niscope-mcp
Click on "Install Server".
Wait a few minutes for the server to deploy. Once ready, it will show a "Started" state.
In the chat, type
@followed by the MCP server name and your instructions, e.g., "@niscope-mcpread waveform from channel 0"
That's it! The server will respond to your query, and you can continue using it as needed.
Here is a step-by-step guide with screenshots.
NI-SCOPE MCP Server
AI 控制的 PXIe 示波器 — 通过 MCP 协议让 AI 助手直接操作 NI 示波器。
支持 NI PXIe-5160 / 5164 / 5110。仅 Windows + NI 硬件。
核心特性
自适应采样 — 自动提升采样率至信号频率的 30×(最高 1.25 GS/s),消除高频混叠
高级测量 — 上升/下降时间 (10-90%, 20-80%)、脉冲宽度、过冲/下冲、周期抖动、SNR
信号智能识别 — 30+ 晶振频率、UART/SPI/I2C/CAN 协议检测、PWM/开关电源/触发脉冲分类、边沿质量分析
严格进程隔离 — 每通道独立子进程采集,读前查杀残留、读后显式 kill、单进程度量、超时跳过、最终清理
Related MCP server: Rigol DHO824 MCP Server
快速安装
pip install -e .
pip install "niscope-mcp[hardware]"或 Windows 双击 install.bat。
MCP 注册
{
"servers": {
"niscope": {
"type": "stdio",
"command": "python",
"args": ["-u", "-m", "niscope_mcp"],
"enabled": true
}
}
}重启 AI 助手后生效。
可用工具
工具 | 功能 |
| 扫描 PXIe 机箱,列出所有示波器 |
| 单通道采集 + 高级测量 + ASCII 波形 |
| 全通道采集 + 机箱图 + 逐通道详细分析 |
| 同 read_waveform |
| 配置垂直/水平/触发 |
| 自动设置 (Autoset) |
| 读取当前硬件配置 |
| 使用指南 + 参数参考 |
输出示例 (v2.1)
## Measurement Results
| Device | CH | Type | Frequency/Vpp | Time |
|-----------|-----|----------|--------------------------|------|
| PXI1Slot3 | CH0 | PERIODIC | 10.0000 MHz / 3.3307Vpp | 1.5s |
| PXI1Slot3 | CH1 | PERIODIC | 274.6720 MHz / 0.4736Vpp | 2.6s |
## CH 3-0
| Parameter | Value |
|-----------------|--------------------|
| Frequency | 10.0032 MHz |
| Period | 100.0 ns |
| Amplitude | 3.3307 Vpp |
| Top / Base | 3.1433 / 0.1038 V |
| Duty Cycle | 47.3% |
| Pos / Neg Width | 47.84 / 52.13 ns |
| Rise 10-90% | 29.007 ns |
| Fall 10-90% | 22.412 ns |
| Overshoot | 6.16% |
| Undershoot | 3.42% |
| Jitter (RMS) | 1863.4 ps |
| SNR (est.) | 21.8 dB |
| Sample Rate | 312.5 MS/s |
| Signal Levels | 4 levels detected |
Signal: 10.0032 MHz 3.33Vpp 3.3V CMOS D=47% →
10MHz FPGA ref / GPS disciplined
Jitter 1.9ns RMS — high jitter, check PLL/source
Slow edges (29.0ns = 29% of period) — check drive strength信号智能识别覆盖
类别 | 识别项 |
时钟 | 32.768kHz RTC、1/4/5/8/10/12/16/20/24/25/27/33/40/48/50/66/75/100/125/133/148/156/200 MHz |
协议 | UART (9600-3M baud)、SPI CLK、I2C (100k/400k/1M)、CAN (125k-1M)、RS-232 |
PWM | LED/电机/加热器 PWM、DC-DC 开关频率、VRM 控制器 |
质量 | 边沿时间 vs 周期比、抖动 RMS 分级 (优秀<10ps / 良好<100ps / 中等<500ps / 高) |
进程管理协议
每个通道读取流程:
1. _kill_stale_workers() — WMIC 扫描并查杀残留 _worker.py 进程
2. subprocess.Popen — 启动全新 worker 子进程
3. proc.communicate(12s) — 等待结果,10s 超时 → kill + skip + 原因
4. finally: proc.kill() — 无论成功失败,显式杀死 worker
5. _active_worker_pid = None — 释放单进程互斥锁
全通道读取完成后:
_cleanup_all() → 核验活跃 PID + 全量 WMIC 扫描,确保无残留故障排查
问题 | 解决 |
设备 FAULTY | PXI 机箱断电重启 |
超时 (>10s) | 检查触发源/电平;尝试 free-run |
波形平直 | 检查连接、增大 vertical_range |
niscope 包缺失 |
|
MCP 工具不可见 | 检查 mcp.json 注册、重启 AI 助手 |
项目结构
niscope-mcp/
├── niscope_mcp/
│ ├── __init__.py
│ ├── __main__.py # MCP Server + 进程管理 + 信号分析引擎
│ └── backends/
│ ├── __init__.py # 后端工厂 + 自安装
│ ├── base.py # 数据模型 + ScopeBackend 协议
│ ├── direct.py # NI-SCOPE 硬件后端 (niscope API)
│ └── _worker.py # 单通道子进程采集器 (自适应采样 + 高级测量)
├── pyproject.toml
└── README.md许可
MIT
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