修复红外的兼容性问题

2025-09-22 18:49:14 +08:00
parent 9bea3546c7
commit b3c6b4cde9
3 changed files with 388 additions and 133 deletions
--- a/Dorm-Air-Conditioner-Smart-Controller.ino
+++ b/Dorm-Air-Conditioner-Smart-Controller.ino
@@ -190,8 +190,11 @@ void sendStoredIRSignal(String buttonName) {
 // 从字符串解析红外信号
 IRSignal parseIRSignalFromString(String dataStr) {
  IRSignal signal;
-  signal.data = nullptr;
+  signal.markTimes = nullptr;
-  signal.length = 0;
+  signal.spaceTimes = nullptr;
  signal.markCount = 0;
  signal.spaceCount = 0;
  signal.carrierFreq = IR_CARRIER_FREQ;
  signal.isValid = false;
  if (dataStr.length() == 0) {
@@ -203,11 +206,11 @@ IRSignal parseIRSignalFromString(String dataStr) {
  for (int i = 0; i < dataStr.length(); i++) {
    if (dataStr[i] == ',') commaCount++;
  }
-  signal.length = commaCount + 1;
+  int totalLength = commaCount + 1;
-  // 分配内存
+  // 分配临时内存存储原始数据
-  signal.data = (unsigned int*)malloc(signal.length * sizeof(unsigned int));
+  unsigned int* tempData = (unsigned int*)malloc(totalLength * sizeof(unsigned int));
-  if (signal.data == nullptr) {
+  if (tempData == nullptr) {
    return signal;
  }
@@ -217,27 +220,78 @@ IRSignal parseIRSignalFromString(String dataStr) {
  for (int i = 0; i <= dataStr.length(); i++) {
    if (i == dataStr.length() || dataStr[i] == ',') {
      String valueStr = dataStr.substring(startPos, i);
-      signal.data[index] = valueStr.toInt();
+      tempData[index] = valueStr.toInt();
      index++;
      startPos = i + 1;
    }
  }
  // 分离mark和space数据
  signal.markCount = (totalLength + 1) / 2;
  signal.spaceCount = totalLength / 2;
  // 分配mark时间数组
  if (signal.markCount > 0) {
    signal.markTimes = (unsigned int*)malloc(signal.markCount * sizeof(unsigned int));
    if (signal.markTimes == nullptr) {
      free(tempData);
      return signal;
    }
    for (int i = 0; i < signal.markCount; i++) {
      signal.markTimes[i] = tempData[i * 2];
    }
  }
  // 分配space时间数组
  if (signal.spaceCount > 0) {
    signal.spaceTimes = (unsigned int*)malloc(signal.spaceCount * sizeof(unsigned int));
    if (signal.spaceTimes == nullptr) {
      if (signal.markTimes != nullptr) {
        free(signal.markTimes);
        signal.markTimes = nullptr;
        signal.markCount = 0;
      }
      free(tempData);
      return signal;
    }
    for (int i = 0; i < signal.spaceCount; i++) {
      signal.spaceTimes[i] = tempData[i * 2 + 1];
    }
  }
  free(tempData);
  signal.isValid = true;
  return signal;
 }
 // 将红外信号转换为字符串
 String irSignalToString(const IRSignal& signal) {
-  if (!signal.isValid || signal.data == nullptr || signal.length == 0) {
+  if (!signal.isValid || 
      (signal.markTimes == nullptr && signal.spaceTimes == nullptr) || 
      (signal.markCount == 0 && signal.spaceCount == 0)) {
    return "";
  }
  String result = "";
-  for (int i = 0; i < signal.length; i++) {
+  int maxCount = max(signal.markCount, signal.spaceCount);
-    if (i > 0) result += ",";
+  
-    result += String(signal.data[i]);
+  // 重建原始时序数据：交替输出mark和space
  for (int i = 0; i < maxCount; i++) {
    // 添加mark时间
    if (i < signal.markCount) {
      if (result.length() > 0) result += ",";
      result += String(signal.markTimes[i]);
    }
    // 添加space时间
    if (i < signal.spaceCount) {
      if (result.length() > 0) result += ",";
      result += String(signal.spaceTimes[i]);
    }
  }
  return result;
 }
@@ -751,7 +805,7 @@ void handleStartRecord() {
    prefs.putString(("ir_" + buttonName).c_str(), irDataStr);
    Serial.println("红外信号录入成功: " + buttonName);
-    Serial.println("信号长度: " + String(signal.length));
+    Serial.println("mark数量: " + String(signal.markCount) + ", space数量: " + String(signal.spaceCount));
    freeIRSignal(signal);
    server.send(200, "application/json", "{\"success\":true}");
@@ -768,7 +822,7 @@ void handleSendIR() {
    return;
  }
-  DynamicJsonDocument doc(200);
+  DynamicJsonDocument doc(26700);
  deserializeJson(doc, server.arg("plain"));
  String buttonName = doc["button"];
--- a/ir_control.cpp
+++ b/ir_control.cpp
@@ -1,169 +1,323 @@
 #include "ir_control.h"
 void initIRControl() {
-    pinMode(IR_RECEIVE_PIN, INPUT);
+    // 配置RMT发送通道
-    pinMode(IR_SEND_PIN, OUTPUT);
+    rmt_config_t rmt_tx_config = RMT_DEFAULT_CONFIG_TX((gpio_num_t)IR_SEND_PIN, RMT_TX_CHANNEL);
-    digitalWrite(IR_SEND_PIN, LOW);
+    rmt_tx_config.clk_div = RMT_CLK_DIV;
    rmt_tx_config.mem_block_num = RMT_MEM_BLOCK_NUM;
    rmt_tx_config.tx_config.carrier_en = RMT_TX_CARRIER_EN;
    rmt_tx_config.tx_config.carrier_freq_hz = RMT_TX_CARRIER_FREQ_HZ;
    rmt_tx_config.tx_config.carrier_duty_percent = RMT_TX_CARRIER_DUTY_PERCENT;
    rmt_tx_config.tx_config.carrier_level = RMT_TX_CARRIER_LEVEL;
    rmt_tx_config.tx_config.idle_level = RMT_IDLE_LEVEL;
    rmt_tx_config.tx_config.idle_output_en = true;
-    Serial.println("红外控制模块初始化完成");
+    esp_err_t err = rmt_config(&rmt_tx_config);
-    Serial.print("接收引脚: ");
+    if (err != ESP_OK) {
-    Serial.println(IR_RECEIVE_PIN);
+        Serial.printf("RMT发送通道配置失败: %s\n", esp_err_to_name(err));
-    Serial.print("发送引脚: ");
+        return;
-    Serial.println(IR_SEND_PIN);
+    }
    err = rmt_driver_install(RMT_TX_CHANNEL, 0, 0);
    if (err != ESP_OK) {
        Serial.printf("RMT发送驱动安装失败: %s\n", esp_err_to_name(err));
        return;
    }
    // 配置RMT接收通道
    rmt_config_t rmt_rx_config = RMT_DEFAULT_CONFIG_RX((gpio_num_t)IR_RECEIVE_PIN, RMT_RX_CHANNEL);
    rmt_rx_config.clk_div = RMT_CLK_DIV;
    rmt_rx_config.mem_block_num = RMT_MEM_BLOCK_NUM;
    rmt_rx_config.rx_config.filter_en = RMT_RX_FILTER_EN;
    rmt_rx_config.rx_config.filter_ticks_thresh = RMT_RX_FILTER_THRESH_US;
    rmt_rx_config.rx_config.idle_threshold = RMT_RX_IDLE_THRESH_US;
    err = rmt_config(&rmt_rx_config);
    if (err != ESP_OK) {
        Serial.printf("RMT接收通道配置失败: %s\n", esp_err_to_name(err));
        return;
    }
    err = rmt_driver_install(RMT_RX_CHANNEL, 1000, 0);
    if (err != ESP_OK) {
        Serial.printf("RMT接收驱动安装失败: %s\n", esp_err_to_name(err));
        return;
    }
    Serial.println("红外控制模块初始化完成 (使用RMT)");
    Serial.printf("发送引脚: %d (RMT通道: %d)\n", IR_SEND_PIN, RMT_TX_CHANNEL);
    Serial.printf("接收引脚: %d (RMT通道: %d)\n", IR_RECEIVE_PIN, RMT_RX_CHANNEL);
    Serial.printf("载波频率: %d Hz\n", RMT_TX_CARRIER_FREQ_HZ);
    Serial.printf("时钟分辨率: %d us\n", RMT_CLK_DIV);
 }
 bool checkIRSignalStart() {
-    return (digitalRead(IR_RECEIVE_PIN) == LOW);
+    // 使用RMT检查是否有信号开始
    // 启动接收并检查是否立即有数据
    rmt_rx_start(RMT_RX_CHANNEL, true);
    // 等待短时间检查是否有信号
    vTaskDelay(pdMS_TO_TICKS(1));
    // 获取RMT环形缓冲区句柄
    RingbufHandle_t rb = NULL;
    esp_err_t err = rmt_get_ringbuf_handle(RMT_RX_CHANNEL, &rb);
    if (err != ESP_OK) {
        rmt_rx_stop(RMT_RX_CHANNEL);
        return false;
    }
    // 检查RMT接收缓冲区是否有数据
    size_t rx_size = 0;
    rmt_item32_t* items = (rmt_item32_t*)xRingbufferReceive(rb, &rx_size, 0);
    bool hasSignal = (items != nullptr && rx_size > 0);
    if (items) {
        vRingbufferReturnItem(rb, (void*)items);
    }
    rmt_rx_stop(RMT_RX_CHANNEL);
    return hasSignal;
 }
 IRSignal receiveIRSignal() {
    IRSignal signal;
-    signal.data = nullptr;
+    signal.markTimes = nullptr;
-    signal.length = 0;
+    signal.spaceTimes = nullptr;
    signal.markCount = 0;
    signal.spaceCount = 0;
    signal.carrierFreq = IR_CARRIER_FREQ;
    signal.isValid = false;
-    Serial.println("开始接收红外信号...");
+    Serial.println("开始接收红外信号 (使用RMT)...");
-    // 分配内存存储信号数据
+    // 启动RMT接收
-    signal.data = (unsigned int*)malloc(MAX_SIGNAL_LENGTH * sizeof(unsigned int));
+    rmt_rx_start(RMT_RX_CHANNEL, true);
-    if (signal.data == nullptr) {
+    
-        Serial.println("内存分配失败");
+    // 获取RMT环形缓冲区句柄
    RingbufHandle_t rb = NULL;
    esp_err_t err = rmt_get_ringbuf_handle(RMT_RX_CHANNEL, &rb);
    if (err != ESP_OK) {
        Serial.printf("获取RMT缓冲区句柄失败: %s\n", esp_err_to_name(err));
        rmt_rx_stop(RMT_RX_CHANNEL);
        return signal;
    }
-    unsigned long startTime = micros();
+    // 等待接收数据
-    unsigned long lastChange = startTime;
+    size_t rx_size = 0;
-    bool currentState = HIGH;
+    rmt_item32_t* items = (rmt_item32_t*)xRingbufferReceive(rb, &rx_size, pdMS_TO_TICKS(RECEIVE_TIMEOUT_US / 1000));
    bool lastState = HIGH;
-    // 等待信号开始（第一个低电平）
+    if (items == nullptr || rx_size == 0) {
-    while (digitalRead(IR_RECEIVE_PIN) == HIGH && (micros() - startTime) < RECEIVE_TIMEOUT_US) {
+        Serial.println("RMT接收超时或无数据");
-        delayMicroseconds(10);
+        rmt_rx_stop(RMT_RX_CHANNEL);
    }
    if ((micros() - startTime) >= RECEIVE_TIMEOUT_US) {
        Serial.println("等待信号超时");
        free(signal.data);
        signal.data = nullptr;
        return signal;
    }
-    Serial.println("检测到信号开始");
+    // 计算接收到的项目数量
-    lastChange = micros();
+    size_t item_count = rx_size / sizeof(rmt_item32_t);
-    lastState = LOW;
+    Serial.printf("接收到 %d 个RMT项目\n", item_count);
    signal.length = 0;
-    // 接收信号数据
+    if (item_count == 0) {
-    while (signal.length < MAX_SIGNAL_LENGTH) {
+        Serial.println("接收到的数据为空");
-        currentState = digitalRead(IR_RECEIVE_PIN);
+        vRingbufferReturnItem(rb, (void*)items);
-        
+        rmt_rx_stop(RMT_RX_CHANNEL);
-        if (currentState != lastState) {
+        return signal;
            // 状态改变，记录持续时间
            unsigned long duration = micros() - lastChange;
            signal.data[signal.length] = duration;
            signal.length++;
            lastState = currentState;
            lastChange = micros();
    }
-        // 检查是否信号结束（高电平持续时间过长）
+    // 分配临时数组存储时序数据
-        if (currentState == HIGH && (micros() - lastChange) > SIGNAL_END_TIMEOUT_US) {
+    unsigned int* tempData = (unsigned int*)malloc(item_count * 2 * sizeof(unsigned int));
-            Serial.println("检测到信号结束");
+    if (tempData == nullptr) {
-            break;
+        Serial.println("临时数据内存分配失败");
        vRingbufferReturnItem(rb, (void*)items);
        rmt_rx_stop(RMT_RX_CHANNEL);
        return signal;
    }
-        // 总体超时检查
+    int tempLength = 0;
-        if ((micros() - startTime) > RECEIVE_TIMEOUT_US) {
+    
-            Serial.println("接收总体超时");
+    // 解析RMT数据项
-            break;
+    for (size_t i = 0; i < item_count; i++) {
        // 每个RMT项目包含两个时间段：level0的持续时间和level1的持续时间
        if (items[i].duration0 > 0 && tempLength < item_count * 2) {
            tempData[tempLength++] = items[i].duration0;
        }
        if (items[i].duration1 > 0 && tempLength < item_count * 2) {
            tempData[tempLength++] = items[i].duration1;
        }
    }
    // 释放RMT缓冲区
    vRingbufferReturnItem(rb, (void*)items);
    rmt_rx_stop(RMT_RX_CHANNEL);
    if (tempLength > 0) {
        // 分离mark和space时间
        signal.markCount = (tempLength + 1) / 2;  // 奇数索引是mark
        signal.spaceCount = tempLength / 2;       // 偶数索引是space
        // 分配mark时间数组
        if (signal.markCount > 0) {
            signal.markTimes = (unsigned int*)malloc(signal.markCount * sizeof(unsigned int));
            if (signal.markTimes == nullptr) {
                Serial.println("mark时间数组内存分配失败");
                free(tempData);
                return signal;
            }
            // 复制mark时间（从索引0开始，每隔2个取一个）
            for (int i = 0; i < signal.markCount; i++) {
                signal.markTimes[i] = tempData[i * 2];
            }
        }
        // 分配space时间数组
        if (signal.spaceCount > 0) {
            signal.spaceTimes = (unsigned int*)malloc(signal.spaceCount * sizeof(unsigned int));
            if (signal.spaceTimes == nullptr) {
                Serial.println("space时间数组内存分配失败");
                if (signal.markTimes != nullptr) {
                    free(signal.markTimes);
                    signal.markTimes = nullptr;
                }
                free(tempData);
                return signal;
            }
            // 复制space时间（从索引1开始，每隔2个取一个）
            for (int i = 0; i < signal.spaceCount; i++) {
                signal.spaceTimes[i] = tempData[i * 2 + 1];
            }
        }
    if (signal.length > 0) {
        signal.isValid = true;
-        Serial.print("信号接收成功，长度: ");
+        Serial.printf("RMT信号接收成功，mark数量: %d, space数量: %d\n", signal.markCount, signal.spaceCount);
        Serial.println(signal.length);
        // 重新分配内存以节省空间
        signal.data = (unsigned int*)realloc(signal.data, signal.length * sizeof(unsigned int));
        if (signal.data == nullptr) {
            Serial.println("内存重新分配失败");
            signal.isValid = false;
            signal.length = 0;
        }
    } else {
-        Serial.println("未接收到有效信号");
+        Serial.println("未接收到有效的RMT信号数据");
        free(signal.data);
        signal.data = nullptr;
    }
    free(tempData);
    return signal;
 }
 // generateCarrier函数已被RMT模块替代，不再需要
 bool sendIRSignal(const IRSignal& signal) {
    if (!isValidIRSignal(signal)) {
        Serial.println("信号无效，无法发送");
        return false;
    }
-    Serial.println("开始发送红外信号...");
+    Serial.println("开始发送红外信号 (使用RMT)...");
-    Serial.print("信号长度: ");
+    Serial.printf("载波频率: %d Hz\n", signal.carrierFreq);
-    Serial.println(signal.length);
+    Serial.printf("mark数量: %d, space数量: %d\n", signal.markCount, signal.spaceCount);
-    // 禁用中断以确保精确的时序
+    // 计算需要的RMT项目数量
-    noInterrupts();
+    int maxCount = max(signal.markCount, signal.spaceCount);
    size_t item_count = maxCount;
-    bool state = LOW; // 红外信号通常以低电平开始
+    // 分配RMT项目数组
-    
+    rmt_item32_t* items = (rmt_item32_t*)malloc(item_count * sizeof(rmt_item32_t));
-    for (int i = 0; i < signal.length; i++) {
+    if (items == nullptr) {
-        digitalWrite(IR_SEND_PIN, state);
+        Serial.println("RMT项目内存分配失败");
-        delayMicroseconds(signal.data[i]);
+        return false;
        state = !state; // 切换状态
    }
-    // 确保最后是低电平
+    // 构建RMT数据项
-    digitalWrite(IR_SEND_PIN, LOW);
+    for (int i = 0; i < maxCount; i++) {
        items[i].level0 = 1;  // mark期间为高电平（载波调制）
        items[i].duration0 = (i < signal.markCount) ? signal.markTimes[i] : 0;
-    // 重新启用中断
+        items[i].level1 = 0;  // space期间为低电平（无载波）
-    interrupts();
+        items[i].duration1 = (i < signal.spaceCount) ? signal.spaceTimes[i] : 0;
    }
-    Serial.println("信号发送完成");
+    // 发送RMT数据
    esp_err_t err = rmt_write_items(RMT_TX_CHANNEL, items, item_count, true);
    if (err != ESP_OK) {
        Serial.printf("RMT发送失败: %s\n", esp_err_to_name(err));
        free(items);
        return false;
    }
    // 等待发送完成
    err = rmt_wait_tx_done(RMT_TX_CHANNEL, pdMS_TO_TICKS(1000));
    if (err != ESP_OK) {
        Serial.printf("RMT发送等待超时: %s\n", esp_err_to_name(err));
        free(items);
        return false;
    }
    free(items);
    Serial.println("RMT信号发送完成");
    return true;
 }
 void freeIRSignal(IRSignal& signal) {
-    if (signal.data != nullptr) {
+    if (signal.markTimes != nullptr) {
-        free(signal.data);
+        free(signal.markTimes);
-        signal.data = nullptr;
+        signal.markTimes = nullptr;
    }
-    signal.length = 0;
+    if (signal.spaceTimes != nullptr) {
        free(signal.spaceTimes);
        signal.spaceTimes = nullptr;
    }
    signal.markCount = 0;
    signal.spaceCount = 0;
    signal.carrierFreq = 0;
    signal.isValid = false;
 }
 IRSignal copyIRSignal(const IRSignal& source) {
    IRSignal copy;
-    copy.data = nullptr;
+    copy.markTimes = nullptr;
-    copy.length = 0;
+    copy.spaceTimes = nullptr;
    copy.markCount = 0;
    copy.spaceCount = 0;
    copy.carrierFreq = 0;
    copy.isValid = false;
    if (!isValidIRSignal(source)) {
        return copy;
    }
-    // 分配内存
+    // 复制mark时间数组
-    copy.data = (unsigned int*)malloc(source.length * sizeof(unsigned int));
+    if (source.markCount > 0 && source.markTimes != nullptr) {
-    if (copy.data == nullptr) {
+        copy.markTimes = (unsigned int*)malloc(source.markCount * sizeof(unsigned int));
-        Serial.println("复制信号时内存分配失败");
+        if (copy.markTimes == nullptr) {
            Serial.println("复制mark时间数组时内存分配失败");
            return copy;
        }
-    // 复制数据
+        for (int i = 0; i < source.markCount; i++) {
-    for (int i = 0; i < source.length; i++) {
+            copy.markTimes[i] = source.markTimes[i];
-        copy.data[i] = source.data[i];
+        }
        copy.markCount = source.markCount;
    }
-    copy.length = source.length;
+    // 复制space时间数组
    if (source.spaceCount > 0 && source.spaceTimes != nullptr) {
        copy.spaceTimes = (unsigned int*)malloc(source.spaceCount * sizeof(unsigned int));
        if (copy.spaceTimes == nullptr) {
            Serial.println("复制space时间数组时内存分配失败");
            if (copy.markTimes != nullptr) {
                free(copy.markTimes);
                copy.markTimes = nullptr;
                copy.markCount = 0;
            }
            return copy;
        }
        for (int i = 0; i < source.spaceCount; i++) {
            copy.spaceTimes[i] = source.spaceTimes[i];
        }
        copy.spaceCount = source.spaceCount;
    }
    copy.carrierFreq = source.carrierFreq;
    copy.isValid = true;
    return copy;
@@ -176,33 +330,56 @@ void printIRSignal(const IRSignal& signal, int maxPrint) {
    }
    Serial.println("=== 红外信号数据 ===");
-    Serial.print("信号长度: ");
+    Serial.print("载波频率: ");
-    Serial.println(signal.length);
+    Serial.print(signal.carrierFreq);
    Serial.println(" Hz");
    Serial.print("mark数量: ");
    Serial.println(signal.markCount);
    Serial.print("space数量: ");
    Serial.println(signal.spaceCount);
    Serial.print("信号有效: ");
    Serial.println(signal.isValid ? "是" : "否");
-    int printCount = (maxPrint == 0) ? signal.length : min(maxPrint, signal.length);
+    // 打印mark时间
-    
+    int markPrintCount = (maxPrint == 0) ? signal.markCount : min(maxPrint, signal.markCount);
-    Serial.println("原始数据 (微秒):");
+    Serial.println("Mark时间 (微秒):");
-    for (int i = 0; i < printCount; i++) {
+    for (int i = 0; i < markPrintCount; i++) {
-        Serial.print("Index ");
+        Serial.print("Mark ");
        Serial.print(i);
        Serial.print(": ");
-        Serial.print(signal.data[i]);
+        Serial.print(signal.markTimes[i]);
-        Serial.print(" us (");
+        Serial.println(" us");
        Serial.print((i % 2 == 0) ? "LOW" : "HIGH");
        Serial.println(")");
    }
-    if (printCount < signal.length) {
+    if (markPrintCount < signal.markCount) {
        Serial.print("... 还有 ");
-        Serial.print(signal.length - printCount);
+        Serial.print(signal.markCount - markPrintCount);
-        Serial.println(" 个数据点未显示");
+        Serial.println(" 个mark数据点未显示");
    }
    // 打印space时间
    int spacePrintCount = (maxPrint == 0) ? signal.spaceCount : min(maxPrint, signal.spaceCount);
    Serial.println("Space时间 (微秒):");
    for (int i = 0; i < spacePrintCount; i++) {
        Serial.print("Space ");
        Serial.print(i);
        Serial.print(": ");
        Serial.print(signal.spaceTimes[i]);
        Serial.println(" us");
    }
    if (spacePrintCount < signal.spaceCount) {
        Serial.print("... 还有 ");
        Serial.print(signal.spaceCount - spacePrintCount);
        Serial.println(" 个space数据点未显示");
    }
    Serial.println("==================");
 }
 bool isValidIRSignal(const IRSignal& signal) {
-    return (signal.data != nullptr && signal.length > 0 && signal.isValid);
+    return (signal.isValid && 
            ((signal.markTimes != nullptr && signal.markCount > 0) || 
             (signal.spaceTimes != nullptr && signal.spaceCount > 0)) &&
            signal.carrierFreq > 0);
 }
--- a/ir_control.h
+++ b/ir_control.h
@@ -2,11 +2,16 @@
 #define IR_CONTROL_H
 #include <Arduino.h>
 #include "driver/rmt.h"
 #include "driver/gpio.h"
 // 红外信号结构体
 struct IRSignal {
-    unsigned int* data;     // 原始信号数据数组（微秒）
+    unsigned int* markTimes;    // mark时间数组（微秒）
-    int length;            // 信号长度
+    unsigned int* spaceTimes;   // space时间数组（微秒）
    int markCount;             // mark数量
    int spaceCount;            // space数量
    unsigned int carrierFreq;   // 载波频率（Hz）
    bool isValid;              // 信号是否有效
 };
@@ -16,6 +21,22 @@ struct IRSignal {
 #define MAX_SIGNAL_LENGTH 1000
 #define RECEIVE_TIMEOUT_US 1000000  // 1秒接收超时
 #define SIGNAL_END_TIMEOUT_US 50000 // 50ms信号结束判断
 #define IR_CARRIER_FREQ 38000       // 38kHz载波频率
 #define CARRIER_PERIOD_US 26        // 38kHz载波周期（微秒）
 // RMT配置参数
 #define RMT_TX_CHANNEL RMT_CHANNEL_0    // RMT发送通道
 #define RMT_RX_CHANNEL RMT_CHANNEL_1    // RMT接收通道
 #define RMT_CLK_DIV 80                  // RMT时钟分频器 (80MHz / 80 = 1MHz, 1us分辨率)
 #define RMT_MEM_BLOCK_NUM 1             // RMT内存块数量
 #define RMT_TX_CARRIER_EN true          // 启用发送载波
 #define RMT_TX_CARRIER_FREQ_HZ 38000    // 发送载波频率
 #define RMT_TX_CARRIER_DUTY_PERCENT 33  // 载波占空比
 #define RMT_TX_CARRIER_LEVEL RMT_CARRIER_LEVEL_HIGH  // 载波电平
 #define RMT_IDLE_LEVEL RMT_IDLE_LEVEL_LOW            // 空闲电平
 #define RMT_RX_FILTER_EN true           // 启用接收滤波器
 #define RMT_RX_FILTER_THRESH_US 100     // 接收滤波器阈值(微秒)
 #define RMT_RX_IDLE_THRESH_US 10000     // 接收空闲阈值(微秒)
 /**
 * 初始化红外控制模块
@@ -33,9 +54,12 @@ bool checkIRSignalStart();
 /**
 * 接收红外信号
- * @return IRSignal 包含原始红外信号数据的结构体
+ * @return IRSignal 包含红外信号mark/space时序和载波频率的结构体
- *         - data: 指向信号数据数组的指针
+ *         - markTimes: 指向mark时间数组的指针
- *         - length: 信号数据长度
+ *         - spaceTimes: 指向space时间数组的指针
 *         - markCount: mark数量
 *         - spaceCount: space数量
 *         - carrierFreq: 载波频率
 *         - isValid: 是否成功接收到有效信号
 * 
 * 注意：调用者需要在使用完毕后调用 freeIRSignal() 释放内存