Three-phase MID energy meter for active and reactive energy measurement with bi-directional metering for imported and exported energy, current (A), voltage (V), active power (kW), reactive power (kVAr), power factor (cos φ) and other electrical parameters. Direct connection up to 75 A 80A even 100A. The device also has an integrated communication module to the KNX bus. RS485 Communication is optional as well (the baud rates can reach 115200bps)
The meter has four S0 pulse outputs for the transmission of imported and exported active and reactive energy data, which can alternatively be used for load control functions or for threshold monitoring of a maximum value. The device enables two- or four-rate system management with switching of the active rate via a 230 Vac signal. Protection against manipulation is provided by sealable terminal covers. The device is designed for DIN rail mounting according to EN 60715 inside switchboards and control cabinets. it also meet with the mid standard of EN54070-1/3.
1.Introduction
Three-phase MID energy meter for active and reactive energy measurement with bi-directional metering for imported and exported energy, current (A), voltage (V), active power (kW), reactive power (kVAr), power factor (cos φ) and other electrical parameters. Direct connection up to 75 A 80A even 100A. The device also has an integrated communication module to the KNX bus. RS485 Communication is optional as well (the baud rates can reach 115200bps)
The meter has four S0 pulse outputs for the transmission of imported and exported active and reactive energy data, which can alternatively be used for load control functions or for threshold monitoring of a maximum value. The device enables two- or four-rate system management with switching of the active rate via a 230 Vac signal. Protection against manipulation is provided by sealable terminal covers. The device is designed for DIN rail mounting according to EN 60715 inside switchboards and control cabinets. it also meet with the mid standard of EN54070-1/3.
2. Features of our Bidirectional meter
The electricity meter has been approved by CE, MID (B+D)
Din Rail Mounted Direct connection
Real-time reading of electricity meter data through RS485 communication port optional
Bidirectional energy metering
Active/reactive energy and forward and reverse measurement
Various Measurement mode
Accuracy class: B (1%)
Current: from 30A to Max 100A
Display mode: LCD
Frequency range: 50 Hz
LED: 1 flasher/button
Model: Efuturo electric meter for DIN Guide, Mid Tarato, 3 phases, 11 or 22 kW
Power supply: 3 x 230 V / 400 V
Environmental class: mechanic: M1, electromagnetic: E1
3. Why choose this series?
3-Phase Measurement: Suitable for industrial and commercial applications with 3-phase power.
DIN Rail Mounting: Easy installation in electrical panels and distribution boards.
RS485 Communication: Enables remote monitoring and data acquisition, allowing integration with control systems.
100A Capacity: Handles significant power loads.
Accuracy: Provides accurate energy measurements for billing and monitoring purposes.
Data Logging: Some meters include internal data logging capabilities.
4. What are the applications of 3p RS485 Energy Meter
1. Industrial Automation and Monitoring:
Factory Automation: Monitoring energy consumption of machinery, production lines, and overall factory power usage.
Process Control: Measuring energy used in specific industrial processes to optimize efficiency.
Building Management Systems (BMS): Integrating with BMS to monitor and control energy usage in industrial buildings.
2. Commercial Buildings and Facilities:
Shopping Malls and Retail Spaces: Tracking energy consumption of individual tenants or departments for billing and energy management.
Office Buildings: Monitoring energy usage of lighting, HVAC systems, and other electrical equipment.
Data Centers: Measuring and controlling the power consumption of servers and cooling systems.
Hospitals and Healthcare Facilities: Ensuring accurate energy monitoring for critical equipment and overall facility management.
Hotels: Tracking energy usage for billing and optimizing energy efficiency.
3. Renewable Energy Systems:
Solar Power Systems: Measuring the energy output of solar panels and inverters.
Wind Power Systems: Monitoring the energy generated by wind turbines.
Energy Storage Systems: Tracking the charging and discharging of batteries in energy storage applications.
4. Electric Vehicle (EV) Charging Infrastructure:
EV Charging Stations: Measuring the energy consumed by EVs during charging, especially in commercial or public charging setups.
Fleet Charging Management: Tracking the energy usage of EV fleets for cost control and efficiency.
5. Smart Grid Applications:
Distributed Energy Resources (DER) Monitoring: Monitoring energy flow from various distributed generation sources.
Substation Monitoring: Measuring energy usage in substations for grid management.
Load Monitoring and Control: Implementing demand-side management strategies.
6. Residential Applications (Large Homes/Apartment Buildings):
Multi-family Housing: Monitoring energy usage for individual apartments or common areas.
Large Residential Homes: Managing overall energy consumption and potentially integrating with home automation systems.