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METSEPM2130

5/5 - (4 votes)

EasyLogic PM2130, Power & Energy meter, up to 31stH, LED, RS485, class 0.5S

Main documents

Main
Range EasyLogic
Product name EasyLogic PM2100
Device short name PM2130
product or component type Power meter
Complementary
Device application Sub billing
Power monitoring
Power quality analysis Total harmonic distortion
up to the 31st harmonic
Type of measurement Apparent power min/max, total
Active and reactive power min/max, total
Current min/max, avg
Voltage min/max, avg
Frequency min/max, avg
Total current harmonic distortion THD (I) per phase
Total voltage harmonic distortion THD (U) per phase
Power factor min/max, avg
Apparent energy total
Active and reactive energy total
Metering type Peak demand currents
Active power P, P1, P2, P3
Demand power P, Q, S
Reactive power Q, Q1, Q2, Q3
Apparent power S, S1, S2, S3
Active, reactive, apparent energy (signed, four quadrant)
Voltage U, U21, U32, U13, V, V1, V2, V3
Current I, I1, I2, I3
Calculated neutral current
Unbalance current
Peak demand power PM, QM, SM
Accuracy class Class 1 reactive energy conforming to IEC 62053-24
Class 0.5S active energy conforming to IEC 62053-22
Class 5 harmonic distorsion (I THD & U THD)
Measurement accuracy Apparent power +/- 0.5 %
Active energy +/- 0.5 %
Reactive energy +/- 1 %
Active power +/- 0.5 %
Voltage +/- 0.5 %
Power factor +/- 0.01
Current +/- 0.5 %
Frequency +/- 0.05 %
Measurement current 5…6000 mA
Measurement voltage 35…480 V AC 50/60 Hz between phases
20…277 V AC 50/60 Hz between phase and neutral
480…999000 V AC 50/60 Hz with external VT
Frequency measurement range 45…65 Hz
[Us] rated supply voltage 80…277 V AC 45…65 Hz +/- 10 %
100…277 V DC +/- 10 %
Network frequency 50 Hz
60 Hz
Ride-through time 50 ms 120 V AC typical
50 ms 230 V AC typical
50 ms 125 V DC typical
[In] rated current 1 A
5 A
Maximum power consumption in VA 8 VA at 277 V AC
Maximum power consumption in W 3.3 W (power lines (AC))
3.3 W at 277 V (power lines (DC))
input impedance Current (impedance <= 0.3 mOhm)
Voltage (impedance > 5 MOhm)
Tamperproof of settings Protected by access code
Display type 7 segments LED
Display colour Red
Messages display capacity 3 fields of 4 characters
Display digits 12 digit(s) – 14.2 mm in height
Demand intervals Configurable from 1 to 60 min
Information displayed Demand current (past value)
Demand current (present value)
Demand power (past value)
Demand power (present value)
Voltage
Current
Frequency
Energy consumption
Harmonic distortion
Power factor
Active power
Apparent power
Reactive power
Unbalanced in %
Control type 3 x button
Local signalling Red LED: output signal 1…9999000 pulse/ k_h (kWh, kVAh, kVARh)
Green LED: module operation and integrated communication
Number of inputs 0
Number of outputs 0
Communication port protocol Modbus RTU at 4800 bps, 9600 bps, 19200 bps, 38.4 Kbps even/odd or none – 2 wires, insulation 2500 V
Communication port support Screw terminal block: RS485
Data recording Power logs
Time stamping
Energy consumption logs
Min/max for 8 parameters
Function available Real time clock
Sampling rate 64 samples/cycle
Cybersecurity Enable/disable communication ports
communication service Remote monitoring
Product certifications CE conforming to IEC 61010-1
CULus conforming to UL 61010-1
CULus conforming to CSA C22.2 No 61010-1
RCM
EAC
C-Tick
mounting mode Clip-on
Mounting position Vertical
Mounting support Framework
Provided equipment 1 x installation guide
Measurement category Category III 480 V
Category II 480…600 V
Electrical insulation class Class II
Double insulation
Flame retardance V-0 conforming to UL 94
Connections – terminals Current transformer: screw connection (bottom) 6
Voltage inputs: screw connection (top) 4
Material Polycarbonate
Width 96 mm
Depth Total : 76.09 mm
Embedded : 61.64 mm
Height 96 mm
net weight 300 g
Compatibility code PM2130
Environment
Service life 7 year(s)
IP degree of protection IP54 front: conforming to IEC 60529
IP30 body: conforming to IEC 60529
Relative humidity 5…95 % at 50 °C
Pollution degree 2
Ambient air temperature for operation -10…60 °C
ambient air temperature for storage -25…70 °C
Operating altitude <= 2000 m
Electromagnetic compatibility Electrostatic discharge conforming to IEC 61000-4-2
Radiated radio-frequency electromagnetic field immunity test conforming to IEC 61000-4-3
Electrical fast transient/burst immunity test conforming to IEC 61000-4-4
Surge immunity test conforming to IEC 61000-4-5
Conducted RF disturbances conforming to IEC 61000-4-6
Magnetic field at power frequency conforming to IEC 61000-4-8
Voltage dips and interruptions immunity test conforming to IEC 61000-4-11
Emission tests conforming to FCC part 15 class A
Overvoltage category III
Packing Units
Unit Type of Package 1 PCE
Number of Units in Package 1 1
Package 1 Height 11.500 cm
Package 1 Width 12.000 cm
Package 1 Length 12.500 cm
Package 1 Weight 407.000 g
Unit Type of Package 2 S03
Number of Units in Package 2 18
Package 2 Height 30.000 cm
Package 2 Width 30.000 cm
Package 2 Length 40.000 cm
Package 2 Weight 7.726 kg
Product Description

Schneider Power Meters

Frequently Asked Questions

Push button switches can be classified as either normally open (NO) or normally closed (NC). Normally open (NO) switches, also known as "OFF" position switches, complete the circuit when actuated. In contrast, normally closed (NC) switches, or "ON" position switches, break the circuit when actuated. Understanding the difference between NO and NC push button switches is crucial for selecting the right type for your application, whether it's for industrial machinery, control panels, or electronic devices.

Push button switches come in two main types: single-pole and double-pole switches. The single-pole switch is the most common type, featuring a control device with a single input source and a single output source. This basic design makes single-pole switches ideal for a wide range of applications. Double-pole switches, on the other hand, have two input sources and two output sources, offering more complex control capabilities for advanced electrical systems.

No, a push button is not an analog sensor. An analog sensor provides a continuous output signal that varies in proportion to the measured quantity. In contrast, a push button provides a discrete output signal that changes state from one level to another when the button is pressed or released. This distinction makes push buttons ideal for applications requiring simple on/off control, unlike analog sensors that are used for more complex, variable measurements.

✅ A push button consists of several key components:

1. Button Actuator: This is the part you physically press. It is connected to an internal mechanism within the switch.

2. Contacts: Push button switches contain one or more sets of contacts, typically made from conductive materials like metal. In their default state, these contacts are separated.

When the button actuator is pressed, it moves the contacts together to complete an electrical circuit. This simple yet effective design is what makes push buttons reliable for various applications, from industrial machinery to everyday electronic devices.

A push button is a digital sensor. Unlike analog sensors, which provide a continuous range of values, digital sensors like push buttons have only two states: on or off. For example, when you press a push button, it changes from off to on, providing a discrete signal. Similarly, a digital light sensor can detect whether it is dark or bright, also giving a binary output. This clear distinction makes push buttons ideal for simple, straightforward control in various applications.

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