransitionErrorCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[15b]"></a>HAL_TIM_IC_CaptureCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_IC_CaptureCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIM_IC_CaptureCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[15a]"></a>HAL_TIM_IRQHandler</STRONG> (Thumb, 768 bytes, Stack size 24 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 216<LI>Call Chain = HAL_TIM_IRQHandler &rArr; HAL_TIM_PeriodElapsedCallback &rArr; rotation_pwm_service_update &rArr; rotation_pwm_apply_six_step &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[15e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PeriodElapsedCallback
<LI><a href="#[166]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_TransitionErrorCallback
<LI><a href="#[165]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_IndexErrorCallback
<LI><a href="#[164]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_DirectionChangeCallback
<LI><a href="#[163]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_EncoderIndexCallback
<LI><a href="#[162]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_CommutCallback
<LI><a href="#[161]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_TriggerCallback
<LI><a href="#[160]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_Break2Callback
<LI><a href="#[15f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_BreakCallback
<LI><a href="#[15c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_OC_DelayElapsedCallback
<LI><a href="#[15b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IC_CaptureCallback
<LI><a href="#[15d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_PulseFinishedCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[23]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM1_UP_TIM16_IRQHandler
</UL>

<P><STRONG><a name="[167]"></a>HAL_TIM_MspPostInit</STRONG> (Thumb, 210 bytes, Stack size 64 bytes, stm32g4xx_hal_msp.o(.text.HAL_TIM_MspPostInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = HAL_TIM_MspPostInit &rArr; HAL_GPIO_Init
</UL>
<BR>[Calls]<UL><LI><a href="#[11e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
</UL>

<P><STRONG><a name="[15c]"></a>HAL_TIM_OC_DelayElapsedCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_OC_DelayElapsedCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIM_OC_DelayElapsedCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[168]"></a>HAL_TIM_PWM_ConfigChannel</STRONG> (Thumb, 432 bytes, Stack size 32 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_PWM_ConfigChannel))
<BR><BR>[Stack]<UL><LI>Max Depth = 52<LI>Call Chain = HAL_TIM_PWM_ConfigChannel &rArr; TIM_OC2_SetConfig
</UL>
<BR>[Calls]<UL><LI><a href="#[16a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_OC2_SetConfig
<LI><a href="#[16e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_OC6_SetConfig
<LI><a href="#[16d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_OC5_SetConfig
<LI><a href="#[16c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_OC4_SetConfig
<LI><a href="#[16b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_OC3_SetConfig
<LI><a href="#[169]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_OC1_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
</UL>

<P><STRONG><a name="[16f]"></a>HAL_TIM_PWM_Init</STRONG> (Thumb, 168 bytes, Stack size 16 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_PWM_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = HAL_TIM_PWM_Init &rArr; HAL_TIM_PWM_MspInit &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[170]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_MspInit
<LI><a href="#[171]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_Base_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
</UL>

<P><STRONG><a name="[170]"></a>HAL_TIM_PWM_MspInit</STRONG> (Thumb, 78 bytes, Stack size 24 bytes, stm32g4xx_hal_msp.o(.text.HAL_TIM_PWM_MspInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = HAL_TIM_PWM_MspInit &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[127]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_EnableIRQ
<LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
</UL>
<BR>[Called By]<UL><LI><a href="#[16f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Init
</UL>

<P><STRONG><a name="[15d]"></a>HAL_TIM_PWM_PulseFinishedCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_PWM_PulseFinishedCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIM_PWM_PulseFinishedCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[dd]"></a>HAL_TIM_PWM_Start</STRONG> (Thumb, 664 bytes, Stack size 72 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_PWM_Start))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[172]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_CCxChannelCmd
</UL>
<BR>[Called By]<UL><LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
</UL>

<P><STRONG><a name="[db]"></a>HAL_TIM_PWM_Stop</STRONG> (Thumb, 404 bytes, Stack size 40 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_PWM_Stop))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = HAL_TIM_PWM_Stop &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[172]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;TIM_CCxChannelCmd
</UL>
<BR>[Called By]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>

<P><STRONG><a name="[15e]"></a>HAL_TIM_PeriodElapsedCallback</STRONG> (Thumb, 40 bytes, Stack size 16 bytes, ad_inverter.o(.text.HAL_TIM_PeriodElapsedCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 192<LI>Call Chain = HAL_TIM_PeriodElapsedCallback &rArr; rotation_pwm_service_update &rArr; rotation_pwm_apply_six_step &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[173]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_service_update
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[161]"></a>HAL_TIM_TriggerCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_tim.o(.text.HAL_TIM_TriggerCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_TIM_TriggerCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>

<P><STRONG><a name="[177]"></a>HAL_UARTEx_GetRxEventType</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, stm32g4xx_hal_uart_ex.o(.text.HAL_UARTEx_GetRxEventType))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_UARTEx_GetRxEventType
</UL>
<BR>[Called By]<UL><LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
</UL>

<P><STRONG><a name="[174]"></a>HAL_UARTEx_ReceiveToIdle_IT</STRONG> (Thumb, 168 bytes, Stack size 32 bytes, stm32g4xx_hal_uart_ex.o(.text.HAL_UARTEx_ReceiveToIdle_IT))
<BR><BR>[Stack]<UL><LI>Max Depth = 64<LI>Call Chain = HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[175]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_Start_Receive_IT
</UL>
<BR>[Called By]<UL><LI><a href="#[ed]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;restart_uart_rx
</UL>

<P><STRONG><a name="[176]"></a>HAL_UARTEx_RxEventCallback</STRONG> (Thumb, 258 bytes, Stack size 24 bytes, ad_modbus.o(.text.HAL_UARTEx_RxEventCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 96<LI>Call Chain = HAL_UARTEx_RxEventCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[177]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_GetRxEventType
<LI><a href="#[ed]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;restart_uart_rx
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
<LI><a href="#[73]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_8BIT
<LI><a href="#[72]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_16BIT
<LI><a href="#[75]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_8BIT_FIFOEN
<LI><a href="#[74]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_16BIT_FIFOEN
</UL>

<P><STRONG><a name="[180]"></a>HAL_UARTEx_RxFifoFullCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_uart_ex.o(.text.HAL_UARTEx_RxFifoFullCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_UARTEx_RxFifoFullCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
</UL>

<P><STRONG><a name="[17f]"></a>HAL_UARTEx_TxFifoEmptyCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_uart_ex.o(.text.HAL_UARTEx_TxFifoEmptyCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_UARTEx_TxFifoEmptyCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
</UL>

<P><STRONG><a name="[17d]"></a>HAL_UARTEx_WakeupCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_uart_ex.o(.text.HAL_UARTEx_WakeupCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_UARTEx_WakeupCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
</UL>

<P><STRONG><a name="[178]"></a>HAL_UART_ErrorCallback</STRONG> (Thumb, 84 bytes, Stack size 16 bytes, ad_modbus.o(.text.HAL_UART_ErrorCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = HAL_UART_ErrorCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[ed]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;restart_uart_rx
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
<LI><a href="#[71]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_DMAAbortOnError
<LI><a href="#[75]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_8BIT_FIFOEN
<LI><a href="#[74]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_16BIT_FIFOEN
</UL>

<P><STRONG><a name="[179]"></a>HAL_UART_IRQHandler</STRONG> (Thumb, 1430 bytes, Stack size 72 bytes, stm32g4xx_hal_uart.o(.text.HAL_UART_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 168<LI>Call Chain = HAL_UART_IRQHandler &rArr; HAL_UARTEx_RxEventCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[178]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_ErrorCallback
<LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
<LI><a href="#[180]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxFifoFullCallback
<LI><a href="#[17f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_TxFifoEmptyCallback
<LI><a href="#[17d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_WakeupCallback
<LI><a href="#[17c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_DMA_Abort
<LI><a href="#[17e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_EndTransmit_IT
<LI><a href="#[17a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_EndRxTransfer
<LI><a href="#[17b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_DMA_Abort_IT
</UL>
<BR>[Called By]<UL><LI><a href="#[30]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USART2_IRQHandler
</UL>

<P><STRONG><a name="[181]"></a>HAL_UART_Init</STRONG> (Thumb, 170 bytes, Stack size 16 bytes, stm32g4xx_hal_uart.o(.text.HAL_UART_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 144<LI>Call Chain = HAL_UART_Init &rArr; UART_SetConfig &rArr; __aeabi_uldivmod
</UL>
<BR>[Calls]<UL><LI><a href="#[182]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_MspInit
<LI><a href="#[185]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_CheckIdleState
<LI><a href="#[184]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_SetConfig
<LI><a href="#[183]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_AdvFeatureConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[18d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_USART2_UART_Init
</UL>

<P><STRONG><a name="[182]"></a>HAL_UART_MspInit</STRONG> (Thumb, 150 bytes, Stack size 48 bytes, stm32g4xx_hal_msp.o(.text.HAL_UART_MspInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = HAL_UART_MspInit &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[127]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_EnableIRQ
<LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
<LI><a href="#[11e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[181]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Init
</UL>

<P><STRONG><a name="[19c]"></a>HAL_UART_RxCpltCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_uart.o(.text.HAL_UART_RxCpltCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_UART_RxCpltCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[73]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_8BIT
<LI><a href="#[72]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_16BIT
<LI><a href="#[75]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_8BIT_FIFOEN
<LI><a href="#[74]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_RxISR_16BIT_FIFOEN
</UL>

<P><STRONG><a name="[186]"></a>HAL_UART_Transmit</STRONG> (Thumb, 312 bytes, Stack size 48 bytes, stm32g4xx_hal_uart.o(.text.HAL_UART_Transmit))
<BR><BR>[Stack]<UL><LI>Max Depth = 96<LI>Call Chain = HAL_UART_Transmit &rArr; UART_WaitOnFlagUntilTimeout &rArr; UART_EndRxTransfer
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[187]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_WaitOnFlagUntilTimeout
</UL>
<BR>[Called By]<UL><LI><a href="#[1fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_response
</UL>

<P><STRONG><a name="[19b]"></a>HAL_UART_TxCpltCallback</STRONG> (Thumb, 8 bytes, Stack size 4 bytes, stm32g4xx_hal_uart.o(.text.HAL_UART_TxCpltCallback))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = HAL_UART_TxCpltCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[17e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_EndTransmit_IT
</UL>

<P><STRONG><a name="[2]"></a>HardFault_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.HardFault_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[3]"></a>MemManage_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.MemManage_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[1]"></a>NMI_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.NMI_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[8]"></a>PendSV_Handler</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.PendSV_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[6]"></a>SVC_Handler</STRONG> (Thumb, 2 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.SVC_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[d0]"></a>SimulinkInterface_GetOutputBus</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, simulink_interface.o(.text.SimulinkInterface_GetOutputBus))
<BR><BR>[Called By]<UL><LI><a href="#[f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;refresh_command_shadow
<LI><a href="#[c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Debug_Update
</UL>

<P><STRONG><a name="[9a]"></a>SimulinkInterface_GetTelemetryBytes</STRONG> (Thumb, 10 bytes, Stack size 0 bytes, simulink_interface.o(.text.SimulinkInterface_GetTelemetryBytes))
<BR><BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[9b]"></a>SimulinkInterface_GetTelemetrySize</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, simulink_interface.o(.text.SimulinkInterface_GetTelemetrySize))
<BR><BR>[Called By]<UL><LI><a href="#[192]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateOutputs
<LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[a8]"></a>SimulinkInterface_Init</STRONG> (Thumb, 86 bytes, Stack size 8 bytes, simulink_interface.o(.text.SimulinkInterface_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 60 + Unknown Stack Size
<LI>Call Chain = SimulinkInterface_Init &rArr; SimulinkInterface_PackTelemetry &rArr; crc16_ccitt
</UL>
<BR>[Calls]<UL><LI><a href="#[18e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_PackTelemetry
<LI><a href="#[fe]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Init
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Init
</UL>

<P><STRONG><a name="[18e]"></a>SimulinkInterface_PackTelemetry</STRONG> (Thumb, 324 bytes, Stack size 32 bytes, simulink_interface.o(.text.SimulinkInterface_PackTelemetry))
<BR><BR>[Stack]<UL><LI>Max Depth = 52<LI>Call Chain = SimulinkInterface_PackTelemetry &rArr; crc16_ccitt
</UL>
<BR>[Calls]<UL><LI><a href="#[18f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;crc16_ccitt
</UL>
<BR>[Called By]<UL><LI><a href="#[af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepSlow
<LI><a href="#[a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_Init
</UL>

<P><STRONG><a name="[1a1]"></a>SimulinkInterface_SetCommand</STRONG> (Thumb, 108 bytes, Stack size 28 bytes, simulink_interface.o(.text.SimulinkInterface_SetCommand))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = SimulinkInterface_SetCommand
</UL>
<BR>[Called By]<UL><LI><a href="#[1a0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_command_shadow
<LI><a href="#[a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_apply_command
</UL>

<P><STRONG><a name="[ad]"></a>SimulinkInterface_SetMeasurements</STRONG> (Thumb, 138 bytes, Stack size 28 bytes, simulink_interface.o(.text.SimulinkInterface_SetMeasurements))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = SimulinkInterface_SetMeasurements
</UL>
<BR>[Called By]<UL><LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
</UL>

<P><STRONG><a name="[ae]"></a>SimulinkInterface_StepFast</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, simulink_interface.o(.text.SimulinkInterface_StepFast))
<BR><BR>[Stack]<UL><LI>Max Depth = 424<LI>Call Chain = SimulinkInterface_StepFast &rArr; AD_ParamID_StepFast &rArr; AD_ParamID_HardwareStep &rArr; id_step_auto &rArr; id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[192]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateOutputs
<LI><a href="#[191]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateInputs
<LI><a href="#[190]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UnpackCommand
<LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
</UL>
<BR>[Called By]<UL><LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
</UL>

<P><STRONG><a name="[af]"></a>SimulinkInterface_StepSlow</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, simulink_interface.o(.text.SimulinkInterface_StepSlow))
<BR><BR>[Stack]<UL><LI>Max Depth = 392<LI>Call Chain = SimulinkInterface_StepSlow &rArr; AD_ParamID_StepSlow &rArr; AD_ParamID_HardwareStep &rArr; id_step_auto &rArr; id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[191]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_UpdateInputs
<LI><a href="#[18e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_PackTelemetry
<LI><a href="#[10d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepSlow
</UL>
<BR>[Called By]<UL><LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
</UL>

<P><STRONG><a name="[190]"></a>SimulinkInterface_UnpackCommand</STRONG> (Thumb, 376 bytes, Stack size 56 bytes, simulink_interface.o(.text.SimulinkInterface_UnpackCommand))
<BR><BR>[Stack]<UL><LI>Max Depth = 176<LI>Call Chain = SimulinkInterface_UnpackCommand &rArr; AD_ParamID_Start &rArr; enter_data_logging_blocked &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[197]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetMotorControlType
<LI><a href="#[196]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetRotationRampTimeMs
<LI><a href="#[195]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetRotationModulation
<LI><a href="#[194]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetRotationFrequencyHz
<LI><a href="#[193]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetPwmDutyLimit
<LI><a href="#[102]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetSoftwareEnable
<LI><a href="#[101]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetSafetyLimits
<LI><a href="#[d3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetMode
<LI><a href="#[103]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Start
<LI><a href="#[ff]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Reset
<LI><a href="#[e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetPwmTimingMode
<LI><a href="#[e5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetPwmPolarityFlags
<LI><a href="#[d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetStatus
<LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
</UL>
<BR>[Called By]<UL><LI><a href="#[ae]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepFast
</UL>

<P><STRONG><a name="[191]"></a>SimulinkInterface_UpdateInputs</STRONG> (Thumb, 148 bytes, Stack size 32 bytes, simulink_interface.o(.text.SimulinkInterface_UpdateInputs))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = SimulinkInterface_UpdateInputs
</UL>
<BR>[Calls]<UL><LI><a href="#[d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetFaults
<LI><a href="#[d3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetMode
<LI><a href="#[d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetStatus
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepSlow
<LI><a href="#[ae]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepFast
</UL>

<P><STRONG><a name="[192]"></a>SimulinkInterface_UpdateOutputs</STRONG> (Thumb, 18 bytes, Stack size 8 bytes, simulink_interface.o(.text.SimulinkInterface_UpdateOutputs))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = SimulinkInterface_UpdateOutputs
</UL>
<BR>[Calls]<UL><LI><a href="#[9b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_GetTelemetrySize
</UL>
<BR>[Called By]<UL><LI><a href="#[ae]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_StepFast
</UL>

<P><STRONG><a name="[9]"></a>SysTick_Handler</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, stm32g4xx_it.o(.text.SysTick_Handler))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = SysTick_Handler
</UL>
<BR>[Calls]<UL><LI><a href="#[198]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_IncTick
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[199]"></a>SystemClock_Config</STRONG> (Thumb, 116 bytes, Stack size 88 bytes, main.o(.text.SystemClock_Config))
<BR><BR>[Stack]<UL><LI>Max Depth = 216 + Unknown Stack Size
<LI>Call Chain = SystemClock_Config &rArr; HAL_RCC_OscConfig &rArr; HAL_InitTick &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[151]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_ClockConfig
<LI><a href="#[18a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Error_Handler
<LI><a href="#[157]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_OscConfig
<LI><a href="#[19a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PWREx_ControlVoltageScaling
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>

<P><STRONG><a name="[6f]"></a>SystemInit</STRONG> (Thumb, 18 bytes, Stack size 0 bytes, system_stm32g4xx.o(.text.SystemInit))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(.text)
</UL>
<P><STRONG><a name="[23]"></a>TIM1_UP_TIM16_IRQHandler</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, stm32g4xx_it.o(.text.TIM1_UP_TIM16_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 224<LI>Call Chain = TIM1_UP_TIM16_IRQHandler &rArr; HAL_TIM_IRQHandler &rArr; HAL_TIM_PeriodElapsedCallback &rArr; rotation_pwm_service_update &rArr; rotation_pwm_apply_six_step &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[15a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_IRQHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[171]"></a>TIM_Base_SetConfig</STRONG> (Thumb, 486 bytes, Stack size 12 bytes, stm32g4xx_hal_tim.o(.text.TIM_Base_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = TIM_Base_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[16f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Init
</UL>

<P><STRONG><a name="[172]"></a>TIM_CCxChannelCmd</STRONG> (Thumb, 54 bytes, Stack size 16 bytes, stm32g4xx_hal_tim.o(.text.TIM_CCxChannelCmd))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = TIM_CCxChannelCmd
</UL>
<BR>[Called By]<UL><LI><a href="#[dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Start
<LI><a href="#[db]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Stop
</UL>

<P><STRONG><a name="[16a]"></a>TIM_OC2_SetConfig</STRONG> (Thumb, 400 bytes, Stack size 20 bytes, stm32g4xx_hal_tim.o(.text.TIM_OC2_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = TIM_OC2_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[168]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_ConfigChannel
</UL>

<P><STRONG><a name="[183]"></a>UART_AdvFeatureConfig</STRONG> (Thumb, 328 bytes, Stack size 4 bytes, stm32g4xx_hal_uart.o(.text.UART_AdvFeatureConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = UART_AdvFeatureConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[181]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Init
</UL>

<P><STRONG><a name="[185]"></a>UART_CheckIdleState</STRONG> (Thumb, 326 bytes, Stack size 40 bytes, stm32g4xx_hal_uart.o(.text.UART_CheckIdleState))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = UART_CheckIdleState &rArr; UART_WaitOnFlagUntilTimeout &rArr; UART_EndRxTransfer
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[187]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_WaitOnFlagUntilTimeout
</UL>
<BR>[Called By]<UL><LI><a href="#[181]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Init
</UL>

<P><STRONG><a name="[184]"></a>UART_SetConfig</STRONG> (Thumb, 1506 bytes, Stack size 80 bytes, stm32g4xx_hal_uart.o(.text.UART_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 128<LI>Call Chain = UART_SetConfig &rArr; __aeabi_uldivmod
</UL>
<BR>[Calls]<UL><LI><a href="#[156]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetPCLK2Freq
<LI><a href="#[153]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetSysClockFreq
<LI><a href="#[154]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetPCLK1Freq
<LI><a href="#[19d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_uldivmod
</UL>
<BR>[Called By]<UL><LI><a href="#[181]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Init
</UL>

<P><STRONG><a name="[175]"></a>UART_Start_Receive_IT</STRONG> (Thumb, 546 bytes, Stack size 32 bytes, stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = UART_Start_Receive_IT
</UL>
<BR>[Called By]<UL><LI><a href="#[174]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_ReceiveToIdle_IT
</UL>

<P><STRONG><a name="[187]"></a>UART_WaitOnFlagUntilTimeout</STRONG> (Thumb, 268 bytes, Stack size 32 bytes, stm32g4xx_hal_uart.o(.text.UART_WaitOnFlagUntilTimeout))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = UART_WaitOnFlagUntilTimeout &rArr; UART_EndRxTransfer
</UL>
<BR>[Calls]<UL><LI><a href="#[99]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GetTick
<LI><a href="#[17a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_EndRxTransfer
</UL>
<BR>[Called By]<UL><LI><a href="#[186]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Transmit
<LI><a href="#[185]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_CheckIdleState
</UL>

<P><STRONG><a name="[30]"></a>USART2_IRQHandler</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, stm32g4xx_it.o(.text.USART2_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 176<LI>Call Chain = USART2_IRQHandler &rArr; HAL_UART_IRQHandler &rArr; HAL_UARTEx_RxEventCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[34]"></a>USBWakeUp_IRQHandler</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, stm32g4xx_it.o(.text.USBWakeUp_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 460<LI>Call Chain = USBWakeUp_IRQHandler &rArr; AD_USB_CDC_IRQHandler &rArr; HAL_PCD_IRQHandler &rArr; PCD_EP_ISR_Handler &rArr; HAL_PCD_SetupStageCallback &rArr; handle_standard_request &rArr; send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[113]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_IRQHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[13b]"></a>USB_ActivateEndpoint</STRONG> (Thumb, 2182 bytes, Stack size 152 bytes, stm32g4xx_ll_usb.o(.text.USB_ActivateEndpoint))
<BR><BR>[Stack]<UL><LI>Max Depth = 152<LI>Call Chain = USB_ActivateEndpoint
</UL>
<BR>[Called By]<UL><LI><a href="#[13a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Open
</UL>

<P><STRONG><a name="[135]"></a>USB_DeactivateEndpoint</STRONG> (Thumb, 864 bytes, Stack size 48 bytes, stm32g4xx_ll_usb.o(.text.USB_DeactivateEndpoint))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = USB_DeactivateEndpoint
</UL>
<BR>[Called By]<UL><LI><a href="#[134]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Close
</UL>

<P><STRONG><a name="[133]"></a>USB_DevConnect</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, stm32g4xx_ll_usb.o(.text.USB_DevConnect))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = USB_DevConnect
</UL>
<BR>[Called By]<UL><LI><a href="#[118]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DevConnect
<LI><a href="#[117]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Start
</UL>

<P><STRONG><a name="[148]"></a>USB_DevInit</STRONG> (Thumb, 40 bytes, Stack size 12 bytes, stm32g4xx_ll_usb.o(.text.USB_DevInit))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = USB_DevInit
</UL>
<BR>[Called By]<UL><LI><a href="#[115]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Init
</UL>

<P><STRONG><a name="[147]"></a>USB_DisableGlobalInt</STRONG> (Thumb, 30 bytes, Stack size 8 bytes, stm32g4xx_ll_usb.o(.text.USB_DisableGlobalInt))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = USB_DisableGlobalInt
</UL>
<BR>[Called By]<UL><LI><a href="#[115]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Init
</UL>

<P><STRONG><a name="[13e]"></a>USB_EPSetStall</STRONG> (Thumb, 136 bytes, Stack size 12 bytes, stm32g4xx_ll_usb.o(.text.USB_EPSetStall))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = USB_EPSetStall
</UL>
<BR>[Called By]<UL><LI><a href="#[13d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_SetStall
</UL>

<P><STRONG><a name="[13c]"></a>USB_EPStartXfer</STRONG> (Thumb, 2522 bytes, Stack size 184 bytes, stm32g4xx_ll_usb.o(.text.USB_EPStartXfer))
<BR><BR>[Stack]<UL><LI>Max Depth = 220<LI>Call Chain = USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[139]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_WritePMA
</UL>
<BR>[Called By]<UL><LI><a href="#[132]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Receive
<LI><a href="#[119]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Transmit
<LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>

<P><STRONG><a name="[150]"></a>USB_EnableGlobalInt</STRONG> (Thumb, 30 bytes, Stack size 8 bytes, stm32g4xx_ll_usb.o(.text.USB_EnableGlobalInt))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = USB_EnableGlobalInt
</UL>
<BR>[Called By]<UL><LI><a href="#[117]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_Start
</UL>

<P><STRONG><a name="[1e]"></a>USB_LP_IRQHandler</STRONG> (Thumb, 8 bytes, Stack size 8 bytes, stm32g4xx_it.o(.text.USB_LP_IRQHandler))
<BR><BR>[Stack]<UL><LI>Max Depth = 460<LI>Call Chain = USB_LP_IRQHandler &rArr; AD_USB_CDC_IRQHandler &rArr; HAL_PCD_IRQHandler &rArr; PCD_EP_ISR_Handler &rArr; HAL_PCD_SetupStageCallback &rArr; handle_standard_request &rArr; send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[113]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_IRQHandler
</UL>
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[13f]"></a>USB_ReadInterrupts</STRONG> (Thumb, 18 bytes, Stack size 8 bytes, stm32g4xx_ll_usb.o(.text.USB_ReadInterrupts))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = USB_ReadInterrupts
</UL>
<BR>[Called By]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[137]"></a>USB_ReadPMA</STRONG> (Thumb, 132 bytes, Stack size 36 bytes, stm32g4xx_ll_usb.o(.text.USB_ReadPMA))
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = USB_ReadPMA
</UL>
<BR>[Called By]<UL><LI><a href="#[136]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_DB_Receive
<LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>

<P><STRONG><a name="[14a]"></a>USB_SetDevAddress</STRONG> (Thumb, 32 bytes, Stack size 8 bytes, stm32g4xx_ll_usb.o(.text.USB_SetDevAddress))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = USB_SetDevAddress
</UL>
<BR>[Called By]<UL><LI><a href="#[12e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetAddress
</UL>

<P><STRONG><a name="[139]"></a>USB_WritePMA</STRONG> (Thumb, 122 bytes, Stack size 36 bytes, stm32g4xx_ll_usb.o(.text.USB_WritePMA))
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = USB_WritePMA
</UL>
<BR>[Called By]<UL><LI><a href="#[13c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_EPStartXfer
<LI><a href="#[138]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_DB_Transmit
</UL>

<P><STRONG><a name="[5]"></a>UsageFault_Handler</STRONG> (Thumb, 4 bytes, Stack size 0 bytes, stm32g4xx_it.o(.text.UsageFault_Handler))
<BR>[Address Reference Count : 1]<UL><LI> startup_stm32g474xx.o(RESET)
</UL>
<P><STRONG><a name="[81]"></a>main</STRONG> (Thumb, 42 bytes, Stack size 16 bytes, main.o(.text.main))
<BR><BR>[Stack]<UL><LI>Max Depth = 568 + Unknown Stack Size
<LI>Call Chain = main &rArr; AD_Project_Loop &rArr; AD_Modbus_Loop &rArr; process_frame &rArr; process_write_single &rArr; write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[110]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Loop
<LI><a href="#[10e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Init
<LI><a href="#[199]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SystemClock_Config
<LI><a href="#[120]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_Init
<LI><a href="#[18d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_USART2_UART_Init
<LI><a href="#[189]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_TIM1_Init
<LI><a href="#[188]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;MX_GPIO_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[80]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_entry_main
</UL>

<P><STRONG><a name="[7b]"></a>_fp_init</STRONG> (Thumb, 26 bytes, Stack size 0 bytes, fpinit.o(x$fpl$fpinit))
<BR><BR>[Called By]<UL><LI><a href="#[7a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__rt_lib_init_fp_1
</UL>

<P><STRONG><a name="[249]"></a>__fplib_config_fpu_vfp</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, fpinit.o(x$fpl$fpinit), UNUSED)

<P><STRONG><a name="[24a]"></a>__fplib_config_pureend_doubles</STRONG> (Thumb, 0 bytes, Stack size unknown bytes, fpinit.o(x$fpl$fpinit), UNUSED)
<P>
<H3>
Local Symbols
</H3>
<P><STRONG><a name="[188]"></a>MX_GPIO_Init</STRONG> (Thumb, 190 bytes, Stack size 56 bytes, main.o(.text.MX_GPIO_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = MX_GPIO_Init &rArr; HAL_NVIC_SetPriority &rArr; NVIC_EncodePriority
</UL>
<BR>[Calls]<UL><LI><a href="#[127]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_EnableIRQ
<LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
<LI><a href="#[11e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_GPIO_Init
</UL>
<BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>

<P><STRONG><a name="[189]"></a>MX_TIM1_Init</STRONG> (Thumb, 300 bytes, Stack size 112 bytes, main.o(.text.MX_TIM1_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 220 + Unknown Stack Size
<LI>Call Chain = MX_TIM1_Init &rArr; HAL_TIM_MspPostInit &rArr; HAL_GPIO_Init
</UL>
<BR>[Calls]<UL><LI><a href="#[167]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_MspPostInit
<LI><a href="#[18c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_ConfigBreakDeadTime
<LI><a href="#[168]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_ConfigChannel
<LI><a href="#[18b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_MasterConfigSynchronization
<LI><a href="#[16f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_Init
<LI><a href="#[18a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Error_Handler
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>

<P><STRONG><a name="[18d]"></a>MX_USART2_UART_Init</STRONG> (Thumb, 72 bytes, Stack size 16 bytes, main.o(.text.MX_USART2_UART_Init))
<BR><BR>[Stack]<UL><LI>Max Depth = 160<LI>Call Chain = MX_USART2_UART_Init &rArr; HAL_UART_Init &rArr; UART_SetConfig &rArr; __aeabi_uldivmod
</UL>
<BR>[Calls]<UL><LI><a href="#[181]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Init
<LI><a href="#[18a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;Error_Handler
</UL>
<BR>[Called By]<UL><LI><a href="#[81]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;main
</UL>

<P><STRONG><a name="[a5]"></a>board_set_led</STRONG> (Thumb, 10 bytes, Stack size 4 bytes, ad_board.o(.text.board_set_led))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = board_set_led
</UL>
<BR>[Called By]<UL><LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Init
<LI><a href="#[1bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_toggle_led
<LI><a href="#[b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_led
</UL>

<P><STRONG><a name="[a6]"></a>board_adc_init</STRONG> (Thumb, 590 bytes, Stack size 24 bytes, ad_board.o(.text.board_adc_init))
<BR><BR>[Stack]<UL><LI>Max Depth = 128 + Unknown Stack Size
<LI>Call Chain = board_adc_init &rArr; board_adc_zero_calibrate &rArr; board_adc_read_channel_average &rArr; board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[1ab]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_zero_calibrate
<LI><a href="#[1aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;wait_bits_set
<LI><a href="#[1a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;wait_bits_clear
<LI><a href="#[1a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_stop_regular
<LI><a href="#[1a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_gpio_init
<LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_phase_shunt_resistance_ohm
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[b5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ResetAdcFaults
<LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Init
</UL>

<P><STRONG><a name="[a9]"></a>board_apply_command</STRONG> (Thumb, 216 bytes, Stack size 72 bytes, ad_board.o(.text.board_apply_command))
<BR><BR>[Stack]<UL><LI>Max Depth = 100 + Unknown Stack Size
<LI>Call Chain = board_apply_command &rArr; SimulinkInterface_SetCommand
</UL>
<BR>[Calls]<UL><LI><a href="#[1a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_SetCommand
<LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_StopParamTest
<LI><a href="#[b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_StartDataLogging
<LI><a href="#[a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Init
</UL>

<P><STRONG><a name="[a3]"></a>board_phase_shunt_resistance_ohm</STRONG> (Thumb, 20 bytes, Stack size 8 bytes, ad_board.o(.text.board_phase_shunt_resistance_ohm))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_normalize_phase_shunt_resistance
</UL>
<BR>[Called By]<UL><LI><a href="#[a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_GetPhaseShuntResistanceOhm
<LI><a href="#[19f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_current_a_per_v
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
</UL>

<P><STRONG><a name="[1a7]"></a>board_adc_gpio_init</STRONG> (Thumb, 124 bytes, Stack size 8 bytes, ad_board.o(.text.board_adc_gpio_init))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = board_adc_gpio_init
</UL>
<BR>[Called By]<UL><LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
</UL>

<P><STRONG><a name="[1a8]"></a>board_adc_stop_regular</STRONG> (Thumb, 116 bytes, Stack size 16 bytes, ad_board.o(.text.board_adc_stop_regular))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[1a9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;wait_bits_clear
</UL>
<BR>[Called By]<UL><LI><a href="#[1ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
</UL>

<P><STRONG><a name="[1a9]"></a>wait_bits_clear</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, ad_board.o(.text.wait_bits_clear))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = wait_bits_clear
</UL>
<BR>[Called By]<UL><LI><a href="#[1a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_stop_regular
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
</UL>

<P><STRONG><a name="[1aa]"></a>wait_bits_set</STRONG> (Thumb, 60 bytes, Stack size 16 bytes, ad_board.o(.text.wait_bits_set))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = wait_bits_set
</UL>
<BR>[Called By]<UL><LI><a href="#[1ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel
<LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
</UL>

<P><STRONG><a name="[1ab]"></a>board_adc_zero_calibrate</STRONG> (Thumb, 176 bytes, Stack size 24 bytes, ad_board.o(.text.board_adc_zero_calibrate))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = board_adc_zero_calibrate &rArr; board_adc_read_channel_average &rArr; board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[1b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;adc_raw_to_voltage
<LI><a href="#[1af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel_average
</UL>
<BR>[Called By]<UL><LI><a href="#[a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_init
</UL>

<P><STRONG><a name="[b1]"></a>board_adc_update_measurements</STRONG> (Thumb, 308 bytes, Stack size 24 bytes, ad_board.o(.text.board_adc_update_measurements))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = board_adc_update_measurements &rArr; board_adc_read_channel_average &rArr; board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[1b5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;adc_vdc_from_voltage
<LI><a href="#[19e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;adc_current_from_voltage
<LI><a href="#[1b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_mcu_temperature_filter
<LI><a href="#[1b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;adc_mcu_temperature_from_raw
<LI><a href="#[1b2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_vdc_filter
<LI><a href="#[1b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;adc_voltage_minus_offset
<LI><a href="#[1b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;adc_raw_to_voltage
<LI><a href="#[1af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel_average
<LI><a href="#[1ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel
</UL>
<BR>[Called By]<UL><LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ReadMeasurements
</UL>

<P><STRONG><a name="[b2]"></a>board_update_current_rms</STRONG> (Thumb, 364 bytes, Stack size 32 bytes, ad_board.o(.text.board_update_current_rms))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = board_update_current_rms &rArr; board_sqrtf
</UL>
<BR>[Calls]<UL><LI><a href="#[1bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_sqrtf
</UL>
<BR>[Called By]<UL><LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ReadMeasurements
</UL>

<P><STRONG><a name="[b3]"></a>board_update_torque_estimate</STRONG> (Thumb, 284 bytes, Stack size 32 bytes, ad_board.o(.text.board_update_torque_estimate))
<BR><BR>[Stack]<UL><LI>Max Depth = 152<LI>Call Chain = board_update_torque_estimate &rArr; board_electrical_torque_estimate &rArr; board_rms_torque_power_estimate &rArr; board_phase_voltage_rms_estimate &rArr; board_sqrtf
</UL>
<BR>[Calls]<UL><LI><a href="#[1c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_clamp_abs
<LI><a href="#[1b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_electrical_torque_estimate
<LI><a href="#[1ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_mechanical_torque_estimate
<LI><a href="#[1c2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_phase_voltage_estimate
</UL>
<BR>[Called By]<UL><LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ReadMeasurements
</UL>

<P><STRONG><a name="[b4]"></a>board_update_slip_measurement</STRONG> (Thumb, 192 bytes, Stack size 32 bytes, ad_board.o(.text.board_update_slip_measurement))
<BR><BR>[Stack]<UL><LI>Max Depth = 44<LI>Call Chain = board_update_slip_measurement &rArr; board_clamp_abs
</UL>
<BR>[Calls]<UL><LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
<LI><a href="#[ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_GetState
<LI><a href="#[1b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_absf
<LI><a href="#[1c1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_get_pole_pairs
<LI><a href="#[1c3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_clamp_abs
</UL>
<BR>[Called By]<UL><LI><a href="#[ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ReadMeasurements
</UL>

<P><STRONG><a name="[1ac]"></a>board_adc_read_channel</STRONG> (Thumb, 124 bytes, Stack size 16 bytes, ad_board.o(.text.board_adc_read_channel))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[1ae]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_note_success
<LI><a href="#[1ad]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_note_timeout
<LI><a href="#[1aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;wait_bits_set
<LI><a href="#[1a8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_stop_regular
</UL>
<BR>[Called By]<UL><LI><a href="#[1af]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel_average
<LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
</UL>

<P><STRONG><a name="[1af]"></a>board_adc_read_channel_average</STRONG> (Thumb, 110 bytes, Stack size 32 bytes, ad_board.o(.text.board_adc_read_channel_average))
<BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = board_adc_read_channel_average &rArr; board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[1ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
<LI><a href="#[1ab]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_zero_calibrate
</UL>

<P><STRONG><a name="[1b0]"></a>adc_raw_to_voltage</STRONG> (Thumb, 40 bytes, Stack size 4 bytes, ad_board.o(.text.adc_raw_to_voltage))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = adc_raw_to_voltage
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
<LI><a href="#[1ab]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_zero_calibrate
</UL>

<P><STRONG><a name="[1b1]"></a>adc_voltage_minus_offset</STRONG> (Thumb, 72 bytes, Stack size 12 bytes, ad_board.o(.text.adc_voltage_minus_offset))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = adc_voltage_minus_offset
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
</UL>

<P><STRONG><a name="[1b2]"></a>board_vdc_filter</STRONG> (Thumb, 158 bytes, Stack size 8 bytes, ad_board.o(.text.board_vdc_filter))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = board_vdc_filter
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
</UL>

<P><STRONG><a name="[1b3]"></a>adc_mcu_temperature_from_raw</STRONG> (Thumb, 240 bytes, Stack size 24 bytes, ad_board.o(.text.adc_mcu_temperature_from_raw))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = adc_mcu_temperature_from_raw
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
</UL>

<P><STRONG><a name="[1b4]"></a>board_mcu_temperature_filter</STRONG> (Thumb, 162 bytes, Stack size 8 bytes, ad_board.o(.text.board_mcu_temperature_filter))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = board_mcu_temperature_filter
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
</UL>

<P><STRONG><a name="[19e]"></a>adc_current_from_voltage</STRONG> (Thumb, 76 bytes, Stack size 24 bytes, ad_board.o(.text.adc_current_from_voltage))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = adc_current_from_voltage &rArr; board_current_a_per_v &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[19f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_current_a_per_v
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
</UL>

<P><STRONG><a name="[1b5]"></a>adc_vdc_from_voltage</STRONG> (Thumb, 268 bytes, Stack size 28 bytes, ad_board.o(.text.adc_vdc_from_voltage))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = adc_vdc_from_voltage
</UL>
<BR>[Called By]<UL><LI><a href="#[b1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_update_measurements
</UL>

<P><STRONG><a name="[1bd]"></a>board_sqrtf</STRONG> (Thumb, 164 bytes, Stack size 24 bytes, ad_board.o(.text.board_sqrtf))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = board_sqrtf
</UL>
<BR>[Called By]<UL><LI><a href="#[1bc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_phase_voltage_rms_estimate
<LI><a href="#[b2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_current_rms
</UL>

<P><STRONG><a name="[1c2]"></a>board_update_phase_voltage_estimate</STRONG> (Thumb, 168 bytes, Stack size 24 bytes, ad_board.o(.text.board_update_phase_voltage_estimate))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = board_update_phase_voltage_estimate
</UL>
<BR>[Calls]<UL><LI><a href="#[ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_GetState
</UL>
<BR>[Called By]<UL><LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_torque_estimate
</UL>

<P><STRONG><a name="[1ba]"></a>board_mechanical_torque_estimate</STRONG> (Thumb, 452 bytes, Stack size 48 bytes, ad_board.o(.text.board_mechanical_torque_estimate))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = board_mechanical_torque_estimate &rArr; board_absf
</UL>
<BR>[Calls]<UL><LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
<LI><a href="#[1bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_rpm_to_rad_s
<LI><a href="#[1b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_absf
</UL>
<BR>[Called By]<UL><LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_torque_estimate
</UL>

<P><STRONG><a name="[1b6]"></a>board_electrical_torque_estimate</STRONG> (Thumb, 444 bytes, Stack size 40 bytes, ad_board.o(.text.board_electrical_torque_estimate))
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = board_electrical_torque_estimate &rArr; board_rms_torque_power_estimate &rArr; board_phase_voltage_rms_estimate &rArr; board_sqrtf
</UL>
<BR>[Calls]<UL><LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
<LI><a href="#[1b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_rms_torque_power_estimate
<LI><a href="#[1b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_torque_omega_rad_s
<LI><a href="#[1b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_absf
</UL>
<BR>[Called By]<UL><LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_torque_estimate
</UL>

<P><STRONG><a name="[1c3]"></a>board_clamp_abs</STRONG> (Thumb, 110 bytes, Stack size 12 bytes, ad_board.o(.text.board_clamp_abs))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = board_clamp_abs
</UL>
<BR>[Called By]<UL><LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_slip_measurement
<LI><a href="#[b3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_torque_estimate
</UL>

<P><STRONG><a name="[1c1]"></a>board_get_pole_pairs</STRONG> (Thumb, 84 bytes, Stack size 8 bytes, ad_board.o(.text.board_get_pole_pairs))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = board_get_pole_pairs
</UL>
<BR>[Called By]<UL><LI><a href="#[1c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_torque_omega_from_pwm
<LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_slip_measurement
</UL>

<P><STRONG><a name="[1b8]"></a>board_absf</STRONG> (Thumb, 54 bytes, Stack size 8 bytes, ad_board.o(.text.board_absf))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = board_absf
</UL>
<BR>[Called By]<UL><LI><a href="#[1b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_rms_torque_power_estimate
<LI><a href="#[1b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_torque_omega_rad_s
<LI><a href="#[1b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_electrical_torque_estimate
<LI><a href="#[1ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_mechanical_torque_estimate
<LI><a href="#[b4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_slip_measurement
</UL>

<P><STRONG><a name="[b7]"></a>board_normalize_phase_shunt_resistance</STRONG> (Thumb, 112 bytes, Stack size 8 bytes, ad_board.o(.text.board_normalize_phase_shunt_resistance))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = board_normalize_phase_shunt_resistance
</UL>
<BR>[Called By]<UL><LI><a href="#[b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_SetPhaseShuntResistanceOhm
<LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_phase_shunt_resistance_ohm
</UL>

<P><STRONG><a name="[b0]"></a>board_update_led</STRONG> (Thumb, 136 bytes, Stack size 16 bytes, ad_board.o(.text.board_update_led))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = board_update_led &rArr; board_toggle_led &rArr; board_set_led
</UL>
<BR>[Calls]<UL><LI><a href="#[d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetStatus
<LI><a href="#[1bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_toggle_led
<LI><a href="#[a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_set_led
</UL>
<BR>[Called By]<UL><LI><a href="#[aa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_Loop
</UL>

<P><STRONG><a name="[1bf]"></a>board_toggle_led</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, ad_board.o(.text.board_toggle_led))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = board_toggle_led &rArr; board_set_led
</UL>
<BR>[Calls]<UL><LI><a href="#[a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_set_led
</UL>
<BR>[Called By]<UL><LI><a href="#[b0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_update_led
</UL>

<P><STRONG><a name="[1ad]"></a>board_adc_note_timeout</STRONG> (Thumb, 68 bytes, Stack size 0 bytes, ad_board.o(.text.board_adc_note_timeout))
<BR><BR>[Called By]<UL><LI><a href="#[1ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel
</UL>

<P><STRONG><a name="[1ae]"></a>board_adc_note_success</STRONG> (Thumb, 30 bytes, Stack size 0 bytes, ad_board.o(.text.board_adc_note_success))
<BR><BR>[Called By]<UL><LI><a href="#[1ac]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_adc_read_channel
</UL>

<P><STRONG><a name="[19f]"></a>board_current_a_per_v</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, ad_board.o(.text.board_current_a_per_v))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = board_current_a_per_v &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_phase_shunt_resistance_ohm
</UL>
<BR>[Called By]<UL><LI><a href="#[19e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;adc_current_from_voltage
</UL>

<P><STRONG><a name="[1bb]"></a>board_rpm_to_rad_s</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, ad_board.o(.text.board_rpm_to_rad_s))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = board_rpm_to_rad_s
</UL>
<BR>[Called By]<UL><LI><a href="#[1b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_torque_omega_rad_s
<LI><a href="#[1ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_mechanical_torque_estimate
</UL>

<P><STRONG><a name="[1b7]"></a>board_torque_omega_rad_s</STRONG> (Thumb, 118 bytes, Stack size 24 bytes, ad_board.o(.text.board_torque_omega_rad_s))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = board_torque_omega_rad_s &rArr; board_torque_omega_from_pwm &rArr; board_get_pole_pairs
</UL>
<BR>[Calls]<UL><LI><a href="#[1c0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_torque_omega_from_pwm
<LI><a href="#[1bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_rpm_to_rad_s
<LI><a href="#[1b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_absf
</UL>
<BR>[Called By]<UL><LI><a href="#[1b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_electrical_torque_estimate
</UL>

<P><STRONG><a name="[1b9]"></a>board_rms_torque_power_estimate</STRONG> (Thumb, 252 bytes, Stack size 32 bytes, ad_board.o(.text.board_rms_torque_power_estimate))
<BR><BR>[Stack]<UL><LI>Max Depth = 80<LI>Call Chain = board_rms_torque_power_estimate &rArr; board_phase_voltage_rms_estimate &rArr; board_sqrtf
</UL>
<BR>[Calls]<UL><LI><a href="#[1be]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_average_phase_current_rms
<LI><a href="#[1bc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_phase_voltage_rms_estimate
<LI><a href="#[1b8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_absf
</UL>
<BR>[Called By]<UL><LI><a href="#[1b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_electrical_torque_estimate
</UL>

<P><STRONG><a name="[1c0]"></a>board_torque_omega_from_pwm</STRONG> (Thumb, 120 bytes, Stack size 24 bytes, ad_board.o(.text.board_torque_omega_from_pwm))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = board_torque_omega_from_pwm &rArr; board_get_pole_pairs
</UL>
<BR>[Calls]<UL><LI><a href="#[ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_GetState
<LI><a href="#[1c1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_get_pole_pairs
</UL>
<BR>[Called By]<UL><LI><a href="#[1b7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_torque_omega_rad_s
</UL>

<P><STRONG><a name="[1bc]"></a>board_phase_voltage_rms_estimate</STRONG> (Thumb, 86 bytes, Stack size 24 bytes, ad_board.o(.text.board_phase_voltage_rms_estimate))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = board_phase_voltage_rms_estimate &rArr; board_sqrtf
</UL>
<BR>[Calls]<UL><LI><a href="#[1bd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_sqrtf
</UL>
<BR>[Called By]<UL><LI><a href="#[1b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_rms_torque_power_estimate
</UL>

<P><STRONG><a name="[1be]"></a>board_average_phase_current_rms</STRONG> (Thumb, 260 bytes, Stack size 20 bytes, ad_board.o(.text.board_average_phase_current_rms))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = board_average_phase_current_rms
</UL>
<BR>[Called By]<UL><LI><a href="#[1b9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;board_rms_torque_power_estimate
</UL>

<P><STRONG><a name="[e3]"></a>clamp01</STRONG> (Thumb, 70 bytes, Stack size 8 bytes, ad_inverter.o(.text.clamp01))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[1d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_configure_rotation_pwm
<LI><a href="#[1d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_six_step_sector
<LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[1ce]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_dc_vector
<LI><a href="#[20b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_apply_six_step
<LI><a href="#[e9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;duty_to_compare_inverted
<LI><a href="#[e4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;duty_to_compare
</UL>

<P><STRONG><a name="[e4]"></a>duty_to_compare</STRONG> (Thumb, 126 bytes, Stack size 24 bytes, ad_inverter.o(.text.duty_to_compare))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[e9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;duty_to_compare_inverted
</UL>

<P><STRONG><a name="[d8]"></a>rotation_pwm_stop</STRONG> (Thumb, 26 bytes, Stack size 0 bytes, ad_inverter.o(.text.rotation_pwm_stop))
<BR><BR>[Called By]<UL><LI><a href="#[1d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_configure_rotation_pwm
<LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
<LI><a href="#[173]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_service_update
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>

<P><STRONG><a name="[d9]"></a>inverter_disable_update_irq</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, ad_inverter.o(.text.inverter_disable_update_irq))
<BR><BR>[Called By]<UL><LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>

<P><STRONG><a name="[e0]"></a>inverter_write_pwm_polarity</STRONG> (Thumb, 104 bytes, Stack size 16 bytes, ad_inverter.o(.text.inverter_write_pwm_polarity))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = inverter_write_pwm_polarity
</UL>
<BR>[Called By]<UL><LI><a href="#[e5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetPwmPolarityFlags
<LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Init
</UL>

<P><STRONG><a name="[e1]"></a>inverter_write_pwm_timing</STRONG> (Thumb, 116 bytes, Stack size 12 bytes, ad_inverter.o(.text.inverter_write_pwm_timing))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = inverter_write_pwm_timing
</UL>
<BR>[Called By]<UL><LI><a href="#[e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetPwmTimingMode
<LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Init
</UL>

<P><STRONG><a name="[e2]"></a>id_runtime_reset</STRONG> (Thumb, 90 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_runtime_reset))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = id_runtime_reset
</UL>
<BR>[Calls]<UL><LI><a href="#[d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_stop
</UL>
<BR>[Called By]<UL><LI><a href="#[1d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_finish_auto_partial
<LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
<LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
<LI><a href="#[f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rotor
<LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
<LI><a href="#[a7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Init
</UL>

<P><STRONG><a name="[dc]"></a>inverter_clear_break_flags</STRONG> (Thumb, 34 bytes, Stack size 0 bytes, ad_inverter.o(.text.inverter_clear_break_flags))
<BR><BR>[Called By]<UL><LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
</UL>

<P><STRONG><a name="[df]"></a>inverter_enable_update_irq</STRONG> (Thumb, 28 bytes, Stack size 0 bytes, ad_inverter.o(.text.inverter_enable_update_irq))
<BR><BR>[Called By]<UL><LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
</UL>

<P><STRONG><a name="[e8]"></a>set_service_debug_duty</STRONG> (Thumb, 126 bytes, Stack size 12 bytes, ad_inverter.o(.text.set_service_debug_duty))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = set_service_debug_duty
</UL>
<BR>[Called By]<UL><LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
</UL>

<P><STRONG><a name="[e9]"></a>duty_to_compare_inverted</STRONG> (Thumb, 36 bytes, Stack size 16 bytes, ad_inverter.o(.text.duty_to_compare_inverted))
<BR><BR>[Stack]<UL><LI>Max Depth = 48<LI>Call Chain = duty_to_compare_inverted &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[e4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;duty_to_compare
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_StartPwmOutput
</UL>

<P><STRONG><a name="[173]"></a>rotation_pwm_service_update</STRONG> (Thumb, 564 bytes, Stack size 72 bytes, ad_inverter.o(.text.rotation_pwm_service_update))
<BR><BR>[Stack]<UL><LI>Max Depth = 176<LI>Call Chain = rotation_pwm_service_update &rArr; rotation_pwm_apply_six_step &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[1c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;cos_approx
<LI><a href="#[20b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_apply_six_step
<LI><a href="#[1c6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;wrap_angle
<LI><a href="#[20c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;slew_towards
<LI><a href="#[d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_stop
</UL>
<BR>[Called By]<UL><LI><a href="#[15e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PeriodElapsedCallback
</UL>

<P><STRONG><a name="[20c]"></a>slew_towards</STRONG> (Thumb, 180 bytes, Stack size 16 bytes, ad_inverter.o(.text.slew_towards))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = slew_towards
</UL>
<BR>[Called By]<UL><LI><a href="#[173]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_service_update
</UL>

<P><STRONG><a name="[1c6]"></a>wrap_angle</STRONG> (Thumb, 92 bytes, Stack size 4 bytes, ad_inverter.o(.text.wrap_angle))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = wrap_angle
</UL>
<BR>[Called By]<UL><LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[1c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;cos_approx
<LI><a href="#[173]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_service_update
</UL>

<P><STRONG><a name="[20b]"></a>rotation_pwm_apply_six_step</STRONG> (Thumb, 214 bytes, Stack size 40 bytes, ad_inverter.o(.text.rotation_pwm_apply_six_step))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = rotation_pwm_apply_six_step &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_SetDuty
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[173]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_service_update
</UL>

<P><STRONG><a name="[1c5]"></a>cos_approx</STRONG> (Thumb, 240 bytes, Stack size 24 bytes, ad_inverter.o(.text.cos_approx))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = cos_approx &rArr; cos_poly
</UL>
<BR>[Calls]<UL><LI><a href="#[1c7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;cos_poly
<LI><a href="#[1c6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;wrap_angle
</UL>
<BR>[Called By]<UL><LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[173]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_service_update
</UL>

<P><STRONG><a name="[f5]"></a>id_get_test_duty</STRONG> (Thumb, 112 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_get_test_duty))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = id_get_test_duty
</UL>
<BR>[Calls]<UL><LI><a href="#[1e0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetPwmDutyLimit
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
</UL>

<P><STRONG><a name="[f6]"></a>id_step_rs</STRONG> (Thumb, 424 bytes, Stack size 40 bytes, ad_inverter.o(.text.id_step_rs))
<BR><BR>[Stack]<UL><LI>Max Depth = 192<LI>Call Chain = id_step_rs &rArr; id_apply_dc_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_rs
<LI><a href="#[1e1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_a_current
<LI><a href="#[1d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[1ce]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_dc_vector
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
<LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
</UL>

<P><STRONG><a name="[f7]"></a>id_step_locked_rotor</STRONG> (Thumb, 254 bytes, Stack size 32 bytes, ad_inverter.o(.text.id_step_locked_rotor))
<BR><BR>[Stack]<UL><LI>Max Depth = 296<LI>Call Chain = id_step_locked_rotor &rArr; id_step_locked_rr &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
</UL>

<P><STRONG><a name="[f8]"></a>id_step_auto</STRONG> (Thumb, 630 bytes, Stack size 32 bytes, ad_inverter.o(.text.id_step_auto))
<BR><BR>[Stack]<UL><LI>Max Depth = 344<LI>Call Chain = id_step_auto &rArr; id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1e5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_MarkLockedRotorSkipped
<LI><a href="#[1e4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsLockedRotorAllowed
<LI><a href="#[1d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_finish_auto_partial
<LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
<LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
</UL>

<P><STRONG><a name="[f9]"></a>id_step_magnetizing</STRONG> (Thumb, 476 bytes, Stack size 56 bytes, ad_inverter.o(.text.id_step_magnetizing))
<BR><BR>[Stack]<UL><LI>Max Depth = 248<LI>Call Chain = id_step_magnetizing &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1ec]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_lm
<LI><a href="#[1e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_voltage_rms
<LI><a href="#[1e8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_average_vdc
<LI><a href="#[1d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_average_ac_current_rms
<LI><a href="#[1cc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_accumulate_ac_sample
<LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[1dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_no_load_frequency_hz
<LI><a href="#[1d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
<LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
</UL>

<P><STRONG><a name="[fa]"></a>id_step_inertia_friction</STRONG> (Thumb, 1180 bytes, Stack size 120 bytes, ad_inverter.o(.text.id_step_inertia_friction))
<BR><BR>[Stack]<UL><LI>Max Depth = 312<LI>Call Chain = id_step_inertia_friction &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1e9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_inertia_friction
<LI><a href="#[1e7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rpm_to_rad_s
<LI><a href="#[1d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;absf_local
<LI><a href="#[1db]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_inertia_frequency_hz
<LI><a href="#[1e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_voltage_rms
<LI><a href="#[1e8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_average_vdc
<LI><a href="#[1d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_average_ac_current_rms
<LI><a href="#[1cc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_accumulate_ac_sample
<LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[1d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
<LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
</UL>

<P><STRONG><a name="[fb]"></a>id_step_rotation_3hz</STRONG> (Thumb, 240 bytes, Stack size 40 bytes, ad_inverter.o(.text.id_step_rotation_3hz))
<BR><BR>[Stack]<UL><LI>Max Depth = 224<LI>Call Chain = id_step_rotation_3hz &rArr; id_configure_rotation_pwm &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1ee]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetRotationFrequencyHz
<LI><a href="#[1ed]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetMotorControlType
<LI><a href="#[1d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_configure_rotation_pwm
<LI><a href="#[1d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_six_step_sector
<LI><a href="#[1de]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_rotation_test_duty
<LI><a href="#[1d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_stop
</UL>
<BR>[Called By]<UL><LI><a href="#[f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareStep
</UL>

<P><STRONG><a name="[1ce]"></a>id_apply_dc_vector</STRONG> (Thumb, 94 bytes, Stack size 32 bytes, ad_inverter.o(.text.id_apply_dc_vector))
<BR><BR>[Stack]<UL><LI>Max Depth = 152<LI>Call Chain = id_apply_dc_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_ApplyCommand
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
</UL>

<P><STRONG><a name="[1d0]"></a>elapsed_us</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_inverter.o(.text.elapsed_us))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = elapsed_us
</UL>
<BR>[Called By]<UL><LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
<LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
</UL>

<P><STRONG><a name="[1e1]"></a>id_phase_a_current</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_phase_a_current))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = id_phase_a_current &rArr; absf_local
</UL>
<BR>[Calls]<UL><LI><a href="#[1d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;absf_local
</UL>
<BR>[Called By]<UL><LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
</UL>

<P><STRONG><a name="[1ef]"></a>id_store_rs</STRONG> (Thumb, 112 bytes, Stack size 72 bytes, ad_inverter.o(.text.id_store_rs))
<BR><BR>[Stack]<UL><LI>Max Depth = 100<LI>Call Chain = id_store_rs &rArr; AD_ParamID_SetParameters
</UL>
<BR>[Calls]<UL><LI><a href="#[1f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetParameters
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rs
</UL>

<P><STRONG><a name="[1e3]"></a>id_step_ls</STRONG> (Thumb, 432 bytes, Stack size 40 bytes, ad_inverter.o(.text.id_step_ls))
<BR><BR>[Stack]<UL><LI>Max Depth = 192<LI>Call Chain = id_step_ls &rArr; id_apply_dc_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_ls
<LI><a href="#[1d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;absf_local
<LI><a href="#[1e1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_a_current
<LI><a href="#[1d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[1ce]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_dc_vector
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
</UL>
<BR>[Called By]<UL><LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
<LI><a href="#[f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rotor
</UL>

<P><STRONG><a name="[1e6]"></a>id_step_locked_rr</STRONG> (Thumb, 628 bytes, Stack size 72 bytes, ad_inverter.o(.text.id_step_locked_rr))
<BR><BR>[Stack]<UL><LI>Max Depth = 264<LI>Call Chain = id_step_locked_rr &rArr; id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_rr
<LI><a href="#[1d3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;sqrtf_local
<LI><a href="#[1e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_voltage_rms
<LI><a href="#[1e8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_average_vdc
<LI><a href="#[1d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_average_ac_current_rms
<LI><a href="#[1cc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_accumulate_ac_sample
<LI><a href="#[1cf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_apply_rotating_vector
<LI><a href="#[1d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
<LI><a href="#[ba]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Disable
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
<LI><a href="#[f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rotor
</UL>

<P><STRONG><a name="[1d8]"></a>id_finish_auto_partial</STRONG> (Thumb, 70 bytes, Stack size 24 bytes, ad_inverter.o(.text.id_finish_auto_partial))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = id_finish_auto_partial &rArr; id_has_valid_parameters
</UL>
<BR>[Calls]<UL><LI><a href="#[1da]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_MarkPartialComplete
<LI><a href="#[fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_MarkStepFailed
<LI><a href="#[1d9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_has_valid_parameters
<LI><a href="#[e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_runtime_reset
</UL>
<BR>[Called By]<UL><LI><a href="#[f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_auto
</UL>

<P><STRONG><a name="[1dd]"></a>id_get_no_load_frequency_hz</STRONG> (Thumb, 78 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_get_no_load_frequency_hz))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = id_get_no_load_frequency_hz &rArr; id_get_nominal_frequency_hz
</UL>
<BR>[Calls]<UL><LI><a href="#[1dc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_nominal_frequency_hz
</UL>
<BR>[Called By]<UL><LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
</UL>

<P><STRONG><a name="[1cf]"></a>id_apply_rotating_vector</STRONG> (Thumb, 368 bytes, Stack size 72 bytes, ad_inverter.o(.text.id_apply_rotating_vector))
<BR><BR>[Stack]<UL><LI>Max Depth = 192<LI>Call Chain = id_apply_rotating_vector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_ApplyCommand
<LI><a href="#[1d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;elapsed_us
<LI><a href="#[1c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;cos_approx
<LI><a href="#[1c6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;wrap_angle
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
</UL>

<P><STRONG><a name="[1cc]"></a>id_accumulate_ac_sample</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_accumulate_ac_sample))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = id_accumulate_ac_sample &rArr; id_phase_current_sq
</UL>
<BR>[Calls]<UL><LI><a href="#[1cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_current_sq
</UL>
<BR>[Called By]<UL><LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
</UL>

<P><STRONG><a name="[1d2]"></a>id_average_ac_current_rms</STRONG> (Thumb, 66 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_average_ac_current_rms))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = id_average_ac_current_rms &rArr; sqrtf_local
</UL>
<BR>[Calls]<UL><LI><a href="#[1d3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;sqrtf_local
</UL>
<BR>[Called By]<UL><LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
</UL>

<P><STRONG><a name="[1e8]"></a>id_average_vdc</STRONG> (Thumb, 60 bytes, Stack size 4 bytes, ad_inverter.o(.text.id_average_vdc))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = id_average_vdc
</UL>
<BR>[Called By]<UL><LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
</UL>

<P><STRONG><a name="[1e2]"></a>id_phase_voltage_rms</STRONG> (Thumb, 40 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_phase_voltage_rms))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = id_phase_voltage_rms &rArr; absf_local
</UL>
<BR>[Calls]<UL><LI><a href="#[1d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;absf_local
</UL>
<BR>[Called By]<UL><LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
<LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
</UL>

<P><STRONG><a name="[1ec]"></a>id_store_lm</STRONG> (Thumb, 120 bytes, Stack size 80 bytes, ad_inverter.o(.text.id_store_lm))
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = id_store_lm &rArr; AD_ParamID_SetParameters
</UL>
<BR>[Calls]<UL><LI><a href="#[1f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetParameters
<LI><a href="#[1f1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_update_inductance_model
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_magnetizing
</UL>

<P><STRONG><a name="[1db]"></a>id_get_inertia_frequency_hz</STRONG> (Thumb, 88 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_get_inertia_frequency_hz))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = id_get_inertia_frequency_hz &rArr; id_get_nominal_frequency_hz
</UL>
<BR>[Calls]<UL><LI><a href="#[1dc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_nominal_frequency_hz
</UL>
<BR>[Called By]<UL><LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
</UL>

<P><STRONG><a name="[1d7]"></a>absf_local</STRONG> (Thumb, 54 bytes, Stack size 8 bytes, ad_inverter.o(.text.absf_local))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = absf_local
</UL>
<BR>[Called By]<UL><LI><a href="#[1d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_configure_rotation_pwm
<LI><a href="#[1e2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_voltage_rms
<LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
<LI><a href="#[1e1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_phase_a_current
<LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
</UL>

<P><STRONG><a name="[1e7]"></a>rpm_to_rad_s</STRONG> (Thumb, 24 bytes, Stack size 4 bytes, ad_inverter.o(.text.rpm_to_rad_s))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = rpm_to_rad_s
</UL>
<BR>[Called By]<UL><LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
</UL>

<P><STRONG><a name="[1e9]"></a>id_store_inertia_friction</STRONG> (Thumb, 120 bytes, Stack size 80 bytes, ad_inverter.o(.text.id_store_inertia_friction))
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = id_store_inertia_friction &rArr; AD_ParamID_SetParameters
</UL>
<BR>[Calls]<UL><LI><a href="#[1f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetParameters
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_inertia_friction
</UL>

<P><STRONG><a name="[1de]"></a>id_get_rotation_test_duty</STRONG> (Thumb, 36 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_get_rotation_test_duty))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = id_get_rotation_test_duty
</UL>
<BR>[Calls]<UL><LI><a href="#[1df]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetRotationModulation
</UL>
<BR>[Called By]<UL><LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
</UL>

<P><STRONG><a name="[1d1]"></a>id_apply_six_step_sector</STRONG> (Thumb, 216 bytes, Stack size 56 bytes, ad_inverter.o(.text.id_apply_six_step_sector))
<BR><BR>[Stack]<UL><LI>Max Depth = 176<LI>Call Chain = id_apply_six_step_sector &rArr; AD_Inverter_ApplyCommand &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_ApplyCommand
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
</UL>

<P><STRONG><a name="[1d4]"></a>id_configure_rotation_pwm</STRONG> (Thumb, 612 bytes, Stack size 80 bytes, ad_inverter.o(.text.id_configure_rotation_pwm))
<BR><BR>[Stack]<UL><LI>Max Depth = 184<LI>Call Chain = id_configure_rotation_pwm &rArr; AD_Inverter_Enable &rArr; HAL_TIM_PWM_Start &rArr; TIM_CCxChannelCmd
</UL>
<BR>[Calls]<UL><LI><a href="#[1d6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetRotationRampTimeMs
<LI><a href="#[d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_Enable
<LI><a href="#[1d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_get_pwm_update_dt_s
<LI><a href="#[1d7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;absf_local
<LI><a href="#[d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;rotation_pwm_stop
<LI><a href="#[e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp01
</UL>
<BR>[Called By]<UL><LI><a href="#[fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_rotation_3hz
</UL>

<P><STRONG><a name="[1c7]"></a>cos_poly</STRONG> (Thumb, 104 bytes, Stack size 16 bytes, ad_inverter.o(.text.cos_poly))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = cos_poly
</UL>
<BR>[Called By]<UL><LI><a href="#[1c5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;cos_approx
</UL>

<P><STRONG><a name="[1eb]"></a>id_store_ls</STRONG> (Thumb, 120 bytes, Stack size 80 bytes, ad_inverter.o(.text.id_store_ls))
<BR><BR>[Stack]<UL><LI>Max Depth = 108<LI>Call Chain = id_store_ls &rArr; AD_ParamID_SetParameters
</UL>
<BR>[Calls]<UL><LI><a href="#[1f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetParameters
<LI><a href="#[1f1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_update_inductance_model
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[1e3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_ls
</UL>

<P><STRONG><a name="[1d3]"></a>sqrtf_local</STRONG> (Thumb, 164 bytes, Stack size 24 bytes, ad_inverter.o(.text.sqrtf_local))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = sqrtf_local
</UL>
<BR>[Called By]<UL><LI><a href="#[1d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_average_ac_current_rms
<LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
</UL>

<P><STRONG><a name="[1ea]"></a>id_store_rr</STRONG> (Thumb, 112 bytes, Stack size 72 bytes, ad_inverter.o(.text.id_store_rr))
<BR><BR>[Stack]<UL><LI>Max Depth = 100<LI>Call Chain = id_store_rr &rArr; AD_ParamID_SetParameters
</UL>
<BR>[Calls]<UL><LI><a href="#[1f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetParameters
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[1e6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_step_locked_rr
</UL>

<P><STRONG><a name="[1f1]"></a>id_update_inductance_model</STRONG> (Thumb, 218 bytes, Stack size 12 bytes, ad_inverter.o(.text.id_update_inductance_model))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = id_update_inductance_model
</UL>
<BR>[Called By]<UL><LI><a href="#[1eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_ls
<LI><a href="#[1ec]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_store_lm
</UL>

<P><STRONG><a name="[1cd]"></a>id_phase_current_sq</STRONG> (Thumb, 50 bytes, Stack size 4 bytes, ad_inverter.o(.text.id_phase_current_sq))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = id_phase_current_sq
</UL>
<BR>[Called By]<UL><LI><a href="#[1cc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_accumulate_ac_sample
</UL>

<P><STRONG><a name="[1d9]"></a>id_has_valid_parameters</STRONG> (Thumb, 44 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_has_valid_parameters))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = id_has_valid_parameters
</UL>
<BR>[Calls]<UL><LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[1d8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_finish_auto_partial
</UL>

<P><STRONG><a name="[1dc]"></a>id_get_nominal_frequency_hz</STRONG> (Thumb, 64 bytes, Stack size 16 bytes, ad_inverter.o(.text.id_get_nominal_frequency_hz))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = id_get_nominal_frequency_hz
</UL>
<BR>[Calls]<UL><LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
</UL>
<BR>[Called By]<UL><LI><a href="#[1db]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_inertia_frequency_hz
<LI><a href="#[1dd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_get_no_load_frequency_hz
</UL>

<P><STRONG><a name="[1d5]"></a>inverter_get_pwm_update_dt_s</STRONG> (Thumb, 176 bytes, Stack size 32 bytes, ad_inverter.o(.text.inverter_get_pwm_update_dt_s))
<BR><BR>[Stack]<UL><LI>Max Depth = 56<LI>Call Chain = inverter_get_pwm_update_dt_s &rArr; inverter_get_tim1_clock_hz &rArr; HAL_RCC_GetPCLK2Freq
</UL>
<BR>[Calls]<UL><LI><a href="#[1f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_get_tim1_clock_hz
</UL>
<BR>[Called By]<UL><LI><a href="#[1d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;id_configure_rotation_pwm
</UL>

<P><STRONG><a name="[1f2]"></a>inverter_get_tim1_clock_hz</STRONG> (Thumb, 68 bytes, Stack size 16 bytes, ad_inverter.o(.text.inverter_get_tim1_clock_hz))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = inverter_get_tim1_clock_hz &rArr; HAL_RCC_GetPCLK2Freq
</UL>
<BR>[Calls]<UL><LI><a href="#[156]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_GetPCLK2Freq
</UL>
<BR>[Called By]<UL><LI><a href="#[1d5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;inverter_get_pwm_update_dt_s
</UL>

<P><STRONG><a name="[100]"></a>update_limit_status</STRONG> (Thumb, 86 bytes, Stack size 0 bytes, ad_parameter_identification.o(.text.update_limit_status))
<BR><BR>[Called By]<UL><LI><a href="#[101]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetSafetyLimits
<LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
<LI><a href="#[ff]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Reset
</UL>

<P><STRONG><a name="[104]"></a>mode_is_valid</STRONG> (Thumb, 228 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.mode_is_valid))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = mode_is_valid
</UL>
<BR>[Called By]<UL><LI><a href="#[103]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Start
</UL>

<P><STRONG><a name="[105]"></a>enter_data_logging_blocked</STRONG> (Thumb, 64 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.enter_data_logging_blocked))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = enter_data_logging_blocked &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[f3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_HardwareDisable
</UL>
<BR>[Called By]<UL><LI><a href="#[10d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepSlow
<LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
<LI><a href="#[103]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Start
</UL>

<P><STRONG><a name="[106]"></a>mode_requires_power</STRONG> (Thumb, 200 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.mode_requires_power))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = mode_requires_power
</UL>
<BR>[Called By]<UL><LI><a href="#[10d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepSlow
<LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
<LI><a href="#[103]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Start
</UL>

<P><STRONG><a name="[108]"></a>set_fault</STRONG> (Thumb, 54 bytes, Stack size 16 bytes, ad_parameter_identification.o(.text.set_fault))
<BR><BR>[Stack]<UL><LI>Max Depth = 120<LI>Call Chain = set_fault &rArr; AD_ParamID_Stop &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
</UL>
<BR>[Called By]<UL><LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
<LI><a href="#[10a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_safety_from_measurements
</UL>

<P><STRONG><a name="[109]"></a>update_phase_current_peaks</STRONG> (Thumb, 186 bytes, Stack size 24 bytes, ad_parameter_identification.o(.text.update_phase_current_peaks))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = update_phase_current_peaks &rArr; absf_local
</UL>
<BR>[Calls]<UL><LI><a href="#[210]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;absf_local
</UL>
<BR>[Called By]<UL><LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
</UL>

<P><STRONG><a name="[10a]"></a>update_safety_from_measurements</STRONG> (Thumb, 560 bytes, Stack size 16 bytes, ad_parameter_identification.o(.text.update_safety_from_measurements))
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = update_safety_from_measurements &rArr; set_fault &rArr; AD_ParamID_Stop &rArr; AD_ParamID_HardwareDisable &rArr; AD_Inverter_Disable &rArr; AD_Inverter_SetDuty &rArr; duty_to_compare &rArr; clamp01
</UL>
<BR>[Calls]<UL><LI><a href="#[210]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;absf_local
<LI><a href="#[108]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;set_fault
</UL>
<BR>[Called By]<UL><LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
</UL>

<P><STRONG><a name="[10b]"></a>mode_uses_test_timeout</STRONG> (Thumb, 56 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.mode_uses_test_timeout))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = mode_uses_test_timeout
</UL>
<BR>[Called By]<UL><LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
</UL>

<P><STRONG><a name="[10c]"></a>elapsed_us</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.elapsed_us))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = elapsed_us
</UL>
<BR>[Called By]<UL><LI><a href="#[107]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_StepFast
</UL>

<P><STRONG><a name="[210]"></a>absf_local</STRONG> (Thumb, 54 bytes, Stack size 8 bytes, ad_parameter_identification.o(.text.absf_local))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = absf_local
</UL>
<BR>[Called By]<UL><LI><a href="#[10a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_safety_from_measurements
<LI><a href="#[109]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_phase_current_peaks
</UL>

<P><STRONG><a name="[10f]"></a>project_update_state</STRONG> (Thumb, 86 bytes, Stack size 16 bytes, ad_project.o(.text.project_update_state))
<BR><BR>[Stack]<UL><LI>Max Depth = 52<LI>Call Chain = project_update_state &rArr; AD_BinaryTransport_GetState &rArr; update_status_flags &rArr; AD_CAN_Telemetry_GetState &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[8e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_GetState
<LI><a href="#[ce]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_GetState
<LI><a href="#[d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetFaults
<LI><a href="#[d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetStatus
<LI><a href="#[ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_GetState
</UL>
<BR>[Called By]<UL><LI><a href="#[110]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Loop
<LI><a href="#[10e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Project_Init
</UL>

<P><STRONG><a name="[18f]"></a>crc16_ccitt</STRONG> (Thumb, 140 bytes, Stack size 20 bytes, simulink_interface.o(.text.crc16_ccitt))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = crc16_ccitt
</UL>
<BR>[Called By]<UL><LI><a href="#[18e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_PackTelemetry
</UL>

<P><STRONG><a name="[f0]"></a>refresh_command_shadow</STRONG> (Thumb, 112 bytes, Stack size 32 bytes, ad_modbus.o(.text.refresh_command_shadow))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = refresh_command_shadow
</UL>
<BR>[Calls]<UL><LI><a href="#[d0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_GetOutputBus
</UL>
<BR>[Called By]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
<LI><a href="#[203]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_register
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
</UL>

<P><STRONG><a name="[f1]"></a>register_is_readable</STRONG> (Thumb, 148 bytes, Stack size 12 bytes, ad_modbus.o(.text.register_is_readable))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = register_is_readable
</UL>
<BR>[Called By]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
<LI><a href="#[1fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;range_is_readable
</UL>

<P><STRONG><a name="[f2]"></a>read_register_live</STRONG> (Thumb, 2104 bytes, Stack size 184 bytes, ad_modbus.o(.text.read_register_live))
<BR><BR>[Stack]<UL><LI>Max Depth = 208<LI>Call Chain = read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[209]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_GetTransport
<LI><a href="#[208]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_GetProtocol
<LI><a href="#[20a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;float_to_u32_scaled
<LI><a href="#[207]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;u32_hi
<LI><a href="#[206]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;u32_lo
<LI><a href="#[205]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;float_to_u16_scaled
<LI><a href="#[1ff]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetPolePairs
<LI><a href="#[d2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetFaults
<LI><a href="#[d3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetMode
<LI><a href="#[204]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetPhaseCurrentPeaks
<LI><a href="#[cc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetLastMeasurements
<LI><a href="#[d4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_IsPowerStageAllowed
<LI><a href="#[d1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetStatus
<LI><a href="#[a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_GetPhaseShuntResistanceOhm
<LI><a href="#[cd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetParameters
<LI><a href="#[ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Inverter_GetState
</UL>
<BR>[Called By]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
</UL>

<P><STRONG><a name="[205]"></a>float_to_u16_scaled</STRONG> (Thumb, 164 bytes, Stack size 16 bytes, ad_modbus.o(.text.float_to_u16_scaled))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = float_to_u16_scaled
</UL>
<BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[206]"></a>u32_lo</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, ad_modbus.o(.text.u32_lo))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = u32_lo
</UL>
<BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[207]"></a>u32_hi</STRONG> (Thumb, 12 bytes, Stack size 4 bytes, ad_modbus.o(.text.u32_hi))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = u32_hi
</UL>
<BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[20a]"></a>float_to_u32_scaled</STRONG> (Thumb, 104 bytes, Stack size 16 bytes, ad_modbus.o(.text.float_to_u32_scaled))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = float_to_u32_scaled
</UL>
<BR>[Called By]<UL><LI><a href="#[f2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register_live
</UL>

<P><STRONG><a name="[ec]"></a>set_default_command</STRONG> (Thumb, 106 bytes, Stack size 16 bytes, ad_modbus.o(.text.set_default_command))
<BR><BR>[Stack]<UL><LI>Max Depth = 16 + Unknown Stack Size
<LI>Call Chain = set_default_command
</UL>
<BR>[Calls]<UL><LI><a href="#[91]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memclr4
</UL>
<BR>[Called By]<UL><LI><a href="#[eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Init
</UL>

<P><STRONG><a name="[ed]"></a>restart_uart_rx</STRONG> (Thumb, 84 bytes, Stack size 8 bytes, ad_modbus.o(.text.restart_uart_rx))
<BR><BR>[Stack]<UL><LI>Max Depth = 72<LI>Call Chain = restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[174]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_ReceiveToIdle_IT
</UL>
<BR>[Called By]<UL><LI><a href="#[178]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_ErrorCallback
<LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
<LI><a href="#[eb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Init
</UL>

<P><STRONG><a name="[ef]"></a>process_frame</STRONG> (Thumb, 408 bytes, Stack size 40 bytes, ad_modbus.o(.text.process_frame))
<BR><BR>[Stack]<UL><LI>Max Depth = 392 + Unknown Stack Size
<LI>Call Chain = process_frame &rArr; process_write_single &rArr; write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[1f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_exception
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[1f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_single
<LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
<LI><a href="#[1f5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;normalize_register_address
<LI><a href="#[1f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_be16
<LI><a href="#[1f3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;crc16_modbus
</UL>
<BR>[Called By]<UL><LI><a href="#[ee]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_Loop
</UL>

<P><STRONG><a name="[1f3]"></a>crc16_modbus</STRONG> (Thumb, 150 bytes, Stack size 12 bytes, ad_modbus.o(.text.crc16_modbus))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = crc16_modbus
</UL>
<BR>[Called By]<UL><LI><a href="#[1fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_response
<LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
</UL>

<P><STRONG><a name="[1f4]"></a>read_be16</STRONG> (Thumb, 14 bytes, Stack size 4 bytes, ad_modbus.o(.text.read_be16))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = read_be16
</UL>
<BR>[Called By]<UL><LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[1f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_single
<LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
<LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
</UL>

<P><STRONG><a name="[1f5]"></a>normalize_register_address</STRONG> (Thumb, 68 bytes, Stack size 8 bytes, ad_modbus.o(.text.normalize_register_address))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = normalize_register_address
</UL>
<BR>[Called By]<UL><LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[1f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_single
<LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
<LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
</UL>

<P><STRONG><a name="[1f6]"></a>process_read_holding</STRONG> (Thumb, 236 bytes, Stack size 32 bytes, ad_modbus.o(.text.process_read_holding))
<BR><BR>[Stack]<UL><LI>Max Depth = 256<LI>Call Chain = process_read_holding &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
<LI><a href="#[1fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_response
<LI><a href="#[1fc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_be16
<LI><a href="#[1fb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_register
<LI><a href="#[1fa]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;range_is_readable
<LI><a href="#[1f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_exception
<LI><a href="#[1f5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;normalize_register_address
<LI><a href="#[1f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_be16
</UL>
<BR>[Called By]<UL><LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
</UL>

<P><STRONG><a name="[1f7]"></a>process_write_single</STRONG> (Thumb, 200 bytes, Stack size 24 bytes, ad_modbus.o(.text.process_write_single))
<BR><BR>[Stack]<UL><LI>Max Depth = 352 + Unknown Stack Size
<LI>Call Chain = process_write_single &rArr; write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[203]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_register
<LI><a href="#[202]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;register_is_writable
<LI><a href="#[1fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_response
<LI><a href="#[1f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_exception
<LI><a href="#[1f5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;normalize_register_address
<LI><a href="#[1f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_be16
</UL>
<BR>[Called By]<UL><LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
</UL>

<P><STRONG><a name="[1f8]"></a>process_write_multiple</STRONG> (Thumb, 630 bytes, Stack size 120 bytes, ad_modbus.o(.text.process_write_multiple))
<BR><BR>[Stack]<UL><LI>Max Depth = 344 + Unknown Stack Size
<LI>Call Chain = process_write_multiple &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
<LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
<LI><a href="#[201]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;stage_register_write
<LI><a href="#[200]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_effects_clear
<LI><a href="#[1fe]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;range_is_writable
<LI><a href="#[1fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_response
<LI><a href="#[1fc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_be16
<LI><a href="#[1f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_exception
<LI><a href="#[1f5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;normalize_register_address
<LI><a href="#[1f4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;read_be16
<LI><a href="#[f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;refresh_command_shadow
<LI><a href="#[1ff]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetPolePairs
</UL>
<BR>[Called By]<UL><LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
</UL>

<P><STRONG><a name="[1f9]"></a>send_exception</STRONG> (Thumb, 70 bytes, Stack size 16 bytes, ad_modbus.o(.text.send_exception))
<BR><BR>[Stack]<UL><LI>Max Depth = 128<LI>Call Chain = send_exception &rArr; send_response &rArr; HAL_UART_Transmit &rArr; UART_WaitOnFlagUntilTimeout &rArr; UART_EndRxTransfer
</UL>
<BR>[Calls]<UL><LI><a href="#[1fd]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_response
</UL>
<BR>[Called By]<UL><LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[1f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_single
<LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
<LI><a href="#[ef]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_frame
</UL>

<P><STRONG><a name="[1fa]"></a>range_is_readable</STRONG> (Thumb, 118 bytes, Stack size 16 bytes, ad_modbus.o(.text.range_is_readable))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = range_is_readable &rArr; register_is_readable
</UL>
<BR>[Calls]<UL><LI><a href="#[f1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;register_is_readable
</UL>
<BR>[Called By]<UL><LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
</UL>

<P><STRONG><a name="[1fb]"></a>read_register</STRONG> (Thumb, 54 bytes, Stack size 4 bytes, ad_modbus.o(.text.read_register))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = read_register
</UL>
<BR>[Called By]<UL><LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
</UL>

<P><STRONG><a name="[1fc]"></a>write_be16</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, ad_modbus.o(.text.write_be16))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = write_be16
</UL>
<BR>[Called By]<UL><LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
</UL>

<P><STRONG><a name="[1fd]"></a>send_response</STRONG> (Thumb, 130 bytes, Stack size 16 bytes, ad_modbus.o(.text.send_response))
<BR><BR>[Stack]<UL><LI>Max Depth = 112<LI>Call Chain = send_response &rArr; HAL_UART_Transmit &rArr; UART_WaitOnFlagUntilTimeout &rArr; UART_EndRxTransfer
</UL>
<BR>[Calls]<UL><LI><a href="#[186]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_Transmit
<LI><a href="#[1f3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;crc16_modbus
</UL>
<BR>[Called By]<UL><LI><a href="#[1f9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_exception
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
<LI><a href="#[1f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_single
<LI><a href="#[1f6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_read_holding
</UL>

<P><STRONG><a name="[202]"></a>register_is_writable</STRONG> (Thumb, 94 bytes, Stack size 8 bytes, ad_modbus.o(.text.register_is_writable))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = register_is_writable
</UL>
<BR>[Called By]<UL><LI><a href="#[1fe]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;range_is_writable
<LI><a href="#[1f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_single
</UL>

<P><STRONG><a name="[203]"></a>write_register</STRONG> (Thumb, 318 bytes, Stack size 104 bytes, ad_modbus.o(.text.write_register))
<BR><BR>[Stack]<UL><LI>Max Depth = 328 + Unknown Stack Size
<LI>Call Chain = write_register &rArr; AD_Modbus_RefreshRegisters &rArr; read_register_live &rArr; AD_Board_GetPhaseShuntResistanceOhm &rArr; board_phase_shunt_resistance_ohm &rArr; board_normalize_phase_shunt_resistance
</UL>
<BR>[Calls]<UL><LI><a href="#[ea]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Modbus_RefreshRegisters
<LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
<LI><a href="#[201]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;stage_register_write
<LI><a href="#[200]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_effects_clear
<LI><a href="#[f0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;refresh_command_shadow
<LI><a href="#[1ff]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_GetPolePairs
</UL>
<BR>[Called By]<UL><LI><a href="#[1f7]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_single
</UL>

<P><STRONG><a name="[1fe]"></a>range_is_writable</STRONG> (Thumb, 108 bytes, Stack size 16 bytes, ad_modbus.o(.text.range_is_writable))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = range_is_writable &rArr; register_is_writable
</UL>
<BR>[Calls]<UL><LI><a href="#[202]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;register_is_writable
</UL>
<BR>[Called By]<UL><LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
</UL>

<P><STRONG><a name="[200]"></a>write_effects_clear</STRONG> (Thumb, 30 bytes, Stack size 4 bytes, ad_modbus.o(.text.write_effects_clear))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = write_effects_clear
</UL>
<BR>[Called By]<UL><LI><a href="#[203]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_register
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
</UL>

<P><STRONG><a name="[201]"></a>stage_register_write</STRONG> (Thumb, 832 bytes, Stack size 32 bytes, ad_modbus.o(.text.stage_register_write))
<BR><BR>[Stack]<UL><LI>Max Depth = 40<LI>Call Chain = stage_register_write &rArr; AD_BinaryTransport_IsTransportValid
</UL>
<BR>[Calls]<UL><LI><a href="#[93]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_IsTransportValid
<LI><a href="#[92]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_IsProtocolValid
<LI><a href="#[20f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;clamp_rotation_frequency
<LI><a href="#[1a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;reg_to_float
<LI><a href="#[20e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;mode_is_valid
</UL>
<BR>[Called By]<UL><LI><a href="#[203]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_register
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
</UL>

<P><STRONG><a name="[1a2]"></a>apply_write_effects</STRONG> (Thumb, 184 bytes, Stack size 16 bytes, ad_modbus.o(.text.apply_write_effects))
<BR><BR>[Stack]<UL><LI>Max Depth = 152 + Unknown Stack Size
<LI>Call Chain = apply_write_effects &rArr; AD_Board_ResetAdcFaults &rArr; board_adc_init &rArr; board_adc_zero_calibrate &rArr; board_adc_read_channel_average &rArr; board_adc_read_channel &rArr; board_adc_stop_regular &rArr; wait_bits_clear
</UL>
<BR>[Calls]<UL><LI><a href="#[a0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_SetProtocol
<LI><a href="#[a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_SetTransport
<LI><a href="#[1a0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_command_shadow
<LI><a href="#[1a6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;reg_to_float
<LI><a href="#[1a5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetPolePairs
<LI><a href="#[1a4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_SetLockedRotorAllowed
<LI><a href="#[1a3]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_ResetPhaseCurrentPeaks
<LI><a href="#[ff]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Reset
<LI><a href="#[bb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_ParamID_Stop
<LI><a href="#[b6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_SetPhaseShuntResistanceOhm
<LI><a href="#[b5]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_Board_ResetAdcFaults
</UL>
<BR>[Called By]<UL><LI><a href="#[203]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;write_register
<LI><a href="#[1f8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;process_write_multiple
</UL>

<P><STRONG><a name="[20e]"></a>mode_is_valid</STRONG> (Thumb, 22 bytes, Stack size 4 bytes, ad_modbus.o(.text.mode_is_valid))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = mode_is_valid
</UL>
<BR>[Called By]<UL><LI><a href="#[201]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;stage_register_write
</UL>

<P><STRONG><a name="[1a6]"></a>reg_to_float</STRONG> (Thumb, 34 bytes, Stack size 8 bytes, ad_modbus.o(.text.reg_to_float))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = reg_to_float
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
<LI><a href="#[201]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;stage_register_write
</UL>

<P><STRONG><a name="[20f]"></a>clamp_rotation_frequency</STRONG> (Thumb, 108 bytes, Stack size 8 bytes, ad_modbus.o(.text.clamp_rotation_frequency))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = clamp_rotation_frequency
</UL>
<BR>[Called By]<UL><LI><a href="#[201]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;stage_register_write
</UL>

<P><STRONG><a name="[1a0]"></a>apply_command_shadow</STRONG> (Thumb, 16 bytes, Stack size 8 bytes, ad_modbus.o(.text.apply_command_shadow))
<BR><BR>[Stack]<UL><LI>Max Depth = 36<LI>Call Chain = apply_command_shadow &rArr; SimulinkInterface_SetCommand
</UL>
<BR>[Calls]<UL><LI><a href="#[1a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SimulinkInterface_SetCommand
</UL>
<BR>[Called By]<UL><LI><a href="#[1a2]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;apply_write_effects
</UL>

<P><STRONG><a name="[8f]"></a>update_status_flags</STRONG> (Thumb, 202 bytes, Stack size 16 bytes, ad_binary_transport.o(.text.update_status_flags))
<BR><BR>[Stack]<UL><LI>Max Depth = 28<LI>Call Chain = update_status_flags &rArr; AD_CAN_Telemetry_GetState &rArr; update_status_flags
</UL>
<BR>[Calls]<UL><LI><a href="#[214]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_IsStarted
<LI><a href="#[213]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_IsTxBusy
<LI><a href="#[212]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_IsTxBusy
<LI><a href="#[211]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_IsConfigured
<LI><a href="#[bc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_GetState
<LI><a href="#[111]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_GetState
</UL>
<BR>[Called By]<UL><LI><a href="#[a0]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_SetProtocol
<LI><a href="#[a1]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_SetTransport
<LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
<LI><a href="#[8e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_GetState
<LI><a href="#[90]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Init
</UL>

<P><STRONG><a name="[9c]"></a>transport_uses_usb</STRONG> (Thumb, 52 bytes, Stack size 4 bytes, ad_binary_transport.o(.text.transport_uses_usb))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = transport_uses_usb
</UL>
<BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[9e]"></a>transport_uses_can</STRONG> (Thumb, 54 bytes, Stack size 4 bytes, ad_binary_transport.o(.text.transport_uses_can))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = transport_uses_can
</UL>
<BR>[Called By]<UL><LI><a href="#[96]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_BinaryTransport_Loop
</UL>

<P><STRONG><a name="[112]"></a>update_status_flags</STRONG> (Thumb, 150 bytes, Stack size 4 bytes, ad_usb_cdc.o(.text.update_status_flags))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[12d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataInStageCallback
<LI><a href="#[141]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_ResetCallback
<LI><a href="#[14f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_stall
<LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
<LI><a href="#[9d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_WritePacket
<LI><a href="#[97]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Loop
<LI><a href="#[94]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_Init
<LI><a href="#[111]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_USB_CDC_GetState
</UL>

<P><STRONG><a name="[14c]"></a>parse_setup</STRONG> (Thumb, 76 bytes, Stack size 12 bytes, ad_usb_cdc.o(.text.parse_setup))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = parse_setup
</UL>
<BR>[Called By]<UL><LI><a href="#[14b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetupStageCallback
</UL>

<P><STRONG><a name="[14d]"></a>handle_standard_request</STRONG> (Thumb, 306 bytes, Stack size 24 bytes, ad_usb_cdc.o(.text.handle_standard_request))
<BR><BR>[Stack]<UL><LI>Max Depth = 324<LI>Call Chain = handle_standard_request &rArr; send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[1c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;close_cdc_endpoints
<LI><a href="#[1cb]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;open_cdc_endpoints
<LI><a href="#[130]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send_zlp
<LI><a href="#[1ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_string_descriptor
<LI><a href="#[1c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send
<LI><a href="#[14f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_stall
<LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[14b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetupStageCallback
</UL>

<P><STRONG><a name="[14e]"></a>handle_class_request</STRONG> (Thumb, 154 bytes, Stack size 16 bytes, ad_usb_cdc.o(.text.handle_class_request))
<BR><BR>[Stack]<UL><LI>Max Depth = 292<LI>Call Chain = handle_class_request &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[132]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Receive
<LI><a href="#[130]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send_zlp
<LI><a href="#[1c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send
<LI><a href="#[14f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_stall
</UL>
<BR>[Called By]<UL><LI><a href="#[14b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetupStageCallback
</UL>

<P><STRONG><a name="[14f]"></a>ep0_stall</STRONG> (Thumb, 52 bytes, Stack size 16 bytes, ad_usb_cdc.o(.text.ep0_stall))
<BR><BR>[Stack]<UL><LI>Max Depth = 52<LI>Call Chain = ep0_stall &rArr; HAL_PCD_EP_SetStall &rArr; USB_EPSetStall
</UL>
<BR>[Calls]<UL><LI><a href="#[13d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_SetStall
<LI><a href="#[112]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[14b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetupStageCallback
<LI><a href="#[1ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_string_descriptor
<LI><a href="#[14e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_class_request
<LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
</UL>

<P><STRONG><a name="[1c8]"></a>ep0_send</STRONG> (Thumb, 112 bytes, Stack size 24 bytes, ad_usb_cdc.o(.text.ep0_send))
<BR><BR>[Stack]<UL><LI>Max Depth = 276<LI>Call Chain = ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[119]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Transmit
<LI><a href="#[1c9]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;min_u16
<LI><a href="#[c4]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__aeabi_memcpy
</UL>
<BR>[Called By]<UL><LI><a href="#[1ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_string_descriptor
<LI><a href="#[14e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_class_request
<LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
</UL>

<P><STRONG><a name="[1ca]"></a>send_string_descriptor</STRONG> (Thumb, 156 bytes, Stack size 24 bytes, ad_usb_cdc.o(.text.send_string_descriptor))
<BR><BR>[Stack]<UL><LI>Max Depth = 300<LI>Call Chain = send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[20d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;make_string_descriptor
<LI><a href="#[1c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send
<LI><a href="#[14f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_stall
</UL>
<BR>[Called By]<UL><LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
</UL>

<P><STRONG><a name="[130]"></a>ep0_send_zlp</STRONG> (Thumb, 28 bytes, Stack size 8 bytes, ad_usb_cdc.o(.text.ep0_send_zlp))
<BR><BR>[Stack]<UL><LI>Max Depth = 260<LI>Call Chain = ep0_send_zlp &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[119]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Transmit
</UL>
<BR>[Called By]<UL><LI><a href="#[12f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataOutStageCallback
<LI><a href="#[14e]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_class_request
<LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
</UL>

<P><STRONG><a name="[1cb]"></a>open_cdc_endpoints</STRONG> (Thumb, 76 bytes, Stack size 24 bytes, ad_usb_cdc.o(.text.open_cdc_endpoints))
<BR><BR>[Stack]<UL><LI>Max Depth = 276<LI>Call Chain = open_cdc_endpoints &rArr; HAL_PCD_EP_Receive &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[13a]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Open
<LI><a href="#[132]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Receive
</UL>
<BR>[Called By]<UL><LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
</UL>

<P><STRONG><a name="[1c4]"></a>close_cdc_endpoints</STRONG> (Thumb, 40 bytes, Stack size 16 bytes, ad_usb_cdc.o(.text.close_cdc_endpoints))
<BR><BR>[Stack]<UL><LI>Max Depth = 88<LI>Call Chain = close_cdc_endpoints &rArr; HAL_PCD_EP_Close &rArr; USB_DeactivateEndpoint
</UL>
<BR>[Calls]<UL><LI><a href="#[134]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_Close
</UL>
<BR>[Called By]<UL><LI><a href="#[14d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;handle_standard_request
</UL>

<P><STRONG><a name="[1c9]"></a>min_u16</STRONG> (Thumb, 48 bytes, Stack size 8 bytes, ad_usb_cdc.o(.text.min_u16))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = min_u16
</UL>
<BR>[Called By]<UL><LI><a href="#[1c8]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;ep0_send
</UL>

<P><STRONG><a name="[20d]"></a>make_string_descriptor</STRONG> (Thumb, 172 bytes, Stack size 12 bytes, ad_usb_cdc.o(.text.make_string_descriptor))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = make_string_descriptor
</UL>
<BR>[Called By]<UL><LI><a href="#[1ca]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;send_string_descriptor
</UL>

<P><STRONG><a name="[bd]"></a>update_status_flags</STRONG> (Thumb, 150 bytes, Stack size 4 bytes, ad_can_telemetry.o(.text.update_status_flags))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = update_status_flags
</UL>
<BR>[Called By]<UL><LI><a href="#[9f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_QueuePacket
<LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
<LI><a href="#[95]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Init
<LI><a href="#[bc]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_GetState
</UL>

<P><STRONG><a name="[c5]"></a>can_dlc_from_len</STRONG> (Thumb, 92 bytes, Stack size 12 bytes, ad_can_telemetry.o(.text.can_dlc_from_len))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = can_dlc_from_len
</UL>
<BR>[Called By]<UL><LI><a href="#[98]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;AD_CAN_Telemetry_Loop
</UL>

<P><STRONG><a name="[169]"></a>TIM_OC1_SetConfig</STRONG> (Thumb, 372 bytes, Stack size 20 bytes, stm32g4xx_hal_tim.o(.text.TIM_OC1_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = TIM_OC1_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[168]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_ConfigChannel
</UL>

<P><STRONG><a name="[16b]"></a>TIM_OC3_SetConfig</STRONG> (Thumb, 398 bytes, Stack size 20 bytes, stm32g4xx_hal_tim.o(.text.TIM_OC3_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = TIM_OC3_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[168]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_ConfigChannel
</UL>

<P><STRONG><a name="[16c]"></a>TIM_OC4_SetConfig</STRONG> (Thumb, 400 bytes, Stack size 20 bytes, stm32g4xx_hal_tim.o(.text.TIM_OC4_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = TIM_OC4_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[168]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_ConfigChannel
</UL>

<P><STRONG><a name="[16d]"></a>TIM_OC5_SetConfig</STRONG> (Thumb, 226 bytes, Stack size 20 bytes, stm32g4xx_hal_tim.o(.text.TIM_OC5_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = TIM_OC5_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[168]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_ConfigChannel
</UL>

<P><STRONG><a name="[16e]"></a>TIM_OC6_SetConfig</STRONG> (Thumb, 228 bytes, Stack size 20 bytes, stm32g4xx_hal_tim.o(.text.TIM_OC6_SetConfig))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = TIM_OC6_SetConfig
</UL>
<BR>[Called By]<UL><LI><a href="#[168]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIM_PWM_ConfigChannel
</UL>

<P><STRONG><a name="[159]"></a>TIM_CCxNChannelCmd</STRONG> (Thumb, 54 bytes, Stack size 16 bytes, stm32g4xx_hal_tim_ex.o(.text.TIM_CCxNChannelCmd))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = TIM_CCxNChannelCmd
</UL>
<BR>[Called By]<UL><LI><a href="#[de]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_PWMN_Start
<LI><a href="#[da]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_TIMEx_PWMN_Stop
</UL>

<P><STRONG><a name="[17a]"></a>UART_EndRxTransfer</STRONG> (Thumb, 158 bytes, Stack size 16 bytes, stm32g4xx_hal_uart.o(.text.UART_EndRxTransfer))
<BR><BR>[Stack]<UL><LI>Max Depth = 16<LI>Call Chain = UART_EndRxTransfer
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
<LI><a href="#[187]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;UART_WaitOnFlagUntilTimeout
</UL>

<P><STRONG><a name="[74]"></a>UART_RxISR_16BIT_FIFOEN</STRONG> (Thumb, 776 bytes, Stack size 64 bytes, stm32g4xx_hal_uart.o(.text.UART_RxISR_16BIT_FIFOEN))
<BR><BR>[Stack]<UL><LI>Max Depth = 160<LI>Call Chain = UART_RxISR_16BIT_FIFOEN &rArr; HAL_UARTEx_RxEventCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[178]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_ErrorCallback
<LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
<LI><a href="#[19c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_RxCpltCallback
</UL>
<BR>[Address Reference Count : 1]<UL><LI> stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
</UL>
<P><STRONG><a name="[75]"></a>UART_RxISR_8BIT_FIFOEN</STRONG> (Thumb, 772 bytes, Stack size 64 bytes, stm32g4xx_hal_uart.o(.text.UART_RxISR_8BIT_FIFOEN))
<BR><BR>[Stack]<UL><LI>Max Depth = 160<LI>Call Chain = UART_RxISR_8BIT_FIFOEN &rArr; HAL_UARTEx_RxEventCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[178]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_ErrorCallback
<LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
<LI><a href="#[19c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_RxCpltCallback
</UL>
<BR>[Address Reference Count : 1]<UL><LI> stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
</UL>
<P><STRONG><a name="[72]"></a>UART_RxISR_16BIT</STRONG> (Thumb, 388 bytes, Stack size 40 bytes, stm32g4xx_hal_uart.o(.text.UART_RxISR_16BIT))
<BR><BR>[Stack]<UL><LI>Max Depth = 136<LI>Call Chain = UART_RxISR_16BIT &rArr; HAL_UARTEx_RxEventCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
<LI><a href="#[19c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_RxCpltCallback
</UL>
<BR>[Address Reference Count : 2]<UL><LI> stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
<LI> stm32g4xx_hal_uart.o(.text.UART_RxISR_16BIT_FIFOEN)
</UL>
<P><STRONG><a name="[73]"></a>UART_RxISR_8BIT</STRONG> (Thumb, 384 bytes, Stack size 32 bytes, stm32g4xx_hal_uart.o(.text.UART_RxISR_8BIT))
<BR><BR>[Stack]<UL><LI>Max Depth = 128<LI>Call Chain = UART_RxISR_8BIT &rArr; HAL_UARTEx_RxEventCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[176]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UARTEx_RxEventCallback
<LI><a href="#[19c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_RxCpltCallback
</UL>
<BR>[Address Reference Count : 2]<UL><LI> stm32g4xx_hal_uart.o(.text.UART_Start_Receive_IT)
<LI> stm32g4xx_hal_uart.o(.text.UART_RxISR_8BIT_FIFOEN)
</UL>
<P><STRONG><a name="[71]"></a>UART_DMAAbortOnError</STRONG> (Thumb, 30 bytes, Stack size 16 bytes, stm32g4xx_hal_uart.o(.text.UART_DMAAbortOnError))
<BR><BR>[Stack]<UL><LI>Max Depth = 104<LI>Call Chain = UART_DMAAbortOnError &rArr; HAL_UART_ErrorCallback &rArr; restart_uart_rx &rArr; HAL_UARTEx_ReceiveToIdle_IT &rArr; UART_Start_Receive_IT
</UL>
<BR>[Calls]<UL><LI><a href="#[178]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_ErrorCallback
</UL>
<BR>[Address Reference Count : 1]<UL><LI> stm32g4xx_hal_uart.o(.text.HAL_UART_IRQHandler)
</UL>
<P><STRONG><a name="[17e]"></a>UART_EndTransmit_IT</STRONG> (Thumb, 68 bytes, Stack size 16 bytes, stm32g4xx_hal_uart.o(.text.UART_EndTransmit_IT))
<BR><BR>[Stack]<UL><LI>Max Depth = 20<LI>Call Chain = UART_EndTransmit_IT &rArr; HAL_UART_TxCpltCallback
</UL>
<BR>[Calls]<UL><LI><a href="#[19b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_TxCpltCallback
</UL>
<BR>[Called By]<UL><LI><a href="#[179]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_UART_IRQHandler
</UL>

<P><STRONG><a name="[11d]"></a>FDCAN_CalcultateRamBlockAddresses</STRONG> (Thumb, 214 bytes, Stack size 12 bytes, stm32g4xx_hal_fdcan.o(.text.FDCAN_CalcultateRamBlockAddresses))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = FDCAN_CalcultateRamBlockAddresses
</UL>
<BR>[Called By]<UL><LI><a href="#[bf]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_Init
</UL>

<P><STRONG><a name="[11b]"></a>FDCAN_CopyMessageToRAM</STRONG> (Thumb, 182 bytes, Stack size 32 bytes, stm32g4xx_hal_fdcan.o(.text.FDCAN_CopyMessageToRAM))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = FDCAN_CopyMessageToRAM
</UL>
<BR>[Called By]<UL><LI><a href="#[c6]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_FDCAN_AddMessageToTxFifoQ
</UL>

<P><STRONG><a name="[140]"></a>PCD_EP_ISR_Handler</STRONG> (Thumb, 1616 bytes, Stack size 80 bytes, stm32g4xx_hal_pcd.o(.text.PCD_EP_ISR_Handler))
<BR><BR>[Stack]<UL><LI>Max Depth = 428<LI>Call Chain = PCD_EP_ISR_Handler &rArr; HAL_PCD_SetupStageCallback &rArr; handle_standard_request &rArr; send_string_descriptor &rArr; ep0_send &rArr; HAL_PCD_EP_Transmit &rArr; USB_EPStartXfer &rArr; USB_WritePMA
</UL>
<BR>[Calls]<UL><LI><a href="#[12f]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataOutStageCallback
<LI><a href="#[12d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataInStageCallback
<LI><a href="#[14b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_SetupStageCallback
<LI><a href="#[13c]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_EPStartXfer
<LI><a href="#[137]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_ReadPMA
<LI><a href="#[138]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_DB_Transmit
<LI><a href="#[136]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_EP_DB_Receive
</UL>
<BR>[Called By]<UL><LI><a href="#[114]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_IRQHandler
</UL>

<P><STRONG><a name="[136]"></a>HAL_PCD_EP_DB_Receive</STRONG> (Thumb, 504 bytes, Stack size 32 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_DB_Receive))
<BR><BR>[Stack]<UL><LI>Max Depth = 68<LI>Call Chain = HAL_PCD_EP_DB_Receive &rArr; USB_ReadPMA
</UL>
<BR>[Calls]<UL><LI><a href="#[137]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_ReadPMA
</UL>
<BR>[Called By]<UL><LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>

<P><STRONG><a name="[138]"></a>HAL_PCD_EP_DB_Transmit</STRONG> (Thumb, 2030 bytes, Stack size 176 bytes, stm32g4xx_hal_pcd.o(.text.HAL_PCD_EP_DB_Transmit))
<BR><BR>[Stack]<UL><LI>Max Depth = 224<LI>Call Chain = HAL_PCD_EP_DB_Transmit &rArr; HAL_PCD_DataInStageCallback &rArr; HAL_PCD_SetAddress &rArr; USB_SetDevAddress
</UL>
<BR>[Calls]<UL><LI><a href="#[12d]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_PCD_DataInStageCallback
<LI><a href="#[139]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;USB_WritePMA
</UL>
<BR>[Called By]<UL><LI><a href="#[140]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;PCD_EP_ISR_Handler
</UL>

<P><STRONG><a name="[152]"></a>RCC_GetSysClockFreqFromPLLSource</STRONG> (Thumb, 156 bytes, Stack size 24 bytes, stm32g4xx_hal_rcc.o(.text.RCC_GetSysClockFreqFromPLLSource))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = RCC_GetSysClockFreqFromPLLSource
</UL>
<BR>[Called By]<UL><LI><a href="#[151]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_RCC_ClockConfig
</UL>

<P><STRONG><a name="[12c]"></a>__NVIC_SetPriorityGrouping</STRONG> (Thumb, 60 bytes, Stack size 12 bytes, stm32g4xx_hal_cortex.o(.text.__NVIC_SetPriorityGrouping))
<BR><BR>[Stack]<UL><LI>Max Depth = 12<LI>Call Chain = __NVIC_SetPriorityGrouping
</UL>
<BR>[Called By]<UL><LI><a href="#[121]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriorityGrouping
</UL>

<P><STRONG><a name="[129]"></a>__NVIC_GetPriorityGrouping</STRONG> (Thumb, 16 bytes, Stack size 0 bytes, stm32g4xx_hal_cortex.o(.text.__NVIC_GetPriorityGrouping))
<BR><BR>[Called By]<UL><LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
</UL>

<P><STRONG><a name="[12a]"></a>NVIC_EncodePriority</STRONG> (Thumb, 108 bytes, Stack size 32 bytes, stm32g4xx_hal_cortex.o(.text.NVIC_EncodePriority))
<BR><BR>[Stack]<UL><LI>Max Depth = 32<LI>Call Chain = NVIC_EncodePriority
</UL>
<BR>[Called By]<UL><LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
</UL>

<P><STRONG><a name="[12b]"></a>__NVIC_SetPriority</STRONG> (Thumb, 66 bytes, Stack size 8 bytes, stm32g4xx_hal_cortex.o(.text.__NVIC_SetPriority))
<BR><BR>[Stack]<UL><LI>Max Depth = 8<LI>Call Chain = __NVIC_SetPriority
</UL>
<BR>[Called By]<UL><LI><a href="#[125]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_SetPriority
<LI><a href="#[158]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;SysTick_Config
</UL>

<P><STRONG><a name="[128]"></a>__NVIC_EnableIRQ</STRONG> (Thumb, 48 bytes, Stack size 4 bytes, stm32g4xx_hal_cortex.o(.text.__NVIC_EnableIRQ))
<BR><BR>[Stack]<UL><LI>Max Depth = 4<LI>Call Chain = __NVIC_EnableIRQ
</UL>
<BR>[Called By]<UL><LI><a href="#[127]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_NVIC_EnableIRQ
</UL>

<P><STRONG><a name="[158]"></a>SysTick_Config</STRONG> (Thumb, 82 bytes, Stack size 16 bytes, stm32g4xx_hal_cortex.o(.text.SysTick_Config))
<BR><BR>[Stack]<UL><LI>Max Depth = 24<LI>Call Chain = SysTick_Config &rArr; __NVIC_SetPriority
</UL>
<BR>[Calls]<UL><LI><a href="#[12b]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;__NVIC_SetPriority
</UL>
<BR>[Called By]<UL><LI><a href="#[124]">&gt;&gt;</a>&nbsp;&nbsp;&nbsp;HAL_SYSTICK_Config
</UL>
<P>
<H3>
Undefined Global Symbols
</H3><HR></body></html>