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Power-Pico/README_EN.md

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<p align="right">
<a href="./README.md">中文</a> | <b>English</b>
</p>
<div align="center">
<h1 align="center">Power-Pico</h1>
<p align="center">A Product-Grade Portable USB Ammeter and Low-Power Measurement Analyzer</p>
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<img src="https://img.shields.io/badge/Version-1.0.5-blue">
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<img src="https://img.shields.io/badge/License-Apache2.0-green">
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<img src="https://img.shields.io/badge/MCU-STM32F411-lightblue">
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<img src="https://img.shields.io/badge/UI-LVGL_v9.2-red">
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<img src="https://img.shields.io/badge/OS-FreeRTOS-green">
<br>
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<img src="https://img.shields.io/github/stars/No-Chicken/Power-Pico.svg">
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</div>
---
## 📖 Project Introduction
**Power-Pico** is more than just a USB ammeter. It is a **high-precision, low-power analysis tool** designed specifically for embedded developers. To overcome the physical limitations of traditional ammeters in the μA-level measurement, Power-Pico adopts an innovative **multi-range auto-switching sampling** design, achieving full-range coverage from $1\mu A$ to $5A$.
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<p align="center">
<img border="1px" width="75%" src="./images/main2316.png">
</p>
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<p align="center">
<a href="https://space.bilibili.com/34154740">my bilibili</a> |
<a href="">demo video </a> |
<a href="https://oshwhub.com/no_chicken/powerpico">hardware open source</a>
</p>
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### ✨ Core Features
- **μA-Level High Precision**: Utilizes the INA190 zero-drift amplifier with three-resistor segmented sampling.
- **Protocol Trigger**: Supports PD2.0 PPS protocol triggering, with up to 20V/5A output.
- **High-Performance UI**: Based on STM32F411 + LVGL v8.3, providing a smooth real-time waveform display.
- **Cross-Platform PC Client**: Comes with the Power-Pico Client developed with PySide6, supporting data export and real-time power analysis.
- **3D Printed Enclosure**: Provides a complete design for a 3D printed enclosure and acrylic panel.
---
## 🛠️ Hardware Parameter Analysis
| Module | Model | Advantage |
| :--- | :--- | :--- |
| **MCU** | STM32F411CEU6 | 100MHz high frequency, supports DSP instructions to accelerate waveform processing |
| **Current Sensing** | INA190 | 0.5nA input bias current, the core guarantee for μA-level measurement |
| **ADC** | 12-bit (STM32 Internal) | Achieves high-speed stable sampling above 10kHz with DMA |
| **Screen** | 1.54" TFT (ST7789) | 240x240 resolution, high-contrast display |
---
## 🚀 Quick Replication
### 1. Hardware
Solder the hardware yourself, or purchase a pre-soldered and assembled kit from Taobao.
LCSC Open Source Hub page: https://oshwhub.com/no_chicken/powerpico
### 2. Firmware Compilation and Flashing
The project is developed based on Keil MDK:
1. Clone the repository: `git clone https://github.com/kingham/Power-Pico.git`
2. Flash the BootLoader via the SWD port.
3. Compile PowerPico yourself. The generated `.bin` file can then be flashed using the PowerPico Client.
### 3. Assembly
The physical assembly is shown in the figure below:
The exploded 3D view is as follows:
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<p align="center">
<img width="45%" src="./images/boom.png">
&nbsp;
<img width="45%" src="./images/boom.gif">
</p>
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### 4. Running the PC Client
Install and use the PowerPico Client. Currently, it only supports Windows.
## 🛠️ User Guide
1. Hardware Operation
The button operations and various interface displays of Power-Pico are shown below. The top button is the **Page Switch/Boot** button. Press and hold the top button before powering on to enter Boot mode for a forced firmware upgrade.
The Power-Pico hardware currently supports 2 languages: **Simplified Chinese/English**.
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<p align="center">
<img width="45%" src="./images/key_func.png">
&nbsp;
<img width="45%" src="./images/startup_page.png">
</p>
<p align="center">
<img width="45%" src="./images/main_page.png">
&nbsp;
<img width="45%" src="./images/set_page.png">
</p>
<p align="center">
<img width="45%" src="./images/pps_page1.png">
&nbsp;
<img width="45%" src="./images/pps_page2.png">
</p>
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2. Client Operation
The PowerPico Client for PC can be used for waveform viewing, recording, exporting, and upgrading the firmware of the hardware. The client currently supports 4 languages: **Simplified Chinese/Traditional Chinese/English/Japanese**.
For detailed instructions on using the PowerPico Client, please refer to: [Client Operation Manual](https://no-chicken.com/content/Power-Pico/UserManual/client_operation.html)
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<p align="center">
<img width="45%" src="./images/wave_client1.png">
&nbsp;
<img width="45%" src="./images/firmware_client.png">
</p>
<p align="center">
<img width="45%" src="./images/wave_client2.png">
&nbsp;
<img width="45%" src="./images/set_client.png">
</p>
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## 📂 Project Structure
```text
Power-Pico/
├── Firmware/ # Firmware, including BootLoader.hex and App.bin
├── Hardware/ # Schematics
├── 3D models/ # STL files for 3D printing the enclosure
└── Software/ # MDK software project for PowerPico, including BootLoader and App
```
## 💻 Code Framework
Similar to previous projects, it uses a BootLoader + App structure for easy USB upgrades. The program partitioning is shown below.
<ul>
<li>The initial 48kB area of sectors 0, 1, and 2 is the BootLoader area.</li>
<li>The 16kB area of the 3rd sector is the upgrade information area, used for verifying the integrity of the App on startup. For specific verification details, see the BootLoader code.</li>
<li>The area starting from the 4th sector at 0x08010000 is the App area (A/B partitioning is not used due to insufficient on-chip Flash).</li>
</ul>
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<p align="center">
<img width="75%" src="./images/flash.png">
</p>
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High-speed data transmission is performed via USB. The data packet structure is shown below. Each packet contains 100 data sets, totaling 711 bytes including the header.
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<p align="center">
<img width="75%" src="./images/protocol.png">
</p>
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📖 References
<ul>
<li style="margin-bottom:8px"><a href="https://github.com/ryan-ma/PD_Micro">[1] PD_Micro - USB-C PD3.0 PPS on ATMega32U4 Arduino board</a></li>
<li style="margin-bottom:8px"><a href="https://wiki.luatos.com/iotpower/cc/index.html">[2] IoT Power-CC 3D printed shell structure</a></li>
<li style="margin-bottom:8px"><a href="https://doc.qt.io/qtforpython-6/PySide6/QtWidgets/index.html">[3] PySide6 user manual</a></li>
<li style="margin-bottom:8px"><a href="https://qfluentwidgets.com/zh/pages/about">[4] QFluentWidgets - Make QT Great Again</a></li>
<li style="margin-bottom:8px"><a href="https://pyqtgraph.readthedocs.io/en/latest/getting_started/index.html">[5] PyQtGraph user manual</a></li>
<li style="margin-bottom:8px"><a href="https://www.st.com/en/development-tools/stsw-stm32102.html">[6] STM32 USB vitual serial port driver demo</a></li>
<li style="margin-bottom:8px"><a href="https://github.com/lvgl/lvgl">[7] LVGL - Embedded graphics library </a></li>
</ul>
🤝 Contribute
Welcome to submit Issues or Pull Requests to add new features to the project or fix code bugs!!