wiring-diagram-mcp
Generate wiring diagrams and electrical calculators for campers, boats, and off-grid setups.
Wiring Diagram MCP
An MCP (Model Context Protocol) server for designing complete electrical systems for campers, boats, and off-grid setups. Generates wiring diagrams and provides a full suite of electrical calculators.
Powered by VoltPlan.
Features
- Wiring diagrams — generate complete schematics as SVG or PNG
- Power budget — calculate daily energy consumption from a list of loads
- Battery bank sizing — determine capacity, number of batteries, and configuration
- Solar panel sizing — find the right solar wattage for your consumption and location
- Charging time — estimate charge duration from solar, shore, or alternator
- Inverter sizing — size an inverter for your AC loads with surge handling
- Battery configuration — series/parallel arrangement with wiring instructions
- Cable cross-section & resistance — find the right wire gauge with fuse recommendation
- Auto-generated protection components (shunt, main switch, low-voltage cutoff)
- Support for solar, shore power, wind, generator, and alternator charging systems
- Available as hosted remote MCP, local stdio, or self-hosted HTTP server
Quick Start — Claude Desktop
If you just want to use this with Claude Desktop, follow these steps:
- Open Claude Desktop
- Go to Settings (click your name in the bottom-left corner)
- Click Developer, then Edit Config
- This opens a file called
claude_desktop_config.json. Paste the following into it:
{
"mcpServers": {
"wiring-diagram": {
"url": "https://mcp.voltplan.app/mcp"
}
}
}
- Save the file and restart Claude Desktop
- You should now see a hammer icon in the chat input area — that means the tools are available
That's it! You can now ask Claude things like:
- "Draw me a wiring diagram for a camper van with a 100Ah LiFePO4 battery, LED lights, a fridge, and a solar charger."
- "I have LED lights (20W, 5h/day), a fridge (60W, 24/7), and two USB chargers (10W, 3h/day). What's my daily power consumption at 12V?"
- "Size a battery bank for 1600 Wh/day with 2 days of autonomy using 100Ah LiFePO4 batteries."
- "How many watts of solar panels do I need for 1600 Wh/day in Northern Europe?"
- "How long will it take to charge my 200Ah battery from 20% to full with a 600W solar setup?"
- "What cable size do I need for a 12V fridge that draws 5 amps, with 3 meters of cable?"
- "I want to run a microwave (800W) and a coffee machine (1000W) — what inverter do I need?"
Other Setup Options
Claude Code
claude mcp add wiring-diagram --transport http https://mcp.voltplan.app/mcp
Local via npx
Run locally without installation:
Claude Code:
claude mcp add wiring-diagram -- npx wiring-diagram-mcp
Claude Desktop (claude_desktop_config.json):
{
"mcpServers": {
"wiring-diagram": {
"command": "npx",
"args": ["wiring-diagram-mcp"]
}
}
}
Self-hosted HTTP server
npm install
npm run build
npm run start:http
The MCP server starts on http://localhost:3001/mcp.
Configuration
| Environment Variable | Default | Description |
|---|---|---|
VOLTPLAN_API_URL | https://voltplan.app | URL of the VoltPlan instance |
PORT | 3001 | Port for the HTTP server |
MCP Tools
generate_wiring_diagram
Generate a complete electrical wiring diagram.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
systemName | string | yes | Name of the electrical system |
batteries | array | no | Battery specifications |
loads | array | no | Electrical loads / consumers |
chargers | array | no | Chargers with power source types |
format | "svg" or "png" | no | Output format (default: "svg") |
Example:
{
"systemName": "Camper Van",
"batteries": [
{ "name": "LiFePO4", "voltage": 12, "capacityAh": 100, "energyWh": 1280 }
],
"loads": [
{ "name": "LED Lights", "power": 20, "voltage": 12, "current": 1.7 },
{ "name": "Fridge", "power": 60, "voltage": 12, "current": 5 }
],
"chargers": [
{ "name": "Solar Charger", "inputVoltage": 48, "outputVoltage": 12, "power": 200, "sourceType": "solar" }
]
}
calculate_wire_gauge
Calculate the recommended cable cross-section for a DC circuit. Considers both ampacity (current carrying capacity) and voltage drop to find the optimal wire size. Also provides total resistance, power loss, and a fuse recommendation.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
voltage | number | yes | System voltage in volts (e.g. 12, 24, 48) |
current | number | no | Load current in amps (provide current or power) |
power | number | no | Load power in watts (provide current or power) |
cableLengthM | number | yes | One-way cable length in meters |
maxVoltageDropPercent | number | no | Max acceptable voltage drop in % (default: 3) |
temperatureCelsius | number | no | Ambient temperature in °C (default: 20) |
isRoundTrip | boolean | no | Account for both conductors (default: true) |
Example:
{
"voltage": 12,
"current": 10,
"cableLengthM": 5,
"maxVoltageDropPercent": 3
}
calculate_power_budget
Calculate total daily energy consumption from a list of loads. This is typically the first step in designing an off-grid system.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
systemVoltage | number | yes | System voltage (e.g. 12, 24, 48) |
loads | array | yes | List of loads, each with name, powerWatts, hoursPerDay, quantity |
Example:
{
"systemVoltage": 12,
"loads": [
{ "name": "LED Lights", "powerWatts": 20, "hoursPerDay": 5, "quantity": 1 },
{ "name": "Fridge", "powerWatts": 60, "hoursPerDay": 24, "quantity": 1 }
]
}
calculate_battery_bank
Size a battery bank based on daily consumption, autonomy days, and depth of discharge.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
dailyConsumptionWh | number | yes | Daily energy use in Wh |
daysOfAutonomy | number | no | Days without charging (default: 2) |
depthOfDischargePercent | number | no | Usable %. LiFePO4: 80, AGM: 50 (default: 80) |
systemVoltage | number | yes | Target system voltage |
singleBatteryAh | number | yes | Capacity of one battery |
singleBatteryVoltage | number | yes | Voltage of one battery |
calculate_solar_size
Calculate required solar panel wattage to cover daily consumption.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
dailyConsumptionWh | number | yes | Daily energy use in Wh |
peakSunHours | number | yes | Average daily peak sun hours for the location |
systemEfficiency | number | no | Efficiency factor (default: 0.85) |
calculate_charging_time
Estimate charging duration from any source, accounting for bulk and absorption phases.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
batteryCapacityAh | number | yes | Total bank capacity in Ah |
batteryVoltage | number | yes | Battery voltage |
currentStateOfChargePercent | number | yes | Current SoC (e.g. 20) |
targetStateOfChargePercent | number | no | Target SoC (default: 100) |
chargePowerWatts | number | yes | Charger output power in watts |
chargeCurrentAmps | number | no | Max charge current if limited by BMS |
calculate_inverter_size
Size an inverter for AC loads with surge handling and 25% headroom.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
systemVoltage | number | yes | DC system voltage |
loads | array | yes | AC loads, each with name, continuousWatts, optional surgeWatts, quantity |
calculate_battery_config
Determine series/parallel battery arrangement with step-by-step wiring instructions.
Parameters:
| Parameter | Type | Required | Description |
|---|---|---|---|
targetVoltage | number | yes | Desired system voltage |
targetCapacityAh | number | yes | Desired total capacity in Ah |
singleBatteryVoltage | number | yes | Voltage of one battery |
singleBatteryAh | number | yes | Capacity of one battery in Ah |
list_component_types
Returns all available component types with example configurations. Useful for understanding valid parameters before generating a diagram.
Docker
docker build -t wiring-diagram-mcp .
docker run -p 3001:3001 wiring-diagram-mcp
License
MIT
संबंधित सर्वर
Fortinet MCP Server
A complete Model Context Protocol (MCP) server for Fortinet FortiOS 7.6.6
Solana MCP Server
MCP server giving AI agents access to Solana blockchain data — wallet balances, token prices, DeFi yields, and token safety checks.
VOLO MCP Server
Private aviation MCP server — search flights, get quotes, browse 200+ aircraft, check empty legs, weather, and flight tracking
OpenEnded Philosophy MCP Server with NARS Integration
A philosophical reasoning system combining OpenEnded Philosophy with the Non-Axiomatic Reasoning System (NARS) for advanced analysis and synthesis.
Time MCP Server
Provides current time and timezone conversion capabilities using IANA timezone names, with automatic system timezone detection.
CryptoAPIs MCP Signer
MCP server for local transaction signing across EVM, UTXO, Tron, and XRP blockchains — no API calls required
Uniswap MCP Server
MCP server for Uniswap — swap routing, pool data, and liquidity queries across all supported chains.
RomM MCP
MCP Server for your RomM platform
Hidden Empire
Play a legendary text adventure by talking to your AI — no commands to memorize. The Hidden Empire puts a full underground world of puzzles, treasures, and trolls inside your conversation. Speak naturally: say 'head north,' 'grab the lantern,' or 'what am I carrying?' and your AI handles the rest. Execute multi-move plans in one shot, undo mistakes instantly, and save up to 20 named playthroughs you can resume from any session. Based on the MIT-licensed Zork I source, rebuilt from the ground up for AI-native play.
NWO Robotics
Control real robots and IoT devices through AI agents. Self-register with wallet authentication, pay with ETH for tier upgrades, and execute Vision-Language-Action commands. Features robot control, sensor monitoring, multi-agent coordination, and autonomous payments.