Openems
БесплатноНе проверенEnables AI-assisted design of antennas and electromagnetic structures using openEMS FDTD simulation, with analytical dimension calculators and full-wave script
Описание
Enables AI-assisted design of antennas and electromagnetic structures using openEMS FDTD simulation, with analytical dimension calculators and full-wave script generation.
README
License Python 3.10+ MCP eng-mcp-suite
AI-assisted antenna and RF-structure design via openEMS FDTD, driven over MCP. Patch / dipole / monopole / horn / helix antennas, microstrip and coupled-line transmission lines, via transitions — geometry, analytical Z₀/εeff, and ready-to-run openEMS Python scripts.
An MCP server for designing antennas and electromagnetic structures using openEMS FDTD simulation. Provides analytical design calculators that work immediately, plus openEMS script generation for full-wave simulation.
Part of the engineering toolkit
This repo is part of eng-mcp-suite — an MCP-driven engineering toolkit for RF / EMC / PCB / signal-integrity / lab-test workflows.
Related tools in the toolkit:
| Tool | When to reach for it |
|---|---|
| lineforge | 2D quasi-TEM closed-form for transmission lines (microstrip, stripline, CPWG, differential, three-conductor). Use this when you need impedance fast and the geometry is 2D. |
| mcp-nec2-antenna | Wire-antenna method-of-moments (dipole / Yagi / vertical / loop / inverted-V). Use this when you have a wire-antenna geometry and don't need the 3D-field detail of FDTD. |
| mcp-pcb-emcopilot | PCB layout review (decoupling, return paths, plane resonances, DDR/PCIe/USB SI). Often pairs with mcp-openems for full-wave validation of a flagged region. |
When to use mcp-openems specifically: full-wave 3D FDTD validation, broadband S-parameters, near/far-field characterization, antenna geometries with 3D features (horns, helices), or when closed-form is running out of accuracy.
Features
Antenna Design Tools
- openems_create_patch - Microstrip patch antenna (WiFi, GPS, satellite)
- openems_create_dipole - Half-wave dipole antenna
- openems_create_monopole - Quarter-wave monopole over ground plane
- openems_create_horn - Pyramidal horn antenna for specified gain
- openems_create_helix - Axial-mode helix for circular polarization
Simulation & Export
- openems_generate_script - Generate complete OpenEMS Python simulation script
- openems_check_installation - Check if OpenEMS is available
Design Management
- openems_list_designs - List all designs in session
- openems_get_design - Get full design details with geometry
- openems_list_antenna_types - Reference for antenna types and applications
Installation
1. Clone and install
git clone https://github.com/RFingAdam/mcp-openems.git
cd mcp-openems
uv pip install -e .
2. (Optional) Install OpenEMS for simulation
# The MCP works without OpenEMS - design tools calculate dimensions analytically
# For full FDTD simulation, install OpenEMS:
pip install CSXCAD openEMS
3. Add to your MCP client
Claude Code:
claude mcp add openems -- uv run --directory /path/to/mcp-openems mcp-openems
Config file format:
{
"command": "uv",
"args": ["run", "--directory", "/path/to/mcp-openems", "mcp-openems"]
}
Usage Examples
Design a WiFi patch antenna
Design a 2.4 GHz patch antenna on FR-4 substrate (er=4.4, 1.6mm thick)
The AI will:
- Use
openems_create_patchto calculate dimensions - Return patch length, width, feed position
- Provide estimated directivity and impedance
Design a satellite uplink antenna
I need a circularly polarized antenna for 5.8 GHz with about 12 dBi gain
The AI will use openems_create_helix for CP requirements.
Generate simulation script
Generate an OpenEMS script for this antenna so I can run a full simulation
The AI will use openems_generate_script to create a complete Python script.
Compare antenna types
What antenna types are available? I need something for a handheld radio at 440 MHz
The AI will use openems_list_antenna_types and recommend appropriate options.
Tool Reference
Design Output Format
Each design tool returns:
- design_id: UUID for referencing the design
- dimensions: Calculated physical dimensions in mm
- calculated: Derived parameters (impedance, gain estimates)
- geometry: OpenEMS-compatible geometry specification
Example Output
{
"success": true,
"design_id": "550e8400-e29b-41d4-a716-446655440000",
"design": {
"name": "2.4 GHz Patch",
"type": "patch",
"frequency_ghz": 2.4,
"dimensions": {
"patch_length_mm": 28.85,
"patch_width_mm": 37.24,
"feed_inset_mm": 8.92,
"ground_plane_mm": 94.48
},
"calculated": {
"effective_er": 3.33,
"estimated_directivity_dbi": 7.2
}
}
}
Generated Script
The openems_generate_script tool creates a complete Python script that:
- Sets up the FDTD simulation
- Creates geometry from the design
- Adds mesh with appropriate resolution
- Runs the simulation
- Extracts S-parameters and plots results
Antenna Design Formulas
| Antenna | Method | Key Formula |
|---|---|---|
| Patch | Transmission Line Model | L = c/(2f√εeff) - 2ΔL |
| Dipole | Classical | L = 0.95 × λ/2 |
| Monopole | Image Theory | H = 0.95 × λ/4 |
| Horn | Aperture Theory | G = 4πAe/λ² |
| Helix | Kraus Model | C ≈ λ, S = C tan(α) |
Without OpenEMS
Even without OpenEMS installed, this MCP provides:
- Analytical dimension calculations
- Geometry specifications for manual modeling
- Reference impedance and gain estimates
- OpenEMS script generation for later use
With OpenEMS
With OpenEMS installed, you can run the generated scripts to:
- Perform full-wave FDTD simulation
- Get accurate S-parameters and input impedance
- Calculate radiation patterns and gain
- Visualize fields in ParaView
Supported Frequencies
The design tools work across the RF spectrum:
- HF (3-30 MHz): Dipole, monopole
- VHF (30-300 MHz): All types
- UHF (300 MHz-3 GHz): All types
- Microwave (3-30 GHz): Patch, horn, helix
- mmWave (30-300 GHz): Patch, horn (with appropriate substrate)
License
AGPL-3.0-or-later. Relicensed from Apache-2.0 in v0.2.0 to align with the eng-mcp-suite toolkit-wide AGPL move. The underlying openEMS engine remains GPL-3.0; this wrapper is AGPL-3.0-or-later and invokes the engine at runtime without redistribution.
Author
Adam Engelbrecht - @RFingAdam
Установить Openems в Claude Desktop, Claude Code, Cursor
unyly install mcp-openemsСтавит в Claude Desktop, Claude Code, Cursor и VS Code — сам разбирается с npx, uvx и сборкой из исходников.
Впервые? Поставь CLI: curl -fsSL https://unyly.org/install | sh
Или настроить вручную
Выполни в терминале:
claude mcp add mcp-openems -- uvx --from git+https://github.com/RFingAdam/mcp-openems mcp-openemsFAQ
Openems MCP бесплатный?
Да, Openems MCP бесплатный — установка в пару кликов через Unyly без оплаты.
Нужен ли API-ключ для Openems?
Нет, Openems работает без API-ключей и переменных окружения.
Openems — hosted или self-hosted?
Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.
Как установить Openems в Claude Desktop, Claude Code или Cursor?
Открой Openems на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.
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