Power & Energy Meter Solutions
An economical series of multi-functional single/three phase power meters with built-in communication Modbus RTU that measures most common electrical parameters. Available with LCD display or DIN Rail mount transducer (without display).
An economical series of multi-functional single/three phase power meters with built-in communication Modbus RTU that measures most common electrical parameters. Available with LCD display or DIN Rail mount transducer (without display).
Description
Specifications
Included
Family Comparison
Software
Accessories
Ask an Expert
Customer ReviewsThe Acuvim-CL multi-functional single/three phase power/energy meter may be used as a data gathering device for an intelligent power distribution system with all monitoring data being available via digital RS485 communication port running Modbus protocol. Available with LCD display or DIN Rail mount transducer (without display).
The Acuvim-CL multi-functional single/three phase power/energy meter may be used as a data gathering device for an intelligent power distribution system with all monitoring data being available via digital RS485 communication port running Modbus protocol. Available with LCD display or DIN Rail mount transducer (without display).
The Acuvim-CL multi-functional single/three phase power/energy meter may be used as a data gathering device for an intelligent power distribution system with all monitoring data being available via digital RS485 communication port running Modbus protocol. Available with LCD display or DIN Rail mount transducer (without display).
The Acuvim-CL multi-functional single/three phase power/energy meter may be used as a data gathering device for an intelligent power distribution system with all monitoring data being available via digital RS485 communication port running Modbus protocol. Available with LCD display or DIN Rail mount transducer (without display).
The Acuvim-CL uses industry standard Modbus RTU protocol.
The Acuvim-CL uses industry standard Modbus RTU protocol.
The Acuvim-CL uses industry standard Modbus RTU protocol.
The Acuvim-CL uses industry standard Modbus RTU protocol.
The Acuvim-L series are multifunction power meters manufactured by Accuenergy. It is the ideal choice for monitoring and controlling of power distribution system.
Acuvim-L may be used as a data gathering device for an intelligent Power Distribution System or a Plant Automation System. All monitoring data is available via digital RS485 communication port running Modbus® Protocol (excluding Acuvim AL and BL models).
The quality of the power system is important with increasing use of electronic loads such as computers, ballasts or variable frequency drives. With the Acuvim-L power analysis option, any phase current or voltage can be displayed and the harmonic content calculated. By knowing the harmonic distribution, action can be taken to prevent overheated transformers, motors, capacitors, neutral wires and nuisance breaker trips. Redistribution of the system loading can also be determined.
The Acuvim-L series are multifunction power meters manufactured by Accuenergy. It is the ideal choice for monitoring and controlling of power distribution system.
Acuvim-L may be used as a data gathering device for an intelligent Power Distribution System or a Plant Automation System. All monitoring data is available via digital RS485 communication port running Modbus® Protocol (excluding Acuvim AL and BL models).
The quality of the power system is important with increasing use of electronic loads such as computers, ballasts or variable frequency drives. With the Acuvim-L power analysis option, any phase current or voltage can be displayed and the harmonic content calculated. By knowing the harmonic distribution, action can be taken to prevent overheated transformers, motors, capacitors, neutral wires and nuisance breaker trips. Redistribution of the system loading can also be determined.
The Acuvim-L series are multifunction power meters manufactured by Accuenergy. It is the ideal choice for monitoring and controlling of power distribution system.
Acuvim-L may be used as a data gathering device for an intelligent Power Distribution System or a Plant Automation System. All monitoring data is available via digital RS485 communication port running Modbus® Protocol (excluding Acuvim AL and BL models).
The quality of the power system is important with increasing use of electronic loads such as computers, ballasts or variable frequency drives. With the Acuvim-L power analysis option, any phase current or voltage can be displayed and the harmonic content calculated. By knowing the harmonic distribution, action can be taken to prevent overheated transformers, motors, capacitors, neutral wires and nuisance breaker trips. Redistribution of the system loading can also be determined.
The Acuvim-L series are multifunction power meters manufactured by Accuenergy. It is the ideal choice for monitoring and controlling of power distribution system.
Acuvim-L may be used as a data gathering device for an intelligent Power Distribution System or a Plant Automation System. All monitoring data is available via digital RS485 communication port running Modbus® Protocol (excluding Acuvim AL and BL models).
The quality of the power system is important with increasing use of electronic loads such as computers, ballasts or variable frequency drives. With the Acuvim-L power analysis option, any phase current or voltage can be displayed and the harmonic content calculated. By knowing the harmonic distribution, action can be taken to prevent overheated transformers, motors, capacitors, neutral wires and nuisance breaker trips. Redistribution of the system loading can also be determined.
Those looking for Time of Use (TOU) features should look at the Acuvim-EL instead.
Those looking for Time of Use (TOU) features should look at the Acuvim-EL instead.
Those looking for Time of Use (TOU) features should look at the Acuvim-EL instead.
Those looking for Time of Use (TOU) features should look at the Acuvim-EL instead.
Features
Metering
Metering
Metering
Metering
Monitoring
Monitoring
Monitoring
Monitoring
Alarms
Two (2) parameters may be set within a specified time interval. If indicated parameter is over or under its setting limit and persists over the specified time interval, the event will be recorded with time stamps and trigger the alarm DO output. The indicated parameter can be selected from any of the 35 parameters available.
Alarms
Two (2) parameters may be set within a specified time interval. If indicated parameter is over or under its setting limit and persists over the specified time interval, the event will be recorded with time stamps and trigger the alarm DO output. The indicated parameter can be selected from any of the 35 parameters available.
Alarms
Two (2) parameters may be set within a specified time interval. If indicated parameter is over or under its setting limit and persists over the specified time interval, the event will be recorded with time stamps and trigger the alarm DO output. The indicated parameter can be selected from any of the 35 parameters available.
Alarms
Two (2) parameters may be set within a specified time interval. If indicated parameter is over or under its setting limit and persists over the specified time interval, the event will be recorded with time stamps and trigger the alarm DO output. The indicated parameter can be selected from any of the 35 parameters available.
Communication
RS485, industry standard Modbus® RTU protocol; (Only on models CL/DL/EL/KL)
Option the second RS485, Modbus® RTU protocol; or PROFIBUS-DP/V0 (available for the DL/EL Models)
Protocol. (just for Acuvim-DL/EL)
Communication
RS485, industry standard Modbus® RTU protocol; (Only on models CL/DL/EL/KL)
Option the second RS485, Modbus® RTU protocol; or PROFIBUS-DP/V0 (available for the DL/EL Models)
Protocol. (just for Acuvim-DL/EL)
Communication
RS485, industry standard Modbus® RTU protocol; (Only on models CL/DL/EL/KL)
Option the second RS485, Modbus® RTU protocol; or PROFIBUS-DP/V0 (available for the DL/EL Models)
Protocol. (just for Acuvim-DL/EL)
Communication
RS485, industry standard Modbus® RTU protocol; (Only on models CL/DL/EL/KL)
Option the second RS485, Modbus® RTU protocol; or PROFIBUS-DP/V0 (available for the DL/EL Models)
Protocol. (just for Acuvim-DL/EL)
Display
Clear and large character LCD Screen display with white back light; Wide environmental temperature endurance.
Display
Clear and large character LCD Screen display with white back light; Wide environmental temperature endurance.
Display
Clear and large character LCD Screen display with white back light; Wide environmental temperature endurance.
Display
Clear and large character LCD Screen display with white back light; Wide environmental temperature endurance.
Acuview Software
Acuview Software
Acuview Software
Acuview Software
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
Acuview Software Features
Acuview Software Features
Acuview Software Features
Acuview Software Features
Applications
Mounting & Display Options
Mounting & Display Options
Mounting & Display Options
Mounting & Display Options
The Acuvim II Series is available in two mounting options:
The Acuvim II Series is available in two mounting options:
The Acuvim II Series is available in two mounting options:
The Acuvim II Series is available in two mounting options:
The standard model is ANSI C39.1 Standard Compliant with a small size 96x96 outline.
The DIN Rail compatible units are DIN 43700 Standard Compliant. The Acuvim L series also offers an optional Remote LCD display.
The standard model is ANSI C39.1 Standard Compliant with a small size 96x96 outline.
The DIN Rail compatible units are DIN 43700 Standard Compliant. The Acuvim L series also offers an optional Remote LCD display.
The standard model is ANSI C39.1 Standard Compliant with a small size 96x96 outline.
The DIN Rail compatible units are DIN 43700 Standard Compliant. The Acuvim L series also offers an optional Remote LCD display.
The standard model is ANSI C39.1 Standard Compliant with a small size 96x96 outline.
The DIN Rail compatible units are DIN 43700 Standard Compliant. The Acuvim L series also offers an optional Remote LCD display.
| Parameters | Acuvim-L Accuracy | |||
| Parameters | Acuvim-L Accuracy | Acuvim-EL/KL Accuracy | Resolution | Range |
| Parameters | Acuvim-L Accuracy | |||
| Parameters | Acuvim-L Accuracy | |||
| Parameters | Acuvim-L Accuracy | |||
| Voltage | 0.005 | |||
| Voltage | 0.5% | 0.5% | 0.1V | 20V~1000kV |
| Voltage | 0.005 | |||
| Voltage | 0.005 | |||
| Voltage | 0.005 | |||
| Current | 0.005 | |||
| Current | 0.5% | 0.5% | 0.001A | 0~50000A |
| Current | 0.005 | |||
| Current | 0.005 | |||
| Current | 0.005 | |||
| Current Demand | 0.005 | |||
| Current Demand | 0.5% | 0.5% | 0.001A | 0~50000A |
| Current Demand | 0.005 | |||
| Current Demand | 0.005 | |||
| Current Demand | 0.005 | |||
| Power | 0.01 | |||
| Power | 1.0% | 0.5% | 1W | -9999MW~9999MW |
| Power | 0.01 | |||
| Power | 0.01 | |||
| Power | 0.01 | |||
| Reactive Power | 0.02 | |||
| Reactive Power | 2.0% | 0.5% | 1var | -9999Mvar~9999Mvar |
| Reactive Power | 0.02 | |||
| Reactive Power | 0.02 | |||
| Reactive Power | 0.02 | |||
| Apparent Power | 0.01 | |||
| Apparent Power | 1.0% | 0.5% | 0.001V | 0~9999MVA |
| Apparent Power | 0.01 | |||
| Apparent Power | 0.01 | |||
| Apparent Power | 0.01 | |||
| Power Demand | 0.01 | |||
| Power Demand | 1.0% | 0.5% | 1W | -9999MW~9999MW |
| Power Demand | 0.01 | |||
| Power Demand | 0.01 | |||
| Power Demand | 0.01 | |||
| Reactive Power Demand | 0.02 | |||
| Reactive Power Demand | 2.0% | 0.5% | 1var | -9999Mvar~9999Mvar |
| Reactive Power Demand | 0.02 | |||
| Reactive Power Demand | 0.02 | |||
| Reactive Power Demand | 0.02 | |||
| Apparent Power Demand | 0.01 | |||
| Apparent Power Demand | 1.0% | 1VA | 1VA | 0~9999MVA |
| Apparent Power Demand | 0.01 | |||
| Apparent Power Demand | 0.01 | |||
| Apparent Power Demand | 0.01 | |||
| Power Factor | 0.01 | |||
| Power Factor | 1.0% | 0.5% | 0.001 | -1.0~1.0 |
| Power Factor | 0.01 | |||
| Power Factor | 0.01 | |||
| Power Factor | 0.01 | |||
| Frequency | 0.002 | |||
| Frequency | 0.2% | 0.2% | 0.01Hz | 45.00~65.00Hz |
| Frequency | 0.002 | |||
| Frequency | 0.002 | |||
| Frequency | 0.002 | |||
| Energy | 0.005 | |||
| Energy | 0.5% | 0.5% | 0.1kWh | 0~99999999.9kWh |
| Energy | 0.005 | |||
| Energy | 0.005 | |||
| Energy | 0.005 | |||
| Reactive Energy | 0.02 | |||
| Reactive Energy | 2.0% | 0.5% | 0.1kvarh | 0~99999999.9kvarh |
| Reactive Energy | 0.02 | |||
| Reactive Energy | 0.02 | |||
| Reactive Energy | 0.02 | |||
| Apparent Energy | 0.01 | |||
| Apparent Energy | 1.0% | 0.5% | 0.1VAh | 0~99999999.9kVAh |
| Apparent Energy | 0.01 | |||
| Apparent Energy | 0.01 | |||
| Apparent Energy | 0.01 | |||
| Harmonics | 0.02 | |||
| Harmonics | 2.0% | - | 0.01% | 0~100.0% |
| Harmonics | 0.02 | |||
| Harmonics | 0.02 | |||
| Harmonics | 0.02 | |||
| Running Time | ||||
| Running Time | 0.1hrs | 0~999999999.9hrs |
| RS-485 (Option) | ||||
| Modbus-RTU Protocol | ||||
| 2-wire connection, Half-duplex, Isolated | ||||
| 1200 to 38400 baud rate |
| Current Inputs (Each Channel) | ||||
| Nominal Current | 5 A ac | |||
| Metering Range | 0~6 A ac | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Pickup Current | 10Vac | |||
| Accuracy | 0.5% | |||
| Voltage Inputs (Each Channel) | ||||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Input Impedance | 45Hz~65Hz | |||
| Pickup Voltage | 10Vac | |||
| Accuracy | 0.5% | |||
| Energy Accuracy (Acuvim-EL) | ||||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Harmonic Resolution | ||||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Universal | AC or DC | |||
| AC/DC Control Power | ||||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Burden | 3W | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Low Voltage DC Control Power (Optional) | ||||
| Operating Range | 20~60Vdx | |||
| Burden | 3W | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Voltage Range | 0~250Vac/dc | |||
| Load Current | 100mA (Max) | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Isolation Voltage | 2500V | |||
| Digital Output (DI) | ||||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Current (Max) | 2mA | |||
| Start Voltage | 15V | |||
| Stop Voltage | 5V | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| SOE Resolution | 2ms | |||
| Operation Temperature | -25°C to 70°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Pollution Degree | 2 | |||
| Product | ||||
| USA | UL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Emission | ||||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | EN 55011 | |||
| Harmonic | IEC 61000-3-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Immunity | ||||
| ESD | IEC 61000-4-2 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Surge | IEC 61000-4-5 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Running Time | ||||
| Running Time | ||||
| Running Time | ||||
| Current Inputs (Each Channel) | ||||
| Nominal Current | 5 A ac | |||
| Nominal Current | 5 A ac | |||
| Nominal Current | 5 A ac | |||
| Nominal Current | 5 A ac | |||
| Metering Range | 0~6 A ac | |||
| Metering Range | 0~6 A ac | |||
| Metering Range | 0~6 A ac | |||
| Metering Range | 0~6 A ac | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Pickup Current | 10Vac | |||
| Pickup Current | 10Vac | |||
| Pickup Current | 10Vac | |||
| Pickup Current | 10Vac | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Voltage Inputs (Each Channel) | ||||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Input Impedance | 45Hz~65Hz | |||
| Input Impedance | 45Hz~65Hz | |||
| Input Impedance | 45Hz~65Hz | |||
| Input Impedance | 45Hz~65Hz | |||
| Pickup Voltage | 10Vac | |||
| Pickup Voltage | 10Vac | |||
| Pickup Voltage | 10Vac | |||
| Pickup Voltage | 10Vac | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Energy Accuracy (Acuvim-EL) | ||||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Harmonic Resolution | ||||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Universal | AC or DC | |||
| Universal | AC or DC | |||
| Universal | AC or DC | |||
| Universal | AC or DC | |||
| AC/DC Control Power | ||||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Low Voltage DC Control Power (Optional) | ||||
| Operating Range | 20~60Vdx | |||
| Operating Range | 20~60Vdx | |||
| Operating Range | 20~60Vdx | |||
| Operating Range | 20~60Vdx | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Voltage Range | 0~250Vac/dc | |||
| Voltage Range | 0~250Vac/dc | |||
| Voltage Range | 0~250Vac/dc | |||
| Voltage Range | 0~250Vac/dc | |||
| Load Current | 100mA (Max) | |||
| Load Current | 100mA (Max) | |||
| Load Current | 100mA (Max) | |||
| Load Current | 100mA (Max) | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Isolation Voltage | 2500V | |||
| Isolation Voltage | 2500V | |||
| Isolation Voltage | 2500V | |||
| Isolation Voltage | 2500V | |||
| Digital Output (DI) | ||||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Current (Max) | 2mA | |||
| Input Current (Max) | 2mA | |||
| Input Current (Max) | 2mA | |||
| Input Current (Max) | 2mA | |||
| Start Voltage | 15V | |||
| Start Voltage | 15V | |||
| Start Voltage | 15V | |||
| Start Voltage | 15V | |||
| Stop Voltage | 5V | |||
| Stop Voltage | 5V | |||
| Stop Voltage | 5V | |||
| Stop Voltage | 5V | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| SOE Resolution | 2ms | |||
| SOE Resolution | 2ms | |||
| SOE Resolution | 2ms | |||
| SOE Resolution | 2ms | |||
| Operation Temperature | -25°C to 70°C | |||
| Operation Temperature | -25°C to 70°C | |||
| Operation Temperature | -25°C to 70°C | |||
| Operation Temperature | -25°C to 70°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Pollution Degree | 2 | |||
| Pollution Degree | 2 | |||
| Pollution Degree | 2 | |||
| Pollution Degree | 2 | |||
| Product | ||||
| USA | UL 61010-1 | |||
| USA | UL 61010-1 | |||
| USA | UL 61010-1 | |||
| USA | UL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Emission | ||||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | EN 55011 | |||
| Radiated/Conducted | EN 55011 | |||
| Radiated/Conducted | EN 55011 | |||
| Radiated/Conducted | EN 55011 | |||
| Harmonic | IEC 61000-3-2 | |||
| Harmonic | IEC 61000-3-2 | |||
| Harmonic | IEC 61000-3-2 | |||
| Harmonic | IEC 61000-3-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Immunity | ||||
| ESD | IEC 61000-4-2 | |||
| ESD | IEC 61000-4-2 | |||
| ESD | IEC 61000-4-2 | |||
| ESD | IEC 61000-4-2 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Surge | IEC 61000-4-5 | |||
| Surge | IEC 61000-4-5 | |||
| Surge | IEC 61000-4-5 | |||
| Surge | IEC 61000-4-5 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
Click on a category to view a selection of compatible accessories with the Accuenergy Acuvim-CL Series of Power/Energy Panel Meters.
| Parameters | Acuvim-L Accuracy | |||
| Parameters | Acuvim-L Accuracy | Acuvim-EL/KL Accuracy | Resolution | Range |
| Parameters | Acuvim-L Accuracy | |||
| Parameters | Acuvim-L Accuracy | |||
| Parameters | Acuvim-L Accuracy | |||
| Voltage | 0.005 | |||
| Voltage | 0.5% | 0.5% | 0.1V | 20V~1000kV |
| Voltage | 0.005 | |||
| Voltage | 0.005 | |||
| Voltage | 0.005 | |||
| Current | 0.005 | |||
| Current | 0.5% | 0.5% | 0.001A | 0~50000A |
| Current | 0.005 | |||
| Current | 0.005 | |||
| Current | 0.005 | |||
| Current Demand | 0.005 | |||
| Current Demand | 0.5% | 0.5% | 0.001A | 0~50000A |
| Current Demand | 0.005 | |||
| Current Demand | 0.005 | |||
| Current Demand | 0.005 | |||
| Power | 0.01 | |||
| Power | 1.0% | 0.5% | 1W | -9999MW~9999MW |
| Power | 0.01 | |||
| Power | 0.01 | |||
| Power | 0.01 | |||
| Reactive Power | 0.02 | |||
| Reactive Power | 2.0% | 0.5% | 1var | -9999Mvar~9999Mvar |
| Reactive Power | 0.02 | |||
| Reactive Power | 0.02 | |||
| Reactive Power | 0.02 | |||
| Apparent Power | 0.01 | |||
| Apparent Power | 1.0% | 0.5% | 0.001V | 0~9999MVA |
| Apparent Power | 0.01 | |||
| Apparent Power | 0.01 | |||
| Apparent Power | 0.01 | |||
| Power Demand | 0.01 | |||
| Power Demand | 1.0% | 0.5% | 1W | -9999MW~9999MW |
| Power Demand | 0.01 | |||
| Power Demand | 0.01 | |||
| Power Demand | 0.01 | |||
| Reactive Power Demand | 0.02 | |||
| Reactive Power Demand | 2.0% | 0.5% | 1var | -9999Mvar~9999Mvar |
| Reactive Power Demand | 0.02 | |||
| Reactive Power Demand | 0.02 | |||
| Reactive Power Demand | 0.02 | |||
| Apparent Power Demand | 0.01 | |||
| Apparent Power Demand | 1.0% | 1VA | 1VA | 0~9999MVA |
| Apparent Power Demand | 0.01 | |||
| Apparent Power Demand | 0.01 | |||
| Apparent Power Demand | 0.01 | |||
| Power Factor | 0.01 | |||
| Power Factor | 1.0% | 0.5% | 0.001 | -1.0~1.0 |
| Power Factor | 0.01 | |||
| Power Factor | 0.01 | |||
| Power Factor | 0.01 | |||
| Frequency | 0.002 | |||
| Frequency | 0.2% | 0.2% | 0.01Hz | 45.00~65.00Hz |
| Frequency | 0.002 | |||
| Frequency | 0.002 | |||
| Frequency | 0.002 | |||
| Energy | 0.005 | |||
| Energy | 0.5% | 0.5% | 0.1kWh | 0~99999999.9kWh |
| Energy | 0.005 | |||
| Energy | 0.005 | |||
| Energy | 0.005 | |||
| Reactive Energy | 0.02 | |||
| Reactive Energy | 2.0% | 0.5% | 0.1kvarh | 0~99999999.9kvarh |
| Reactive Energy | 0.02 | |||
| Reactive Energy | 0.02 | |||
| Reactive Energy | 0.02 | |||
| Apparent Energy | 0.01 | |||
| Apparent Energy | 1.0% | 0.5% | 0.1VAh | 0~99999999.9kVAh |
| Apparent Energy | 0.01 | |||
| Apparent Energy | 0.01 | |||
| Apparent Energy | 0.01 | |||
| Harmonics | 0.02 | |||
| Harmonics | 2.0% | - | 0.01% | 0~100.0% |
| Harmonics | 0.02 | |||
| Harmonics | 0.02 | |||
| Harmonics | 0.02 | |||
| Running Time | ||||
| Running Time | 0.1hrs | 0~999999999.9hrs |
| RS-485 (Option) | ||||
| Modbus-RTU Protocol | ||||
| 2-wire connection, Half-duplex, Isolated | ||||
| 1200 to 38400 baud rate |
| Current Inputs (Each Channel) | ||||
| Nominal Current | 5 A ac | |||
| Metering Range | 0~6 A ac | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Pickup Current | 10Vac | |||
| Accuracy | 0.5% | |||
| Voltage Inputs (Each Channel) | ||||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Input Impedance | 45Hz~65Hz | |||
| Pickup Voltage | 10Vac | |||
| Accuracy | 0.5% | |||
| Energy Accuracy (Acuvim-EL) | ||||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Harmonic Resolution | ||||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Universal | AC or DC | |||
| AC/DC Control Power | ||||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Burden | 3W | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Low Voltage DC Control Power (Optional) | ||||
| Operating Range | 20~60Vdx | |||
| Burden | 3W | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Voltage Range | 0~250Vac/dc | |||
| Load Current | 100mA (Max) | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Isolation Voltage | 2500V | |||
| Digital Output (DI) | ||||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Current (Max) | 2mA | |||
| Start Voltage | 15V | |||
| Stop Voltage | 5V | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| SOE Resolution | 2ms | |||
| Operation Temperature | -25°C to 70°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Pollution Degree | 2 | |||
| Product | ||||
| USA | UL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Emission | ||||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | EN 55011 | |||
| Harmonic | IEC 61000-3-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Immunity | ||||
| ESD | IEC 61000-4-2 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Surge | IEC 61000-4-5 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Running Time | ||||
| Running Time | ||||
| Running Time | ||||
| Current Inputs (Each Channel) | ||||
| Nominal Current | 5 A ac | |||
| Nominal Current | 5 A ac | |||
| Nominal Current | 5 A ac | |||
| Nominal Current | 5 A ac | |||
| Metering Range | 0~6 A ac | |||
| Metering Range | 0~6 A ac | |||
| Metering Range | 0~6 A ac | |||
| Metering Range | 0~6 A ac | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Withstand | 20Arms continuous100Arms for 1 second, non-recurring | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Burden | 0.05VA (typical) @5Arms | |||
| Pickup Current | 10Vac | |||
| Pickup Current | 10Vac | |||
| Pickup Current | 10Vac | |||
| Pickup Current | 10Vac | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Voltage Inputs (Each Channel) | ||||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Nominal Full Scale | 400Vac L-N, 690Vac L-L (+20%) | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Withstand | 1500Vac continuous2500Vac, 50/60Hz for 1minute | |||
| Input Impedance | 45Hz~65Hz | |||
| Input Impedance | 45Hz~65Hz | |||
| Input Impedance | 45Hz~65Hz | |||
| Input Impedance | 45Hz~65Hz | |||
| Pickup Voltage | 10Vac | |||
| Pickup Voltage | 10Vac | |||
| Pickup Voltage | 10Vac | |||
| Pickup Voltage | 10Vac | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Accuracy | 0.005 | |||
| Energy Accuracy (Acuvim-EL) | ||||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Active | (according to IEC 62053-22) Class 0.5s(according to ANSI C12.20) Class 0.5 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Reactive | (according to IEC 62053-23) Class 2 | |||
| Harmonic Resolution | ||||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Metered Value | 2nd ~ 15th harmonics(THD of Acuvim-DL is 2nd to 25th) | |||
| Universal | AC or DC | |||
| Universal | AC or DC | |||
| Universal | AC or DC | |||
| Universal | AC or DC | |||
| AC/DC Control Power | ||||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Operating Range | 100~415Vac, 50/60Hz, 100~300Vdc | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Withstand | 3250Vac, 50/60Hz for 1 minute | |||
| Low Voltage DC Control Power (Optional) | ||||
| Operating Range | 20~60Vdx | |||
| Operating Range | 20~60Vdx | |||
| Operating Range | 20~60Vdx | |||
| Operating Range | 20~60Vdx | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Burden | 3W | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Digital Output (DO) | (Photo-MOS) | |||
| Voltage Range | 0~250Vac/dc | |||
| Voltage Range | 0~250Vac/dc | |||
| Voltage Range | 0~250Vac/dc | |||
| Voltage Range | 0~250Vac/dc | |||
| Load Current | 100mA (Max) | |||
| Load Current | 100mA (Max) | |||
| Load Current | 100mA (Max) | |||
| Load Current | 100mA (Max) | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Output Frequency | 25Hz, 50% Duty Ratio | |||
| Isolation Voltage | 2500V | |||
| Isolation Voltage | 2500V | |||
| Isolation Voltage | 2500V | |||
| Isolation Voltage | 2500V | |||
| Digital Output (DI) | ||||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Voltage Range | 20~250Vac/dc | |||
| Input Current (Max) | 2mA | |||
| Input Current (Max) | 2mA | |||
| Input Current (Max) | 2mA | |||
| Input Current (Max) | 2mA | |||
| Start Voltage | 15V | |||
| Start Voltage | 15V | |||
| Start Voltage | 15V | |||
| Start Voltage | 15V | |||
| Stop Voltage | 5V | |||
| Stop Voltage | 5V | |||
| Stop Voltage | 5V | |||
| Stop Voltage | 5V | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| Pulse Frequency (Max) | 100Hz, 50% Duty Ratio | |||
| SOE Resolution | 2ms | |||
| SOE Resolution | 2ms | |||
| SOE Resolution | 2ms | |||
| SOE Resolution | 2ms | |||
| Operation Temperature | -25°C to 70°C | |||
| Operation Temperature | -25°C to 70°C | |||
| Operation Temperature | -25°C to 70°C | |||
| Operation Temperature | -25°C to 70°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Storage Temperature | -40°C to 85°C | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Relative Humidity | 5% to 95% non-condensing | |||
| Pollution Degree | 2 | |||
| Pollution Degree | 2 | |||
| Pollution Degree | 2 | |||
| Pollution Degree | 2 | |||
| Product | ||||
| USA | UL 61010-1 | |||
| USA | UL 61010-1 | |||
| USA | UL 61010-1 | |||
| USA | UL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Canada | cUL 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Europe | IEC 61010-1 | |||
| Emission | ||||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | FCC Part 15 Subpart B, Class A | |||
| Radiated/Conducted | EN 55011 | |||
| Radiated/Conducted | EN 55011 | |||
| Radiated/Conducted | EN 55011 | |||
| Radiated/Conducted | EN 55011 | |||
| Harmonic | IEC 61000-3-2 | |||
| Harmonic | IEC 61000-3-2 | |||
| Harmonic | IEC 61000-3-2 | |||
| Harmonic | IEC 61000-3-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Voltage Fluctuation | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Radio Interference | IEC 50081-2 | |||
| Immunity | ||||
| ESD | IEC 61000-4-2 | |||
| ESD | IEC 61000-4-2 | |||
| ESD | IEC 61000-4-2 | |||
| ESD | IEC 61000-4-2 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Radiated, radio-frequency, electromagnetic field | IEC 61000-4-3 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Electrical fast transient/bust | IEC 61000-4-4 | |||
| Surge | IEC 61000-4-5 | |||
| Surge | IEC 61000-4-5 | |||
| Surge | IEC 61000-4-5 | |||
| Surge | IEC 61000-4-5 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Conducted disturbances | IEC 61000-4-6 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Power frequency magnetic field | IEC 61000-4-8 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Voltage dips and interruptions | IEC 61000-4-11 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Generic Immunity Standard for Industrial Environment | EN 50082-2 | |||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
| Function | Parameter | Acuvim-AL | Acuvim-BL | Acuvim-CL | Acuvim-DL | Acuvim-EL | Acuvim-KL | |
| Real Time Metering | Phase Voltage | U1, U2, U3 | ||||||
| Real Time Metering | Line Voltage | U12, U23, U31 | ||||||
| Real Time Metering | Current | I1, I2, I3, In (Acuvim-KL no neutral current measurement) | ||||||
| Real Time Metering | Power | P1, P2, P3, Psum | ||||||
| Real Time Metering | Reactive | Power Q1, Q2, Q3, Qsum | ||||||
| Real Time Metering | Apparent Power | S1, S2, S3, Ssum | ||||||
| Real Time Metering | Power Factor | PF1, PF2, PF3, PF | ||||||
| Real Time Metering | Load Nature | L/C/R | ||||||
| Real Time Metering | Frequency | F Hz | ||||||
| Energy & Demand | Energy | Ep_imp, Ep_exp | ||||||
| Energy & Demand | Reactive Energy | Eq_imp, Eq_exp | ||||||
| Energy & Demand | Apparent Energy | Es | ||||||
| Energy & Demand | Current Demand | Dmd_I1,Dmd_I2 Dmd_I3 | ||||||
| Energy & Demand | Power Demand | Dmd_Psum, Dmd_Qsum, Dmd_Ssum | ||||||
| Time of Use | Energy | TOU, 4 Tariffs, 12 Seasons, 14 Schedules | ||||||
| Power Quality | Voltage Unbalance | U_unbl | ||||||
| Power Quality | Current Unbalance | I_unbl | Trigger, Manual, DI change, Sag/Dips, Swell, Over Current | |||||
| Power Quality | Voltage THD | THD_V1, THD_V2, THD_V3 | ||||||
| Power Quality | Current THD | THD_I1, THD_I2, THD_I3 | ||||||
| Power Quality | Individual Harmonics | 2nd~15th (Voltage and Current) (Acuvim-DL is from 2nd to 25th) | ||||||
| Statistics | Max Current Demand | Dmd_I1_max,Dmd_I2 _max,Dmd_I3_max | ||||||
| Statistics | Max Power Demand | Dmd_Psum_max, Dmd_Qsum_max, Dmd_Ssum_max | ||||||
| Statistics | Max & Min of Voltage | |||||||
| Statistics | Max & Min of Current | |||||||
| Hour | Running Time | Hour | ||||||
| Hour | Load Running Time | Hour | ||||||
| I/O | Energy Pulse Output | 2 DO, configured as pulse output for kWh and kvarh, the pulse rate and width can be set | ||||||
| I/O | Alarm Output | |||||||
| Communication | RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | ||||||
| Communication | Second RS-485 | Modbus®-RTU Protocol, 1200~38400 baud rate | Opt | Opt | ||||
| Communication | Profibus | PROFIBUS-DP/V0 Protocol | Opt | Opt | ||||
| Extension I/O | 4DI, 2DO | SOE, Pulse Counter, Pulse output, Alarm output | Opt | Opt | ||||
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
As the need to better understand power and energy consumption increases, Accuenergy continues to offer a simple and effective software compliment to our metering products. Combining their meters with the Acuview software suite allows Accuenergy to offer one of the most powerful yet cost effective metering and monitoring solutions in the market.
Click on a category to view a selection of compatible accessories with the Accuenergy Acuvim-CL Series of Power/Energy Panel Meters.
