Corrently Energy MCP for AI. Schedule your power usage around cost and clean energy peaks.
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Corrently Energy connects your AI client directly to real-time German energy market data. It lets you forecast green power availability, predict solar generation, and schedule high-power activities for maximum cost savings or minimum CO₂ emissions.
What your AI can do
Get best hour
Identifies the optimal time windows for using high-power appliances by assessing renewable availability and CO₂ levels.
Calculate co2 offset
Calculates the compensation needed to neutralize a specified amount of CO₂ emissions for various activities.
Get co2 meter
Displays the current, real-time carbon intensity of the local electricity grid in grams of CO₂ per kilowatt-hour.
You can define an automated schedule for devices based on whether you prioritize the lowest cost, maximum solar input, or minimum CO₂ output.
The MCP instantly provides the current carbon intensity of electricity at any German location (g CO₂/kWh).
You get a Green Power Index (GSI) prediction, showing exactly when wind and solar sources are most abundant in your area.
The tool predicts how much energy a specific size of PV system will generate at your location over time.
For plug-in hybrid drivers, the MCP advises whether it makes more sense to charge electrically or use gasoline based on current market factors.
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Corrently Energy: 12 Tools
These tools let your agent access specific functions across the German energy grid, from calculating carbon offsets to predicting solar output.
Make your AI actually useful.
Add this MCP to Claude, Cursor, or Windsurf and your AI stops guessing. It gets real tools to look things up, take action, and handle the stuff you keep doing by hand.
Start using Corrently Energy on VinkiusGet Best Hour
Identifies the optimal time windows for using high-power appliances by assessing renewable availability and CO₂ levels.
Calculate Co2 Offset
Calculates the compensation needed to neutralize a specified amount of CO₂ emissions...
Get Co2 Meter
Displays the current, real-time carbon intensity of the local electricity grid in...
Get Co2 Prediction
Forecasts how high or low the carbon emissions will be for electricity consumption...
Create Energy Schedule
Generates an optimized running schedule for energy devices based on your chosen...
Get Dispatch
Reports on the current mix of renewable energy being fed into the grid, including contributions from wind and solar sources.
Get Gsi Prediction
Predicts the Green Power Index (GSI), indicating when clean, renewable electricity is expected to be most abundant.
Get Market Data
Retrieves current wholesale and regional market prices for electricity in a specific...
Get Merit Order List
Shows the current energy generation mix, detailing which power plants are running...
Get Phev Charge Or Fuel
Provides decision support for plug-in hybrid owners on whether they should charge...
Get Solar Prediction
Forecasts the expected energy production output (kWh) from a specific size of solar...
Get Stromkonto Balance
Checks the status and balance of an electricity account, including green energy certificates.
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Claude AI
Open Claude Settings
Go to claude.ai, click your profile icon, then navigate to Customize → Connectors.
Add Custom Connector
Click the "+" button and select Add custom connector. Paste your Vinkius endpoint URL:
https://edge.vinkius.com/[YOUR_TOKEN_HERE]/mcp
Replace [YOUR_TOKEN_HERE] with your token
from cloud.vinkius.com. For OAuth-protected servers, expand
Advanced settings to add credentials.
Start a conversation
Open a new chat. The Corrently Energy integration is available immediately — no restart needed.
Choose How to Get Started
Build a custom MCP for your own tools, or connect a ready-made integration from our catalog.
Build Your Own
Turn any API into an MCP. Import a spec, define Agent Skills, or deploy with MCPFusion.
- Import from OpenAPI, Swagger, or YAML specs
- Create Agent Skills with progressive disclosure
- Deploy to edge with MCPFusion framework
- Built in DLP, auth, and compliance on every call
- Real time usage dashboard and cost metering
- Publish to catalog or keep private
Make Your AI Do More
Start with Corrently Energy, then connect any of our 5,100+ other servers whenever your AI needs more. One click, no limits.
- Use this MCP plus 5,100+ others, all in one place
- Add new capabilities to your AI anytime you want
- Every connection is secured and compliant automatically
- Track usage and costs across all your servers
- Works with Claude, ChatGPT, Cursor, and more
- New servers added to the catalog every week
Independent Platform Disclaimer: Vinkius is an independent platform and is not affiliated with, endorsed by, sponsored by, verified by, or otherwise authorized by Corrently Energy. All third-party trademarks, logos, and brand names are the property of their respective owners. Their use on this website is strictly for informational purposes to identify service compatibility and interoperability.
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Works with Claude, ChatGPT, Cursor, and more
The Model Context Protocol standardizes how applications expose capabilities to LLMs. Instead of operating in isolation, your AI gains direct access to external platforms, live data, and real-world actions through secure, standardized connections.
This connection provides 12 powerful capabilities that interface natively with Claude, ChatGPT, Cursor, and other compatible AI platforms. No middleware. No custom integration required.
Tracking energy usage used to be a mess of tabs and guesswork.
Before this MCP, figuring out the best time to run something like your dishwasher meant opening utility websites, checking price charts, and cross-referencing them with solar forecasts. You'd spend minutes copying data into spreadsheets just to guess if you were paying peak rates or using enough green power.
Now, ask your agent what the optimal time is. The system instantly combines multiple datasets—current prices, predicted clean energy flow, and CO₂ intensity—and gives you one clear answer: 'Run it between 10 AM and 2 PM.' You get actionable timing advice immediately.
Get precise scheduling answers with `create_energy_schedule`.
Instead of manually adjusting a device schedule every time the grid conditions change, you simply tell your agent what needs to run and which mode to prioritize—be it cost or low emissions. The MCP handles all the complex calculations involving `get_solar_prediction` and `get_market_data` in the background.
The result is a guaranteed, optimized plan that minimizes both money spent and carbon emitted. You're not guessing anymore; you're operating on live market intelligence.
What your AI can actually do with this
This MCP brings deep, live intelligence about the German energy grid straight into your workflow. Instead of checking multiple websites to see if charging your EV is cheap, clean, or both, you ask your agent one question. You can check current carbon intensity at any zip code using real-time readings and forecasts for emissions over time.
The system also helps you create intelligent operating schedules—for heat pumps, industrial machines, or EVs—by balancing cost against solar peaks or low CO₂ days. Because this capability is built into the Vinkius catalog, you get immediate access to a full range of German energy market insights without needing specialized developer skills.
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Here's how it actually works
The bottom line is you get actionable insights into when and how to use power based on live grid conditions, without having to manually consult multiple utility dashboards.
Subscribe to this MCP in Vinkius.
(Optional) Enter your Corrently API token for higher rate limits, though many data endpoints work without credentials.
Ask your AI client a question—like 'What's the best time to run my washer?'—and it queries the German energy market data.
Who is this actually for?
Facility managers and solar homeowners who are tired of guessing the best time to run high-draw appliances. It's for anyone whose bottom line or carbon report depends on knowing local energy market nuances.
Uses get_solar_prediction to know how much power their panels will generate and then uses create_energy_schedule to run the washing machine only when self-generated clean energy is available.
Retrieves data using get_co2_prediction and calculates required offsets using calculate_co2_offset for client environmental reports.
Uses get_best_hour to schedule charging sessions across multiple vehicles, ensuring they charge when the electricity is both cheapest and has high renewable input.
What Changes When You Connect
Avoid paying high prices. By checking get_market_data, you know exactly when wholesale electricity costs dip, letting you schedule heavy loads for the cheapest hours.
Reduce your carbon footprint without effort. Use get_co2_prediction to see which days and times are cleanest, helping you align appliance use with low-emission periods.
Maximize self-generated power. Running a schedule using create_energy_schedule ensures appliances run when the solar forecast from get_solar_prediction is at its peak.
Improve EV charging strategy. The MCP advises via get_best_hour, telling you precisely when to charge your vehicle for maximum green energy benefit or minimum cost.
Understand grid stability. You can check get_dispatch and the get_merit_order_list to see exactly which sources (wind, gas, etc.) are currently powering the region.
See it in action
The Weekend Washing Machine Problem
A homeowner needs to run a large load of laundry but doesn't know when is best. They ask their agent: 'When should I run my washer in Munich?' The MCP uses get_best_hour and compares the results against get_solar_prediction, advising them that 10 AM for three hours maximizes clean energy use.
The Corporate Emissions Report
A sustainability manager needs to prove carbon reduction. They ask the MCP to calculate the required compensation using calculate_co2_offset based on travel data, providing immediate numbers for their quarterly report.
Optimizing Industrial Load Balancing
An industrial facility manager needs to set an operating schedule for heat pumps and machinery. They use create_energy_schedule, setting the mode to 'emission' to ensure operations occur during periods of lowest grid CO₂.
Hybrid Car Dilemma
A user asks if they should charge their plug-in hybrid car now. The MCP uses get_phev_charge_or_fuel and determines that, given current market prices and high solar input, charging is the superior choice.
The honest tradeoffs
Checking only today's price.
Relying solely on get_market_data for a single day might lead to suboptimal scheduling if it doesn't consider the overall week's solar generation curve.
For long-term planning, combine get_market_data with get_solar_prediction and use create_energy_schedule. This lets you build an entire optimal schedule based on both cost and predicted energy supply.
Assuming 'green' means cheap.
A user might run a simple query expecting the lowest price to equal the cleanest power, which is often false due to market volatility.
Always check get_co2_prediction alongside get_market_data. This gives you the full picture: cost per MWh versus emissions intensity.
Ignoring account status.
Planning a major energy purchase without knowing available credits or certificates, leading to unexpected out-of-pocket expenses.
Always check your current balance using get_stromkonto_balance first. This confirms if you have green energy certificates that can offset costs.
When It Fits, When It Doesn't
Use this MCP when your decision hinges on the interplay between time, cost, and carbon emissions in the German power grid. If your goal is simply to check a single current price point or track general historical data, get_market_data works fine. However, if you need to make an operational decision—like scheduling an EV charge or running industrial equipment—you must use predictive tools like get_best_hour and combine the output with create_energy_schedule. Don't try to calculate offsets manually; let calculate_co2_offset handle that for you. If your problem is purely about understanding how power gets generated right now, then just using get_dispatch will suffice.
Questions you might have
Do I need an API token to use the Corrently Energy MCP server? +
No! Most Corrently API endpoints work without authentication. An optional token is only needed if you want higher rate limits for heavy usage. Simply subscribe to the server and start querying energy data immediately.
What German zip codes are supported for energy forecasts? +
All German Postleitzahl (PLZ) 5-digit zip codes are supported — from 01067 (Dresden) to 80331 (Munich). Simply provide any valid German zip code and the API will return localized energy forecasts for that region's grid area.
Can I use this MCP server to optimize when I charge my electric vehicle? +
Absolutely! Use the get_best_hour tool to find optimal charging windows based on renewable energy availability or lowest CO₂ emissions. Then use create_energy_schedule to generate a full optimized charging plan. You can also use get_phev_charge_or_fuel if you drive a plug-in hybrid and need advice on whether to charge electrically or use fuel.
How accurate are the solar generation predictions for my photovoltaic system? +
The get_solar_prediction tool provides forecasts based on weather models and your system's kWp capacity. Accuracy depends on location, panel orientation, and weather conditions. It's best used for relative comparisons (e.g., "Will tomorrow be sunnier than today?") rather than absolute precision. For typical home systems (5-10 kWp), day-ahead forecasts are generally within 15-25% of actual generation.
When should I use `get_co2_meter` versus `get_co2_prediction`? +
Use get_co2_meter for real-time carbon readings, giving you instant data on grid cleanliness right now. If you want to understand how emissions are expected to change over several hours, use get_co2_prediction.
How does `create_energy_schedule` decide between 'price' and 'emission' modes? +
The mode defines the optimization priority. Setting it to 'price' targets the lowest cost electricity, while setting it to 'emission' ensures your schedule uses power with the fewest associated carbon emissions.
What does `get_merit_order_list` tell me about the energy grid? +
This function shows you a real-time breakdown of which power plants are active and how they rank in terms of cost efficiency. It gives a clear view of the entire current energy generation mix.
What specific details can I get using `get_stromkonto_balance`? +
This tool checks your electricity account status, providing more than just cash balances. You'll see information on any accumulated green energy certificates or credits you own.
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