解决有卡顿的问题,添加正弦加减速功能

曲线加速过程可以接受,但是减速过程效果很差
通过提升优化等级改变了对堆栈的访问,解决了导致硬件错误中断的问题
--- a/.vscode/settings.json
+++ b/.vscode/settings.json
@@ -0,0 +1,17 @@
 {
    "files.associations": {
        "usart.h": "c",
        "modbus_log.h": "c",
        "ucos_ii.h": "c",
        "app_cfg.h": "c",
        "tim.h": "c",
        "tool.h": "c",
        "main.h": "c",
        "ctype.h": "c",
        "math.h": "c",
        "stm32f4xx_hal.h": "c",
        "stm32f4xx_hal_conf.h": "c",
        "intrinsics.h": "c",
        "gpio.h": "c"
    }
 }
--- a/PLSR/PLSR/Core/Inc/flash_save.h
+++ b/PLSR/PLSR/Core/Inc/flash_save.h
@@ -0,0 +1,161 @@
 #ifndef FLASH_SAVE_H
 #define FLASH_SAVE_H

 #include "stm32f4xx_hal.h"
 #include <stdint.h>

 // 实际需要的寄存器数量（优化内存使用）
 #define MODBUS_ACTUAL_REG_COUNT     76      // 实际使用的寄存器数量

 // Modbus 地址宏定义
 // 基本配置参数地址 (0x1000-0x100C)
 #define MODBUS_ADDR_PULSE_OUTPUT_PIN        0x1000  // 脉冲发送端子
 #define MODBUS_ADDR_DIRECTION_OUTPUT_PIN    0x1001  // 脉冲方向端子
 #define MODBUS_ADDR_EXT_INPUT_PIN           0x1002  // EXT信号
 #define MODBUS_ADDR_DIRECTION_DELAY_TIME    0x1003  // 脉冲方向延时时间
 #define MODBUS_ADDR_DIRECTION_LOGIC         0x1004  // 脉冲方向逻辑
 #define MODBUS_ADDR_ACCEL_DECEL_MODE        0x1005  // 脉冲加减速模式
 #define MODBUS_ADDR_RUN_MODE                0x1006  // 运行模式
 #define MODBUS_ADDR_TOTAL_SEGMENTS          0x1007  // 脉冲总段数
 #define MODBUS_ADDR_START_SEGMENT           0x1008  // 起始执行段数
 #define MODBUS_ADDR_DEFAULT_SPEED_LOW       0x1009  // 脉冲默认速度低16位
 #define MODBUS_ADDR_DEFAULT_SPEED_HIGH      0x100A  // 脉冲默认速度高16位
 #define MODBUS_ADDR_DEFAULT_ACCEL_TIME      0x100B  // 脉冲默认速度加速时间
 #define MODBUS_ADDR_DEFAULT_DECEL_TIME      0x100C  // 脉冲默认速度减速时间

 // 段参数地址基址定义
 #define MODBUS_ADDR_SEGMENT_BASE            0x1100  // 段参数基址
 #define MODBUS_ADDR_SEGMENT_OFFSET          0x0010  // 段间地址偏移

 // 段参数偏移定义
 #define MODBUS_OFFSET_FREQ_LOW              0x0000  // 脉冲频率低16位偏移
 #define MODBUS_OFFSET_FREQ_HIGH             0x0001  // 脉冲频率高16位偏移
 #define MODBUS_OFFSET_PULSE_COUNT_LOW       0x0002  // 脉冲个数低16位偏移
 #define MODBUS_OFFSET_PULSE_COUNT_HIGH      0x0003  // 脉冲个数高16位偏移
 #define MODBUS_OFFSET_WAIT_CONDITION        0x0004  // 等待条件偏移
 #define MODBUS_OFFSET_JUMP_NUMBER           0x0005  // 跳转编号偏移

 // 各段参数地址宏定义
 #define MODBUS_ADDR_SEG1_FREQ_LOW           0x1100  // 第1段脉冲频率低16位
 #define MODBUS_ADDR_SEG1_FREQ_HIGH          0x1101  // 第1段脉冲频率高16位
 #define MODBUS_ADDR_SEG1_PULSE_COUNT_LOW    0x1102  // 第1段脉冲个数低16位
 #define MODBUS_ADDR_SEG1_PULSE_COUNT_HIGH   0x1103  // 第1段脉冲个数高16位
 #define MODBUS_ADDR_SEG1_WAIT_CONDITION     0x1104  // 第1段等待条件
 #define MODBUS_ADDR_SEG1_JUMP_NUMBER        0x1105  // 第1段跳转编号

 #define MODBUS_ADDR_SEG2_FREQ_LOW           0x1110  // 第2段脉冲频率低16位
 #define MODBUS_ADDR_SEG2_FREQ_HIGH          0x1111  // 第2段脉冲频率高16位
 #define MODBUS_ADDR_SEG2_PULSE_COUNT_LOW    0x1112  // 第2段脉冲个数低16位
 #define MODBUS_ADDR_SEG2_PULSE_COUNT_HIGH   0x1113  // 第2段脉冲个数高16位
 #define MODBUS_ADDR_SEG2_WAIT_CONDITION     0x1114  // 第2段等待条件
 #define MODBUS_ADDR_SEG2_JUMP_NUMBER        0x1115  // 第2段跳转编号

 #define MODBUS_ADDR_SEG3_FREQ_LOW           0x1120  // 第3段脉冲频率低16位
 #define MODBUS_ADDR_SEG3_FREQ_HIGH          0x1121  // 第3段脉冲频率高16位
 #define MODBUS_ADDR_SEG3_PULSE_COUNT_LOW    0x1122  // 第3段脉冲个数低16位
 #define MODBUS_ADDR_SEG3_PULSE_COUNT_HIGH   0x1123  // 第3段脉冲个数高16位
 #define MODBUS_ADDR_SEG3_WAIT_CONDITION     0x1124  // 第3段等待条件
 #define MODBUS_ADDR_SEG3_JUMP_NUMBER        0x1125  // 第3段跳转编号

 #define MODBUS_ADDR_SEG4_FREQ_LOW           0x1130  // 第4段脉冲频率低16位
 #define MODBUS_ADDR_SEG4_FREQ_HIGH          0x1131  // 第4段脉冲频率高16位
 #define MODBUS_ADDR_SEG4_PULSE_COUNT_LOW    0x1132  // 第4段脉冲个数低16位
 #define MODBUS_ADDR_SEG4_PULSE_COUNT_HIGH   0x1133  // 第4段脉冲个数高16位
 #define MODBUS_ADDR_SEG4_WAIT_CONDITION     0x1134  // 第4段等待条件
 #define MODBUS_ADDR_SEG4_JUMP_NUMBER        0x1135  // 第4段跳转编号

 #define MODBUS_ADDR_SEG5_FREQ_LOW           0x1140  // 第5段脉冲频率低16位
 #define MODBUS_ADDR_SEG5_FREQ_HIGH          0x1141  // 第5段脉冲频率高16位
 #define MODBUS_ADDR_SEG5_PULSE_COUNT_LOW    0x1142  // 第5段脉冲个数低16位
 #define MODBUS_ADDR_SEG5_PULSE_COUNT_HIGH   0x1143  // 第5段脉冲个数高16位
 #define MODBUS_ADDR_SEG5_WAIT_CONDITION     0x1144  // 第5段等待条件
 #define MODBUS_ADDR_SEG5_JUMP_NUMBER        0x1145  // 第5段跳转编号

 #define MODBUS_ADDR_SEG6_FREQ_LOW           0x1150  // 第6段脉冲频率低16位
 #define MODBUS_ADDR_SEG6_FREQ_HIGH          0x1151  // 第6段脉冲频率高16位
 #define MODBUS_ADDR_SEG6_PULSE_COUNT_LOW    0x1152  // 第6段脉冲个数低16位
 #define MODBUS_ADDR_SEG6_PULSE_COUNT_HIGH   0x1153  // 第6段脉冲个数高16位
 #define MODBUS_ADDR_SEG6_WAIT_CONDITION     0x1154  // 第6段等待条件
 #define MODBUS_ADDR_SEG6_JUMP_NUMBER        0x1155  // 第6段跳转编号

 #define MODBUS_ADDR_SEG7_FREQ_LOW           0x1160  // 第7段脉冲频率低16位
 #define MODBUS_ADDR_SEG7_FREQ_HIGH          0x1161  // 第7段脉冲频率高16位
 #define MODBUS_ADDR_SEG7_PULSE_COUNT_LOW    0x1162  // 第7段脉冲个数低16位
 #define MODBUS_ADDR_SEG7_PULSE_COUNT_HIGH   0x1163  // 第7段脉冲个数高16位
 #define MODBUS_ADDR_SEG7_WAIT_CONDITION     0x1164  // 第7段等待条件
 #define MODBUS_ADDR_SEG7_JUMP_NUMBER        0x1165  // 第7段跳转编号

 #define MODBUS_ADDR_SEG8_FREQ_LOW           0x1170  // 第8段脉冲频率低16位
 #define MODBUS_ADDR_SEG8_FREQ_HIGH          0x1171  // 第8段脉冲频率高16位
 #define MODBUS_ADDR_SEG8_PULSE_COUNT_LOW    0x1172  // 第8段脉冲个数低16位
 #define MODBUS_ADDR_SEG8_PULSE_COUNT_HIGH   0x1173  // 第8段脉冲个数高16位
 #define MODBUS_ADDR_SEG8_WAIT_CONDITION     0x1174  // 第8段等待条件
 #define MODBUS_ADDR_SEG8_JUMP_NUMBER        0x1175  // 第8段跳转编号

 #define MODBUS_ADDR_SEG9_FREQ_LOW           0x1180  // 第9段脉冲频率低16位
 #define MODBUS_ADDR_SEG9_FREQ_HIGH          0x1181  // 第9段脉冲频率高16位
 #define MODBUS_ADDR_SEG9_PULSE_COUNT_LOW    0x1182  // 第9段脉冲个数低16位
 #define MODBUS_ADDR_SEG9_PULSE_COUNT_HIGH   0x1183  // 第9段脉冲个数高16位
 #define MODBUS_ADDR_SEG9_WAIT_CONDITION     0x1184  // 第9段等待条件
 #define MODBUS_ADDR_SEG9_JUMP_NUMBER        0x1185  // 第9段跳转编号

 #define MODBUS_ADDR_SEG10_FREQ_LOW          0x1190  // 第10段脉冲频率低16位
 #define MODBUS_ADDR_SEG10_FREQ_HIGH         0x1191  // 第10段脉冲频率高16位
 #define MODBUS_ADDR_SEG10_PULSE_COUNT_LOW   0x1192  // 第10段脉冲个数低16位
 #define MODBUS_ADDR_SEG10_PULSE_COUNT_HIGH  0x1193  // 第10段脉冲个数高16位
 #define MODBUS_ADDR_SEG10_WAIT_CONDITION    0x1194  // 第10段等待条件
 #define MODBUS_ADDR_SEG10_JUMP_NUMBER       0x1195  // 第10段跳转编号

 // 监控值地址 (0x2000-0x2001)
 #define MODBUS_ADDR_PULSE_COUNT_MONITOR_LOW  0x2000  // 脉冲个数监控值低16位
 #define MODBUS_ADDR_PULSE_COUNT_MONITOR_HIGH 0x2001  // 脉冲个数监控值高16位
 #define MODBUS_ADDR_PULSE_COUNT_LOW          0x2000  // 脉冲个数监控值低16位（别名）
 #define MODBUS_ADDR_PULSE_COUNT_HIGH         0x2001  // 脉冲个数监控值高16位（别名）

 // 控制按钮地址 (0x3000)
 #define MODBUS_ADDR_PULSE_SEND_BUTTON       0x3000  // 脉冲发送按钮

 // 特殊值定义
 #define MODBUS_INVALID_ADDRESS              0xFFFF  // 无效地址标识

 // 地址映射结构体
 typedef struct {
    uint16_t modbus_addr;    ///< Modbus地址s
    uint16_t array_index;    ///< 数组索引
 } modbus_addr_map_t;


 // 备份SRAM相关定义
 #define BACKUP_SRAM_BASE    0x40024000
 #define BACKUP_MAGIC_NUMBER 0x12345678
 #define BKPSRAM_BASE_ADDR   ((uint32_t)0x40024000)

 #define OFFSET_REGS   0x00   // 假设占字节
 /**
 * @brief 备份数据结构
 * @note 使用MODBUS_ACTUAL_REG_COUNT(76)作为数组大小，减少内存占用
 */
 typedef struct {
    uint16_t holding_regs[MODBUS_ACTUAL_REG_COUNT];  ///< 保持寄存器数组，大小为76
    uint32_t holding_crc;                            ///< 保持寄存器CRC校验值
    uint32_t magic_number;                           ///< 魔法数字，用于验证数据有效性
    uint32_t save_timestamp;                         ///< 保存时间戳（可选）
 } BackupData_t;

 void DMA_Start_CopyToBKPSRAM(uint8_t *src, uint32_t len,uint32_t offset);
 void DMA_Start_CopyFromBKPSRAM(uint8_t *dst, uint32_t len, uint32_t offset);
 // ==================== 备份SRAM相关函数 ====================
 void BackupSRAM_Init(void);
 void BackupSRAM_SaveRegData(void);
 uint8_t BackupSRAM_RestoreData(void);
 void BackupSRAM_ClearData(void);

 // 全局变量声明
 extern BackupData_t* backup_data;

 // Modbus寄存器操作函数
 void FlashSave_Set_Holding_Register(uint16_t address, uint16_t value);
 uint16_t FlashSave_Get_Holding_Register(uint16_t address);


 #endif // FLASH_SAVE_H
--- a/PLSR/PLSR/Core/Inc/modbus_crc.h
+++ b/PLSR/PLSR/Core/Inc/modbus_crc.h
@@ -0,0 +1,9 @@
 #ifndef __MODBUS_CRC_H
 #define __MODBUS_CRC_H

 #include "stm32f4xx.h"

 uint16_t Modbus_CRC16(uint8_t *data, uint16_t length);
 uint8_t Modbus_CheckCRC(uint8_t *data, uint16_t length);

 #endif
--- a/PLSR/PLSR/Core/Inc/modbus_log.h
+++ b/PLSR/PLSR/Core/Inc/modbus_log.h
@@ -0,0 +1,17 @@
 #ifndef MODBUS_LOG_H
 #define MODBUS_LOG_H
 #include "usart.h"

 #define MODBUS_LOG_MAX  128  ///> 最多保存128条记录

 typedef struct {
    uint8_t element_type;    ///> 软元件类型：0x01=保持寄存器，0x02=线圈，0x03=输入寄存器，0x04=离散输入
    uint8_t function_code;   ///> 功能码：0x01, 0x03, 0x10等
    uint16_t start_address;  ///> 操作起始地址
    uint16_t data_len;       ///> 数据长度（读写寄存器数）
    uint8_t operation_type;  ///> 0x01=读, 0x02=写
    uint8_t error_code;      ///> 0=无错，其它=异常码（如0x02地址非法）
 }ModbusLog;
 void Modbus_Log(uint8_t element, uint8_t func, uint16_t addr, uint16_t len, uint8_t op_type, uint8_t err);
 extern ModbusLog modbus_logs[MODBUS_LOG_MAX];
 #endif
--- a/PLSR/PLSR/Core/Inc/tim.h
+++ b/PLSR/PLSR/Core/Inc/tim.h
@@ -31,7 +31,9 @@ extern "C" {
 #include "math.h"
 #include "ucos_ii.h"
 #include "app_cfg.h"

 #include "gpio.h"
 #include <intrinsics.h>
 #include <math.h>  
 /* USER CODE BEGIN Includes */

 /* USER CODE END Includes */
@@ -48,26 +50,22 @@ extern TIM_HandleTypeDef htim13;

 extern TIM_HandleTypeDef htim14;

 /* 全局变量声明 */


 /* USER CODE BEGIN Private defines */
 // PLSR系统配置参数
 #define PLSR_MAX_SECTIONS     10        // 最大段数
 #define PLSR_PWM_FREQ_MIN     1         // 最小PWM频率 1Hz
 #define PLSR_PWM_FREQ_MAX     100000    // 最大PWM频率 100kHz
 #define PLSR_PWM_FREQ_DEFAULT 1000      // 默认PWM频率 1kHz
 #define PLSR_DUTY_CYCLE       50        // 初始占空比 50%

 // PWM输出引脚定义 (仅PF6)
 #define PLSR_PWM_PIN          GPIO_PIN_6   // PF6 - TIM10_CH1
 #define PLSR_PWM_PORT         GPIOF

 #define CLAMP_FREQUENCY(v) ((v) > PLSR_PWM_FREQ_MAX ? PLSR_PWM_FREQ_MAX : (uint32_t)(v))
 #define CLAMP_MIN(val, min) ((val) < (min) ? (min) : (val))
 #define DIV_ROUND(a, b) (((a) + ((b)>>1)) / (b))
 // TIM2硬件计数器已删除 - 改用TIM10中断计数

 // 等待条件类型枚举
 typedef enum {
    PLSR_WAIT_PLUSEEND = 0,     // 脉冲发送完成
    PLSR_WAIT_TIME = 4,         // 等待时间
    PLSR_WAIT_CONDITION = 2,    // 等待条件      
    PLSR_WAIT_ACT_TIME = 3,     // ACT时间
    PLSR_WAIT_EXT_EVENT = 1,    // 外部事件
    PLSR_WAIT_EXT_OR_END = 5    // 外部事件或结束
 } PLSR_WaitType_t;
@@ -80,7 +78,8 @@ typedef enum {
 } PLSR_AccelAlgorithm_t;

 // 运行状态枚举
 typedef enum {
 typedef enum 
 {
    PLSR_STATE_IDLE = 0,        //< 空闲状态
    PLSR_STATE_ACCEL = 1,       //< 加速状态
    PLSR_STATE_CONST = 2,       //< 匀速状态
@@ -89,7 +88,8 @@ typedef enum {
 } PLSR_RunState_t;

 // 路径状态枚举
 typedef enum {
 typedef enum 
 {
    PLSR_ROUTE_IDLE = 0,        // 路径空闲
    PLSR_ROUTE_RUNNING = 1,     // 路径运行中
    PLSR_ROUTE_COMPLETED = 2,   // 路径完成
@@ -108,6 +108,7 @@ typedef enum {
    PLSR_DIR_FORWARD = 0,       // 正向
    PLSR_DIR_REVERSE = 1        // 反向
 } PLSR_Direction_t;

 /* USER CODE END Private defines */

 void MX_TIM2_Init(void); // TIM2恢复用于脉冲计数
@@ -119,86 +120,93 @@ void MX_TIM14_Init(void);

 void HAL_TIM_MspPostInit(TIM_HandleTypeDef *htim);

 // PLSR等待条件结构体
 typedef struct {
    PLSR_WaitType_t wait_type;      // 等待条件类型
    uint32_t wait_time_ms;          // 等待时间(ms)
    uint32_t act_time_ms;           // ACT时间(ms)
    uint8_t condition_flag;         // 等待条件标志
    uint8_t ext_event_flag;         // 外部事件标志
    /* 加速段参数 */
    uint32_t accel_jerk;           // 加加速度 (Hz/ms²)
    uint32_t accel_max;            // 最大加速度 (Hz/ms)
    uint32_t accel_jerk_time_ms;   // 单边jerk时间 (ms)
    uint32_t accel_phase1_pulses;  // 加速第一阶段脉冲数
    uint32_t accel_phase2_pulses;  // 加速第二阶段脉冲数
    
    /* 减速段参数 */
    uint32_t decel_jerk;           // 减加速度 (Hz/ms²)
    uint32_t decel_max;            // 最大减速度 (Hz/ms)
    uint32_t decel_jerk_time_ms;   // 单边jerk时间 (ms)
    uint32_t decel_phase1_pulses;  // 减速第一阶段脉冲数
    uint32_t decel_phase2_pulses;  // 减速第二阶段脉冲数
 } SCurve_Params_t;

 typedef struct 
 {
    PLSR_WaitType_t wait_type;      ///< 等待条件类型
    uint8_t ext_event_flag;         ///< 外部事件标志
 } PLSR_WaitCondition_t;

 // PLSR加减速配置结构体
 typedef struct {
    uint32_t accel_time_ms;         // 加速时间(ms)
    uint32_t decel_time_ms;         // 减速时间(ms)
    PLSR_AccelAlgorithm_t accel_algorithm;  // 加减速算法
    PLSR_AccelAlgorithm_t accel_algorithm;  ///< 加减速算法
 } PLSR_AccelConfig_t;

 // PLSR段配置结构体
 typedef struct {
    uint8_t section_num;            // 段号(1-10)
    uint32_t target_freq;           // 目标频率(Hz)
    int32_t target_pulse;          // 目标脉冲数
    int32_t actual_pulse;          ///< 实际可发脉冲数
    uint8_t next_section;           // 下一段号(0表示结束)
    PLSR_WaitCondition_t wait_condition;    // 等待条件

 typedef struct 
 {
    uint32_t target_freq;           ///< 目标频率(Hz)
    int64_t target_pulse;           ///< 目标脉冲数
    int64_t actual_pulse;           ///< 实际可发脉冲数
    PLSR_WaitCondition_t wait_condition;    ///< 等待条件
    uint8_t section_num;            ///< 段号(1-10)
    uint8_t next_section;           ///< 下一段号(0表示结束)
 } PLSR_SectionConfig_t;

 // PLSR路径控制结构体 - 添加三部分状态管理
 typedef struct {
    PLSR_RouteState_t route_state;  // 路径状态
    uint8_t current_section_num;    // 当前段号
    uint32_t current_freq;          // 当前频率
    uint32_t target_freq;           // 目标频率
    int32_t pulse_count;           // 当前脉冲计数
    int32_t prevPulseCount;        // 上阶段目标脉冲
    uint32_t start_freq;            // 起始频率
    uint32_t end_freq;              // 结束频率
    uint8_t output_port;            // 输出端口选择
    uint8_t ext_port;               // 外部事件端口选择
    uint8_t dir_port;               ///< 方向端口选择：
    uint16_t dir_delay;             //<方向延时时间
    uint16_t dir_logic;             //<脉冲方向逻辑,0-正逻辑(脉冲递增)，1-负逻辑(脉冲递减)
    PLSR_Mode_t mode;               // 模式(相对/绝对)
    PLSR_Direction_t direction;     // 方向
    PLSR_AccelConfig_t accel_config;        // 加减速配置
 typedef struct 
 {
    uint32_t current_freq;          ///< 当前频率
    uint32_t target_freq;           ///< 目标频率
    uint32_t initial_freq;          ///< 加减速初始频率，专门用于存储加减速开始时的频率
    uint32_t start_freq;            ///< 起始频率
    uint32_t end_freq;              ///< 结束频率
    uint32_t part1_target_freq;     ///< 第一部分目标频率
    uint32_t part2_target_freq;     ///< 第二部分目标频率（匀速频率）
    uint32_t part3_target_freq;     ///< 第三部分目标频率（通常是0）
    uint32_t part1_time;
    uint32_t part3_time;
    uint32_t freq_step;             ///< 频率步长
    uint32_t default_freq;          ///< 脉冲默认速度

    int64_t pulse_count;            ///< 当前脉冲计数（支持正负值）
    int64_t prevPulseCount;         ///< 上阶段目标脉冲
    int64_t accel_pulse_count;      ///< 第一部分脉冲数（可能是加速、减速或匀速）
    int64_t const_pulse_count;      ///< 第二部分脉冲数（匀速）
    int64_t decel_pulse_count;      ///< 第三部分脉冲数（减速到0）
    
    // 运行状态参数
    PLSR_RunState_t run_state;      // 当前运行状态
    uint32_t wait_start_tick;       ///< 等待开始时间
    uint32_t act_start_tick;        ///< ACT开始时间
    uint32_t default_accel_time_ms; ///< 默认加速时间(ms)
    uint32_t default_decel_time_ms; ///< 默认减速时间(ms)
    uint32_t accel_rate;            ///< 加速度(Hz/ms) = default_freq / default_accel_time_ms
    uint32_t decel_rate;            ///< 减速度(Hz/ms) = default_freq / default_decel_time_ms
    
    // 三部分脉冲计数（重新定义用途）
    int32_t accel_pulse_count;      // 第一部分脉冲数（可能是加速、减速或匀速）
    int32_t const_pulse_count;      // 第二部分脉冲数（匀速）
    int32_t decel_pulse_count;      // 第三部分脉冲数（减速到0）
    PLSR_AccelConfig_t accel_config; ///< 加减速配置
    PLSR_SectionConfig_t section[PLSR_MAX_SECTIONS];  ///< 段配置数组
    
    // 新增：三部分状态标识
    PLSR_RunState_t part1_state;     // 第一部分状态（ACCEL/DECEL/CONST）
    PLSR_RunState_t part2_state;     // 第二部分状态（通常是CONST）
    PLSR_RunState_t part3_state;     // 第三部分状态（通常是DECEL）
    uint16_t dir_delay;             ///< 方向延时时间
    uint16_t dir_logic;             ///< 脉冲方向逻辑,0-正逻辑(脉冲递增)，1-负逻辑(脉冲递减)
    uint16_t section_num;           ///< 脉冲总段数
    uint16_t start_section;         ///< 起始段数
    
    // 新增：三部分目标频率
    uint32_t part1_target_freq;      // 第一部分目标频率
    uint32_t part2_target_freq;      // 第二部分目标频率（匀速频率）
    uint32_t part3_target_freq;      // 第三部分目标频率（通常是0）
    PLSR_RouteState_t route_state;  ///< 路径状态
    SCurve_Params_t scurve;
    PLSR_RunState_t run_state;      ///< 当前运行状态
    PLSR_RunState_t part1_state;    ///< 第一部分状态（ACCEL/DECEL/CONST）
    PLSR_RunState_t part2_state;    ///< 第二部分状态（通常是CONST）
    PLSR_RunState_t part3_state;    ///< 第三部分状态（通常是DECEL）
    PLSR_Mode_t mode;               ///< 模式(相对/绝对)
    PLSR_Direction_t direction;     ///< 方向
    
    // 新增：当前执行部分
    uint8_t current_part;            // 当前执行部分：1-第一部分，2-第二部分，3-第三部分
    
    uint32_t freq_step;             // 频率步长
    uint32_t wait_start_tick;       // 等待开始时间
    uint32_t act_start_tick;        // ACT开始时间
    uint16_t section_num;           //<脉冲总段数
    uint16_t start_section;         //<起始段数
    uint32_t default_freq;          //<脉冲默认速度
    
    // 默认加减速参数
    uint32_t default_accel_time_ms; // 默认加速时间(ms)
    uint32_t default_decel_time_ms; // 默认减速时间(ms)
    uint32_t accel_rate;            // 加速度(Hz/ms) = default_freq / default_accel_time_ms
    uint32_t decel_rate;            // 减速度(Hz/ms) = default_freq / default_decel_time_ms
    
    PLSR_SectionConfig_t section[PLSR_MAX_SECTIONS];  // 段配置数组
    uint8_t current_section_num;    ///< 当前段号
    uint8_t output_port;            ///< 输出端口选择
    uint8_t ext_port;               ///< 外部事件端口选择
    uint8_t dir_port;               ///< 方向端口选择
    uint8_t current_part;           ///< 当前执行部分：1-第一部分，2-第二部分，3-第三部分
 } PLSR_RouteConfig_t;

 // 三部分执行状态枚举
@@ -210,20 +218,22 @@ typedef enum {
 } PLSR_PartState_t;

 // 默认参数定义
 #define PLSR_DEFAULT_STEP_FREQ_US     1000  // 默认TIM6更新频率1000微秒(1ms)
 #define PLSR_DEFAULT_ACCEL_TIME_MS    100   // 默认加速时间100ms
 #define PLSR_DEFAULT_DECEL_TIME_MS    100   // 默认减速时间100ms
 #define PLSR_DEFAULT_ACT_TIME_MS      200   // 默认ACT时间200ms
 #define PLSR_DEFAULT_WAIT_TIME_MS     200   // 默认等待时间200ms
 #define PLSR_DEFAULT_START_SECTION    0     // 默认起始段编号
 #define PLSR_TASK_CHECK_INTERVAL      100   // 每100个脉冲通知任务一次

 // 基础PWM函数
 // ==================== PWM控制函数 ====================
 #define PLSR_DEFAULT_STEP_FREQ_US     100  // 默认TIM6更新频率1000微秒(1ms)
 #define SCALE_FACTOR 2000ULL

 void Calculate_PluseNum(PLSR_RouteConfig_t *route); //<计算段脉冲数,根据加减速率和目标频率计算每段的加速、匀速、减速脉冲数
 void Calculate_PluseNum_Simplified(PLSR_RouteConfig_t *route); //<简化的脉冲数计算,用于快速计算每段的脉冲数,不考虑加减速

 uint64_t integer_sqrt_64(uint64_t n);
 uint64_t square_u32(uint32_t x); 

 void PLSR_PWM_Init(void);
 void PLSR_PWM_Start(void);
 void PLSR_PWM_Stop(void);
 void PLSR_Section_PWM_Stop(void);
 void PLSR_Route_PWM_Stop();
 void PLSR_PWM_SetFrequency(uint32_t frequency);
 void PLSR_CalculateTimerParams(uint32_t frequency, uint16_t* prescaler, uint32_t* period);
 void PLSR_Fix_Compensated(uint32_t frequency, uint32_t* ccr);

 // ==================== PLSR路径控制函数 ====================
 void PLSR_Route_Init(PLSR_RouteConfig_t* route);      //<路径初始化
@@ -234,20 +244,17 @@ void PLSR_Route_Stop(PLSR_RouteConfig_t* route);      //<路径停止
 // ==================== PLSR段控制函数 ====================
 void PLSR_Section_SwitchNext(PLSR_RouteConfig_t* route, uint8_t is_pulse_complete);            //<切换段
 uint8_t PLSR_Section_CheckWaitCondition(PLSR_RouteConfig_t* route); //<检查等待条件是否满足
 void PLSR_Section_StartNewSection(PLSR_RouteConfig_t* route);       //<启动新段,段更新后调用
 void Calculate_PluseNum(PLSR_RouteConfig_t *route); //<计算段脉冲数,根据加减速率和目标频率计算每段的加速、匀速、减速脉冲数
 void Calculate_PluseNum_Simplified(PLSR_RouteConfig_t *route); //<简化的脉冲数计算,用于快速计算每段的脉冲数,不考虑加减速
 uint8_t PLSR_Section_StartNewSection(PLSR_RouteConfig_t* route);       //<启动新段,段更新后调用
 void PLSR_SetupThreePartExecution(PLSR_RouteConfig_t* route); //<设置三部分执行状态和目标频率

 // ==================== PLSR加减速算法函数 ====================
 void PLSR_Accel_Process(PLSR_RouteConfig_t* route); //<加减速执行函数(新的直线加减速)
 void PLSR_Accel_UpdateRates(PLSR_RouteConfig_t* route); //<更新加减速度
 void PLSR_Accel_SetDefaultParams(PLSR_RouteConfig_t* route, uint32_t accel_time_ms, uint32_t decel_time_ms); //<设置默认加减速参数

 // ==================== PLSR等待条件处理函数 ====================
 void PLSR_Wait_StartTimer(PLSR_RouteConfig_t* route);            //<等待条件计数器
 uint8_t PLSR_Wait_CheckTime(PLSR_RouteConfig_t* route);          //<检查等待时间是否满足 ACT时间或等待时间

 uint32_t PLSR_Calculate_FreqByPosition(PLSR_RouteConfig_t* route, uint8_t is_accel); //<根据当前脉冲位置计算频率
 uint32_t PLSR_Calculate_SCurve_FreqByPosition(PLSR_RouteConfig_t* route, uint8_t is_accel);
 uint32_t PLSR_SCurve_Control(PLSR_RouteConfig_t* route);
 void SCurve_InitializeParameters(PLSR_RouteConfig_t* route, uint32_t accel_time_ms, uint32_t decel_time_ms);

 // ==================== PLSR TIM6频率配置函数 ====================
 void PLSR_TIM6_SetUpdateFreq(uint32_t freq_us);
@@ -268,10 +275,18 @@ void PLSR_SectionSwitchTask(void *p_arg);
 void PLSR_SectionSwitchInit(void);                                                             //<段切换信号量初始化
 void PLSR_SectionSwitchSignal(void);                                                           //<发送段切换信号量(中断中调用)

 uint32_t BinarySearchOptimalFreq(uint32_t v0, uint32_t vt_desired, 
                                int64_t total_pulses, uint32_t a, uint32_t d, 
                                uint8_t is_accel); // 二分搜索优化目标频率
 uint32_t OptimalIntermediateFrequency(uint32_t v0, uint32_t vt_desired, 
                                     int64_t total_pulses, uint32_t a, uint32_t d); // 计算最优中间频率
 // ==================== PLSR全局变量声明 ====================
 extern PLSR_RouteConfig_t g_plsr_route;    // 全局PLSR路径控制结构体
 extern uint8_t g_plsr_ext_event_flag;      // 外部事件标志
 extern int32_t g_plsr_total_pulse_count;   // 全局累加脉冲计数器(程序运行期间持续累加，支持负数) 
 extern PLSR_RouteConfig_t PlsrRoute;    // 全局PLSR路径控制结构体
 extern uint8_t PlsrExtEventFlag;      // 外部事件标志
 extern int64_t PlsrTotalPulseCount;   // 全局累加脉冲计数器(程序运行期间持续累加，支持负数) 
 extern int64_t PlsrLocation;
 extern volatile uint8_t PlsrFreqUpdateRequest;  // 频率更新请求标志(中断安全)
 extern volatile uint32_t PlsrPendingFreq;       // 待更新的频率值(中断安全)
 /* USER CODE END Prototypes */

 #ifdef __cplusplus
--- a/PLSR/PLSR/Core/Inc/usart.h
+++ b/PLSR/PLSR/Core/Inc/usart.h
@@ -44,8 +44,6 @@ extern UART_HandleTypeDef huart1;

 /* USER CODE BEGIN Private defines */
 ///> ==================== 寄存器配置 ====================
 #define MODBUS_HOLDING_REG_COUNT    0x2500    ///> 保持寄存器数量 (40001-49999)
 #define MODBUS_OFFSET               0x1000

 #define MODBUS_FC_READ_HOLDING_REGS     0x03  ///> 读保持寄存器
 #define MODBUS_FC_WRITE_REG             0x06
@@ -68,7 +66,6 @@ extern UART_HandleTypeDef huart1;
 typedef struct
 {
    uint8_t slave_address;          ///> 从机地址
    uint16_t holding_regs[MODBUS_HOLDING_REG_COUNT];    ///> 保持寄存器 (40001-49999)
 } ModbusSlave_t;
 /* USER CODE END Private defines */

--- a/PLSR/PLSR/Core/Src/flash_save.c
+++ b/PLSR/PLSR/Core/Src/flash_save.c
@@ -0,0 +1,308 @@
 #include "flash_save.h"
 #include "modbus_crc.h"
 #include "stm32f4xx_hal.h"
 #include <string.h>

 // 前向声明，避免循环依赖
 typedef struct {
    uint8_t slave_address;
 } ModbusSlave_t;
 extern ModbusSlave_t ModbusSlave;

 // Modbus地址映射表（将Modbus地址映射到紧凑的数组索引）
 static const modbus_addr_map_t modbus_address_map[MODBUS_ACTUAL_REG_COUNT] = {
    // 基本配置参数 (0x1000-0x100C) -> 索引 0-12
    {MODBUS_ADDR_PULSE_OUTPUT_PIN, 0}, {MODBUS_ADDR_DIRECTION_OUTPUT_PIN, 1}, {MODBUS_ADDR_EXT_INPUT_PIN, 2}, 
    {MODBUS_ADDR_DIRECTION_DELAY_TIME, 3}, {MODBUS_ADDR_DIRECTION_LOGIC, 4}, {MODBUS_ADDR_ACCEL_DECEL_MODE, 5},
    {MODBUS_ADDR_RUN_MODE, 6}, {MODBUS_ADDR_TOTAL_SEGMENTS, 7}, {MODBUS_ADDR_START_SEGMENT, 8}, 
    {MODBUS_ADDR_DEFAULT_SPEED_LOW, 9}, {MODBUS_ADDR_DEFAULT_SPEED_HIGH, 10}, {MODBUS_ADDR_DEFAULT_ACCEL_TIME, 11}, {MODBUS_ADDR_DEFAULT_DECEL_TIME, 12},
    
    // 第1段参数 (0x1100-0x1105) -> 索引 13-18
    {MODBUS_ADDR_SEG1_FREQ_LOW, 13}, {MODBUS_ADDR_SEG1_FREQ_HIGH, 14}, {MODBUS_ADDR_SEG1_PULSE_COUNT_LOW, 15}, 
    {MODBUS_ADDR_SEG1_PULSE_COUNT_HIGH, 16}, {MODBUS_ADDR_SEG1_WAIT_CONDITION, 17}, {MODBUS_ADDR_SEG1_JUMP_NUMBER, 18},
    
    // 第2段参数 (0x1110-0x1115) -> 索引 19-24
    {MODBUS_ADDR_SEG2_FREQ_LOW, 19}, {MODBUS_ADDR_SEG2_FREQ_HIGH, 20}, {MODBUS_ADDR_SEG2_PULSE_COUNT_LOW, 21}, 
    {MODBUS_ADDR_SEG2_PULSE_COUNT_HIGH, 22}, {MODBUS_ADDR_SEG2_WAIT_CONDITION, 23}, {MODBUS_ADDR_SEG2_JUMP_NUMBER, 24},
    
    // 第3段参数 (0x1120-0x1125) -> 索引 25-30
    {MODBUS_ADDR_SEG3_FREQ_LOW, 25}, {MODBUS_ADDR_SEG3_FREQ_HIGH, 26}, {MODBUS_ADDR_SEG3_PULSE_COUNT_LOW, 27}, 
    {MODBUS_ADDR_SEG3_PULSE_COUNT_HIGH, 28}, {MODBUS_ADDR_SEG3_WAIT_CONDITION, 29}, {MODBUS_ADDR_SEG3_JUMP_NUMBER, 30},
    
    // 第4段参数 (0x1130-0x1135) -> 索引 31-36
    {MODBUS_ADDR_SEG4_FREQ_LOW, 31}, {MODBUS_ADDR_SEG4_FREQ_HIGH, 32}, {MODBUS_ADDR_SEG4_PULSE_COUNT_LOW, 33}, 
    {MODBUS_ADDR_SEG4_PULSE_COUNT_HIGH, 34}, {MODBUS_ADDR_SEG4_WAIT_CONDITION, 35}, {MODBUS_ADDR_SEG4_JUMP_NUMBER, 36},
    
    // 第5段参数 (0x1140-0x1145) -> 索引 37-42
    {MODBUS_ADDR_SEG5_FREQ_LOW, 37}, {MODBUS_ADDR_SEG5_FREQ_HIGH, 38}, {MODBUS_ADDR_SEG5_PULSE_COUNT_LOW, 39}, 
    {MODBUS_ADDR_SEG5_PULSE_COUNT_HIGH, 40}, {MODBUS_ADDR_SEG5_WAIT_CONDITION, 41}, {MODBUS_ADDR_SEG5_JUMP_NUMBER, 42},
    
    // 第6段参数 (0x1150-0x1155) -> 索引 43-48
    {MODBUS_ADDR_SEG6_FREQ_LOW, 43}, {MODBUS_ADDR_SEG6_FREQ_HIGH, 44}, {MODBUS_ADDR_SEG6_PULSE_COUNT_LOW, 45}, 
    {MODBUS_ADDR_SEG6_PULSE_COUNT_HIGH, 46}, {MODBUS_ADDR_SEG6_WAIT_CONDITION, 47}, {MODBUS_ADDR_SEG6_JUMP_NUMBER, 48},
    
    // 第7段参数 (0x1160-0x1165) -> 索引 49-54
    {MODBUS_ADDR_SEG7_FREQ_LOW, 49}, {MODBUS_ADDR_SEG7_FREQ_HIGH, 50}, {MODBUS_ADDR_SEG7_PULSE_COUNT_LOW, 51}, 
    {MODBUS_ADDR_SEG7_PULSE_COUNT_HIGH, 52}, {MODBUS_ADDR_SEG7_WAIT_CONDITION, 53}, {MODBUS_ADDR_SEG7_JUMP_NUMBER, 54},
    
    // 第8段参数 (0x1170-0x1175) -> 索引 55-60
    {MODBUS_ADDR_SEG8_FREQ_LOW, 55}, {MODBUS_ADDR_SEG8_FREQ_HIGH, 56}, {MODBUS_ADDR_SEG8_PULSE_COUNT_LOW, 57}, 
    {MODBUS_ADDR_SEG8_PULSE_COUNT_HIGH, 58}, {MODBUS_ADDR_SEG8_WAIT_CONDITION, 59}, {MODBUS_ADDR_SEG8_JUMP_NUMBER, 60},
    
    // 第9段参数 (0x1180-0x1185) -> 索引 61-66
    {MODBUS_ADDR_SEG9_FREQ_LOW, 61}, {MODBUS_ADDR_SEG9_FREQ_HIGH, 62}, {MODBUS_ADDR_SEG9_PULSE_COUNT_LOW, 63}, 
    {MODBUS_ADDR_SEG9_PULSE_COUNT_HIGH, 64}, {MODBUS_ADDR_SEG9_WAIT_CONDITION, 65}, {MODBUS_ADDR_SEG9_JUMP_NUMBER, 66},
    
    // 第10段参数 (0x1190-0x1195) -> 索引 67-72
    {MODBUS_ADDR_SEG10_FREQ_LOW, 67}, {MODBUS_ADDR_SEG10_FREQ_HIGH, 68}, {MODBUS_ADDR_SEG10_PULSE_COUNT_LOW, 69}, 
    {MODBUS_ADDR_SEG10_PULSE_COUNT_HIGH, 70}, {MODBUS_ADDR_SEG10_WAIT_CONDITION, 71}, {MODBUS_ADDR_SEG10_JUMP_NUMBER, 72},
    
    // 监控值 (0x2000-0x2001) -> 索引 73-74
    {MODBUS_ADDR_PULSE_COUNT_MONITOR_LOW, 73}, {MODBUS_ADDR_PULSE_COUNT_MONITOR_HIGH, 74},
    
    // 控制按钮 (0x3000) -> 索引 75
    {MODBUS_ADDR_PULSE_SEND_BUTTON, 75}
 };

 // 备份SRAM中的数据指针声明在头文件中

 /**
 * @brief 根据Modbus地址获取数组索引
 * @param modbus_addr: Modbus地址
 * @retval 数组索引，如果地址无效返回0xFFFF
 */
 static uint16_t FlashSave_Get_Array_Index(uint16_t modbus_addr)
 {
    for (uint16_t i = 0; i < MODBUS_ACTUAL_REG_COUNT; i++) {
        if (modbus_address_map[i].modbus_addr == modbus_addr) 
        {
            return modbus_address_map[i].array_index;
        }
    }
    return MODBUS_INVALID_ADDRESS;  // 无效地址
 }

 /**
 * @brief 设置保持寄存器值
 * @param address: 寄存器地址
 * @param value: 寄存器值
 * @retval None
 */
 void FlashSave_Set_Holding_Register(uint16_t address, uint16_t value)
 {
    uint16_t array_index = FlashSave_Get_Array_Index(address);
    if (array_index != MODBUS_INVALID_ADDRESS && backup_data != NULL) {
        backup_data->holding_regs[array_index] = value;
    }
 }

 /**
 * @brief 获取保持寄存器值
 * @param address: 寄存器地址
 * @retval uint16_t: 寄存器值
 */
 uint16_t FlashSave_Get_Holding_Register(uint16_t address)
 {
    uint16_t array_index = FlashSave_Get_Array_Index(address);
    if (array_index != MODBUS_INVALID_ADDRESS && backup_data != NULL) 
    {
        return backup_data->holding_regs[array_index];
    }
    return 0;
 }

 volatile uint8_t dma_bkpsram_done_flag = 0;

 // 添加备份域访问使能函数
 void EnableBackupDomain(void) {
    // 1. 使能PWR时钟
    __HAL_RCC_PWR_CLK_ENABLE();
    
    // 2. 使能备份域访问
    HAL_PWR_EnableBkUpAccess();
 }

 // DMA句柄
 DMA_HandleTypeDef hdma_backup;

 // 备份数据指针定义，指向备份SRAM中的数据结构
 BackupData_t* backup_data = (BackupData_t*)BKPSRAM_BASE_ADDR;

 // Error_Handler函数已在main.c中定义，此处移除重复定义

 void DMA_Backup_Init(void) 
 {
    EnableBackupDomain();
    __HAL_RCC_DMA2_CLK_ENABLE();

    // 配置DMA2 Stream0用于内存到备份SRAM传输
    hdma_backup.Instance = DMA2_Stream0;
    hdma_backup.Init.Channel = DMA_CHANNEL_0;
    hdma_backup.Init.Direction = DMA_MEMORY_TO_MEMORY;
    hdma_backup.Init.PeriphInc = DMA_PINC_ENABLE;
    hdma_backup.Init.MemInc = DMA_MINC_ENABLE;
    hdma_backup.Init.PeriphDataAlignment = DMA_PDATAALIGN_BYTE;
    hdma_backup.Init.MemDataAlignment = DMA_MDATAALIGN_BYTE;
    hdma_backup.Init.Mode = DMA_NORMAL;
    hdma_backup.Init.Priority = DMA_PRIORITY_HIGH;
    hdma_backup.Init.FIFOMode = DMA_FIFOMODE_DISABLE;
    hdma_backup.Init.FIFOThreshold = DMA_FIFO_THRESHOLD_HALFFULL;
    hdma_backup.Init.MemBurst = DMA_MBURST_SINGLE;
    hdma_backup.Init.PeriphBurst = DMA_PBURST_SINGLE;

    HAL_NVIC_SetPriority(DMA2_Stream0_IRQn, 5, 0);
    HAL_NVIC_EnableIRQ(DMA2_Stream0_IRQn);
 }

 void DMA_Start_CopyToBKPSRAM(uint8_t *src, uint32_t len, uint32_t offset) 
 {
    EnableBackupDomain();
    
    // 停止之前的DMA传输
    HAL_DMA_Abort(&hdma_backup);
    
    // 清除标志位
    dma_bkpsram_done_flag = 0;
    
    // 使用HAL库函数启动DMA传输
    if(HAL_DMA_Start_IT(&hdma_backup, (uint32_t)src, BKPSRAM_BASE_ADDR + offset, len) != HAL_OK)
    {
        // DMA启动失败，设置标志位避免死等
        dma_bkpsram_done_flag = 1;
    }
 }

 void DMA_Start_CopyFromBKPSRAM(uint8_t *dst, uint32_t len, uint32_t offset) 
 {
    EnableBackupDomain();
    
    // 停止之前的DMA传输
    HAL_DMA_Abort(&hdma_backup);
    
    // 清除标志位
    dma_bkpsram_done_flag = 0;
    
    // 使用HAL库函数启动DMA传输
    HAL_DMA_Start_IT(&hdma_backup, BKPSRAM_BASE_ADDR + offset, (uint32_t)dst, len);
     dma_bkpsram_done_flag = 1;
 }


 // DMA传输完成回调函数
 void HAL_DMA_XferCpltCallback(DMA_HandleTypeDef *hdma)
 {
    if(hdma->Instance == DMA2_Stream0)
    {
        dma_bkpsram_done_flag = 1;
    }
 }




 /**
 * @brief 初始化备份域和PVD
 */
 void BackupSRAM_Init(void)
 {
    // 1. 使能PWR和备份域时钟
    __HAL_RCC_PWR_CLK_ENABLE();
    __HAL_RCC_BKPSRAM_CLK_ENABLE();
    
    // 2. 使能备份域访问
    HAL_PWR_EnableBkUpAccess();
    
    // 3. 使能备份SRAM
    HAL_PWREx_EnableBkUpReg();
    
    // 4. 等待备份稳压器就绪
    while(__HAL_PWR_GET_FLAG(PWR_FLAG_BRR) == RESET);
    
    // 初始化DMA
    DMA_Backup_Init();
 }


 /**
 * @brief 保存数据到备份SRAM
 * @note 该函数执行时间很短，适合在掉电中断中调用
 */
 void BackupSRAM_SaveRegData(void)
 {
    // 检查备份SRAM是否可用
    if(__HAL_PWR_GET_FLAG(PWR_FLAG_BRR) == RESET)
    {
        return;
    }
    
    /* 使用DMA传输76个uint16_t寄存器到备份SRAM */
    DMA_Start_CopyToBKPSRAM((uint8_t*)backup_data->holding_regs, 
                            MODBUS_ACTUAL_REG_COUNT * sizeof(uint16_t),
                            OFFSET_REGS);
    
    // 使用HAL_GetTick()实现100ms超时机制
    uint32_t start_tick = HAL_GetTick();
    while(!dma_bkpsram_done_flag)
    {
        if((HAL_GetTick() - start_tick) > 100)  // 100ms超时
        {
            HAL_DMA_Abort(&hdma_backup);  // 超时则中止DMA传输
            break;
        }
        HAL_Delay(1);  // 让出CPU时间
    }
    
    // 计算CRC校验
    backup_data->holding_crc = 0xffff;
 }

 /**
 * @brief 从备份SRAM恢复数据
 * @param[out] 无直接输出参数，数据恢复到backup_data->holding_regs
 * @return 1-恢复成功, 0-恢复失败
 * @note 恢复MODBUS_ACTUAL_REG_COUNT(76)个uint16_t寄存器数据
 */
 uint8_t BackupSRAM_RestoreData(void)
 {
    if(backup_data->holding_crc != 0xffff)
    {
        //printf("Backup holding registers CRC error\r\n");
        return 0;
    }
    
    /* 确保数据长度为4字节对齐，提高DMA传输效率 */
    uint32_t transfer_len = MODBUS_ACTUAL_REG_COUNT * sizeof(uint16_t);
    if(transfer_len % 4 != 0)
    {
        transfer_len = ((transfer_len + 3) / 4) * 4;  // 向上对齐到4字节边界
    }
    
    // 恢复保持寄存器
    DMA_Start_CopyFromBKPSRAM((uint8_t*)backup_data->holding_regs, 
                            transfer_len, OFFSET_REGS);
    
    // 使用HAL_GetTick()实现100ms超时机制
    uint32_t start_tick = HAL_GetTick();
    while(!dma_bkpsram_done_flag)
    {
        if((HAL_GetTick() - start_tick) > 100)  // 100ms超时
        {
            HAL_DMA_Abort(&hdma_backup);  // 超时则中止DMA传输
            return 0;  // 超时失败
        }
        HAL_Delay(1);  // 让出CPU时间
    }
    
    return 1;  // 恢复成功
 }

 /**
 * @brief 清除备份SRAM数据
 */
 void BackupSRAM_ClearData(void)
 {
    memset((void*)backup_data, 0, sizeof(BackupData_t));
 }



--- a/PLSR/PLSR/Core/Src/gpio.c
+++ b/PLSR/PLSR/Core/Src/gpio.c
@@ -74,9 +74,9 @@ void MX_GPIO_Init(void)
  HAL_GPIO_Init(GPIOH, &GPIO_InitStruct);

  /* EXTI interrupt init*/
  HAL_NVIC_SetPriority(EXTI9_5_IRQn, 3, 0);
  HAL_NVIC_SetPriority(EXTI9_5_IRQn, 1, 0);

  HAL_NVIC_SetPriority(EXTI15_10_IRQn, 0, 0);
  HAL_NVIC_SetPriority(EXTI15_10_IRQn, 1, 0);

 }

@@ -103,8 +103,8 @@ void HAL_GPIO_EXTI_Callback(uint16_t GPIO_Pin)
        {
            s_trigger_flag = 1;  // 设置触发标志，防止重复触发
            
            g_plsr_ext_event_flag = 1; // 设置外部事件标志
            PLSR_SetExtEvent(&g_plsr_route); // 将全局标志传递到当前段
            PlsrExtEventFlag = 1; // 设置外部事件标志
            PLSR_SetExtEvent(&PlsrRoute); // 将全局标志传递到当前段
            PLSR_SectionSwitchSignal();
            s_last_trigger_time = current_time; // 更新上次触发时间
        }
--- a/PLSR/PLSR/Core/Src/main.c
+++ b/PLSR/PLSR/Core/Src/main.c
@@ -263,21 +263,20 @@ static void KeyTask(void *p_arg)
    
    OSTimeDly(2000);                    //<等待硬件完全初始化.
    uint8_t startflag = 0; 
    // 初始化PLSR路径配置
    PLSR_Route_Init(&g_plsr_route);
    backup_data->holding_regs[73] = 0 & 0xFFFF;
    backup_data->holding_regs[74] = (0 >> 16) & 0xFFFF;
    while (1) 
    {
      if(ModbusSlave.holding_regs[0x2000] == 1) //按下发送脉冲按钮后,向0x3000地址写1,松手写2,设置地址偏移为0x1000,所以这里值为0x2000
      if(FlashSave_Get_Holding_Register(MODBUS_ADDR_PULSE_SEND_BUTTON) == 1) //按下发送脉冲按钮后,向0x3000地址写1,松手写2
      {
          startflag = 1;
          g_plsr_route.route_state = PLSR_ROUTE_IDLE;
          PlsrRoute.route_state = PLSR_ROUTE_IDLE;
      }
      else
      {
          if(startflag == 1)
          {
              PLSR_Route_Init(&g_plsr_route);
              PLSR_Route_Start(&g_plsr_route);
              PLSR_Route_Start(&PlsrRoute);
              startflag = 0;
          }
      }
--- a/PLSR/PLSR/Core/Src/modbus_crc.c
+++ b/PLSR/PLSR/Core/Src/modbus_crc.c
@@ -0,0 +1,71 @@
 #include "modbus_crc.h"

 static const uint16_t crc_table[256] = 
 {
    0x0000, 0xC0C1, 0xC181, 0x0140, 0xC301, 0x03C0, 0x0280, 0xC241,
    0xC601, 0x06C0, 0x0780, 0xC741, 0x0500, 0xC5C1, 0xC481, 0x0440,
    0xCC01, 0x0CC0, 0x0D80, 0xCD41, 0x0F00, 0xCFC1, 0xCE81, 0x0E40,
    0x0A00, 0xCAC1, 0xCB81, 0x0B40, 0xC901, 0x09C0, 0x0880, 0xC841,
    0xD801, 0x18C0, 0x1980, 0xD941, 0x1B00, 0xDBC1, 0xDA81, 0x1A40,
    0x1E00, 0xDEC1, 0xDF81, 0x1F40, 0xDD01, 0x1DC0, 0x1C80, 0xDC41,
    0x1400, 0xD4C1, 0xD581, 0x1540, 0xD701, 0x17C0, 0x1680, 0xD641,
    0xD201, 0x12C0, 0x1380, 0xD341, 0x1100, 0xD1C1, 0xD081, 0x1040,
    0xF001, 0x30C0, 0x3180, 0xF141, 0x3300, 0xF3C1, 0xF281, 0x3240,
    0x3600, 0xF6C1, 0xF781, 0x3740, 0xF501, 0x35C0, 0x3480, 0xF441,
    0x3C00, 0xFCC1, 0xFD81, 0x3D40, 0xFF01, 0x3FC0, 0x3E80, 0xFE41,
    0xFA01, 0x3AC0, 0x3B80, 0xFB41, 0x3900, 0xF9C1, 0xF881, 0x3840,
    0x2800, 0xE8C1, 0xE981, 0x2940, 0xEB01, 0x2BC0, 0x2A80, 0xEA41,
    0xEE01, 0x2EC0, 0x2F80, 0xEF41, 0x2D00, 0xEDC1, 0xEC81, 0x2C40,
    0xE401, 0x24C0, 0x2580, 0xE541, 0x2700, 0xE7C1, 0xE681, 0x2640,
    0x2200, 0xE2C1, 0xE381, 0x2340, 0xE101, 0x21C0, 0x2080, 0xE041,
    0xA001, 0x60C0, 0x6180, 0xA141, 0x6300, 0xA3C1, 0xA281, 0x6240,
    0x6600, 0xA6C1, 0xA781, 0x6740, 0xA501, 0x65C0, 0x6480, 0xA441,
    0x6C00, 0xACC1, 0xAD81, 0x6D40, 0xAF01, 0x6FC0, 0x6E80, 0xAE41,
    0xAA01, 0x6AC0, 0x6B80, 0xAB41, 0x6900, 0xA9C1, 0xA881, 0x6840,
    0x7800, 0xB8C1, 0xB981, 0x7940, 0xBB01, 0x7BC0, 0x7A80, 0xBA41,
    0xBE01, 0x7EC0, 0x7F80, 0xBF41, 0x7D00, 0xBDC1, 0xBC81, 0x7C40,
    0xB401, 0x74C0, 0x7580, 0xB541, 0x7700, 0xB7C1, 0xB681, 0x7640,
    0x7200, 0xB2C1, 0xB381, 0x7340, 0xB101, 0x71C0, 0x7080, 0xB041,
    0x5000, 0x90C1, 0x9181, 0x5140, 0x9301, 0x53C0, 0x5280, 0x9241,
    0x9601, 0x56C0, 0x5780, 0x9741, 0x5500, 0x95C1, 0x9481, 0x5440,
    0x9C01, 0x5CC0, 0x5D80, 0x9D41, 0x5F00, 0x9FC1, 0x9E81, 0x5E40,
    0x5A00, 0x9AC1, 0x9B81, 0x5B40, 0x9901, 0x59C0, 0x5880, 0x9841,
    0x8801, 0x48C0, 0x4980, 0x8941, 0x4B00, 0x8BC1, 0x8A81, 0x4A40,
    0x4E00, 0x8EC1, 0x8F81, 0x4F40, 0x8D01, 0x4DC0, 0x4C80, 0x8C41,
    0x4400, 0x84C1, 0x8581, 0x4540, 0x8701, 0x47C0, 0x4680, 0x8641,
    0x8201, 0x42C0, 0x4380, 0x8341, 0x4100, 0x81C1, 0x8081, 0x4040
 };

 /**
 * @brief 计算Modbus CRC16校验码
 * @param data 数据指针
 * @param length 数据长度
 * @return CRC16校验码
 */
 uint16_t Modbus_CRC16(uint8_t *data, uint16_t length)
 {
    uint16_t crc = 0xFFFF;
    
    while(length--)
    {
        crc = (crc >> 8) ^ crc_table[(crc ^ *data++) & 0xFF];
    }
    
    return crc;
 }

 /**
 * @brief 检查Modbus帧的CRC校验
 * @param data 帧数据指针
 * @param length 帧长度（包括CRC）
 * @return 1:校验正确, 0:校验错误
 */
 uint8_t Modbus_CheckCRC(uint8_t *data, uint16_t length)
 {
    if(length < 3) return 0;
    
    uint16_t crc_calculated = Modbus_CRC16(data, length - 2);
    uint16_t crc_received = (data[length-1] << 8) | data[length-2];
    
    return (crc_calculated == crc_received) ? 1 : 0;
 }
--- a/PLSR/PLSR/Core/Src/modbus_log.c
+++ b/PLSR/PLSR/Core/Src/modbus_log.c
@@ -0,0 +1,24 @@
 #include "modbus_log.h"

 uint16_t log_write_index = 0;
 ModbusLog modbus_logs[MODBUS_LOG_MAX];
 /*@brief  记录Modbus操作日志
 @param element  软元件类型：0x01=保持寄存器，0x02=线圈，0x03=输入寄存器，0x04=离散输入
 @param func  功能码：0x01, 0x03, 0x10等
 @param addr  操作起始地址
 @param len  数据长度（读写寄存器数）
 @param op_type  0x01=读, 0x02=写
 @param err  错误码：0=无错，其它=异常码（如0x02地址非法）
 */
 void Modbus_Log(uint8_t element, uint8_t func, uint16_t addr, uint16_t len, uint8_t op_type, uint8_t err)
 {
    ModbusLog* log = &modbus_logs[log_write_index];
    log->element_type = element;
    log->function_code = func;
    log->start_address = addr;
    log->data_len = len;
    log->operation_type = op_type;
    log->error_code = err;

    log_write_index = (log_write_index + 1) % MODBUS_LOG_MAX;
 }
--- a/PLSR/PLSR/Core/Src/tim.c
+++ b/PLSR/PLSR/Core/Src/tim.c
--- a/PLSR/PLSR/Core/Src/tools.c
+++ b/PLSR/PLSR/Core/Src/tools.c
@@ -0,0 +1,971 @@
 #include "tim.h"
 void PLSR_Fix_Compensated(uint32_t frequency, uint32_t* ccr)
 {  
    if (frequency >= 100000)      // >= 100kHz
    {
        *ccr *= 1.05f;  // 5% 补偿
    }
    else if (frequency >= 50000)  // 50-100kHz
    {
        *ccr *= 1.04f;  // 3% 补偿
    }
    else if (frequency >= 20000)  // 20-50kHz
    {
        *ccr *= 1.02f;  // 2% 补偿
    }
 }
 /**
 * @brief  计算定时器参数
 * @param  frequency: 目标频率(Hz)
 * @param  prescaler: 预分频器值指针
 * @param  period: 周期值指针
 * @retval None
 * @note   根据目标频率计算定时器的预分频器和周期值，使用64位数据类型避免高频时溢出
 */
 void PLSR_CalculateTimerParams(uint32_t frequency, uint16_t* prescaler, uint32_t* period)
 {
    /* 参数有效性检查 */
    if (frequency < PLSR_PWM_FREQ_MIN)  frequency = PLSR_PWM_FREQ_MIN;
    if (frequency > PLSR_PWM_FREQ_MAX)  frequency = PLSR_PWM_FREQ_MAX;
    
    /* 使用64位数据类型避免高频计算时的溢出 */
    uint64_t timer_clock = 0;
    if(PlsrRoute.output_port == 0 || PlsrRoute.output_port == 1)
    {
       timer_clock = 168000000ULL; ///< TIM10/TIM11时钟 (APB2 168MHz)
    }
    else
    {
        timer_clock = 84000000ULL; ///< TIM13/TIM14时钟 (APB1 84MHz)
    }
    
    /* 防止除零错误 */
    if (frequency == 0) frequency = 1;
    
    /* 使用64位计算避免溢出，四舍五入处理 */
    uint64_t divider = (timer_clock + (uint64_t)frequency / 2) / (uint64_t)frequency;
    if (divider < 2) divider = 2; ///< 最小分频比为2

    /* 计算预分频器，限制ARR <= 65535 */
    uint64_t psc = (divider + 65535ULL) / 65536ULL; ///< 向上取整
    if (psc > 0xFFFFULL) psc = 0xFFFFULL; ///< 限制预分频器最大值

    /* 计算自动重载值 */
    uint64_t arr = (divider / psc) - 1;
    if (arr < 1) arr = 1; ///< 最小ARR值为1
    if (arr > 65535ULL) arr = 65535ULL; ///< 限制ARR最大值

    /* 安全转换为16位和32位数据类型 */
    *prescaler = (uint16_t)(psc - 1);
    *period = (uint32_t)arr;
 }

 // ==================== PLSR 路径计算函数实现 ====================
 //在加速度较小时,可能会出现计算脉冲数为0的情况,此时会导致无法进入加速状态
 /**
 * @brief  计算段脉冲数分配(简化版)
 * @param  route: 路径控制结构体指针
 * @retval None
 * @note   为最后一段或等待脉冲结束的段设计，不区分算法类型
 */
 void Calculate_PluseNum_Simplified(PLSR_RouteConfig_t *route)
 {
    int64_t accel_pulse_num = 0;    // 加速过程脉冲数
    int64_t decel_pulse_num = 0;    // 减速过程脉冲数
    int64_t const_pulse_num = 0;    // 匀速过程脉冲数
    uint32_t accel_time = 0;         // 加速时间(ms)
    uint32_t decel_time = 0;         // 减速时间(ms)
    
    // 参数有效性检查
    if (route == NULL || route->current_section_num == 0) return;
    
    // 边界检查
    if (route->current_section_num > PLSR_MAX_SECTIONS) return;
    
    // 获取当前段配置（段号从1开始，数组索引从0开始）
    PLSR_SectionConfig_t* current_section = &route->section[route->current_section_num - 1];
    
    uint32_t v0 = route->current_freq;               // 起始频率
    uint32_t vt = current_section->target_freq;      // 目标频率
    uint32_t a = route->accel_rate;                  // 加速度
    uint32_t d = route->decel_rate;                  // 减速度
    // 使用实际可发脉冲数，不再区分相对/绝对模式
    int64_t total_pulses = current_section->actual_pulse; // 总脉冲数
    
    
    // 防止除零错误
    if (a == 0) a = 1;
    if (d == 0) d = 1;
    
    if (vt > v0) 
    {
        // 情况1：目标频率大于当前频率，需要加速
        route->run_state = PLSR_STATE_ACCEL;
        
        // 计算从v0加速到vt所需的时间和脉冲数
        accel_time = (vt - v0) / a;  // 加速时间(ms)
        if (accel_time == 0) accel_time = 1;  // 至少1ms
        
        // 加速阶段脉冲数 = (起始频率 + 目标频率) * 时间 / 2000
        // 使用梯形积分公式：面积 = (上底 + 下底) * 高 / 2
        uint64_t temp_accel = (uint64_t)(v0 + vt) * accel_time;
        int64_t required_accel_pulses = (int64_t)(temp_accel / 2000);
        if(required_accel_pulses == 0) required_accel_pulses = 1; // 至少1个脉冲
        
        if (required_accel_pulses <= total_pulses) 
        {
            // 脉冲数足够完成加速，剩余脉冲用于匀速
            accel_pulse_num = required_accel_pulses;
            const_pulse_num = total_pulses - required_accel_pulses;
            decel_pulse_num = 0;
        }
        else 
        {
            // 脉冲数不够完成完整加速，全部用于加速
            accel_pulse_num = total_pulses;
            const_pulse_num = 0;
            decel_pulse_num = 0;
            
            // 重新计算实际能达到的最大频率
            // 根据：pulses = (v0 + v_actual) * t / 2000，且 t = (v_actual - v0) / a
            // 代入得：pulses = (v0 + v_actual) * (v_actual - v0) / (2000 * a)
            // 整理得：pulses * 2000 * a = v_actual^2 - v0^2
            // 所以：v_actual^2 = pulses * 2000 * a + v0^2
            
            uint64_t v_actual_squared = (uint64_t)total_pulses * 2000ULL * a + (uint64_t)v0 * v0;
            
            // 检查是否溢出
            if (v_actual_squared <= 0xFFFFFFFFULL) 
            {
                uint32_t v_actual = integer_sqrt_64((uint32_t)v_actual_squared);
                
                // 确保不超过目标频率
                if (v_actual > vt) 
                    v_actual = vt;      
            }
        }
    }
    else if (vt < v0) 
    {
        // 情况2：目标频率小于当前频率，需要减速
        route->run_state = PLSR_STATE_DECEL;
        
        // 计算从v0减速到vt所需的时间和脉冲数
        decel_time = (v0 - vt) / d;  // 减速时间(ms)
        if (decel_time == 0) decel_time = 1;  // 至少1ms
        
        // 减速阶段脉冲数 = (起始频率 + 目标频率) * 时间 / 2000
        uint64_t temp_decel = (uint64_t)(v0 + vt) * decel_time;
        int64_t required_decel_pulses = (int64_t)(temp_decel / 2000);
        if(required_decel_pulses == 0) required_decel_pulses = 1; // 至少1个脉冲
        
        if (required_decel_pulses <= total_pulses) 
        {
            // 脉冲数足够完成减速，剩余脉冲用于匀速
            decel_pulse_num = required_decel_pulses;
            const_pulse_num = total_pulses - required_decel_pulses;
            accel_pulse_num = 0;
        }
        else 
        {
            // 脉冲数不够完成完整减速，全部用于减速
            decel_pulse_num = total_pulses;
            const_pulse_num = 0;
            accel_pulse_num = 0;
            
            // 重新计算实际能减速到的最低频率
            // 根据：pulses = (v0 + v_actual) * t / 2000，且 t = (v0 - v_actual) / d
            // 代入得：pulses = (v0 + v_actual) * (v0 - v_actual) / (2000 * d)
            // 整理得：pulses * 2000 * d = v0^2 - v_actual^2
            // 所以：v_actual^2 = v0^2 - pulses * 2000 * d
            
            uint64_t v0_squared = (uint64_t)v0 * v0;  // 起始频率的平方
            uint64_t reduction = (uint64_t)total_pulses * 2000ULL * d; // 减速所需的脉冲数
            
            if (v0_squared > reduction) 
            {
                uint32_t v_actual_squared = (uint32_t)(v0_squared - reduction);
                uint32_t v_actual = integer_sqrt_64(v_actual_squared);
                
                // 确保不低于目标频率（理论上不应该，但防御性编程）
                if (v_actual < vt) 
                    v_actual = vt;
            }
        }
    }
    else 
    {
        // 情况3：目标频率等于当前频率，全部为匀速
        route->run_state = PLSR_STATE_CONST;
        accel_pulse_num = 0;
        const_pulse_num = total_pulses;
        decel_pulse_num = 0;
    }
    
    // 保存计算结果
    route->accel_pulse_count = accel_pulse_num;
    route->const_pulse_count = const_pulse_num;
    route->decel_pulse_count = decel_pulse_num;
 }

 void Calculate_PluseNum(PLSR_RouteConfig_t *route)
 {
    int64_t part1_pulse_num = 0;    // 第一部分脉冲数
    int64_t part2_pulse_num = 0;    // 第二部分脉冲数
    int64_t part3_pulse_num = 0;    // 第三部分脉冲数
    uint32_t part1_time = 0;         // 第一部分时间(ms)
    uint32_t part3_time = 0;         // 第三部分时间(ms)
    
    // 参数有效性检查
    if (route == NULL || route->current_section_num == 0) return;
    
    // 边界检查
    if (route->current_section_num > PLSR_MAX_SECTIONS) return;
    
    // 获取当前段配置（段号从1开始，数组索引从0开始）
    PLSR_SectionConfig_t* current_section = &route->section[route->current_section_num - 1];
    

        uint32_t v0 = route->current_freq;        // 起始频率
        uint32_t vt_desired = current_section->target_freq; // 期望目标频率
        uint32_t vt = vt_desired;                 // 实际目标频率（可能会被调整）
        uint32_t a = route->accel_rate;           // 加速度
        uint32_t d = route->decel_rate;           // 减速度
        
        // 在PLSR_Section_StartNewSection中已经根据模式计算了actual_pulse
        int64_t total_pulses = current_section->actual_pulse; // 总脉冲数
        
        // 防止除零错误
        if (a == 0) a = 1;
        if (d == 0) d = 1;
        
        // 初始计算：按理想情况计算各部分脉冲数
        PLSR_RunState_t part1_state = PLSR_STATE_CONST;
        PLSR_RunState_t part2_state = PLSR_STATE_CONST;
        PLSR_RunState_t part3_state = PLSR_STATE_DECEL;
        
        // 计算理想情况下的第一部分：v0 -> vt
        if (v0 < vt) 
        {
            part1_state = PLSR_STATE_ACCEL;
            part1_time = (vt - v0) / a;
            if (part1_time == 0) part1_time = 1;
            
            uint64_t temp_calc = (uint64_t)(v0 + vt) * part1_time;
            part1_pulse_num = (uint32_t)(temp_calc / 2000);
            if(part1_pulse_num == 0) part1_pulse_num = 1;
        } 
        else if (v0 > vt) 
        {
            part1_state = PLSR_STATE_DECEL;
            part1_time = (v0 - vt) / d;
            if (part1_time == 0) part1_time = 1;
            
            uint64_t temp_calc = (uint64_t)(v0 + vt) * part1_time;
            part1_pulse_num = (uint32_t)(temp_calc / 2000);
            if(part1_pulse_num == 0) part1_pulse_num = 1;
        } 
        else 
        {
            part1_pulse_num = 0;
            part1_time = 0;
        }
        
        // 计算理想情况下的第三部分：vt -> 0
        if (vt > 0) 
        {
            part3_time = vt / d;
            if (part3_time == 0) part3_time = 1;
            
            uint64_t temp_calc = (uint64_t)vt * part3_time;
            part3_pulse_num = (uint32_t)(temp_calc / 2000);
            if(part3_pulse_num == 0) part3_pulse_num = 1;
        } 
        else 
        {
            part3_pulse_num = 0;
            part3_time = 0;
        }
        
        // 检查脉冲数是否足够
        int64_t used_pulses = part1_pulse_num + part3_pulse_num;
        
        if (used_pulses <= total_pulses) 
        {
            // 脉冲数足够，计算匀速部分
            part2_pulse_num = total_pulses - used_pulses;
        } 
        else 
        {
            // 脉冲数不足，需要重新规划运动
            part2_pulse_num = 0; // 没有匀速阶段
            
            // 优化策略：寻找最优的中间频率vm，使得总脉冲数刚好等于available_pulses
            uint32_t vm = OptimalIntermediateFrequency(v0, vt_desired, total_pulses, a, d);
            
            if (vm != v0) // 找到了有效的中间频率
            {
                vt = vm; // 更新实际目标频率
                
                // 重新计算第一部分
                if (v0 < vm) 
                {
                    part1_state = PLSR_STATE_ACCEL;
                    // 使用运动学公式：s = (v0 + vm) * t / 2，其中 t = (vm - v0) / a
                    // 所以：s = (v0 + vm) * (vm - v0) / (2 * a) = (vm^2 - v0^2) / (2 * a)
                    uint64_t numerator = (uint64_t)vm * vm - (uint64_t)v0 * v0;
                    part1_pulse_num = (uint32_t)(numerator / (2000ULL * a));
                    if (part1_pulse_num == 0) part1_pulse_num = 1;
                    
                    part1_time = (vm - v0) / a;
                    if (part1_time == 0) part1_time = 1;
                } 
                else if (v0 > vm) 
                {
                    part1_state = PLSR_STATE_DECEL;
                    // 减速情况：s = (v0^2 - vm^2) / (2 * d)
                    uint64_t numerator = (uint64_t)v0 * v0 - (uint64_t)vm * vm;
                    part1_pulse_num = (uint32_t)(numerator / (2000ULL * d));
                    if (part1_pulse_num == 0) part1_pulse_num = 1;
                    
                    part1_time = (v0 - vm) / d;
                    if (part1_time == 0) part1_time = 1;
                } 
                else 
                {
                    part1_state = PLSR_STATE_CONST;
                    part1_pulse_num = 0;
                    part1_time = 0;
                }
                
                // 重新计算第三部分：vm -> 0
                if (vm > 0) 
                {
                    part3_state = PLSR_STATE_DECEL;
                    // s = vm^2 / (2 * d)
                    uint64_t numerator = (uint64_t)vm * vm;
                    part3_pulse_num = (uint32_t)(numerator / (2000ULL * d));
                    if (part3_pulse_num == 0) part3_pulse_num = 1;
                    
                    part3_time = vm / d;
                    if (part3_time == 0) part3_time = 1;
                } 
                else 
                {
                    part3_pulse_num = 0;
                    part3_time = 0;
                }
                
                // 确保总脉冲数完全匹配
                int64_t calculated_total = part1_pulse_num + part3_pulse_num;
                if (calculated_total != total_pulses) 
                {
                    if (calculated_total > total_pulses) 
                    {
                        // 脉冲数超出限制，按比例缩减
                        if (part1_pulse_num > 0 && part3_pulse_num > 0) 
                        {
                            // 两个阶段都有脉冲，按比例分配
                            part1_pulse_num = ((part1_pulse_num * total_pulses) + calculated_total / 2) / calculated_total; //解决脉冲数过小时导致的问题
                            part3_pulse_num = total_pulses - part1_pulse_num;
                        } 
                        else if (part1_pulse_num > 0) 
                        {
                            // 只有第一阶段有脉冲
                            part1_pulse_num = total_pulses;
                        } 
                        else if (part3_pulse_num > 0) 
                        {
                            // 只有第三阶段有脉冲
                            part3_pulse_num = total_pulses;
                        }
                    } 
                    else 
                    {
                        // 脉冲数不足，将剩余脉冲分配给匀速阶段
                        int64_t remaining_pulses = total_pulses - calculated_total;
                        
                        // 将剩余脉冲分配给第二阶段（匀速阶段）
                        // 这样既不影响加减速的数学精确性，又能充分利用所有脉冲
                        part2_pulse_num = remaining_pulses;

                        // 更新第二阶段状态为匀速
                        part2_state = PLSR_STATE_CONST;
                    }
                }
            } 
            else 
            {
                // 无法找到有效的运动规划，保持当前频率
                part1_state = PLSR_STATE_DECEL;
                part1_pulse_num = total_pulses;
                part1_time = (total_pulses * 1000) / v0;
                part3_pulse_num = 0;
                part3_time = 0;
                vt = 0; // 实际目标频率等于起始频率
            }
        }
        
        // 保存计算结果到结构体
        if (part1_state == PLSR_STATE_ACCEL) 
        {
            route->accel_pulse_count = part1_pulse_num;
        } 
        else 
        {
            route->accel_pulse_count = (part1_state == PLSR_STATE_DECEL) ? part1_pulse_num : 0;
        }
        
        route->const_pulse_count = part2_pulse_num;
        route->decel_pulse_count = part3_pulse_num;
        
        route->part1_state = part1_state;
        route->part2_state = part2_state;
        route->part3_state = part3_state;
        route->part1_time = part1_time;
        route->part3_time = part3_time;
        route->part1_target_freq = vt;
        route->part2_target_freq = vt;
        route->part3_target_freq = 0;
        
        // 设置初始运行状态
        if (part1_pulse_num > 0) 
        {
            route->run_state = part1_state;
            route->target_freq = vt;
        } else if (part2_pulse_num > 0) 
        {
            route->run_state = PLSR_STATE_CONST;
            route->target_freq = vt;
        } else if (part3_pulse_num > 0) 
        {
            route->run_state = PLSR_STATE_DECEL;
            route->target_freq = 0;
        } else 
        {
            route->run_state = PLSR_STATE_CONST;
            route->target_freq = v0;
        }
 }


 /**
 * @brief 计算最优中间频率
 */
 uint32_t OptimalIntermediateFrequency(uint32_t v0, uint32_t vt_desired,
                                     int64_t total_pulses, uint32_t a, uint32_t d)
 {
    if (total_pulses <= 0 || a == 0 || d == 0) {
        return v0; // 无法优化
    }

    uint32_t vm = v0;

    // 统一平方项
    uint64_t v0_sq = square_u32(v0);

    if (v0 < vt_desired) 
    {
        // 加速情况
        // 公式：vm^2 = [(total + v0^2/(2a)) * 2ad] / (a+d)
        uint64_t rhs = (uint64_t)total_pulses * SCALE_FACTOR + (v0_sq / a); //total*2000 + v0^2/a
        uint64_t vm_sq = (rhs * a * d) / (a + d); 

        if (vm_sq > 0xFFFFFFFFULL) vm_sq = 0xFFFFFFFFULL;
        vm = integer_sqrt_64((uint32_t)vm_sq);

        if (vm > vt_desired * 2) vm = vt_desired * 2;

        // 验证是否超出 total_pulses
        uint64_t s1 = (square_u32(vm) - v0_sq) / (SCALE_FACTOR * a);
        uint64_t s3 = square_u32(vm) / (SCALE_FACTOR * d);
        if (s1 + s3 > (uint64_t)total_pulses) {
            vm = BinarySearchOptimalFreq(v0, vt_desired, total_pulses, a, d, 1);
        }

    } 
    else if (v0 > vt_desired) 
    {
        // 减速情况
        uint64_t required = v0_sq / (SCALE_FACTOR * d);
        if (required <= (uint64_t)total_pulses) {
            vm = (vt_desired < v0) ? vt_desired : v0 / 2;
        } else 
        {
            uint64_t reduction = (uint64_t)total_pulses * SCALE_FACTOR * d;
            vm = (v0_sq > reduction) ? integer_sqrt_64((uint32_t)(v0_sq - reduction)) : 0;
        }
    }

    return vm;
 }

 /**
 * @brief 二分搜索寻找最优频率
 * @param v0 起始频率
 * @param vt_desired 期望目标频率
 * @param total_pulses 可用总脉冲数
 * @param a 加速度
 * @param d 减速度
 * @param is_accel 是否为加速情况
 * @return 最优频率
 */
 uint32_t BinarySearchOptimalFreq(uint32_t v0, uint32_t vt_desired, 
                                int64_t total_pulses, uint32_t a, uint32_t d, 
                                uint8_t is_accel)
 {
    uint32_t low = is_accel ? v0 : 0;
    uint32_t high = is_accel ? (vt_desired * 2) : v0;
    uint32_t best_vm = v0;
    
    for (int iterations = 0; iterations < 20; iterations++) // 限制迭代次数
    {
        uint32_t mid = low + (high - low) / 2;
        
        // 计算当前频率下的脉冲数
        uint32_t s1, s3;
        if (is_accel) 
        {
            s1 = ((uint64_t)mid * mid - (uint64_t)v0 * v0) / (2000ULL * a);
        } 
        else 
        {
            s1 = ((uint64_t)v0 * v0 - (uint64_t)mid * mid) / (2000ULL * d);
        }
        s3 = ((uint64_t)mid * mid) / (2000ULL * d);
        
        int64_t total_calc = s1 + s3;
        
        if (total_calc == total_pulses) {
            return mid; // 找到精确解
        } else if (total_calc < total_pulses) {
            best_vm = mid;
            low = mid + 1;
        } else {
            high = mid - 1;
        }
        
        if (low > high) break;
    }
    
    return best_vm;
 }


 uint64_t square_u32(uint32_t x) 
 {
    return (uint64_t)x * (uint64_t)x;
 }

 static inline int clzll(uint64_t x) {
    if (x == 0) return 64;
    uint32_t hi = (uint32_t)(x >> 32);
    if (hi) return __CLZ(hi);
    else return 32 + __CLZ((uint32_t)x);
 }

 uint64_t integer_sqrt_64(uint64_t n)
 {
    if (n == 0 || n == 1) return n;

    int bitlen = 64 - clzll(n);
    uint64_t x = 1ULL << ((bitlen + 1) / 2);

    for (int i = 0; i < 6; i++) {
        uint64_t y = (x + n / x) >> 1;
        if (y >= x) break;
        x = y;
    }

    // 修正
    while ((x+1) > 0 && (x+1) <= UINT64_MAX / (x+1) && (x+1)*(x+1) <= n) x++;
    while (x*x > n) x--;

    return x;
 }

 /**
 * @brief  更新加减速度
 * @param  route: 路径控制结构体指针
 * @retval None
 * @note   根据默认频率和加减速时间重新计算加减速度
 *         计算得到的加速度单位为Hz/ms，在PLSR_Calculate_FreqByPosition函数中
 *         会将其转换为Hz/s^2以符合物理公式要求
 */
 void PLSR_Accel_UpdateRates(PLSR_RouteConfig_t* route)
 {
    if (route == NULL) return;
    
    // 计算加速度 (Hz/ms)
    if (route->default_accel_time_ms > 0) 
    {
        route->accel_rate = route->default_freq / route->default_accel_time_ms;
    } 
    else 
    {
        route->accel_rate = 0;  // 避免除零错误
    }
    
    // 计算减速度 (Hz/ms)
    if (route->default_decel_time_ms > 0) 
    {
        route->decel_rate = route->default_freq / route->default_decel_time_ms;
    } 
    else 
    {
        route->decel_rate = 0;  // 避免除零错误
    }
 }

 /**
 * @brief S曲线加减速参数初始化
 * @param route 路径配置结构体指针
 * @param accel_time_ms 加速时间（毫秒）
 * @param decel_time_ms 减速时间（毫秒）
 */
 void SCurve_InitializeParameters(PLSR_RouteConfig_t* route, uint32_t accel_time_ms, uint32_t decel_time_ms) 
 {
    if (route == NULL) return;
    
    /* ============ 加速段参数计算 ============ */
    if (accel_time_ms > 0) 
    {
        uint32_t vel_start = route->initial_freq;  // V0
        uint32_t vel_target = route->part1_target_freq;  // Vt
        
        if (vel_target > vel_start) 
        {
            uint32_t delta_v = vel_target - vel_start;
            uint32_t Tj = accel_time_ms / 2;  // 到达最大加速度的时间（加速时间的一半）
            
            // 加加速度计算：J = 4*Vt/(Tt^2) = 4*delta_v/(accel_time_ms^2)
            uint64_t jerk_numerator = 4ULL * delta_v * 1000ULL;  // 乘1000进行单位换算
            uint64_t jerk_denominator = (uint64_t)accel_time_ms * accel_time_ms;
            uint32_t jerk = (uint32_t)(jerk_numerator / jerk_denominator);  // Hz/ms²
            
            // 最大加速度：Amax = J * Tj
            uint32_t max_accel = (jerk * Tj) / 1000;  // Hz/ms
            
            // 加加速过程的脉冲数：N1 = (1/6) * J * Tj^3
            uint64_t Tj_cubed = (uint64_t)Tj * Tj * Tj;
            uint64_t phase1_pulses_calc = (jerk * Tj_cubed) / (6ULL * 1000ULL * 1000ULL);  // 单位换算
            
            // 减加速过程的脉冲数：N2 = V0*Tj + (5/6)*J*Tj^3
            uint64_t phase2_term2 = (5ULL * jerk * Tj_cubed) / (6ULL * 1000ULL * 1000ULL);
            uint64_t phase2_pulses_calc = phase2_term2;
            
            // 存储加速段参数
            route->scurve.accel_jerk = jerk;
            route->scurve.accel_max = max_accel;
            route->scurve.accel_jerk_time_ms = Tj;
            route->scurve.accel_phase1_pulses = (uint32_t)phase1_pulses_calc;
            route->scurve.accel_phase2_pulses = (uint32_t)phase2_pulses_calc;
        } 
        else 
        {
                  // 无需加速，清零参数
            route->scurve.accel_jerk = 0;
            route->scurve.accel_max = 0;
            route->scurve.accel_jerk_time_ms = 0;
            route->scurve.accel_phase1_pulses = 0;
            route->scurve.accel_phase2_pulses = 0;
        }
    }
    
    /* ============ 减速段参数计算 ============ */
    if (decel_time_ms > 0) 
    {
        uint32_t vel_start_decel = route->part2_target_freq;  // 减速起始速度
        uint32_t vel_target_decel = route->part3_target_freq;  // 减速目标速度
        
        if (vel_start_decel > vel_target_decel) 
        {
            uint32_t delta_v = vel_start_decel - vel_target_decel;
            uint32_t Tj = decel_time_ms / 2;  // 到达最大减速度的时间
            
            // 减加速度计算：J = 4*delta_v/(decel_time_ms^2)
            uint64_t jerk_numerator = 4ULL * delta_v * 1000ULL;
            uint64_t jerk_denominator = (uint64_t)decel_time_ms * decel_time_ms;
            uint32_t jerk = (uint32_t)(jerk_numerator / jerk_denominator);
            
            // 最大减速度
            uint32_t max_decel = (jerk * Tj) / 1000;
            
            // 减减速过程的脉冲数：N1 = (1/6) * J * Tj^3
            uint64_t Tj_cubed = (uint64_t)Tj * Tj * Tj;
            uint64_t phase1_pulses_calc = (jerk * Tj_cubed) / (6ULL * 1000ULL * 1000ULL);
            
            // 加减速过程的脉冲数：N2 = V0*Tj + (5/6)*J*Tj^3
            uint64_t phase2_term2 = (5ULL * jerk * Tj_cubed) / (6ULL * 1000ULL * 1000ULL);
            uint64_t phase2_pulses_calc = phase2_term2;
            
            // 存储减速段参数
            route->scurve.decel_jerk = jerk;
            route->scurve.decel_max = max_decel;
            route->scurve.decel_jerk_time_ms = Tj;
            route->scurve.decel_phase1_pulses = (uint32_t)phase2_pulses_calc;
            route->scurve.decel_phase2_pulses = (uint32_t)phase1_pulses_calc;
        } 
        else 
        {
            // 无需减速，清零参数
            route->scurve.decel_jerk = 0;
            route->scurve.decel_max = 0;
            route->scurve.decel_jerk_time_ms = 0;
            route->scurve.decel_phase1_pulses = 0;
            route->scurve.decel_phase2_pulses = 0;
        }
    }
 }  



 /**
 * @brief 重置S曲线计算状态（用于段切换）
 */
 void PLSR_Reset_SCurve_State(void) {
    // 通过调用函数并传入无效参数来触发状态重置
    // 实际使用中，在段切换时调用此函数
 }


 static double cbrt_approx(double x) {
    if (x == 0) return 0;
    if (x < 0) return -cbrt_approx(-x);
    double guess = x / 3.0;
    for (int i = 0; i < 10; i++) {
        guess = (2.0 * guess + x / (guess * guess)) / 3.0;
    }
    return guess;
 }

 /**
 * @brief 第一阶段：根据脉冲数计算时间（加加速段，牛顿迭代）
 * 方程： (1/6)*J_real*t^3 - S*1000 = 0
 * @param pulse_num 当前脉冲数
 * @param jerk 加加速度 (Hz/ms²)
 * @return 时间 (ms)
 */
 static double SCurve_GetTimeFromPulses_Phase1(uint32_t pulse_num, uint32_t jerk) {
    if (pulse_num == 0 || jerk == 0) return 0.0;

    double S_cont = (double)pulse_num * 1000.0;    // 脉冲转换为连续量
    double J_real = (double)jerk / 1000.0;         // Hz/ms²

    // 初始猜测：用反函数近似值作为初始点
    double t = cbrt_approx((6.0 * S_cont) / J_real);
    if (t <= 0.0) t = 1.0;  // 避免负数或零

    // 牛顿迭代
    for (int i = 0; i < 40; ++i) {
        double t2 = t * t;
        double t3 = t2 * t;
        double F = (1.0 / 6.0) * J_real * t3 - S_cont;
        double dF = 0.5 * J_real * t2;

        if (fabs(dF) < 1e-12) break;

        double t_new = t - F / dF;
        if (t_new <= 0.0) {
            t_new = t * 0.5;
        }
        if (fabs(t_new - t) < 1e-7) {
            t = t_new;
            break;
        }
        t = t_new;
    }

    if (t < 0.0) t = 0.0;
    return t;  // ms
 }


 /* Phase2: pulses*1000 = Vmid*t + 0.5*Amax*t^2 - (1/6)*J_real*t^3
   其中 Amax = J_real * Tj (Tj 单位 ms), J_real = jerk / 1000 */
 static double SCurve_GetTimeFromPulses_Phase2(uint32_t pulse_num, uint32_t V0, 
                                              uint32_t jerk, uint32_t Tj) {
    if (pulse_num == 0) return 0.0;

    double J_real = (double)jerk / 1000.0;       /* Hz / ms^2 */
    double Tj_d = (double)Tj;                    /* ms */
    double Amax = J_real * Tj_d;                 /* Hz / ms  (注意单位：a in Hz per ms) */
    double Vmid = (double)V0;                    /* V0 parameter here is vmid (caller should pass vmid) */

    double S_cont = (double)pulse_num * 1000.0;  /* 连续量 */

    double t;
    if (Vmid > 0.0) 
    {
        t = S_cont / Vmid;
        if (t <= 0.0) t = Tj_d / 2.0;
    } else {
        t = Tj_d / 2.0;
    }

    /* 牛顿迭代求解 F(t) = Vmid*t + 0.5*Amax*t^2 - (1/6)*J_real*t^3 - S_cont = 0 */
    for (int i = 0; i < 40; ++i) {
        double t2 = t * t;
        double t3 = t2 * t;
        double F = Vmid * t + 0.5 * Amax * t2 - (1.0/6.0) * J_real * t3 - S_cont;
        double dF = Vmid + Amax * t - 0.5 * J_real * t2;

        if (fabs(dF) < 1e-12) break;
        double t_new = t - F / dF;
        if (t_new <= 0.0) {
            t_new = t * 0.5;
        }
        if (fabs(t_new - t) < 1e-7) {
            t = t_new;
            break;
        }
        t = t_new;
    }

    if (t < 0.0) t = 0.0;
    return t; /* ms */
 }

 /* 主函数：使用上述两个反函数，并在计算频率时用 J_real */
 uint32_t PLSR_Calculate_SCurve_FreqByPulses_Exact(PLSR_RouteConfig_t* route, uint8_t is_accel) {
    if (route == NULL) return 0;

    static uint32_t s_last_freq = 0;
    int64_t current_tim2_count = __HAL_TIM_GET_COUNTER(&htim2);
    uint32_t executed_pulses = current_tim2_count;

    uint32_t V0, jerk, Tj, phase1_pulses, phase2_pulses;

    if (is_accel) {
        V0 = route->initial_freq;
        jerk = route->scurve.accel_jerk;           /* NOTE: assumed scaled = J_real * 1000 */
        Tj = route->scurve.accel_jerk_time_ms;
        phase1_pulses = route->scurve.accel_phase1_pulses;
        phase2_pulses = route->scurve.accel_phase2_pulses;
    } else {
        V0 = route->part2_target_freq;
        jerk = route->scurve.decel_jerk;
        Tj = route->scurve.decel_jerk_time_ms;
        phase1_pulses = route->scurve.decel_phase1_pulses;
        phase2_pulses = route->scurve.decel_phase2_pulses;
    }

    if (jerk == 0 || Tj == 0) return V0;

    uint32_t calculated_freq = V0;

    if (executed_pulses == 0) {
        return V0;
    } 
    else if (executed_pulses <= phase1_pulses) 
    {
        /* Phase1 */
        double t; /* ms */
        double J_real = (double)jerk / 1000.0; /* Hz / ms^2 */
        double vmid_double;
        double Amax = J_real * Tj;
        if (is_accel) {
            vmid_double = (double)V0 + 0.5 * J_real * Tj * Tj;
        } else 
        {
            vmid_double = (double)V0 - 0.5 * J_real * Tj * Tj;
            if (vmid_double < 1.0) vmid_double = 1.0;
        }
        
        if (is_accel) {
            t = SCurve_GetTimeFromPulses_Phase1(executed_pulses, jerk);
            double freq_double = (double)V0 + 0.5 * J_real * t * t; /* Hz */
            calculated_freq = (uint32_t)(freq_double + 0.5);
        } 
        else 
        {
            uint32_t phase2_pulse_num = phase1_pulses - executed_pulses;
            t = SCurve_GetTimeFromPulses_Phase2(phase2_pulse_num, (uint32_t)vmid_double, jerk, Tj);
            double freq_double = vmid_double + Amax * t - 0.5 * J_real * t * t;
            calculated_freq = (uint32_t)(freq_double + 0.5);
        }
    } 
    else if (executed_pulses <= (phase1_pulses + phase2_pulses)) 
    {
        /* Phase2 */
        double Tj_d = (double)Tj;
        double J_real = (double)jerk / 1000.0;
        double vmid_double;
        if (is_accel) {
            vmid_double = (double)V0 + 0.5 * J_real * Tj_d * Tj_d;
        } else {
            vmid_double = (double)V0 - 0.5 * J_real * Tj_d * Tj_d;
            if (vmid_double < 1.0) vmid_double = 1.0;
        }

        double Amax = J_real * Tj_d; /* Hz / ms */

        if (is_accel) 
        {
            uint32_t phase2_pulse_num = executed_pulses - phase1_pulses;
            double t_phase2 = SCurve_GetTimeFromPulses_Phase2(phase2_pulse_num, (uint32_t)vmid_double, jerk, Tj); /* ms */
            double freq_double = vmid_double + Amax * t_phase2 - 0.5 * J_real * t_phase2 * t_phase2;
            calculated_freq = (uint32_t)(freq_double + 0.5);
        } 
        else 
        {
            uint32_t phase2_pulse_num = phase2_pulses + phase1_pulses  - executed_pulses + 1;
            double t_phase2 = SCurve_GetTimeFromPulses_Phase1(phase2_pulse_num, jerk); /* ms */
            double freq_double = (double)0 + 0.5 * J_real * t_phase2 * t_phase2; /* Hz */
            calculated_freq = (uint32_t)(freq_double + 0.5);
        }
    } else {
        calculated_freq = is_accel ? route->part1_target_freq : route->part3_target_freq;
    }
    if(calculated_freq != 0 && calculated_freq <PLSR_PWM_FREQ_MAX)
    s_last_freq = calculated_freq;
    if (calculated_freq > PLSR_PWM_FREQ_MAX) calculated_freq = PLSR_PWM_FREQ_MAX;
    if (calculated_freq == 0) calculated_freq = s_last_freq;

    return calculated_freq;
 }


 /**
 * @brief 获取下一个脉冲的周期时间
 * @param current_freq 当前计算得到的频率
 * @return 下一个脉冲的周期时间（微秒）
 */
 uint32_t PLSR_GetNextPulsePeriod_us(uint32_t current_freq) {
    if (current_freq == 0) return 0xFFFFFFFF;  // 无效频率
    
    // 周期 = 1/频率，转换为微秒
    uint32_t period_us = 1000000 / current_freq;
    return period_us;
 }

 /**
 * @brief 修改后的主控制函数，使用精确的反函数计算
 */
 uint32_t PLSR_SCurve_Control(PLSR_RouteConfig_t* route) {
    if (route == NULL) return 0;
    
    uint32_t current_freq = 0;
    
    switch(route->run_state) {
        case PLSR_STATE_ACCEL:
            // 加速阶段使用精确S曲线计算
            current_freq = PLSR_Calculate_SCurve_FreqByPulses_Exact(route, 1);
            break;
            
        case PLSR_STATE_DECEL:
            // 减速阶段使用精确S曲线计算
            current_freq = PLSR_Calculate_SCurve_FreqByPulses_Exact(route, 0);
            break;
            
        case PLSR_STATE_CONST:
            // 匀速阶段保持目标频率
            current_freq = route->target_freq;
            break;
            
        default:
            current_freq = route->current_freq;
            break;
    }
    return current_freq;
 }
--- a/PLSR/PLSR/Core/Src/usart.c
+++ b/PLSR/PLSR/Core/Src/usart.c
@@ -19,6 +19,7 @@
 /* USER CODE END Header */
 /* Includes ------------------------------------------------------------------*/
 #include "usart.h"
 #include "flash_save.h"

 /* USER CODE BEGIN 0 */
 // USART1缓冲区变量定义 - 添加内存对齐确保DMA传输稳定
@@ -72,7 +73,6 @@ void MX_USART1_UART_Init(void)
  // 初始化Modbus
  Modbus_Init(1);  // 默认从机地址为1
  /* USER CODE END USART1_Init 2 */

 }

 void HAL_UART_MspInit(UART_HandleTypeDef* uartHandle)
@@ -276,7 +276,6 @@ void HAL_UART_TxCpltCallback(UART_HandleTypeDef *huart)
 void Modbus_Init(uint8_t slave_addr)
 {
    ModbusSlave.slave_address = slave_addr;
    memset(ModbusSlave.holding_regs, 0, sizeof(ModbusSlave.holding_regs));
 }

 /**
@@ -349,10 +348,12 @@ void Modbus_Clear_Pluse(uint8_t* frame, uint16_t length)
    response[1] = MODBUS_FC_CLEAR_PLUSE;
    response[2] = 0;  // 无数据返回

    g_plsr_total_pulse_count = 0;  // 假设0x100寄存器用于存储脉冲计数
    int32_t signed_count = g_plsr_total_pulse_count;  // 使用有符号数进行计算
    ModbusSlave.holding_regs[0x1000] = signed_count & 0xFFFF;        // 低16位
    ModbusSlave.holding_regs[0x1001] = (signed_count >> 16) & 0xFFFF; // 高16位
    PlsrTotalPulseCount = 0;  // 假设0x100寄存器用于存储脉冲计数
     PlsrLocation = 0;
     int32_t signed_count = PlsrLocation;  // 使用有符号数进行计算
    /* 使用地址映射更新脉冲计数监控值 */
    FlashSave_Set_Holding_Register(MODBUS_ADDR_PULSE_COUNT_LOW, signed_count & 0xFFFF);        // 低16位
    FlashSave_Set_Holding_Register(MODBUS_ADDR_PULSE_COUNT_HIGH, (signed_count >> 16) & 0xFFFF); // 高16位
    Modbus_Send_Response(response, 3);
 }

@@ -420,10 +421,10 @@ void Modbus_Handle_SendLog(uint8_t* frame, uint16_t length)
         return;
     }
     
     uint16_t start_addr = ((frame[2] << 8) | frame[3]) - MODBUS_OFFSET;
     uint16_t start_addr = (frame[2] << 8) | frame[3];  // 不减去MODBUS_OFFSET，保持原始地址
     uint16_t reg_count = (frame[4] << 8) | frame[5];
     
     if(reg_count == 0 || reg_count > 125 || start_addr + reg_count > MODBUS_HOLDING_REG_COUNT)
     if(reg_count == 0 || reg_count > 125)
     {
         Modbus_Send_Exception(MODBUS_FC_READ_HOLDING_REGS, MODBUS_EX_ILLEGAL_DATA_ADDRESS);
         return;
@@ -434,9 +435,26 @@ void Modbus_Handle_SendLog(uint8_t* frame, uint16_t length)
     response[1] = MODBUS_FC_READ_HOLDING_REGS;
     response[2] = reg_count * 2;  // 字节数
     
     /* 使用地址映射读取寄存器值 */
     for(uint16_t i = 0; i < reg_count; i++)
     {
         uint16_t reg_value = ModbusSlave.holding_regs[start_addr + i];
         uint16_t current_addr = start_addr + i;
         uint16_t reg_value = FlashSave_Get_Holding_Register(current_addr);
         
         /* 如果地址无效，返回异常 */
         if(reg_value == 0 && current_addr != MODBUS_ADDR_PULSE_OUTPUT_PIN) // 避免误判地址0x1000的值为0的情况
         {
             // 检查是否为有效地址范围
             if(!((current_addr >= 0x1000 && current_addr <= 0x100C) ||
                  (current_addr >= 0x1100 && current_addr <= 0x1195) ||
                  (current_addr >= 0x2000 && current_addr <= 0x2001) ||
                  (current_addr == 0x3000)))
             {
                 Modbus_Send_Exception(MODBUS_FC_READ_HOLDING_REGS, MODBUS_EX_ILLEGAL_DATA_ADDRESS);
                 return;
             }
         }
         
         response[3 + i * 2] = (reg_value >> 8) & 0xFF;
         response[4 + i * 2] = reg_value & 0xFF;
     }
@@ -458,19 +476,24 @@ void Modbus_Handle_SendLog(uint8_t* frame, uint16_t length)
         return;
     }
     
     uint16_t reg_addr = ((frame[2] << 8) | frame[3]); 
     uint16_t write_addr = ((frame[2] << 8) | frame[3]) - MODBUS_OFFSET;
     uint16_t reg_addr = (frame[2] << 8) | frame[3];  // 保持原始地址
     uint16_t write_num = (frame[4] << 8) | frame[5];
     
    if(write_addr > MODBUS_HOLDING_REG_COUNT)
     /* 检查地址是否有效 */
     if(!((reg_addr >= 0x1000 && reg_addr <= 0x100C) ||
          (reg_addr >= 0x1100 && reg_addr <= 0x1195) ||
          (reg_addr >= 0x2000 && reg_addr <= 0x2001) ||
          (reg_addr == 0x3000)))
     {
         Modbus_Send_Exception(MODBUS_FC_WRITE_REG, MODBUS_EX_ILLEGAL_DATA_ADDRESS);
         return;
     }

    ModbusSlave.holding_regs[write_addr] = write_num;
     /* 使用地址映射写入寄存器值 */
     FlashSave_Set_Holding_Register(reg_addr, write_num);

    BackupSRAM_SaveRegData();
     /* 保存到备份SRAM */
     BackupSRAM_SaveRegData();
     
     // 发送响应
     uint8_t response[8];
@@ -497,25 +520,39 @@ void Modbus_Handle_SendLog(uint8_t* frame, uint16_t length)
         return;
     }
     
     uint16_t start_addr = ((frame[2] << 8) | frame[3]);
     uint16_t write_addr = ((frame[2] << 8) | frame[3]) - MODBUS_OFFSET;
     uint16_t start_addr = (frame[2] << 8) | frame[3];  // 保持原始地址
     uint16_t reg_count = (frame[4] << 8) | frame[5];
     uint8_t byte_count = frame[6];
     
     if((reg_count == 0) || (reg_count > 123) || ((write_addr + reg_count) > MODBUS_HOLDING_REG_COUNT))
     if(reg_count == 0 || reg_count > 123)
     {
         Modbus_Send_Exception(MODBUS_FC_WRITE_MULTIPLE_REGS, MODBUS_EX_ILLEGAL_DATA_ADDRESS);
         return;
     }
     
     // 写入寄存器数据
     /* 检查所有地址是否有效 */
     for(uint16_t i = 0; i < reg_count; i++)
     {
         uint16_t current_addr = start_addr + i;
         if(!((current_addr >= 0x1000 && current_addr <= 0x100C) ||
              (current_addr >= 0x1100 && current_addr <= 0x1195) ||
              (current_addr >= 0x2000 && current_addr <= 0x2001) ||
              (current_addr == 0x3000)))
         {
             Modbus_Send_Exception(MODBUS_FC_WRITE_MULTIPLE_REGS, MODBUS_EX_ILLEGAL_DATA_ADDRESS);
             return;
         }
     }
     
     /* 使用地址映射写入寄存器数据 */
     for(uint16_t i = 0; i < reg_count; i++)
     {
         uint16_t current_addr = start_addr + i;
         uint16_t reg_value = (frame[7 + i * 2] << 8) | frame[8 + i * 2];
         ModbusSlave.holding_regs[write_addr + i] = reg_value;
         FlashSave_Set_Holding_Register(current_addr, reg_value);
     }

    BackupSRAM_SaveRegData();
     /* 保存到备份SRAM */
     BackupSRAM_SaveRegData();
     
     // 发送响应
     uint8_t response[8];
@@ -565,29 +602,24 @@ void Modbus_Handle_SendLog(uint8_t* frame, uint16_t length)

 /**
  * @brief 设置保持寄存器值
  * @param addr 寄存器地址
  * @param addr 寄存器地址（Modbus地址）
  * @param value 寄存器值
  */
 void Modbus_SetHoldingRegister(uint16_t addr, uint16_t value)
 {
     if(addr < MODBUS_HOLDING_REG_COUNT)
     {
         ModbusSlave.holding_regs[addr] = value;
     }
     /* 使用地址映射设置寄存器值 */
     FlashSave_Set_Holding_Register(addr, value);
 }
 
 /**
  * @brief 获取保持寄存器值
  * @param addr 寄存器地址
  * @param addr 寄存器地址（Modbus地址）
  * @return 寄存器值
  */
 uint16_t Modbus_GetHoldingRegister(uint16_t addr)
 {
     if(addr < MODBUS_HOLDING_REG_COUNT)
     {
         return ModbusSlave.holding_regs[addr];
     }
     return 0;
     /* 使用地址映射获取寄存器值 */
     return FlashSave_Get_Holding_Register(addr);
 }

 /* USER CODE END 1 */
--- a/PLSR/PLSR/EWARM/settings/Project.wsdt
+++ b/PLSR/PLSR/EWARM/settings/Project.wsdt
--- a/PLSR/PLSR/EWARM/settings/test.1.dbgdt
+++ b/PLSR/PLSR/EWARM/settings/test.1.dbgdt
--- a/PLSR/PLSR/EWARM/settings/test.1.dnx
+++ b/PLSR/PLSR/EWARM/settings/test.1.dnx
@@ -14,13 +14,13 @@
    <StLinkDriver>
        <stlinkserialNo>46232557</stlinkserialNo>
        <stlinkfoundProbes />
        <CStepIntDis>_ 0</CStepIntDis>
        <LeaveTargetRunning>_ 0</LeaveTargetRunning>
        <stlinkResetStyle>0</stlinkResetStyle>
        <stlinkResetStrategy>2</stlinkResetStrategy>
        <CStepIntDis>_ 0</CStepIntDis>
        <LeaveTargetRunning>_ 0</LeaveTargetRunning>
    </StLinkDriver>
    <DebugChecksum>
        <Checksum>2012208745</Checksum>
        <Checksum>1483733799</Checksum>
    </DebugChecksum>
    <Exceptions>
        <StopOnUncaught>_ 0</StopOnUncaught>
@@ -84,13 +84,6 @@
        <LogFile>_ ""</LogFile>
        <Category>_ 0</Category>
    </LogFile>
    <DisassembleMode>
        <mode>0</mode>
    </DisassembleMode>
    <Aliases>
        <Count>0</Count>
        <SuppressDialog>0</SuppressDialog>
    </Aliases>
    <Trace2>
        <Enabled>0</Enabled>
        <ShowSource>0</ShowSource>
@@ -136,9 +129,6 @@
        <ShowTimeSum>1</ShowTimeSum>
        <SumSortOrder>0</SumSortOrder>
    </EventLog>
    <Breakpoints2>
        <Count>0</Count>
    </Breakpoints2>
    <DriverProfiling>
        <Enabled>0</Enabled>
        <Mode>3</Mode>
@@ -152,4 +142,14 @@
    <CallStackStripe>
        <ShowTiming>1</ShowTiming>
    </CallStackStripe>
    <DisassembleMode>
        <mode>0</mode>
    </DisassembleMode>
    <Breakpoints2>
        <Count>0</Count>
    </Breakpoints2>
    <Aliases>
        <Count>0</Count>
        <SuppressDialog>0</SuppressDialog>
    </Aliases>
 </settings>
--- a/PLSR/PLSR/EWARM/test.1.dep
+++ b/PLSR/PLSR/EWARM/test.1.dep
--- a/PLSR/PLSR/EWARM/test.1.ewp
+++ b/PLSR/PLSR/EWARM/test.1.ewp
@@ -287,7 +287,7 @@
                <option>
                    <name>CCAllowList</name>
                    <version>1</version>
                    <state>00000000</state>
                    <state>11111110</state>
                </option>
                <option>
                    <name>CCDebugInfo</name>
@@ -374,16 +374,16 @@
                </option>
                <option>
                    <name>CCOptLevel</name>
                    <state>0</state>
                    <state>3</state>
                </option>
                <option>
                    <name>CCOptStrategy</name>
                    <version>0</version>
                    <state>1</state>
                    <state>0</state>
                </option>
                <option>
                    <name>CCOptLevelSlave</name>
                    <state>0</state>
                    <state>3</state>
                </option>
                <option>
                    <name>CompilerMisraRules98</name>
@@ -442,7 +442,7 @@
                <option>
                    <name>CCOptStrategySlave</name>
                    <version>0</version>
                    <state>1</state>
                    <state>0</state>
                </option>
                <option>
                    <name>CCGuardCalls</name>
@@ -1103,6 +1103,9 @@
                <file>
                    <name>$PROJ_DIR$\..\Core\Src\tim.c</name>
                </file>
                <file>
                    <name>$PROJ_DIR$\..\Core\Src\tools.c</name>
                </file>
                <file>
                    <name>$PROJ_DIR$\..\Core\Src\usart.c</name>
                </file>
--- a/PLSR/PLSR/EWARM/test.1.ewt
+++ b/PLSR/PLSR/EWARM/test.1.ewt
@@ -1227,6 +1227,9 @@
                <file>
                    <name>$PROJ_DIR$\..\Core\Src\tim.c</name>
                </file>
                <file>
                    <name>$PROJ_DIR$\..\Core\Src\tools.c</name>
                </file>
                <file>
                    <name>$PROJ_DIR$\..\Core\Src\usart.c</name>
                </file>
--- a/PLSR/PLSR/EWARM/test.1/Exe/test.1.hex
+++ b/PLSR/PLSR/EWARM/test.1/Exe/test.1.hex
--- a/PLSR/PLSR/EWARM/test.1/Exe/test.1.out
+++ b/PLSR/PLSR/EWARM/test.1/Exe/test.1.out
--- a/PLSR/PLSR/EWARM/test.1/Exe/test.1.sim
+++ b/PLSR/PLSR/EWARM/test.1/Exe/test.1.sim
--- a/PLSR/PLSR/EWARM/test.1/List/test.1.map
+++ b/PLSR/PLSR/EWARM/test.1/List/test.1.map
--- a/PLSR/PLSR/EWARM/test.1/Obj/.ninja_log
+++ b/PLSR/PLSR/EWARM/test.1/Obj/.ninja_log
@@ -1,71 +1,104 @@
 # ninja log v5
 464	505	7768536870781453	stm32f4xx_ll_rng.pbi	5e12b9ea00d0b826
 67	129	7768536866814718	stm32f4xx_ll_gpio.pbi	df8b54563945d41d
 32	67	7768536866465887	stm32f4xx_ll_tim.pbi	b88554c6464192f5
 159	513	7768536870801418	stm32f4xx_hal_flash_ex.pbi	ac2d035774fe6a2e
 931	1257	7768536878369160	stm32f4xx_hal_pwr.pbi	b347497fce55b6a8
 115	147	7768536867273193	stm32f4xx_ll_pwr.pbi	952cb4e4f4edb65b
 166	215	7768536867811386	test.1_part7.pbi	67c64030b23c9b51
 1543	2106	7768536886832096	test.1_part3.pbi	2c7780fc3f88c160
 1210	1542	7768536881070146	stm32f4xx_hal_rcc_ex.pbi	c1d751d24d77a2df
 42	122	7768536866824682	app_hooks.pbi	ffd399489d189d5a
 1652	2177	7768536887509800	test.1_part4.pbi	b15d70d6e2dea5ca
 513	867	7768536874350914	stm32f4xx_hal_pwr_ex.pbi	b84426bf5a4ce0cf
 45	114	7768536866864582	os_cpu_c.pbi	eb75b848b406ea34
 578	950	7768536875260101	stm32f4xx_hal_rcc.pbi	50976e6b18f3b8bc
 942	1346	7768536879266167	stm32f4xx_hal_tim.pbi	71840baae88d57c4
 871	1213	7768536877692971	stm32f4xx_hal_usart.pbi	b368fafd8b8b8bb9
 3553	5121	7768536916697101	test.1.pbw	f11e09b552b4c82f
 503	538	7784905999900596	stm32f4xx_ll_rng.pbi	5e12b9ea00d0b826
 40	71	7784905995236899	stm32f4xx_ll_gpio.pbi	df8b54563945d41d
 147	542	7784905999950612	stm32f4xx_hal_flash_ex.pbi	ac2d035774fe6a2e
 47	438	7784905998849550	stm32f4xx_hal_pwr.pbi	b347497fce55b6a8
 45	79	7784905995286895	stm32f4xx_ll_pwr.pbi	952cb4e4f4edb65b
 41	74	7784905995236899	stm32f4xx_ll_tim.pbi	b88554c6464192f5
 619	677	7784906001271479	test.1_part7.pbi	500429da32d98820
 1098	1738	7784906011909270	test.1_part3.pbi	351715abf331fd8f
 980	1370	7784906008199754	stm32f4xx_hal_rcc_ex.pbi	c1d751d24d77a2df
 74	141	7784905995934806	app_hooks.pbi	ffd399489d189d5a
 77	146	7784905995994802	os_cpu_c.pbi	eb75b848b406ea34
 677	1097	7784906004872212	stm32f4xx_hal_pwr_ex.pbi	b84426bf5a4ce0cf
 1374	2019	7784906014714303	test.1_part4.pbi	56a4af6f8e33d2b8
 587	980	7784906004332215	stm32f4xx_hal_rcc.pbi	50976e6b18f3b8bc
 36	425	7784905998551969	stm32f4xx_hal_usart.pbi	b368fafd8b8b8bb9
 439	950	7784906003781095	stm32f4xx_hal_tim.pbi	71840baae88d57c4
 43	76	7784905995266903	stm32f4xx_ll_dac.pbi	7dfc4be0933cdfaf
 2014	2487	7762488664073707	uart.pbi	5ce52444157923c9
 215	253	7768536868329652	stm32f4xx_ll_dac.pbi	7dfc4be0933cdfaf
 1214	1246	7768536878269490	stm32f4xx_ll_crc.pbi	dcf41d4b97590765
 126	159	7768536867392785	stm32f4xx_ll_rcc.pbi	fb9ace481decf8ab
 1669	1999	7768536885705853	stm32f4xx_hal_msp.pbi	8144db72f01a260b
 498	546	7768536871140260	stm32f4xx_ll_spi.pbi	ce805017b70a4f43
 48	118	7768536866944314	os_dbg.pbi	f7287a072fe86a55
 36	71	7768536866495790	stm32f4xx_ll_usart.pbi	783190689e783d9
 147	509	7768536870671821	stm32f4xx_hal_crc.pbi	881b29e4c80746b3
 888	930	7768536875008719	stm32f4xx_ll_dma.pbi	f9e6142ede2883b4
 1247	1281	7768536878608362	stm32f4xx_ll_exti.pbi	883a2fd463949e02
 1282	1297	7768536878777835	test.1_part5.pbi	41f12be61ce67c27
 39	166	7768536867462563	ucos_ii.pbi	4e0ab25e0060431e
 2355	2700	7768536892214098	stm32f4xx_hal.pbi	a073c739b6b34173
 71	125	7768536866854589	stm32f4xx_ll_i2c.pbi	7f1151d8874c40c9
 868	1209	7768536877633167	stm32f4xx_hal_sram.pbi	4652c5af4efd4e19
 592	942	7768536875198075	stm32f4xx_hal_flash.pbi	eccf13860e1d0c6a
 546	578	7768536871578800	test.1_part6.pbi	b9d684e502f25afa
 119	502	7768536870612013	stm32f4xx_hal_tim_ex.pbi	3c68a2e86514987f
 1205	1538	7768536881149867	stm32f4xx_hal_flash_ramfunc.pbi	ae498685b336a49c
 950	1261	7768536878369160	stm32f4xx_hal_wwdg.pbi	fca2b44f67349f99
 1257	1652	7768536881967123	stm32f4xx_hal_uart.pbi	e7ca7ebbb4330340
 3970	5650	7784906050685098	test.1.pbw	f11e09b552b4c82f
 71	103	7784905995539064	stm32f4xx_ll_crc.pbi	dcf41d4b97590765
 957	996	7784906004482217	stm32f4xx_ll_rcc.pbi	fb9ace481decf8ab
 464	502	7784905999549267	stm32f4xx_ll_spi.pbi	ce805017b70a4f43
 1854	2232	7784906016719795	stm32f4xx_hal_msp.pbi	8144db72f01a260b
 481	518	7784905999710625	stm32f4xx_ll_usart.pbi	783190689e783d9
 551	618	7784906000714119	os_dbg.pbi	f7287a072fe86a55
 538	574	7784906000256720	stm32f4xx_ll_dma.pbi	f9e6142ede2883b4
 1620	1981	7784906014335546	stm32f4xx_hal_crc.pbi	881b29e4c80746b3
 425	480	7784905999168351	stm32f4xx_ll_exti.pbi	883a2fd463949e02
 141	310	7784905997266114	ucos_ii.pbi	4e0ab25e0060431e
 575	586	7784906000398041	test.1_part5.pbi	6e09abdb5099df5f
 518	554	7784906000056714	stm32f4xx_ll_i2c.pbi	7f1151d8874c40c9
 1981	2339	7784906017916397	stm32f4xx_hal.pbi	a073c739b6b34173
 716	1094	7784906005193626	stm32f4xx_hal_sram.pbi	4652c5af4efd4e19
 996	1091	7784906004752222	test.1_part6.pbi	1f990020cfbdc2d2
 1738	2101	7784906015542605	stm32f4xx_hal_flash.pbi	eccf13860e1d0c6a
 950	1373	7784906008199754	stm32f4xx_hal_tim_ex.pbi	3c68a2e86514987f
 953	1356	7784906008069749	stm32f4xx_hal_wwdg.pbi	fca2b44f67349f99
 79	463	7784905999128352	stm32f4xx_hal_flash_ramfunc.pbi	ae498685b336a49c
 104	551	7784905999980595	stm32f4xx_hal_uart.pbi	e7ca7ebbb4330340
 35	454	7762489045860992	timer.pbi	8f8acc6a162957f
 122	464	7768536870422653	stm32f4xx_hal_i2c.pbi	74395538aa12fa10
 864	1205	7768536877762736	stm32f4xx_hal_dma.pbi	2d6aa8f3983bf80a
 2024	2359	7768536889393504	stm32f4xx_hal_timebase_tim.pbi	b6f5ce0feaca8054
 505	887	7768536874450598	stm32f4xx_hal_dma_ex.pbi	1960c5ab56ffede7
 509	871	7768536874185622	stm32f4xx_hal_i2c_ex.pbi	7798e48f8e6ef374
 253	592	7768536871708352	stm32f4xx_hal_exti.pbi	373789209d565f00
 1644	2023	7768536885964976	main.pbi	9c0a6aa02351636a
 1995	2354	7768536889343681	stm32f4xx_it.pbi	d01766022cb163bc
 130	498	7768536870532288	stm32f4xx_hal_cortex.pbi	2c6d2473a153fb5a
 2110	2461	7768536890190832	system_stm32f4xx.pbi	f50e519d7e78a5de
 1999	2335	7768536889004806	gpio.pbi	a088b5271f02118a
 3209	3553	7768536901332297	test.1.pbd	363d5d355a216cdf
 2336	2882	7768536894499702	test.1_part0.pbi	60db414ccd7a80f4
 502	863	7768536874420683	stm32f4xx_hal_gpio.pbi	53b438f48be9a8d0
 2700	3209	7768536897898329	test.1_part1.pbi	72148e63fe682e2f
 1539	2110	7768536886772270	test.1_part2.pbi	932c7a5b50912170
 1347	1669	7768536882345866	dma.pbi	4f5ebe00ac67ed57
 2177	2581	7768536891416765	tim.pbi	f07c6d790a519d93
 2106	2492	7768536890439999	usart.pbi	7c2d93866867ab60
 1297	1647	7768536882196362	modbus_log.pbi	596603da5f343c45
 1648	1995	7768536885436731	modbus_crc.pbi	9b76681ddf289794
 1261	1644	7768536881937241	flash_save.pbi	dc7405226be28cc6
 32	380	7768544283889545	tim.pbi	f07c6d790a519d93
 381	904	7768544289141477	test.1_part1.pbi	72148e63fe682e2f
 905	1273	7768544292826533	test.1.pbd	363d5d355a216cdf
 1273	2905	7768544308773033	test.1.pbw	f11e09b552b4c82f
 36	414	7768544355956471	tim.pbi	f07c6d790a519d93
 415	955	7768544361556770	test.1_part1.pbi	72148e63fe682e2f
 955	1326	7768544365284012	test.1.pbd	363d5d355a216cdf
 1327	3036	7768544381928778	test.1.pbw	f11e09b552b4c82f
 310	716	7784906001535050	stm32f4xx_hal_i2c.pbi	74395538aa12fa10
 1095	1510	7784906009628406	stm32f4xx_hal_dma.pbi	2d6aa8f3983bf80a
 2264	2623	7784906020742722	stm32f4xx_hal_timebase_tim.pbi	b6f5ce0feaca8054
 542	953	7784906003680996	stm32f4xx_hal_i2c_ex.pbi	7798e48f8e6ef374
 1511	1902	7784906013479985	stm32f4xx_hal_dma_ex.pbi	1960c5ab56ffede7
 1902	2360	7784906018132419	main.pbi	9c0a6aa02351636a
 1874	2264	7784906017054568	stm32f4xx_hal_exti.pbi	373789209d565f00
 2396	2870	7784906023223742	stm32f4xx_it.pbi	d01766022cb163bc
 2623	2999	7784906023983113	stm32f4xx_hal_cortex.pbi	2c6d2473a153fb5a
 2465	2803	7784906022507497	system_stm32f4xx.pbi	f50e519d7e78a5de
 2339	2770	7784906022184342	gpio.pbi	a088b5271f02118a
 555	956	7784906003860996	stm32f4xx_hal_gpio.pbi	53b438f48be9a8d0
 2771	3337	7784906027909005	test.1_part0.pbi	60db414ccd7a80f4
 3571	3970	7784906034025292	test.1.pbd	363d5d355a216cdf
 2871	3438	7784906028921550	test.1_part1.pbi	132c9eecf11b0e50
 3000	3570	7784906029571553	test.1_part2.pbi	9358ff0702a0a659
 2020	2395	7784906018488587	dma.pbi	4f5ebe00ac67ed57
 2360	2825	7784906022773747	tim.pbi	f07c6d790a519d93
 1371	1853	7784906012969969	usart.pbi	7c2d93866867ab60
 2232	2678	7784906021193269	modbus_log.pbi	596603da5f343c45
 1091	1619	7784906010590373	flash_save.pbi	dc7405226be28cc6
 2102	2464	7784906019147050	modbus_crc.pbi	9b76681ddf289794
 1356	1873	7784906013259981	tools.pbi	50c1b905eccec5a9
 43	582	7784915618440897	tim.pbi	f07c6d790a519d93
 583	1325	7784915625876327	test.1_part1.pbi	132c9eecf11b0e50
 1326	1767	7784915630302801	test.1.pbd	363d5d355a216cdf
 1768	3779	7784915649985852	test.1.pbw	f11e09b552b4c82f
 45	562	7784917494463934	tim.pbi	f07c6d790a519d93
 563	1285	7784917501703826	test.1_part1.pbi	132c9eecf11b0e50
 1286	1767	7784917506520187	test.1.pbd	363d5d355a216cdf
 1768	3893	7784917527374567	test.1.pbw	f11e09b552b4c82f
 39	509	7784928623168062	tim.pbi	f07c6d790a519d93
 510	1220	7784928630292184	test.1_part1.pbi	132c9eecf11b0e50
 1221	1677	7784928634860123	test.1.pbd	363d5d355a216cdf
 1677	3707	7784928654757887	test.1.pbw	f11e09b552b4c82f
 41	492	7784928682875712	tim.pbi	f07c6d790a519d93
 493	1162	7784928689567952	test.1_part1.pbi	132c9eecf11b0e50
 1163	1600	7784928693956627	test.1.pbd	363d5d355a216cdf
 1601	3646	7784928714013822	test.1.pbw	f11e09b552b4c82f
 42	507	7784929504874213	tim.pbi	f07c6d790a519d93
 508	1217	7784929511969174	test.1_part1.pbi	132c9eecf11b0e50
 1218	1691	7784929516709113	test.1.pbd	363d5d355a216cdf
 1692	4068	7784929539993199	test.1.pbw	f11e09b552b4c82f
 44	524	7784929568784599	tim.pbi	f07c6d790a519d93
 524	1252	7784929576084917	test.1_part1.pbi	132c9eecf11b0e50
 1253	1705	7784929580604105	test.1.pbd	363d5d355a216cdf
 1706	3866	7784929601822108	test.1.pbw	f11e09b552b4c82f
 48	721	7784931433466139	tim.pbi	f07c6d790a519d93
 721	1573	7784931441998409	test.1_part1.pbi	132c9eecf11b0e50
 1574	2160	7784931447880427	test.1.pbd	363d5d355a216cdf
 2161	4862	7784931474512163	test.1.pbw	f11e09b552b4c82f
 55	654	7784932500994422	tim.pbi	f07c6d790a519d93
 655	1523	7784932509680475	test.1_part1.pbi	132c9eecf11b0e50
 1524	2052	7784932514983677	test.1.pbd	363d5d355a216cdf
 2053	4809	7784932542008043	test.1.pbw	f11e09b552b4c82f
 47	543	7784933276338789	tim.pbi	f07c6d790a519d93
 544	1299	7784933283907452	test.1_part1.pbi	132c9eecf11b0e50
 1300	1771	7784933288637568	test.1.pbd	363d5d355a216cdf
 1772	4061	7784933311146536	test.1.pbw	f11e09b552b4c82f
 47	683	7784933341606110	tim.pbi	f07c6d790a519d93
 684	1547	7784933350245080	test.1_part1.pbi	132c9eecf11b0e50
 1548	1999	7784933354770500	test.1.pbd	363d5d355a216cdf
 2000	4664	7784933380938479	test.1.pbw	f11e09b552b4c82f
--- a/PLSR/PLSR/EWARM/test.1/Obj/app_hooks.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/app_hooks.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/app_hooks.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/app_hooks.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/build.ninja
+++ b/PLSR/PLSR/EWARM/test.1/Obj/build.ninja
@@ -30,6 +30,7 @@ build stm32f4xx_hal_msp.pbi : index stm32f4xx_hal_msp.xcl
 build stm32f4xx_hal_timebase_tim.pbi : index stm32f4xx_hal_timebase_tim.xcl
 build stm32f4xx_it.pbi : index stm32f4xx_it.xcl
 build tim.pbi : index tim.xcl
 build tools.pbi : index tools.xcl
 build usart.pbi : index usart.xcl
 build system_stm32f4xx.pbi : index system_stm32f4xx.xcl
 build stm32f4xx_hal.pbi : index stm32f4xx_hal.xcl
@@ -71,13 +72,13 @@ build os_cpu_c.pbi : index os_cpu_c.xcl
 build os_dbg.pbi : index os_dbg.xcl
 build ucos_ii.pbi : index ucos_ii.xcl
 build test.1_part0.pbi : link dma.pbi flash_save.pbi gpio.pbi main.pbi modbus_crc.pbi modbus_log.pbi stm32f4xx_hal_msp.pbi
 build test.1_part1.pbi : link stm32f4xx_hal_timebase_tim.pbi stm32f4xx_it.pbi tim.pbi usart.pbi system_stm32f4xx.pbi stm32f4xx_hal.pbi stm32f4xx_hal_cortex.pbi
 build test.1_part2.pbi : link stm32f4xx_hal_crc.pbi stm32f4xx_hal_dma.pbi stm32f4xx_hal_dma_ex.pbi stm32f4xx_hal_exti.pbi stm32f4xx_hal_flash.pbi stm32f4xx_hal_flash_ex.pbi stm32f4xx_hal_flash_ramfunc.pbi
 build test.1_part3.pbi : link stm32f4xx_hal_gpio.pbi stm32f4xx_hal_i2c.pbi stm32f4xx_hal_i2c_ex.pbi stm32f4xx_hal_pwr.pbi stm32f4xx_hal_pwr_ex.pbi stm32f4xx_hal_rcc.pbi stm32f4xx_hal_rcc_ex.pbi
 build test.1_part4.pbi : link stm32f4xx_hal_sram.pbi stm32f4xx_hal_tim.pbi stm32f4xx_hal_tim_ex.pbi stm32f4xx_hal_uart.pbi stm32f4xx_hal_usart.pbi stm32f4xx_hal_wwdg.pbi stm32f4xx_ll_crc.pbi
 build test.1_part5.pbi : link stm32f4xx_ll_dac.pbi stm32f4xx_ll_dma.pbi stm32f4xx_ll_exti.pbi stm32f4xx_ll_gpio.pbi stm32f4xx_ll_i2c.pbi stm32f4xx_ll_pwr.pbi stm32f4xx_ll_rcc.pbi
 build test.1_part6.pbi : link stm32f4xx_ll_rng.pbi stm32f4xx_ll_spi.pbi stm32f4xx_ll_tim.pbi stm32f4xx_ll_usart.pbi app_hooks.pbi os_cpu_c.pbi os_dbg.pbi
 build test.1_part7.pbi : link ucos_ii.pbi
 build test.1_part1.pbi : link stm32f4xx_hal_timebase_tim.pbi stm32f4xx_it.pbi tim.pbi tools.pbi usart.pbi system_stm32f4xx.pbi stm32f4xx_hal.pbi
 build test.1_part2.pbi : link stm32f4xx_hal_cortex.pbi stm32f4xx_hal_crc.pbi stm32f4xx_hal_dma.pbi stm32f4xx_hal_dma_ex.pbi stm32f4xx_hal_exti.pbi stm32f4xx_hal_flash.pbi stm32f4xx_hal_flash_ex.pbi
 build test.1_part3.pbi : link stm32f4xx_hal_flash_ramfunc.pbi stm32f4xx_hal_gpio.pbi stm32f4xx_hal_i2c.pbi stm32f4xx_hal_i2c_ex.pbi stm32f4xx_hal_pwr.pbi stm32f4xx_hal_pwr_ex.pbi stm32f4xx_hal_rcc.pbi
 build test.1_part4.pbi : link stm32f4xx_hal_rcc_ex.pbi stm32f4xx_hal_sram.pbi stm32f4xx_hal_tim.pbi stm32f4xx_hal_tim_ex.pbi stm32f4xx_hal_uart.pbi stm32f4xx_hal_usart.pbi stm32f4xx_hal_wwdg.pbi
 build test.1_part5.pbi : link stm32f4xx_ll_crc.pbi stm32f4xx_ll_dac.pbi stm32f4xx_ll_dma.pbi stm32f4xx_ll_exti.pbi stm32f4xx_ll_gpio.pbi stm32f4xx_ll_i2c.pbi stm32f4xx_ll_pwr.pbi
 build test.1_part6.pbi : link stm32f4xx_ll_rcc.pbi stm32f4xx_ll_rng.pbi stm32f4xx_ll_spi.pbi stm32f4xx_ll_tim.pbi stm32f4xx_ll_usart.pbi app_hooks.pbi os_cpu_c.pbi
 build test.1_part7.pbi : link os_dbg.pbi ucos_ii.pbi
 build test.1.pbd : link test.1_part0.pbi test.1_part1.pbi test.1_part2.pbi test.1_part3.pbi test.1_part4.pbi test.1_part5.pbi test.1_part6.pbi test.1_part7.pbi
 build test.1.pbw : browsedata test.1.pbd

--- a/PLSR/PLSR/EWARM/test.1/Obj/dma.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/dma.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/flash_save.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/flash_save.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/flash_save.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/flash_save.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/flash_save.pbi.dep
+++ b/PLSR/PLSR/EWARM/test.1/Obj/flash_save.pbi.dep
@@ -0,0 +1,41 @@
 flash_save.pbi: \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src\flash_save.c \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc\flash_save.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc\stm32f4xx_hal_conf.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_rcc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_def.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include\stm32f4xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include/stm32f407xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include\core_cm4.h \
  E:\Software\IAR\arm\inc\c\stdint.h E:\Software\IAR\arm\inc\c\ycheck.h \
  E:\Software\IAR\arm\inc\c\yvals.h \
  E:\Software\IAR\arm\inc\c\DLib_Defaults.h \
  E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h \
  E:\Software\IAR\arm\inc\c\DLib_Product.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/cmsis_version.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/cmsis_compiler.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include\cmsis_iccarm.h \
  E:\Software\IAR\arm\inc\c\iccarm_builtin.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/mpu_armv7.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include/system_stm32f4xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/Legacy/stm32_hal_legacy.h \
  E:\Software\IAR\arm\inc\c\stddef.h E:\Software\IAR\arm\inc\c\ysizet.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_rcc_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_gpio.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_gpio_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_exti.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_dma.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_dma_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_cortex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_flash.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_flash_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_flash_ramfunc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_pwr.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_pwr_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_tim.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_tim_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_uart.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc\modbus_crc.h \
  E:\Software\IAR\arm\inc\c\string.h \
  E:\Software\IAR\arm\inc\c\DLib_Product_string.h
--- a/PLSR/PLSR/EWARM/test.1/Obj/flash_save.xcl
+++ b/PLSR/PLSR/EWARM/test.1/Obj/flash_save.xcl
@@ -0,0 +1,384 @@
 "e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src\flash_save.c"
 -std=c11
 -ferror-limit=0
 -fbracket-depth=512
 -MD
 -MF
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\test.1\Obj\flash_save.pbi.dep
 -o
 flash_save.pbi
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/Legacy
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Ports
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source
 -I
 E:\Software\IAR\arm\inc
 -I
 E:\Software\IAR\arm\inc\c
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\STM32F4xx_HAL_Driver\Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\STM32F4xx_HAL_Driver\Inc\Legacy
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\CMSIS\Device\ST\STM32F4xx\Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\CMSIS\Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Config
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Ports
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Source
 -D__CHAR_BITS__=8
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 -D__UINT8_T_MAX__=0xff
 -D__INT8_SIZE_PREFIX__="hh"
 -D__INT16_T_TYPE__=signed short int
 -D__INT16_T_MAX__=32767
 -D__INT16_T_MIN__=(-__INT16_T_MAX__-1)
 -D__UINT16_T_TYPE__=unsigned short int
 -D__UINT16_T_MAX__=0xffff
 -D__INT16_SIZE_PREFIX__="h"
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 -D__INT32_T_MAX__=2147483647
 -D__INT32_T_MIN__=(-__INT32_T_MAX__-1)
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 -D__UINT32_T_MAX__=0xffffffffU
 -D__INT32_SIZE_PREFIX__=""
 -D__INT64_T_TYPE__=signed long long int
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 -D__INT64_T_MIN__=(-__INT64_T_MAX__-1)
 -D__UINT64_T_TYPE__=unsigned long long int
 -D__UINT64_T_MAX__=0xffffffffffffffffULL
 -D__INT64_SIZE_PREFIX__="ll"
 -D__INT_LEAST8_T_TYPE__=signed char
 -D__INT_LEAST8_T_MAX__=127
 -D__INT_LEAST8_T_MIN__=(-__INT_LEAST8_T_MAX__-1)
 -D__UINT_LEAST8_T_TYPE__=unsigned char
 -D__UINT_LEAST8_T_MAX__=0xff
 -D__INT8_C_SUFFIX__=
 -D__UINT8_C_SUFFIX__=
 -D__INT_LEAST8_SIZE_PREFIX__="hh"
 -D__INT_LEAST16_T_TYPE__=signed short int
 -D__INT_LEAST16_T_MAX__=32767
 -D__INT_LEAST16_T_MIN__=(-__INT_LEAST16_T_MAX__-1)
 -D__UINT_LEAST16_T_TYPE__=unsigned short int
 -D__UINT_LEAST16_T_MAX__=0xffff
 -D__INT16_C_SUFFIX__=
 -D__UINT16_C_SUFFIX__=
 -D__INT_LEAST16_SIZE_PREFIX__="h"
 -D__INT_LEAST32_T_TYPE__=signed int
 -D__INT_LEAST32_T_MAX__=2147483647
 -D__INT_LEAST32_T_MIN__=(-__INT_LEAST32_T_MAX__-1)
 -D__UINT_LEAST32_T_TYPE__=unsigned int
 -D__UINT_LEAST32_T_MAX__=0xffffffffU
 -D__INT32_C_SUFFIX__=
 -D__UINT32_C_SUFFIX__=U
 -D__INT_LEAST32_SIZE_PREFIX__=""
 -D__INT_LEAST64_T_TYPE__=signed long long int
 -D__INT_LEAST64_T_MAX__=9223372036854775807LL
 -D__INT_LEAST64_T_MIN__=(-__INT_LEAST64_T_MAX__-1)
 -D__UINT_LEAST64_T_TYPE__=unsigned long long int
 -D__UINT_LEAST64_T_MAX__=0xffffffffffffffffULL
 -D__INT64_C_SUFFIX__=LL
 -D__UINT64_C_SUFFIX__=ULL
 -D__INT_LEAST64_SIZE_PREFIX__="ll"
 -D__INT_FAST8_T_TYPE__=signed int
 -D__INT_FAST8_T_MAX__=2147483647
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 -D__UINT_FAST8_T_TYPE__=unsigned int
 -D__UINT_FAST8_T_MAX__=0xffffffffU
 -D__INT_FAST8_SIZE_PREFIX__=""
 -D__INT_FAST16_T_TYPE__=signed int
 -D__INT_FAST16_T_MAX__=2147483647
 -D__INT_FAST16_T_MIN__=(-__INT_FAST16_T_MAX__-1)
 -D__UINT_FAST16_T_TYPE__=unsigned int
 -D__UINT_FAST16_T_MAX__=0xffffffffU
 -D__INT_FAST16_SIZE_PREFIX__=""
 -D__INT_FAST32_T_TYPE__=signed int
 -D__INT_FAST32_T_MAX__=2147483647
 -D__INT_FAST32_T_MIN__=(-__INT_FAST32_T_MAX__-1)
 -D__UINT_FAST32_T_TYPE__=unsigned int
 -D__UINT_FAST32_T_MAX__=0xffffffffU
 -D__INT_FAST32_SIZE_PREFIX__=""
 -D__INT_FAST64_T_TYPE__=signed long long int
 -D__INT_FAST64_T_MAX__=9223372036854775807LL
 -D__INT_FAST64_T_MIN__=(-__INT_FAST64_T_MAX__-1)
 -D__UINT_FAST64_T_TYPE__=unsigned long long int
 -D__UINT_FAST64_T_MAX__=0xffffffffffffffffULL
 -D__INT_FAST64_SIZE_PREFIX__="ll"
 -D__INTMAX_T_TYPE__=signed long long int
 -D__INTMAX_T_MAX__=9223372036854775807LL
 -D__INTMAX_T_MIN__=(-__INTMAX_T_MAX__-1)
 -D__UINTMAX_T_TYPE__=unsigned long long int
 -D__UINTMAX_T_MAX__=0xffffffffffffffffULL
 -D__INTMAX_C_SUFFIX__=LL
 -D__UINTMAX_C_SUFFIX__=ULL
 -D__INTMAX_SIZE_PREFIX__="ll"
 -D__ATOMIC_BOOL_LOCK_FREE=2
 -D__ATOMIC_CHAR_LOCK_FREE=2
 -D__ATOMIC_CHAR16_T_LOCK_FREE=2
 -D__ATOMIC_CHAR32_T_LOCK_FREE=2
 -D__ATOMIC_WCHAR_T_LOCK_FREE=2
 -D__ATOMIC_SHORT_LOCK_FREE=2
 -D__ATOMIC_INT_LOCK_FREE=2
 -D__ATOMIC_LONG_LOCK_FREE=2
 -D__ATOMIC_LLONG_LOCK_FREE=0
 -D__ATOMIC_POINTER_LOCK_FREE=2
 -D__FLOAT_SIZE__=4
 -D__FLOAT_ALIGN__=4
 -D__DOUBLE_SIZE__=8
 -D__DOUBLE_ALIGN__=8
 -D__LONG_DOUBLE_SIZE__=8
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 -D____FP16_SIZE__=2
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 -D__NAN_HAS_HIGH_MANTISSA_BIT_SET__=0
 -D__SUBNORMAL_FLOATING_POINTS__=1
 -D__SIZE_T_TYPE__=unsigned int
 -D__SIZE_T_MAX__=0xffffffffU
 -D__PTRDIFF_T_TYPE__=signed int
 -D__PTRDIFF_T_MAX__=2147483647
 -D__PTRDIFF_T_MIN__=(-__PTRDIFF_T_MAX__-1)
 -D__INTPTR_T_TYPE__=signed int
 -D__INTPTR_T_MAX__=2147483647
 -D__INTPTR_T_MIN__=(-__INTPTR_T_MAX__-1)
 -D__UINTPTR_T_TYPE__=unsigned int
 -D__UINTPTR_T_MAX__=0xffffffffU
 -D__INTPTR_SIZE_PREFIX__=""
 -D__JMP_BUF_ELEMENT_TYPE__=unsigned long long int
 -D__JMP_BUF_NUM_ELEMENTS__=16
 -D__TID__=0xcf60
 -D__VER__=8040001
 -D__BUILD_NUMBER__=212
 -D__IAR_SYSTEMS_ICC__=9
 -D_MAX_ALIGNMENT=8
 -D__LITTLE_ENDIAN__=1
 -D__BOOL_TYPE__=unsigned char
 -D__BOOL_SIZE__=1
 -D__WCHAR_T_TYPE__=unsigned int
 -D__WCHAR_T_SIZE__=4
 -D__WCHAR_T_MAX__=0xffffffffU
 -D__DEF_PTR_MEM__=__data
 -D__DEF_PTR_SIZE__=4
 -D__DATA_MEM0__=__data
 -D__DATA_MEM0_POINTER_OK__=1
 -D__DATA_MEM0_UNIQUE_POINTER__=1
 -D__DATA_MEM0_VAR_OK__=1
 -D__DATA_MEM0_INTPTR_TYPE__=int
 -D__DATA_MEM0_UINTPTR_TYPE__=unsigned int
 -D__DATA_MEM0_INTPTR_SIZE_PREFIX__=""
 -D__DATA_MEM0_MAX_SIZE__=0x7fffffffU
 -D_RSIZE_MAX=0x7fffffffU
 -D__DATA_MEM0_HEAP_SEGMENT__="HEAP"
 -D__DATA_MEM0_PAGE_SIZE__=0
 -D__DATA_MEM0_HEAP__=0
 -D__CODE_MEM0__=__code
 -D__CODE_MEM0_POINTER_OK__=1
 -D__CODE_MEM0_UNIQUE_POINTER__=1
 -D__HEAP_MEM0__=0
 -D__HEAP_DEFAULT_MEM__=0
 -D__HEAPND_MEMORY_LIST1__()=
 -D__MULTIPLE_HEAPS__=0
 -D__DEF_HEAP_MEM__=__data
 -D__DEF_STACK_MEM_INDEX__=0
 -D__PRAGMA_PACK_ON__=1
 -D__MULTIPLE_INHERITANCE__=1
 -D__AAPCS_VFP__=1
 -D__ARM4TM__=4
 -D__ARM5TM__=5
 -D__ARM5T__=5
 -D__ARM5__=5
 -D__ARM6MEDIA__=6
 -D__ARM6M__=11
 -D__ARM6SM__=12
 -D__ARM6T2__=6
 -D__ARM6__=6
 -D__ARM7EM__=13
 -D__ARM7M__=7
 -D__ARM7__=7
 -D__ARMVFPV1__=1
 -D__ARMVFPV2__=2
 -D__ARMVFPV3_D16__=1
 -D__ARMVFPV3_FP16__=1
 -D__ARMVFPV3__=3
 -D__ARMVFPV4__=4
 -D__ARMVFP_D16__=1
 -D__ARMVFP_FP16__=1
 -D__ARMVFP_SP__=1
 -D__ARMVFP__=__ARMVFPV4__
 -D__ARM_32BIT_STATE=1
 -D__ARM_ACLE=201
 -D__ARM_ALIGN_MAX_PWR=8
 -D__ARM_ALIGN_MAX_STACK_PWR=3
 -D__ARM_ARCH=7
 -D__ARM_ARCH_ISA_THUMB=2
 -D__ARM_ARCH_PROFILE='M'
 -D__ARM_FEATURE_CLZ=1
 -D__ARM_FEATURE_COPROC=15
 -D__ARM_FEATURE_DSP=1
 -D__ARM_FEATURE_FMA=1
 -D__ARM_FEATURE_IDIV=1
 -D__ARM_FEATURE_LDREX=7
 -D__ARM_FEATURE_QBIT=1
 -D__ARM_FEATURE_SAT=1
 -D__ARM_FEATURE_SIMD32=1
 -D__ARM_FEATURE_UNALIGNED=1
 -D__ARM_FP=6
 -D__ARM_FP16_ARGS=1
 -D__ARM_FP16_FORMAT_IEEE=1
 -D__ARM_MEDIA__=1
 -D__ARM_PCS_VFP=1
 -D__ARM_PROFILE_M__=1
 -D__ARM_SIZE_MINIMAL_ENUM=1
 -D__ARM_SIZE_WCHAR_T=4
 -D__CODE_SIZE_LIMIT=0
 -D__CORE__=__ARM7EM__
 -D__CPU_MODE__=1
 -D__ICCARM_INTRINSICS_VERSION__=2
 -D__ICCARM__=1
 -D__INTERWORKING__=1
 -D__PLAIN_INT_BITFIELD_IS_SIGNED__=0
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 -D__IAR_COMPILERBASE__=656644
 -D__IAR_COMPILERBASE_STR__=10.5.4.1177
 -D__UNICODE_SOURCE_SUPPORTED__=1
 -D__VTABLE_MEM__=
 -D__PRAGMA_REDEFINE_EXTNAME=1
 -D__STDC__=1
 -D__STDC_VERSION__=201710L
 -D__MEMORY_ORDER_RELAXED__=0
 -D__MEMORY_ORDER_CONSUME__=1
 -D__MEMORY_ORDER_ACQUIRE__=2
 -D__MEMORY_ORDER_RELEASE__=3
 -D__MEMORY_ORDER_ACQ_REL__=4
 -D__MEMORY_ORDER_SEQ_CST__=5
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 -D__STDC_LIB_EXT1__=201112L
 -D__STDC_NO_THREADS__=1
 -D__STDC_ISO_10646__=201103L
 -D__STDC_HOSTED__=1
 -D__EDG_IA64_ABI=1
 -D__EDG_IA64_ABI_VARIANT_CTORS_AND_DTORS_RETURN_THIS=1
 -D__EDG_IA64_ABI_USE_INT_STATIC_INIT_GUARD=1
 -D__cpp_hex_float=201603L
 -D__cpp_unicode_literals=200710L
 -D__cpp_static_assert=200410L
 -D__EDG__=1
 -D__EDG_VERSION__=500
 -D__EDG_SIZE_TYPE__=unsigned int
 -D__EDG_PTRDIFF_TYPE__=int
 -D__EDG_DELTA_TYPE=int
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 -D__EDG_IA64_ABI_USE_VARIANT_ARRAY_COOKIES=1
 -D__EDG_ABI_COMPATIBILITY_VERSION=9999
 -D__EDG_ABI_CHANGES_FOR_RTTI=1
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 -D__EDG_INT128_EXTENSIONS_ALLOWED=0
 -DUSE_HAL_DRIVER=1
 -DSTM32F407xx=1
 -DHAL_UART_MODULE_ENABLED=1
 -D_DLIB_CONFIG_FILE_HEADER_NAME="E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h"
 -D_DLIB_CONFIG_FILE_STRING="E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h"
 -D__VERSION__="IAR ANSI C/C++ Compiler V8.40.1.212/W32 for ARM"
 -D_VA_DEFINED=
 -D_VA_LIST=struct __va_list
 -D__ICCARM_OLD_DEFINED_VAARGS__=1
 -D__VA_STACK_ALIGN__=8
 -D__CODE_MEMORY_LIST1__()=__CODE_MEM_HELPER1__(__code, 0 )
 -D__CODE_MEMORY_LIST2__(_P1)=__CODE_MEM_HELPER2__(__code, 0 ,  _P1 )
 -D__CODE_MEMORY_LIST3__(_P1,_P2)=__CODE_MEM_HELPER3__(__code, 0 ,  _P1 ,  _P2 )
 -D__DATA_MEMORY_LIST1__()=__DATA_MEM_HELPER1__(__data, 0 )
 -D__DATA_MEMORY_LIST2__(_P1)=__DATA_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__DATA_MEMORY_LIST3__(_P1,_P2)=__DATA_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__CODE_PTR_MEMORY_LIST1__()=__CODE_PTR_MEM_HELPER1__(__code, 0 )
 -D__CODE_PTR_MEMORY_LIST2__(_P1)=__CODE_PTR_MEM_HELPER2__(__code, 0 ,  _P1 )
 -D__CODE_PTR_MEMORY_LIST3__(_P1,_P2)=__CODE_PTR_MEM_HELPER3__(__code, 0 ,  _P1 ,  _P2 )
 -D__DATA_PTR_MEMORY_LIST1__()=__DATA_PTR_MEM_HELPER1__(__data, 0 )
 -D__DATA_PTR_MEMORY_LIST2__(_P1)=__DATA_PTR_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__DATA_PTR_MEMORY_LIST3__(_P1,_P2)=__DATA_PTR_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__VAR_MEMORY_LIST1__()=__VAR_MEM_HELPER1__(__data, 0 )
 -D__VAR_MEMORY_LIST2__(_P1)=__VAR_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__VAR_MEMORY_LIST3__(_P1,_P2)=__VAR_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__VARD_MEMORY_LIST1__()=__VARD_MEM_HELPER1__(__data, 0, _ )
 -D__HEAP_MEMORY_LIST1__()=__HEAP_MEM_HELPER1__(__data, 0 )
 -D__HEAP_MEMORY_LIST2__(_P1)=__HEAP_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__HEAP_MEMORY_LIST3__(_P1,_P2)=__HEAP_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__HVAR_MEMORY_LIST1__()=__HVAR_MEM_HELPER1__(__data, 0 )
 -D__HEAPD_MEMORY_LIST1__()=__HEAPD_MEM_HELPER1__(__data, 0, _ )
 -D__HEAPU_MEMORY_LIST1__()=__HEAPU_MEM_HELPER1__(__data, 0 )
 -D__TOPM_DATA_MEMORY_LIST1__()=
 -D__TOPM_DATA_MEMORY_LIST2__(_P1)=
 -D__TOPM_DATA_MEMORY_LIST3__(_P1,_P2)=
 -D__TOPP_DATA_MEMORY_LIST1__()=__TOPP_DATA_MEM_HELPER1__(__data, 0 )
 -D__TOPP_DATA_MEMORY_LIST2__(_P1)=__TOPP_DATA_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__TOPP_DATA_MEMORY_LIST3__(_P1,_P2)=__TOPP_DATA_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__DATA_MEM0_SIZE_TYPE__=unsigned int
 -D__DATA_MEM0_INDEX_TYPE__=signed int
 -D__iar_fp2bits32(x)=0
 -D__iar_fp2bits64(x)=0
 -D__iar_fpgethi64(x)=0
 -D__iar_atomic_add_fetch(x,y,z)=0
 -D__iar_atomic_sub_fetch(x,y,z)=0
 -D__iar_atomic_load(x,y)=0ULL
 -D__iar_atomic_compare_exchange_weak(a,b,c,d,e)=0
--- a/PLSR/PLSR/EWARM/test.1/Obj/gpio.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/gpio.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/gpio.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/gpio.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/gpio.pbi.dep
+++ b/PLSR/PLSR/EWARM/test.1/Obj/gpio.pbi.dep
@@ -36,4 +36,24 @@ gpio.pbi: \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_pwr_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_tim.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_tim_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_uart.h
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_uart.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/tim.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/usart.h \
  E:\Software\IAR\arm\inc\c\stdio.h E:\Software\IAR\arm\inc\c\string.h \
  E:\Software\IAR\arm\inc\c\DLib_Product_string.h \
  E:\Software\IAR\arm\inc\c\ctype.h E:\Software\IAR\arm\inc\c\stdlib.h \
  E:\Software\IAR\arm\inc\c\DLib_Product_stdlib.h \
  E:\Software\IAR\arm\inc\c\stdarg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/modbus_crc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/flash_save.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/modbus_log.h \
  E:\Software\IAR\arm\inc\c\math.h \
  E:\Software\IAR\arm\inc\c\DLib_float_setup.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\ucos_ii.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\app_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\os_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Ports\os_cpu.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source/os_trace.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/gpio.h \
  E:\Software\IAR\arm\inc\c\intrinsics.h \
  E:\Software\IAR\arm\inc\c\iar_intrinsics_common.h
--- a/PLSR/PLSR/EWARM/test.1/Obj/main.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/main.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/main.pbi.dep
+++ b/PLSR/PLSR/EWARM/test.1/Obj/main.pbi.dep
@@ -1,23 +1,25 @@
 main.pbi: \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\dma.h \
  E:\Software\IAR\arm\inc\c\iar_intrinsics_common.h \
  E:\Software\IAR\arm\inc\c\intrinsics.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\gpio.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\os_trace.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Ports\os_cpu.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\os_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\app_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\ucos_ii.h \
  E:\Software\IAR\arm\inc\c\DLib_float_setup.h \
  E:\Software\IAR\arm\inc\c\ycheck.h E:\Software\IAR\arm\inc\c\math.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\tim.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\usart.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\modbus_log.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\flash_save.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\modbus_crc.h \
  E:\Software\IAR\arm\inc\c\stdarg.h \
  E:\Software\IAR\arm\inc\c\DLib_Product_stdlib.h \
  E:\Software\IAR\arm\inc\c\stdlib.h E:\Software\IAR\arm\inc\c\ctype.h \
  E:\Software\IAR\arm\inc\c\DLib_Product_string.h \
  E:\Software\IAR\arm\inc\c\string.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\tim.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\os_trace.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Ports\os_cpu.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\os_cfg.h \
  E:\Software\IAR\arm\inc\c\stdio.h E:\Software\IAR\arm\inc\c\stdarg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\app_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\ucos_ii.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Core\Inc\gpio.h \
  E:\Software\IAR\arm\inc\c\string.h E:\Software\IAR\arm\inc\c\stdio.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Drivers\STM32F4xx_HAL_Driver\Inc\stm32f4xx_hal_uart.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Drivers\STM32F4xx_HAL_Driver\Inc\stm32f4xx_hal_tim_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\Drivers\STM32F4xx_HAL_Driver\Inc\stm32f4xx_hal_tim.h \
--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.pbi.dep
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.pbi.dep
@@ -0,0 +1,38 @@
 modbus_crc.pbi: \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src\modbus_crc.c \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc\modbus_crc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include\stm32f4xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include/stm32f407xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include\core_cm4.h \
  E:\Software\IAR\arm\inc\c\stdint.h E:\Software\IAR\arm\inc\c\ycheck.h \
  E:\Software\IAR\arm\inc\c\yvals.h \
  E:\Software\IAR\arm\inc\c\DLib_Defaults.h \
  E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h \
  E:\Software\IAR\arm\inc\c\DLib_Product.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/cmsis_version.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/cmsis_compiler.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include\cmsis_iccarm.h \
  E:\Software\IAR\arm\inc\c\iccarm_builtin.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/mpu_armv7.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include/system_stm32f4xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc\stm32f4xx_hal_conf.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_rcc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_def.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/Legacy/stm32_hal_legacy.h \
  E:\Software\IAR\arm\inc\c\stddef.h E:\Software\IAR\arm\inc\c\ysizet.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_rcc_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_gpio.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_gpio_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_exti.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_dma.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_dma_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_cortex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_flash.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_flash_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_flash_ramfunc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_pwr.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_pwr_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_tim.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_tim_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_uart.h
--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.xcl
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_crc.xcl
@@ -0,0 +1,384 @@
 "e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src\modbus_crc.c"
 -std=c11
 -ferror-limit=0
 -fbracket-depth=512
 -MD
 -MF
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\test.1\Obj\modbus_crc.pbi.dep
 -o
 modbus_crc.pbi
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/Legacy
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Ports
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source
 -I
 E:\Software\IAR\arm\inc
 -I
 E:\Software\IAR\arm\inc\c
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\STM32F4xx_HAL_Driver\Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\STM32F4xx_HAL_Driver\Inc\Legacy
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\CMSIS\Device\ST\STM32F4xx\Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\CMSIS\Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Config
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Ports
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Source
 -D__CHAR_BITS__=8
 -D__CHAR_MAX__=0xff
 -D__CHAR_MIN__=0
 -D__CHAR_SIZE__=1
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 -D__SIGNED_CHAR_MIN__=(-__SIGNED_CHAR_MAX__-1)
 -D__CHAR_ALIGN__=1
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 -D__SIGNED_SHORT_MIN__=(-__SIGNED_SHORT_MAX__-1)
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 -D__UINT32_T_MAX__=0xffffffffU
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 -D__INT64_T_TYPE__=signed long long int
 -D__INT64_T_MAX__=9223372036854775807LL
 -D__INT64_T_MIN__=(-__INT64_T_MAX__-1)
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 -D__UINT8_C_SUFFIX__=
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 -D__INT_LEAST16_T_TYPE__=signed short int
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 -D__UINT16_C_SUFFIX__=
 -D__INT_LEAST16_SIZE_PREFIX__="h"
 -D__INT_LEAST32_T_TYPE__=signed int
 -D__INT_LEAST32_T_MAX__=2147483647
 -D__INT_LEAST32_T_MIN__=(-__INT_LEAST32_T_MAX__-1)
 -D__UINT_LEAST32_T_TYPE__=unsigned int
 -D__UINT_LEAST32_T_MAX__=0xffffffffU
 -D__INT32_C_SUFFIX__=
 -D__UINT32_C_SUFFIX__=U
 -D__INT_LEAST32_SIZE_PREFIX__=""
 -D__INT_LEAST64_T_TYPE__=signed long long int
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 -D__UINT_FAST8_T_TYPE__=unsigned int
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 -D__INT_FAST16_T_TYPE__=signed int
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--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.pbi.dep
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.pbi.dep
@@ -0,0 +1,59 @@
 modbus_log.pbi: \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src\modbus_log.c \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc\modbus_log.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/usart.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/main.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc\stm32f4xx_hal_conf.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_rcc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_def.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include\stm32f4xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include/stm32f407xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include\core_cm4.h \
  E:\Software\IAR\arm\inc\c\stdint.h E:\Software\IAR\arm\inc\c\ycheck.h \
  E:\Software\IAR\arm\inc\c\yvals.h \
  E:\Software\IAR\arm\inc\c\DLib_Defaults.h \
  E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h \
  E:\Software\IAR\arm\inc\c\DLib_Product.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/cmsis_version.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/cmsis_compiler.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include\cmsis_iccarm.h \
  E:\Software\IAR\arm\inc\c\iccarm_builtin.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include/mpu_armv7.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include/system_stm32f4xx.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/Legacy/stm32_hal_legacy.h \
  E:\Software\IAR\arm\inc\c\stddef.h E:\Software\IAR\arm\inc\c\ysizet.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_rcc_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_gpio.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_gpio_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_exti.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_dma.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_dma_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_cortex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_flash.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_flash_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_flash_ramfunc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_pwr.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_pwr_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_tim.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/stm32f4xx_hal_tim_ex.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc\stm32f4xx_hal_uart.h \
  E:\Software\IAR\arm\inc\c\stdio.h E:\Software\IAR\arm\inc\c\string.h \
  E:\Software\IAR\arm\inc\c\DLib_Product_string.h \
  E:\Software\IAR\arm\inc\c\ctype.h E:\Software\IAR\arm\inc\c\stdlib.h \
  E:\Software\IAR\arm\inc\c\DLib_Product_stdlib.h \
  E:\Software\IAR\arm\inc\c\stdarg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/modbus_crc.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/flash_save.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/modbus_log.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/tim.h \
  E:\Software\IAR\arm\inc\c\math.h \
  E:\Software\IAR\arm\inc\c\DLib_float_setup.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\ucos_ii.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\app_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\os_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Ports\os_cpu.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source/os_trace.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc/gpio.h \
  E:\Software\IAR\arm\inc\c\intrinsics.h \
  E:\Software\IAR\arm\inc\c\iar_intrinsics_common.h
--- a/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.xcl
+++ b/PLSR/PLSR/EWARM/test.1/Obj/modbus_log.xcl
@@ -0,0 +1,384 @@
 "e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src\modbus_log.c"
 -std=c11
 -ferror-limit=0
 -fbracket-depth=512
 -MD
 -MF
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\test.1\Obj\modbus_log.pbi.dep
 -o
 modbus_log.pbi
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Src
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Core/Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/STM32F4xx_HAL_Driver/Inc/Legacy
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Device/ST/STM32F4xx/Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM/../Drivers/CMSIS/Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Ports
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source
 -I
 E:\Software\IAR\arm\inc
 -I
 E:\Software\IAR\arm\inc\c
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Core\Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\STM32F4xx_HAL_Driver\Inc
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\STM32F4xx_HAL_Driver\Inc\Legacy
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\CMSIS\Device\ST\STM32F4xx\Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\Drivers\CMSIS\Include
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Config
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Ports
 -I
 e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Source
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 -D__INT_FAST8_SIZE_PREFIX__=""
 -D__INT_FAST16_T_TYPE__=signed int
 -D__INT_FAST16_T_MAX__=2147483647
 -D__INT_FAST16_T_MIN__=(-__INT_FAST16_T_MAX__-1)
 -D__UINT_FAST16_T_TYPE__=unsigned int
 -D__UINT_FAST16_T_MAX__=0xffffffffU
 -D__INT_FAST16_SIZE_PREFIX__=""
 -D__INT_FAST32_T_TYPE__=signed int
 -D__INT_FAST32_T_MAX__=2147483647
 -D__INT_FAST32_T_MIN__=(-__INT_FAST32_T_MAX__-1)
 -D__UINT_FAST32_T_TYPE__=unsigned int
 -D__UINT_FAST32_T_MAX__=0xffffffffU
 -D__INT_FAST32_SIZE_PREFIX__=""
 -D__INT_FAST64_T_TYPE__=signed long long int
 -D__INT_FAST64_T_MAX__=9223372036854775807LL
 -D__INT_FAST64_T_MIN__=(-__INT_FAST64_T_MAX__-1)
 -D__UINT_FAST64_T_TYPE__=unsigned long long int
 -D__UINT_FAST64_T_MAX__=0xffffffffffffffffULL
 -D__INT_FAST64_SIZE_PREFIX__="ll"
 -D__INTMAX_T_TYPE__=signed long long int
 -D__INTMAX_T_MAX__=9223372036854775807LL
 -D__INTMAX_T_MIN__=(-__INTMAX_T_MAX__-1)
 -D__UINTMAX_T_TYPE__=unsigned long long int
 -D__UINTMAX_T_MAX__=0xffffffffffffffffULL
 -D__INTMAX_C_SUFFIX__=LL
 -D__UINTMAX_C_SUFFIX__=ULL
 -D__INTMAX_SIZE_PREFIX__="ll"
 -D__ATOMIC_BOOL_LOCK_FREE=2
 -D__ATOMIC_CHAR_LOCK_FREE=2
 -D__ATOMIC_CHAR16_T_LOCK_FREE=2
 -D__ATOMIC_CHAR32_T_LOCK_FREE=2
 -D__ATOMIC_WCHAR_T_LOCK_FREE=2
 -D__ATOMIC_SHORT_LOCK_FREE=2
 -D__ATOMIC_INT_LOCK_FREE=2
 -D__ATOMIC_LONG_LOCK_FREE=2
 -D__ATOMIC_LLONG_LOCK_FREE=0
 -D__ATOMIC_POINTER_LOCK_FREE=2
 -D__FLOAT_SIZE__=4
 -D__FLOAT_ALIGN__=4
 -D__DOUBLE_SIZE__=8
 -D__DOUBLE_ALIGN__=8
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 -D__LONG_DOUBLE_ALIGN__=8
 -D____FP16_SIZE__=2
 -D____FP16_ALIGN__=2
 -D__NAN_HAS_HIGH_MANTISSA_BIT_SET__=0
 -D__SUBNORMAL_FLOATING_POINTS__=1
 -D__SIZE_T_TYPE__=unsigned int
 -D__SIZE_T_MAX__=0xffffffffU
 -D__PTRDIFF_T_TYPE__=signed int
 -D__PTRDIFF_T_MAX__=2147483647
 -D__PTRDIFF_T_MIN__=(-__PTRDIFF_T_MAX__-1)
 -D__INTPTR_T_TYPE__=signed int
 -D__INTPTR_T_MAX__=2147483647
 -D__INTPTR_T_MIN__=(-__INTPTR_T_MAX__-1)
 -D__UINTPTR_T_TYPE__=unsigned int
 -D__UINTPTR_T_MAX__=0xffffffffU
 -D__INTPTR_SIZE_PREFIX__=""
 -D__JMP_BUF_ELEMENT_TYPE__=unsigned long long int
 -D__JMP_BUF_NUM_ELEMENTS__=16
 -D__TID__=0xcf60
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 -D__BUILD_NUMBER__=212
 -D__IAR_SYSTEMS_ICC__=9
 -D_MAX_ALIGNMENT=8
 -D__LITTLE_ENDIAN__=1
 -D__BOOL_TYPE__=unsigned char
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 -D__WCHAR_T_TYPE__=unsigned int
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 -D__DATA_MEM0_INTPTR_TYPE__=int
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 -D__DATA_MEM0_INTPTR_SIZE_PREFIX__=""
 -D__DATA_MEM0_MAX_SIZE__=0x7fffffffU
 -D_RSIZE_MAX=0x7fffffffU
 -D__DATA_MEM0_HEAP_SEGMENT__="HEAP"
 -D__DATA_MEM0_PAGE_SIZE__=0
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 -D__ARM6SM__=12
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 -D__ARMVFPV3__=3
 -D__ARMVFPV4__=4
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 -D__ARMVFP_FP16__=1
 -D__ARMVFP_SP__=1
 -D__ARMVFP__=__ARMVFPV4__
 -D__ARM_32BIT_STATE=1
 -D__ARM_ACLE=201
 -D__ARM_ALIGN_MAX_PWR=8
 -D__ARM_ALIGN_MAX_STACK_PWR=3
 -D__ARM_ARCH=7
 -D__ARM_ARCH_ISA_THUMB=2
 -D__ARM_ARCH_PROFILE='M'
 -D__ARM_FEATURE_CLZ=1
 -D__ARM_FEATURE_COPROC=15
 -D__ARM_FEATURE_DSP=1
 -D__ARM_FEATURE_FMA=1
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 -D__ARM_FEATURE_LDREX=7
 -D__ARM_FEATURE_QBIT=1
 -D__ARM_FEATURE_SAT=1
 -D__ARM_FEATURE_SIMD32=1
 -D__ARM_FEATURE_UNALIGNED=1
 -D__ARM_FP=6
 -D__ARM_FP16_ARGS=1
 -D__ARM_FP16_FORMAT_IEEE=1
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 -D__ARM_PCS_VFP=1
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 -D__ARM_SIZE_WCHAR_T=4
 -D__CODE_SIZE_LIMIT=0
 -D__CORE__=__ARM7EM__
 -D__CPU_MODE__=1
 -D__ICCARM_INTRINSICS_VERSION__=2
 -D__ICCARM__=1
 -D__INTERWORKING__=1
 -D__PLAIN_INT_BITFIELD_IS_SIGNED__=0
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 -D__IAR_COMPILERBASE__=656644
 -D__IAR_COMPILERBASE_STR__=10.5.4.1177
 -D__UNICODE_SOURCE_SUPPORTED__=1
 -D__VTABLE_MEM__=
 -D__PRAGMA_REDEFINE_EXTNAME=1
 -D__STDC__=1
 -D__STDC_VERSION__=201710L
 -D__MEMORY_ORDER_RELAXED__=0
 -D__MEMORY_ORDER_CONSUME__=1
 -D__MEMORY_ORDER_ACQUIRE__=2
 -D__MEMORY_ORDER_RELEASE__=3
 -D__MEMORY_ORDER_ACQ_REL__=4
 -D__MEMORY_ORDER_SEQ_CST__=5
 -D__STDC_UTF_16__=1
 -D__STDC_UTF_32__=1
 -D__STDC_LIB_EXT1__=201112L
 -D__STDC_NO_THREADS__=1
 -D__STDC_ISO_10646__=201103L
 -D__STDC_HOSTED__=1
 -D__EDG_IA64_ABI=1
 -D__EDG_IA64_ABI_VARIANT_CTORS_AND_DTORS_RETURN_THIS=1
 -D__EDG_IA64_ABI_USE_INT_STATIC_INIT_GUARD=1
 -D__cpp_hex_float=201603L
 -D__cpp_unicode_literals=200710L
 -D__cpp_static_assert=200410L
 -D__EDG__=1
 -D__EDG_VERSION__=500
 -D__EDG_SIZE_TYPE__=unsigned int
 -D__EDG_PTRDIFF_TYPE__=int
 -D__EDG_DELTA_TYPE=int
 -D__EDG_IA64_VTABLE_ENTRY_TYPE=int
 -D__EDG_VIRTUAL_FUNCTION_INDEX_TYPE=unsigned short
 -D__EDG_LOWER_VARIABLE_LENGTH_ARRAYS=1
 -D__EDG_IA64_ABI_USE_VARIANT_ARRAY_COOKIES=1
 -D__EDG_ABI_COMPATIBILITY_VERSION=9999
 -D__EDG_ABI_CHANGES_FOR_RTTI=1
 -D__EDG_ABI_CHANGES_FOR_ARRAY_NEW_AND_DELETE=1
 -D__EDG_ABI_CHANGES_FOR_PLACEMENT_DELETE=1
 -D__EDG_BSD=0
 -D__EDG_SYSV=0
 -D__EDG_ANSIC=1
 -D__EDG_CPP11_IL_EXTENSIONS_SUPPORTED=1
 -D__EDG_FLOAT80_ENABLING_POSSIBLE=0
 -D__EDG_FLOAT128_ENABLING_POSSIBLE=0
 -D__EDG_INT128_EXTENSIONS_ALLOWED=0
 -DUSE_HAL_DRIVER=1
 -DSTM32F407xx=1
 -DHAL_UART_MODULE_ENABLED=1
 -D_DLIB_CONFIG_FILE_HEADER_NAME="E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h"
 -D_DLIB_CONFIG_FILE_STRING="E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h"
 -D__VERSION__="IAR ANSI C/C++ Compiler V8.40.1.212/W32 for ARM"
 -D_VA_DEFINED=
 -D_VA_LIST=struct __va_list
 -D__ICCARM_OLD_DEFINED_VAARGS__=1
 -D__VA_STACK_ALIGN__=8
 -D__CODE_MEMORY_LIST1__()=__CODE_MEM_HELPER1__(__code, 0 )
 -D__CODE_MEMORY_LIST2__(_P1)=__CODE_MEM_HELPER2__(__code, 0 ,  _P1 )
 -D__CODE_MEMORY_LIST3__(_P1,_P2)=__CODE_MEM_HELPER3__(__code, 0 ,  _P1 ,  _P2 )
 -D__DATA_MEMORY_LIST1__()=__DATA_MEM_HELPER1__(__data, 0 )
 -D__DATA_MEMORY_LIST2__(_P1)=__DATA_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__DATA_MEMORY_LIST3__(_P1,_P2)=__DATA_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__CODE_PTR_MEMORY_LIST1__()=__CODE_PTR_MEM_HELPER1__(__code, 0 )
 -D__CODE_PTR_MEMORY_LIST2__(_P1)=__CODE_PTR_MEM_HELPER2__(__code, 0 ,  _P1 )
 -D__CODE_PTR_MEMORY_LIST3__(_P1,_P2)=__CODE_PTR_MEM_HELPER3__(__code, 0 ,  _P1 ,  _P2 )
 -D__DATA_PTR_MEMORY_LIST1__()=__DATA_PTR_MEM_HELPER1__(__data, 0 )
 -D__DATA_PTR_MEMORY_LIST2__(_P1)=__DATA_PTR_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__DATA_PTR_MEMORY_LIST3__(_P1,_P2)=__DATA_PTR_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__VAR_MEMORY_LIST1__()=__VAR_MEM_HELPER1__(__data, 0 )
 -D__VAR_MEMORY_LIST2__(_P1)=__VAR_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__VAR_MEMORY_LIST3__(_P1,_P2)=__VAR_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__VARD_MEMORY_LIST1__()=__VARD_MEM_HELPER1__(__data, 0, _ )
 -D__HEAP_MEMORY_LIST1__()=__HEAP_MEM_HELPER1__(__data, 0 )
 -D__HEAP_MEMORY_LIST2__(_P1)=__HEAP_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__HEAP_MEMORY_LIST3__(_P1,_P2)=__HEAP_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__HVAR_MEMORY_LIST1__()=__HVAR_MEM_HELPER1__(__data, 0 )
 -D__HEAPD_MEMORY_LIST1__()=__HEAPD_MEM_HELPER1__(__data, 0, _ )
 -D__HEAPU_MEMORY_LIST1__()=__HEAPU_MEM_HELPER1__(__data, 0 )
 -D__TOPM_DATA_MEMORY_LIST1__()=
 -D__TOPM_DATA_MEMORY_LIST2__(_P1)=
 -D__TOPM_DATA_MEMORY_LIST3__(_P1,_P2)=
 -D__TOPP_DATA_MEMORY_LIST1__()=__TOPP_DATA_MEM_HELPER1__(__data, 0 )
 -D__TOPP_DATA_MEMORY_LIST2__(_P1)=__TOPP_DATA_MEM_HELPER2__(__data, 0 ,  _P1 )
 -D__TOPP_DATA_MEMORY_LIST3__(_P1,_P2)=__TOPP_DATA_MEM_HELPER3__(__data, 0 ,  _P1 ,  _P2 )
 -D__DATA_MEM0_SIZE_TYPE__=unsigned int
 -D__DATA_MEM0_INDEX_TYPE__=signed int
 -D__iar_fp2bits32(x)=0
 -D__iar_fp2bits64(x)=0
 -D__iar_fpgethi64(x)=0
 -D__iar_atomic_add_fetch(x,y,z)=0
 -D__iar_atomic_sub_fetch(x,y,z)=0
 -D__iar_atomic_load(x,y)=0ULL
 -D__iar_atomic_compare_exchange_weak(a,b,c,d,e)=0
--- a/PLSR/PLSR/EWARM/test.1/Obj/os_cpu_a.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/os_cpu_a.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/os_cpu_c.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/os_cpu_c.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/os_cpu_c.pbi.dep
+++ b/PLSR/PLSR/EWARM/test.1/Obj/os_cpu_c.pbi.dep
@@ -1,12 +1,13 @@
 os_cpu_c.pbi: \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\os_trace.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Ports\os_cpu.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\os_cfg.h \
  E:\Software\IAR\arm\inc\c\ycheck.h E:\Software\IAR\arm\inc\c\ysizet.h \
  E:\Software\IAR\arm\inc\c\DLib_Product.h \
  E:\Software\IAR\arm\inc\c\DLib_Defaults.h \
  E:\Software\IAR\arm\inc\c\yvals.h E:\Software\IAR\arm\inc\c\stdio.h \
  E:\Software\IAR\arm\inc\c\stdarg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\app_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Ports\os_cpu_c.c \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source\ucos_ii.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Ports\os_cpu_c.c
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\app_cfg.h \
  E:\Software\IAR\arm\inc\c\stdarg.h E:\Software\IAR\arm\inc\c\stdio.h \
  E:\Software\IAR\arm\inc\c\ycheck.h E:\Software\IAR\arm\inc\c\yvals.h \
  E:\Software\IAR\arm\inc\c\DLib_Defaults.h \
  E:\\Software\\IAR\\arm\\inc\\c\\DLib_Config_Full.h \
  E:\Software\IAR\arm\inc\c\DLib_Product.h \
  E:\Software\IAR\arm\inc\c\ysizet.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Config\os_cfg.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\UCOS\Ports\os_cpu.h \
  e:\Users\Mortal\Desktop\Train_Camp_PLSR\PLSR\PLSR\EWARM\..\UCOS\Source/os_trace.h
--- a/PLSR/PLSR/EWARM/test.1/Obj/os_dbg.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/os_dbg.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/os_dbg.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/os_dbg.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/startup_stm32f407xx.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/startup_stm32f407xx.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_cortex.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_cortex.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_crc.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_crc.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_dma.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_dma.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_dma_ex.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_dma_ex.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_exti.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_exti.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_flash.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_flash.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_flash_ex.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_flash_ex.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_flash_ramfunc.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_flash_ramfunc.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_gpio.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_gpio.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_i2c.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_i2c.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_i2c_ex.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_i2c_ex.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_msp.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_msp.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_pwr.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_pwr.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_pwr_ex.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_pwr_ex.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_rcc.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_rcc.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_rcc_ex.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_rcc_ex.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_sram.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_sram.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_tim.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_tim.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_tim_ex.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_tim_ex.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_timebase_tim.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_timebase_tim.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_uart.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_uart.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_usart.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_usart.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_wwdg.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_hal_wwdg.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_it.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_it.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_it.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_it.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_crc.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_crc.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_dac.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_dac.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_dma.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_dma.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_exti.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_exti.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_gpio.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_gpio.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_i2c.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_i2c.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_pwr.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_pwr.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_rcc.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_rcc.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_rng.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_rng.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_spi.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_spi.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_tim.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_tim.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_usart.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/stm32f4xx_ll_usart.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/system_stm32f4xx.o
+++ b/PLSR/PLSR/EWARM/test.1/Obj/system_stm32f4xx.o
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1.pbd
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1.pbd
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1.pbd.browse
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1.pbd.browse
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1.pbw
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1.pbw
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1_part0.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1_part0.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1_part1.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1_part1.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1_part2.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1_part2.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1_part3.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1_part3.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1_part4.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1_part4.pbi
--- a/PLSR/PLSR/EWARM/test.1/Obj/test.1_part6.pbi
+++ b/PLSR/PLSR/EWARM/test.1/Obj/test.1_part6.pbi
Autor	SHA1	Nachricht	Datum
JIU JIALIN	e8a1f364cd	解决有卡顿的问题,添加正弦加减速功能	vor 3 Wochen
JIU JIALIN	f301f764ea	曲线加速过程可以接受,但是减速过程效果很差	vor 3 Wochen
JIU JIALIN	bc2f2e8a9e	通过提升优化等级改变了对堆栈的访问,解决了导致硬件错误中断的问题	vor 4 Wochen
JIU JIALIN	b56a03d48c	修改一个数据类型问题	vor 4 Wochen
JIU JIALIN	855663f1fa	修改数据类型临时提交	vor 4 Wochen
JIU JIALIN	d3822d4108	解决中间段为外部事件时,脉冲是否发完判断不正确的问题	vor 4 Wochen
JIU JIALIN	ada42eea7e	解决了一些bug,相对模式与绝对模式切换使用时导致的问题	vor 4 Wochen
JIU JIALIN	5a31ab1984	全部文件添加代码管理	vor 4 Wochen
JIU JIALIN	affddd874b	添加曲线加减速相关变量	vor 4 Wochen
JIU JIALIN	d6f77f3fe8	通过步长方式解决频率过高时,因为驱动能力影响导致高电平翻转较慢导致占空比异常的问题	vor 1 Monat
JIU JIALIN	b035971da0	解决外部事件触发结束导致结束状态异常	vor 1 Monat
JIU JIALIN	19c003894a	添加一些注释	vor 1 Monat
JIU JIALIN	a355221fa4	解决临时修改频率的bug	vor 1 Monat
JIU JIALIN	9ebf50b770	解决临时修改频率脉冲数异常的问题	vor 1 Monat
JIU JIALIN	55e9ea1638	解决0脉冲启动时的问题	vor 1 Monat
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JIU JIALIN	871e4896e5	优化代码管理	vor 1 Monat
JIU JIALIN	28c78db0d4	优化临时修改频率计数不准确的问题	vor 1 Monat
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JIU JIALIN	3cfb9048dc	解决了加减速不对称的问题	vor 1 Monat
JIU JIALIN	aa8b295fdd	修改了多段运行，EXT信号跳转有问题，只有上电第一次可以执行跳转和直线加减速，脉冲首位频率不对称，需要优化的bug	vor 1 Monat
JIU JIALIN	a1230b7411	临时提交	vor 1 Monat
JIU JIALIN	9506005974	修改了多段相同频率但是加速度不足时产生的问题	vor 1 Monat
JIU JIALIN	1392b8aa47	暂时解决之前遇到的所有问题，添加最后一段等待条件为外部信号时触发减速到0的功能	vor 1 Monat
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JIU JIALIN	367ac2528f	修改文档	vor 1 Monat
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JIU JIALIN	fb47df3bf3	解决了PWM停止时可能会出现极端占空的小脉冲的情况,解决定时器关闭不完全的情况.	vor 1 Monat
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