Fix after rebase

2025-07-20 14:55:21 +03:00 · 2016-10-15 16:25:01 +03:00 · 2016-10-15 16:25:01 +03:00 · 33b67e860d
commit 33b67e860d
parent b6263d0109
5 changed files with 146 additions and 184 deletions
--- a/src/main/drivers/pwm_output_hal.c
+++ b/src/main/drivers/pwm_output_hal.c
@ -23,34 +23,20 @@

 #include "io.h"
 #include "timer.h"
-#include "pwm_mapping.h"
 #include "pwm_output.h"

 #define MULTISHOT_5US_PW    (MULTISHOT_TIMER_MHZ * 5)
 #define MULTISHOT_20US_MULT (MULTISHOT_TIMER_MHZ * 20 / 1000.0f)

-
-typedef void (*pwmWriteFuncPtr)(uint8_t index, uint16_t value);  // function pointer used to write motors
-
-typedef struct {
-    volatile timCCR_t *ccr;
-    TIM_TypeDef *tim;
-    uint16_t period;
-    pwmWriteFuncPtr pwmWritePtr;
-} pwmOutputPort_t;
-
-static pwmOutputPort_t pwmOutputPorts[MAX_PWM_OUTPUT_PORTS];
-
-static pwmOutputPort_t *motors[MAX_PWM_MOTORS];
+static pwmOutputPort_t motors[MAX_SUPPORTED_MOTORS];

 #ifdef USE_SERVOS
-static pwmOutputPort_t *servos[MAX_PWM_SERVOS];
+static pwmOutputPort_t servos[MAX_SUPPORTED_SERVOS];
 #endif

-static uint8_t allocatedOutputPortCount = 0;
-
 static bool pwmMotorsEnabled = true;
-static void pwmOCConfig(TIM_TypeDef *tim, uint32_t channel, uint16_t value)
+
+static void pwmOCConfig(TIM_TypeDef *tim, uint8_t channel, uint16_t value, uint8_t output)
 {
    TIM_HandleTypeDef* Handle = timerFindTimerHandle(tim);
    if(Handle == NULL) return;
@ -69,19 +55,14 @@ static void pwmOCConfig(TIM_TypeDef *tim, uint32_t channel, uint16_t value)
    //HAL_TIM_PWM_Start(Handle, channel);
 }

-static pwmOutputPort_t *pwmOutConfig(const timerHardware_t *timerHardware, uint8_t mhz, uint16_t period, uint16_t value)
+static void pwmOutConfig(pwmOutputPort_t *port, const timerHardware_t *timerHardware, uint8_t mhz, uint16_t period, uint16_t value)
 {
-    pwmOutputPort_t *p = &pwmOutputPorts[allocatedOutputPortCount++];
    TIM_HandleTypeDef* Handle = timerFindTimerHandle(timerHardware->tim);
-    if(Handle == NULL) return p;
+    if(Handle == NULL) return;

    configTimeBase(timerHardware->tim, period, mhz);
+    pwmOCConfig(timerHardware->tim, timerHardware->channel, value, timerHardware->output);

-    const IO_t io = IOGetByTag(timerHardware->tag);
-    IOInit(io, OWNER_MOTOR, RESOURCE_OUTPUT, allocatedOutputPortCount);
-    IOConfigGPIOAF(io, IOCFG_AF_PP, timerHardware->alternateFunction);
-
-    pwmOCConfig(timerHardware->tim, timerHardware->channel, value);
    if (timerHardware->output & TIMER_OUTPUT_ENABLED) {
        HAL_TIM_PWM_Start(Handle, timerHardware->channel);
    } else {
@ -91,55 +72,53 @@ static pwmOutputPort_t *pwmOutConfig(const timerHardware_t *timerHardware, uint8

    switch (timerHardware->channel) {
    case TIM_CHANNEL_1:
-            p->ccr = &timerHardware->tim->CCR1;
+        port->ccr = &timerHardware->tim->CCR1;
        break;
    case TIM_CHANNEL_2:
-            p->ccr = &timerHardware->tim->CCR2;
+        port->ccr = &timerHardware->tim->CCR2;
        break;
    case TIM_CHANNEL_3:
-            p->ccr = &timerHardware->tim->CCR3;
+        port->ccr = &timerHardware->tim->CCR3;
        break;
    case TIM_CHANNEL_4:
-            p->ccr = &timerHardware->tim->CCR4;
+        port->ccr = &timerHardware->tim->CCR4;
        break;
    }
-    p->period = period;
-    p->tim = timerHardware->tim;
+    port->period = period;
+    port->tim = timerHardware->tim;

-    *p->ccr = 0;
-   
-    return p;
+    *port->ccr = 0;
 }

 static void pwmWriteBrushed(uint8_t index, uint16_t value)
 {
-    *motors[index]->ccr = (value - 1000) * motors[index]->period / 1000;
+    *motors[index].ccr = (value - 1000) * motors[index].period / 1000;
 }

 static void pwmWriteStandard(uint8_t index, uint16_t value)
 {
-    *motors[index]->ccr = value;
+    *motors[index].ccr = value;
 }

 static void pwmWriteOneShot125(uint8_t index, uint16_t value)
 {
-    *motors[index]->ccr = lrintf((float)(value * ONESHOT125_TIMER_MHZ/8.0f));
+    *motors[index].ccr = lrintf((float)(value * ONESHOT125_TIMER_MHZ/8.0f));
 }

 static void pwmWriteOneShot42(uint8_t index, uint16_t value)
 {
-    *motors[index]->ccr = lrintf((float)(value * ONESHOT42_TIMER_MHZ/24.0f));
+    *motors[index].ccr = lrintf((float)(value * ONESHOT42_TIMER_MHZ/24.0f));
 }

 static void pwmWriteMultiShot(uint8_t index, uint16_t value)
 {
-    *motors[index]->ccr = lrintf(((float)(value-1000) * MULTISHOT_20US_MULT) + MULTISHOT_5US_PW);
+    *motors[index].ccr = lrintf(((float)(value-1000) * MULTISHOT_20US_MULT) + MULTISHOT_5US_PW);
 }

 void pwmWriteMotor(uint8_t index, uint16_t value)
 {
-    if (motors[index] && index < MAX_MOTORS && pwmMotorsEnabled) {
-        motors[index]->pwmWritePtr(index, value);
+    if (index < MAX_SUPPORTED_MOTORS && pwmMotorsEnabled && motors[index].pwmWritePtr) {
+        motors[index].pwmWritePtr(index, value);
    }
 }

@ -147,7 +126,7 @@ void pwmShutdownPulsesForAllMotors(uint8_t motorCount)
 {
    for (int index = 0; index < motorCount; index++) {
        // Set the compare register to 0, which stops the output pulsing if the timer overflows
-        *motors[index]->ccr = 0;
+        *motors[index].ccr = 0;
    }
 }

@ -167,40 +146,27 @@ void pwmCompleteOneshotMotorUpdate(uint8_t motorCount)
        bool overflowed = false;
        // If we have not already overflowed this timer
        for (int j = 0; j < index; j++) {
-            if (motors[j]->tim == motors[index]->tim) {
+            if (motors[j].tim == motors[index].tim) {
                overflowed = true;
                break;
            }
        }
        if (!overflowed) {
-            timerForceOverflow(motors[index]->tim);
+            timerForceOverflow(motors[index].tim);
        }
        // Set the compare register to 0, which stops the output pulsing if the timer overflows before the main loop completes again.
        // This compare register will be set to the output value on the next main loop.
-        *motors[index]->ccr = 0;
+        *motors[index].ccr = 0;
    }
 }

-void pwmBrushedMotorConfig(const timerHardware_t *timerHardware, uint8_t motorIndex, uint16_t motorPwmRate)
-{
-    const uint32_t hz = PWM_BRUSHED_TIMER_MHZ * 1000000;
-    motors[motorIndex] = pwmOutConfig(timerHardware, PWM_BRUSHED_TIMER_MHZ, hz / motorPwmRate, 0);
-    motors[motorIndex]->pwmWritePtr = pwmWriteBrushed;
-}
-
-void pwmBrushlessMotorConfig(const timerHardware_t *timerHardware, uint8_t motorIndex, uint16_t motorPwmRate, uint16_t idlePulse)
-{
-    const uint32_t hz = PWM_TIMER_MHZ * 1000000;
-    motors[motorIndex] = pwmOutConfig(timerHardware, PWM_TIMER_MHZ, hz / motorPwmRate, idlePulse);
-    motors[motorIndex]->pwmWritePtr = pwmWriteStandard;
-}
-
-void pwmFastPwmMotorConfig(const timerHardware_t *timerHardware, uint8_t motorIndex, uint16_t motorPwmRate, uint16_t idlePulse, uint8_t fastPwmProtocolType)
+void motorInit(const motorConfig_t *motorConfig, uint16_t idlePulse, uint8_t motorCount)
 {
    uint32_t timerMhzCounter;
    pwmWriteFuncPtr pwmWritePtr;
+    bool useUnsyncedPwm = motorConfig->useUnsyncedPwm;

-    switch (fastPwmProtocolType) {
+    switch (motorConfig->motorPwmProtocol) {
    default:
    case (PWM_TYPE_ONESHOT125):
        timerMhzCounter = ONESHOT125_TIMER_MHZ;
@ -214,27 +180,89 @@ void pwmFastPwmMotorConfig(const timerHardware_t *timerHardware, uint8_t motorIn
        timerMhzCounter = MULTISHOT_TIMER_MHZ;
        pwmWritePtr = pwmWriteMultiShot;
        break;
+    case (PWM_TYPE_BRUSHED):
+        timerMhzCounter = PWM_BRUSHED_TIMER_MHZ;
+        pwmWritePtr = pwmWriteBrushed;
+        useUnsyncedPwm = true;
+        idlePulse = 0;
+        break;
+    case (PWM_TYPE_STANDARD):
+        timerMhzCounter = PWM_TIMER_MHZ;
+        pwmWritePtr = pwmWriteStandard;
+        useUnsyncedPwm = true;
+        idlePulse = 0;
+        break;
    }

-    if (motorPwmRate > 0) {
-        const uint32_t hz = timerMhzCounter * 1000000;
-        motors[motorIndex] = pwmOutConfig(timerHardware, timerMhzCounter, hz / motorPwmRate, idlePulse);
-    } else {
-        motors[motorIndex] = pwmOutConfig(timerHardware, timerMhzCounter, 0xFFFF, 0);
+    for (int motorIndex = 0; motorIndex < MAX_SUPPORTED_MOTORS && motorIndex < motorCount; motorIndex++) {
+        const ioTag_t tag = motorConfig->ioTags[motorIndex];
+        
+        if (!tag) {
+            break;
        }
-    motors[motorIndex]->pwmWritePtr = pwmWritePtr;
+
+        motors[motorIndex].io = IOGetByTag(tag);
+        
+        IOInit(motors[motorIndex].io, OWNER_MOTOR, RESOURCE_OUTPUT, RESOURCE_INDEX(motorIndex));
+        
+        const timerHardware_t *timer = timerGetByTag(tag, TIMER_OUTPUT_ENABLED);
+
+        IOConfigGPIOAF(motors[motorIndex].io, IOCFG_AF_PP, timer->alternateFunction);
+        
+        if (timer == NULL) {
+            /* flag failure and disable ability to arm */
+            break;
+        }
+        
+        motors[motorIndex].pwmWritePtr = pwmWritePtr;
+        if (useUnsyncedPwm) {
+            const uint32_t hz = timerMhzCounter * 1000000;
+            pwmOutConfig(&motors[motorIndex], timer, timerMhzCounter, hz / motorConfig->motorPwmProtocol, idlePulse);
+        } else {
+            pwmOutConfig(&motors[motorIndex], timer, timerMhzCounter, 0xFFFF, 0);
+        }
+        motors[motorIndex].enabled = true;
+    }
+}
+
+pwmOutputPort_t *pwmGetMotors()
+{
+    return motors;
 }

 #ifdef USE_SERVOS
-void pwmServoConfig(const timerHardware_t *timerHardware, uint8_t servoIndex, uint16_t servoPwmRate, uint16_t servoCenterPulse)
-{
-    servos[servoIndex] = pwmOutConfig(timerHardware, PWM_TIMER_MHZ, 1000000 / servoPwmRate, servoCenterPulse);
-}
-
 void pwmWriteServo(uint8_t index, uint16_t value)
 {
-    if (servos[index] && index < MAX_SERVOS) {
-        *servos[index]->ccr = value;
+    if (index < MAX_SUPPORTED_SERVOS && servos[index].ccr) {
+        *servos[index].ccr = value;
    }
 }
+
+void servoInit(const servoConfig_t *servoConfig)
+{
+    for (uint8_t servoIndex = 0; servoIndex < MAX_SUPPORTED_SERVOS; servoIndex++) {
+        const ioTag_t tag = servoConfig->ioTags[servoIndex];
+        
+        if (!tag) {
+            break;
+        }
+        
+        servos[servoIndex].io = IOGetByTag(tag);
+        
+        IOInit(servos[servoIndex].io, OWNER_SERVO, RESOURCE_OUTPUT, RESOURCE_INDEX(servoIndex));
+        
+        const timerHardware_t *timer = timerGetByTag(tag, TIMER_OUTPUT_ENABLED);
+        
+        IOConfigGPIOAF(servos[servoIndex].io, IOCFG_AF_PP, timer->alternateFunction);
+
+        if (timer == NULL) {
+            /* flag failure and disable ability to arm */
+            break;
+        }
+        
+        pwmOutConfig(&servos[servoIndex], timer, PWM_TIMER_MHZ, 1000000 / servoConfig->servoPwmRate, servoConfig->servoCenterPulse);
+        servos[servoIndex].enabled = true;
+    }
+}
+
 #endif
--- a/src/main/drivers/serial_uart_hal.c
+++ b/src/main/drivers/serial_uart_hal.c
@ -221,7 +221,7 @@ serialPort_t *uartOpen(USART_TypeDef *USARTx, serialReceiveCallbackPtr callback,
    s->port.rxBufferHead = s->port.rxBufferTail = 0;
    s->port.txBufferHead = s->port.txBufferTail = 0;
    // callback works for IRQ-based RX ONLY
-    s->port.callback = callback;
+    s->port.rxCallback = callback;
    s->port.mode = mode;
    s->port.baudRate = baudRate;
    s->port.options = options;
--- a/src/main/drivers/serial_uart_stm32f7xx.c
+++ b/src/main/drivers/serial_uart_stm32f7xx.c
@ -303,8 +303,8 @@ void uartIrqHandler(uartPort_t *s)
    {
        uint8_t rbyte = (uint8_t)(huart->Instance->RDR & (uint8_t)0xff);

-        if (s->port.callback) {
-            s->port.callback(rbyte);
+        if (s->port.rxCallback) {
+            s->port.rxCallback(rbyte);
        } else {
            s->port.rxBuffer[s->port.rxBufferHead] = rbyte;
            s->port.rxBufferHead = (s->port.rxBufferHead + 1) % s->port.rxBufferSize;
--- a/src/main/drivers/timer_hal.c
+++ b/src/main/drivers/timer_hal.c
@ -867,3 +867,18 @@ void timerForceOverflow(TIM_TypeDef *tim)
        tim->EGR |= TIM_EGR_UG;
    }
 }
+
+const timerHardware_t *timerGetByTag(ioTag_t tag, timerFlag_e flag)
+{
+    for (uint8_t i = 0; i < USABLE_TIMER_CHANNEL_COUNT; i++) {
+        if (timerHardware[i].tag == tag) {
+            if (flag && (timerHardware[i].output & flag) == flag) {
+                return &timerHardware[i];
+            } else if (!flag && timerHardware[i].output == flag) {
+                // TODO: shift flag by one so not to be 0
+                return &timerHardware[i];
+            }
+        }
+    }
+    return NULL;
+}
--- a/src/main/target/ANYFCF7/target.c
+++ b/src/main/target/ANYFCF7/target.c
@ -19,108 +19,27 @@

 #include <platform.h>
 #include "drivers/io.h"
-#include "drivers/pwm_mapping.h"
+
 #include "drivers/timer.h"

-const uint16_t multiPPM[] = {
-    PWM1  | (MAP_TO_PPM_INPUT << 8),     // PPM input
-    PWM16 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM12 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM11 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM7  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM8  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM9  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM10 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM13 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM14 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM15 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM2  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM3  | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM4  | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM5  | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM6  | (MAP_TO_SERVO_OUTPUT << 8),
-    0xFFFF
-};
-
-const uint16_t multiPWM[] = {
-    PWM1  | (MAP_TO_PWM_INPUT << 8),     // input #1
-    PWM2  | (MAP_TO_PWM_INPUT << 8),
-    PWM3  | (MAP_TO_PWM_INPUT << 8),
-    PWM4  | (MAP_TO_PWM_INPUT << 8),
-    PWM5  | (MAP_TO_PWM_INPUT << 8),
-    PWM6  | (MAP_TO_PWM_INPUT << 8),     // input #6
-    PWM16 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM12 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM11 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM7  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM8  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM9  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM10 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM13 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM14 | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM15 | (MAP_TO_MOTOR_OUTPUT << 8),
-    0xFFFF
-};
-
-const uint16_t airPPM[] = {
-    PWM1  | (MAP_TO_PPM_INPUT << 8),     // PPM input
-    PWM7  | (MAP_TO_MOTOR_OUTPUT << 8), // motor #1
-    PWM8  | (MAP_TO_MOTOR_OUTPUT << 8), // motor #2
-    PWM16 | (MAP_TO_SERVO_OUTPUT << 8), // servo #1
-    PWM12 | (MAP_TO_SERVO_OUTPUT << 8), // servo #2
-    PWM11 | (MAP_TO_SERVO_OUTPUT << 8), // servo #3
-    PWM9  | (MAP_TO_SERVO_OUTPUT << 8), // servo #4
-    PWM10 | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM13 | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM14 | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM15 | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM2  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM3  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM4  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM5  | (MAP_TO_MOTOR_OUTPUT << 8),
-    PWM6  | (MAP_TO_MOTOR_OUTPUT << 8),
-    0xFFFF
-};
-
-const uint16_t airPWM[] = {
-    PWM1  | (MAP_TO_PWM_INPUT << 8),    // input #1
-    PWM2  | (MAP_TO_PWM_INPUT << 8),
-    PWM3  | (MAP_TO_PWM_INPUT << 8),
-    PWM4  | (MAP_TO_PWM_INPUT << 8),
-    PWM5  | (MAP_TO_PWM_INPUT << 8),
-    PWM6  | (MAP_TO_PWM_INPUT << 8),    // input #6
-    PWM7  | (MAP_TO_MOTOR_OUTPUT << 8), // motor #1
-    PWM8  | (MAP_TO_MOTOR_OUTPUT << 8), // motor #2
-    PWM16 | (MAP_TO_SERVO_OUTPUT << 8), // servo #1
-    PWM12 | (MAP_TO_SERVO_OUTPUT << 8), // servo #2
-    PWM11 | (MAP_TO_SERVO_OUTPUT << 8), // servo #3
-    PWM9  | (MAP_TO_SERVO_OUTPUT << 8), // servo #4
-    PWM10 | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM13 | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM14 | (MAP_TO_SERVO_OUTPUT << 8),
-    PWM15 | (MAP_TO_SERVO_OUTPUT << 8),
-    0xFFFF
-};
-
-
 const timerHardware_t timerHardware[USABLE_TIMER_CHANNEL_COUNT] = {
-    { TIM12, IO_TAG(PB14), TIM_CHANNEL_1, TIM8_BRK_TIM12_IRQn, 0, IOCFG_IPD,      GPIO_AF9_TIM12 }, // S1_IN
-    { TIM12, IO_TAG(PB15), TIM_CHANNEL_2, TIM8_BRK_TIM12_IRQn, 0, IOCFG_IPD,      GPIO_AF9_TIM12 }, // S2_IN
-    { TIM8,  IO_TAG(PC6),  TIM_CHANNEL_1, TIM8_CC_IRQn,        0, IOCFG_IPD,      GPIO_AF3_TIM8  }, // S3_IN
-    { TIM8,  IO_TAG(PC7),  TIM_CHANNEL_2, TIM8_CC_IRQn,        0, IOCFG_IPD,      GPIO_AF3_TIM8  }, // S4_IN
-    { TIM8,  IO_TAG(PC9),  TIM_CHANNEL_4, TIM8_CC_IRQn,        0, IOCFG_IPD,      GPIO_AF3_TIM8  }, // S5_IN
-    { TIM8,  IO_TAG(PC8),  TIM_CHANNEL_3, TIM8_CC_IRQn,        0, IOCFG_IPD,      GPIO_AF3_TIM8  }, // S6_IN
+    { TIM12, IO_TAG(PB14), TIM_CHANNEL_1, TIM8_BRK_TIM12_IRQn, 0, IOCFG_AF_PP, GPIO_AF9_TIM12 }, // S1_IN
+    { TIM12, IO_TAG(PB15), TIM_CHANNEL_2, TIM8_BRK_TIM12_IRQn, 0, IOCFG_AF_PP, GPIO_AF9_TIM12 }, // S2_IN
+    { TIM8,  IO_TAG(PC6),  TIM_CHANNEL_1, TIM8_CC_IRQn,        0, IOCFG_AF_PP, GPIO_AF3_TIM8  }, // S3_IN
+    { TIM8,  IO_TAG(PC7),  TIM_CHANNEL_2, TIM8_CC_IRQn,        0, IOCFG_AF_PP, GPIO_AF3_TIM8  }, // S4_IN
+    { TIM8,  IO_TAG(PC9),  TIM_CHANNEL_4, TIM8_CC_IRQn,        0, IOCFG_AF_PP, GPIO_AF3_TIM8  }, // S5_IN
+    { TIM8,  IO_TAG(PC8),  TIM_CHANNEL_3, TIM8_CC_IRQn,        0, IOCFG_AF_PP, GPIO_AF3_TIM8  }, // S6_IN

-    { TIM2,  IO_TAG(PA3),  TIM_CHANNEL_4, TIM2_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF1_TIM2 }, // S1_OUT
-    { TIM5,  IO_TAG(PA1),  TIM_CHANNEL_2, TIM5_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF2_TIM5 }, // S2_OUT
-    { TIM9,  IO_TAG(PE6),  TIM_CHANNEL_2, TIM1_BRK_TIM9_IRQn,  1, IOCFG_AF_PP_PD, GPIO_AF3_TIM9 }, // S3_OUT
-    { TIM3,  IO_TAG(PB5),  TIM_CHANNEL_2, TIM3_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF2_TIM3 }, // S4_OUT
-    { TIM4,  IO_TAG(PB9),  TIM_CHANNEL_4, TIM4_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF2_TIM4 }, // S5_OUT
-    { TIM2,  IO_TAG(PA2),  TIM_CHANNEL_3, TIM2_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF1_TIM2 }, // S6_OUT
-    { TIM5,  IO_TAG(PA0),  TIM_CHANNEL_1, TIM5_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF2_TIM5 }, // S7_OUT
-    { TIM2,  IO_TAG(PB3),  TIM_CHANNEL_2, TIM2_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF1_TIM2 }, // S8_OUT
-    { TIM3,  IO_TAG(PB4),  TIM_CHANNEL_1, TIM3_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF2_TIM3 }, // S9_OUT
-    { TIM4,  IO_TAG(PB8),  TIM_CHANNEL_3, TIM4_IRQn,           1, IOCFG_AF_PP_PD, GPIO_AF2_TIM4 }, // S10_OUT
+    { TIM4,  IO_TAG(PB8),  TIM_CHANNEL_3, TIM4_IRQn,           1, IOCFG_AF_PP, GPIO_AF2_TIM4 }, // S10_OUT 1
+    { TIM2,  IO_TAG(PA2),  TIM_CHANNEL_3, TIM2_IRQn,           1, IOCFG_AF_PP, GPIO_AF1_TIM2 }, // S6_OUT  2
+    { TIM4,  IO_TAG(PB9),  TIM_CHANNEL_4, TIM4_IRQn,           1, IOCFG_AF_PP, GPIO_AF2_TIM4 }, // S5_OUT  3
+    { TIM2,  IO_TAG(PA3),  TIM_CHANNEL_4, TIM2_IRQn,           1, IOCFG_AF_PP, GPIO_AF1_TIM2 }, // S1_OUT  4
+    { TIM5,  IO_TAG(PA1),  TIM_CHANNEL_2, TIM5_IRQn,           1, IOCFG_AF_PP, GPIO_AF2_TIM5 }, // S2_OUT
+    { TIM9,  IO_TAG(PE6),  TIM_CHANNEL_2, TIM1_BRK_TIM9_IRQn,  1, IOCFG_AF_PP, GPIO_AF3_TIM9 }, // S3_OUT
+    { TIM3,  IO_TAG(PB5),  TIM_CHANNEL_2, TIM3_IRQn,           1, IOCFG_AF_PP, GPIO_AF2_TIM3 }, // S4_OUT
+    { TIM5,  IO_TAG(PA0),  TIM_CHANNEL_1, TIM5_IRQn,           1, IOCFG_AF_PP, GPIO_AF2_TIM5 }, // S7_OUT
+    { TIM2,  IO_TAG(PB3),  TIM_CHANNEL_2, TIM2_IRQn,           1, IOCFG_AF_PP, GPIO_AF1_TIM2 }, // S8_OUT
+    { TIM3,  IO_TAG(PB4),  TIM_CHANNEL_1, TIM3_IRQn,           1, IOCFG_AF_PP, GPIO_AF2_TIM3 }, // S9_OUT
 };

 // ALTERNATE LAYOUT