BMR Network Analyser

Mervis SCADA fully supports the integration of measured data from BMR network analysers using MQTT protocol.

After the installation of the analyser on site - not public IP (port forwarding) is needed to communicate all data to Mervis SCADA. The communication is fully encrypted.

Selected Values

Name Value Units Description
Active power 3 Phase -1565419 W Active power in all phases.
Active power L1 -515915 W Active power in the phase L1.
Active power L2 -525140 W Active power in the phase L2.
Active power L3 -524364 W Active power in the phase L3.
Angle I L1 62,23 deg Angle between current and voltage in phase L1.
Angle I L2 178,596 deg Angle between current and voltage in phase L2.
Angle I L3 302,721 deg Angle between current and voltage in phase L3.
Angle U L1 0 deg Angle between voltage in phase L1 and voltage in phase L1.
Angle U L2 120,033 deg Angle between voltage in phase L2 and voltage in phase L1.
Angle U L3 240,086 deg Angle between voltage in phase L3 and voltage in phase L1.
Apparent power 3 Phase 1567337 VA Apparent power in all phases.
Apparent power L1 516278 VA Apparent power in phase L1.
Apparent power L2 525989 VA Apparent power in phase L2.
Apparent power L3 525069 VA Apparent power in phase L3.
CosFi L1 -1 Angle between voltage and current for the 1st harmonic in the phase L1.
CosFi L2 -1 Angle between voltage and current for the 1st harmonic in the phase L2.
CosFi L3 -1 Angle between voltage and current for the 1st harmonic in the phase L3.
Frequency 49,9819 Hz Frequency.
Line voltage L1-L2 425,241 V Line voltage L1-L2.
Line voltage L2-L3 424,803 V Line voltage L2-L3.
Line voltage L3-L1 424,458 V Line voltage L3-L1.
Long time flicker L1 0,35564 Long time flicker (2 hours) for the phase L1.
Long time flicker L2 0,41009 Long time flicker (2 hours) for the phase L2.
Long time flicker L3 0,44698 Long time flicker (2 hours) for the phase L3.
Negative active energy total -910144,1 kWh Energy supply to the mains.
Phase current L1 2103,16 A Phase current in the phase L1.
Phase current L2 2142,39 A Phase current in the phase L2.
Phase current L3 2144,01 A Phase current in the phase L3.
Phase voltage L1 245,478 V Phase voltahe for the phase L1.
Phase voltage L2 245,515 V Phase voltahe for the phase L2.
Phase voltage L3 244,9 V Phase voltahe for the phase L3.
Positive active energy total 398,9 kWh Energy consumption.
Power factor 3 Phase -0,99878 Total power factor.
Power factor L1 -1 Power factor for the phase L1.
Power factor L2 -0,99839 Power factor for the phase L2.
Power factor L3 -0,99866 Power factor for the phase L3.
Reactive power 3 Phase -30618,8 var Reactive power in all phases.
Reactive power L1 9706,37 var Reactive power in phase L1.
Reactive power L2 -22922,1 var Reactive power in phase L2.
Reactive power L3 -17403 var Reactive power in phase L3.
Ripple control L1 245,47 V Effective voltage for the phase L1 at the frequency set by “Ripple control set point”.
Ripple control L2 245,5 V Effective voltage for the phase L2 at the frequency set by “Ripple control set point”.
Ripple control L3 244,88 V Effective voltage for the phase L3 at the frequency set by “Ripple control set point”.
Ripple control set point 50 Hz Set point for “Ripple control”.
Short time flicker L1 0,36364 Short time flicker (10 min) for the phase L1.
Short time flicker L2 0,43327 Short time flicker (10 min) for the phase L2.
Short time flicker L3 0,47436 Short time flicker (10 min) for the phase L3.
THDI L1 2,92027 % Total harmonic distortion of the current in the phase L1.
THDI L2 3,24824 % Total harmonic distortion of the current in the phase L2.
THDI L3 3,24958 % Total harmonic distortion of the current in the phase L3.
THDU L-L L1-L2 0,98296 % Total harmonic distortion of the voltage between phases L1-L2.
THDU L-L L2-L3 1,00872 % Total harmonic distortion of the voltage between phases L2-L3.
THDU L-L L3-L1 0,99738 % Total harmonic distortion of the voltage between phases L3-L1.
THDU L-N L1 0,99921 % Total harmonic distortion of the voltage in the phase L1.
THDU L-N L2 0,99024 % Total harmonic distortion of the voltage in the phase L2.
THDU L-N L3 1,01665 % Total harmonic distortion of the voltage in the phase L3.
Unbalance I I0 L1 2,15701 % Null asymmetry of the current in the phase L1.
Unbalance I I0 L2 0 % Null asymmetry of the current in the phase L2.
Unbalance I I0 L3 0 % Null asymmetry of the current in the phase L3.
Unbalance I I2 L1 1,94064 % Reverse null asymmetry of the current in the phase L1.
Unbalance I I2 L2 0 % Reverse null asymmetry of the current in the phase L2.
Unbalance I I2 L3 0 % Reverse null asymmetry of the current in the phase L3.
Unbalance LN U0 L1 0,07655 % Null asymmetry of the voltage in the phase L1.
Unbalance LN U0 L2 0 % Null asymmetry of the voltage in the phase L2.
Unbalance LN U0 L3 0 % Null asymmetry of the voltage in the phase L3.
Unbalance LN U2 L1 0,10793 % Reverse null asymmetry of the voltage in the phase L1.
Unbalance LN U2 L2 0 % Reverse null asymmetry of the voltage in the phase L2.
Unbalance LN U2 L3 0 % Reverse null asymmetry of the voltage in the phase L3.

Following data are updated in case of an event. Parameters of events can be configured by tools provided by the manufacturer of the device.

Name Value Units Description
Event Data Current L1 1849,95 A Current in the phase L1 before and after the event.
Event Data Current L2 3560,96 A Current in the phase L2 before and after the event.
Event Data Current L3 1,35047 A Current in the phase L3 before and after the event.
Event Data Voltage L1 246,094 V Voltage in the phase L1 before and after the event.
Event Data Voltage L2 247,375 V Voltage in the phase L2 before and after the event.
Event Data Voltage L3 247,574 V Voltage in the phase L3 before and after the event.
Event End 21/04/2022 Thu 06:00:04 End of the event.
Event Phase L1 Indicates the phase where the event occurred.
Event Start 21/04/2022 Thu 00:04:52 Start of the event.
Event Type Overvoltage Type of the event.
Transient Data Current L1 -6554,23364 A Current in the phase L1 before and after the transient.
Transient Data Current L2 2145,89126 A Current in the phase L2 before and after the transient.
Transient Data Current L3 72,05118 A Current in the phase L3 before and after the transient.
Transient Data Voltage L1 -226,525 V Voltage in the phase L1 before and after the transient.
Transient Data Voltage L2 -93,808 V Voltage in the phase L2 before and after the transient.
Transient Data Voltage L3 334,724 V Voltage in the phase L3 before and after the transient.
Transient Phase L1 Indicates the phase where the transient occurred.
Transient Start 21/04/2022 Thu 06:00:04 Start of the transient.
Transient Type VoltageDifference Type of the transient.
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