fix: 更正逻辑分析仪频率
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bcdefb2779
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43e3cce048
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@ -77,6 +77,10 @@ const defaultColors = [
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"#8C33FF",
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"#8C33FF",
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];
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];
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// 添加逻辑分析仪频率常量
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const LOGIC_ANALYZER_FREQUENCY = 5_000_000; // 5MHz
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const SAMPLE_PERIOD_NS = 1_000_000_000 / LOGIC_ANALYZER_FREQUENCY; // 采样周期,单位:纳秒
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const [useProvideLogicAnalyzer, useLogicAnalyzerState] = createInjectionState(
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const [useProvideLogicAnalyzer, useLogicAnalyzerState] = createInjectionState(
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() => {
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() => {
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const logicData = shallowRef<LogicDataType>();
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const logicData = shallowRef<LogicDataType>();
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@ -305,10 +309,10 @@ const [useProvideLogicAnalyzer, useLogicAnalyzerState] = createInjectionState(
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// 5. 解析数据为8个通道的数字信号
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// 5. 解析数据为8个通道的数字信号
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const sampleCount = bytes.length;
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const sampleCount = bytes.length;
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const timeStep = 0.1; // 假设每个采样点间隔0.1ms
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const timeStepNs = SAMPLE_PERIOD_NS; // 每个采样点间隔200ns (1/5MHz)
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// 创建时间轴
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// 创建时间轴(转换为合适的单位)
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const x = Array.from({ length: sampleCount }, (_, i) => i * timeStep);
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const x = Array.from({ length: sampleCount }, (_, i) => i * timeStepNs / 1000); // 转换为微秒
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// 创建8个通道的数据
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// 创建8个通道的数据
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const y: number[][] = Array.from(
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const y: number[][] = Array.from(
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@ -329,7 +333,7 @@ const [useProvideLogicAnalyzer, useLogicAnalyzerState] = createInjectionState(
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const logicData: LogicDataType = {
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const logicData: LogicDataType = {
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x,
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x,
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y,
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y,
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xUnit: "ms",
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xUnit: "us", // 改为微秒单位
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};
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};
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setLogicData(logicData);
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setLogicData(logicData);
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@ -383,51 +387,51 @@ const [useProvideLogicAnalyzer, useLogicAnalyzerState] = createInjectionState(
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// 添加生成测试数据的方法
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// 添加生成测试数据的方法
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const generateTestData = () => {
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const generateTestData = () => {
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const sampleRate = 10000; // 10kHz sampling
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const sampleRate = LOGIC_ANALYZER_FREQUENCY; // 使用实际的逻辑分析仪频率
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const duration = 1;
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const duration = 0.001; // 1ms的数据
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const points = Math.floor(sampleRate * duration);
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const points = Math.floor(sampleRate * duration);
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const x = Array.from(
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const x = Array.from(
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{ length: points },
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{ length: points },
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(_, i) => (i / sampleRate) * 1000,
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(_, i) => (i * SAMPLE_PERIOD_NS) / 1000, // 时间轴,单位:微秒
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); // time in ms
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);
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// Generate 8 channels with different digital patterns
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// Generate 8 channels with different digital patterns
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const y = [
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const y = [
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// Channel 0: Clock signal 100Hz
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// Channel 0: Clock signal 1MHz
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Array.from(
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Array.from(
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{ length: points },
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{ length: points },
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(_, i) => Math.floor((100 * i) / sampleRate) % 2,
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(_, i) => Math.floor((1_000_000 * i) / sampleRate) % 2,
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),
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),
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// Channel 1: Clock/2 signal 50Hz
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// Channel 1: Clock/2 signal 500kHz
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Array.from(
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Array.from(
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{ length: points },
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{ length: points },
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(_, i) => Math.floor((50 * i) / sampleRate) % 2,
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(_, i) => Math.floor((500_000 * i) / sampleRate) % 2,
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),
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),
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// Channel 2: Clock/4 signal 25Hz
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// Channel 2: Clock/4 signal 250kHz
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Array.from(
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Array.from(
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{ length: points },
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{ length: points },
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(_, i) => Math.floor((25 * i) / sampleRate) % 2,
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(_, i) => Math.floor((250_000 * i) / sampleRate) % 2,
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),
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),
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// Channel 3: Clock/8 signal 12.5Hz
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// Channel 3: Clock/8 signal 125kHz
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Array.from(
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Array.from(
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{ length: points },
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{ length: points },
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(_, i) => Math.floor((12.5 * i) / sampleRate) % 2,
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(_, i) => Math.floor((125_000 * i) / sampleRate) % 2,
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),
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),
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// Channel 4: Data signal (pseudo-random pattern)
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// Channel 4: Data signal (pseudo-random pattern)
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Array.from({ length: points }, (_, i) =>
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Array.from({ length: points }, (_, i) =>
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Math.abs(Math.floor(Math.sin(i * 0.01) * 10) % 2),
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Math.abs(Math.floor(Math.sin(i * 0.001) * 10) % 2),
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),
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),
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// Channel 5: Enable signal (periodic pulse)
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// Channel 5: Enable signal (periodic pulse)
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Array.from({ length: points }, (_, i) =>
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Array.from({ length: points }, (_, i) =>
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Math.floor(i / 50) % 10 < 3 ? 1 : 0,
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Math.floor(i / 250) % 10 < 3 ? 1 : 0,
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),
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),
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// Channel 6: Reset signal (occasional pulse)
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// Channel 6: Reset signal (occasional pulse)
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Array.from({ length: points }, (_, i) =>
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Array.from({ length: points }, (_, i) =>
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Math.floor(i / 200) % 20 === 0 ? 1 : 0,
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Math.floor(i / 1000) % 20 === 0 ? 1 : 0,
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),
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),
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// Channel 7: Status signal (slow changing)
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// Channel 7: Status signal (slow changing)
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Array.from({ length: points }, (_, i) => Math.floor(i / 1000) % 2),
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Array.from({ length: points }, (_, i) => Math.floor(i / 5000) % 2),
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];
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];
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// 同时更新通道标签为更有意义的名称
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// 同时更新通道标签为更有意义的名称
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@ -448,7 +452,7 @@ const [useProvideLogicAnalyzer, useLogicAnalyzerState] = createInjectionState(
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// 设置逻辑数据
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// 设置逻辑数据
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enableAllChannels();
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enableAllChannels();
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setLogicData({ x, y, xUnit: "ms" });
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setLogicData({ x, y, xUnit: "us" }); // 改为微秒单位
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alert?.success("测试数据生成成功", 2000);
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alert?.success("测试数据生成成功", 2000);
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};
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};
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@ -16,7 +16,7 @@
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<div class="stat">
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<div class="stat">
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<div class="stat-title">采样率</div>
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<div class="stat-title">采样率</div>
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<div class="stat-value text-info">100MHz</div>
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<div class="stat-value text-info">5MHz</div>
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<div class="stat-desc">最大采样频率</div>
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<div class="stat-desc">最大采样频率</div>
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</div>
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</div>
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</div>
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</div>
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