Legacy Dataset Common Registers

0x2EDF

12000

R

–

INT16U

–

A/E

A/E/P/H

X

–

Validity of each bit in the circuit breaker status register.

0x2EE0

12001

R

–

INT16U

–

A/E

A/E/P/H

X

–

Circuit breaker status register

A/E

A/E/P/H

X

0

OF status indication contact

0 = The circuit breaker is open.

1 = The circuit breaker is closed.

A/E

A/E/P/H

X

1

SD trip indication contact

0 = Circuit breaker is not tripped.

1 = Circuit breaker is tripped due to electrical default or shunt trip or push-to-trip.

Bit always equal to 0 for MasterPact NT/NW and ComPacT NS circuit breakers with motor mechanism.

A/E

A/E/P/H

X

2

SDE fault trip indication contact

0 = Circuit breaker is not tripped on electrical default.

1 = Circuit breaker is tripped due to electrical default (including ground-fault test and earth-leakage test).

–

A/E/P/H

X

3

CH spring charged contact (only with MasterPact)

0 = Spring discharged

1 = Spring charged

Bit always equal to 0 for ComPacT NS circuit breaker.

–

–

–

4

Reserved

–

A/E/P/H

X

5

PF ready to close contact (only with MasterPact)

0 = Not ready to close

1 = Ready to close

Bit always equal to 0 for ComPacT NS circuit breaker.

–

A/E/P/H

X

6

Distinction between ComPacT NS and MasterPact NT/NW

0 = ComPacT NS

1 = MasterPact NT/NW

–

–

–

7–14

Reserved

A/E

–

X

15

Data availability

If this bit is set at 1, all other bits of the register are not significant.

0x2EE1

12002

R

–

INT16U

–

A/E

A/E/P/H

X

–

Status IO 1

0

Input 1 status

• 0 = Off

• 1 = On

1

Input 2 status

• 0 = Off

• 1 = On

2

Input 3 status

• 0 = Off

• 1 = On

3

Input 4 status

• 0 = Off

• 1 = On

4

Input 5 status

• 0 = Off

• 1 = On

5

Input 6 status

• 0 = Off

• 1 = On

6

Output 1 status

• 0 = Off

• 1 = On

7

Output 2 status

• 0 = Off

• 1 = On

8

Output 3 status

• 0 = Off

• 1 = On

9–14

Reserved

15

Data availability

If this bit is set at 1, all other bits of the register are not significant.

0x2EE2

12003

R

–

INT16U

–

A/E

A/E/P/H

X

–

Status IO 2

0

Input 1 status

• 0 = Off

• 1 = On

1

Input 2 status

• 0 = Off

• 1 = On

2

Input 3 status

• 0 = Off

• 1 = On

3

Input 4 status

• 0 = Off

• 1 = On

4

Input 5 status

• 0 = Off

• 1 = On

5

Input 6 status

• 0 = Off

• 1 = On

6

Output 1 status

• 0 = Off

• 1 = On

7

Output 2 status

• 0 = Off

• 1 = On

8

Output 3 status

• 0 = Off

• 1 = On

9–14

Reserved

15

Data availability

If this bit is set at 1, all other bits of the register are not significant.

0x2EE3

12004

R

–

INT16U

–

A/E

A/E/P/H

X

–

Tripping cause for the standard protection functions

A/E

A/E/P/H

X

0

Long-time protection Ir

A/E

P/H

X

1

Short-time protection Isd

–

A/E

X

1

Short-time protection Isd or Instantaneous protection Ii

A/E

P/H

X

2

Instantaneous protection Ii

A/E

A/E/P/H

X

3

Ground-fault protection Ig

E

A/P/H

X

4

Earth-leakage protection IΔn

A/E

A/E/P/H

X

5

Integrated instantaneous protection (SELLIM and DIN/DINF)

A/E

–

X

6

Internal failure (STOP)

–

A/E

–

Other protections or integrated instantaneous protection

–

P/H

–

Internal failure (temperature)

–

A/E/P/H

–

7

Internal failure (overvoltage)

–

P/H

X

8

Other protection (see register 12005)

E

–

–

9

Instantaneous with earth-leakage protection on the trip unit.

E

–

–

10

Unbalance motor protection

E

–

–

11

Jam motor protection

E

–

–

12

Underload motor protection

E

–

–

13

Long-start motor protection

A/E

–

–

14

Reflex tripping protection

A/E

A/E/P/H

X

15

If this bit is at 1, bits 0 to 14 are not valid.

0x2EE4

12005

R

–

INT16U

–

–

P/H

X

–

Tripping causes for the advanced protection functions

–

P/H

–

0

Current unbalance

–

P/H

–

1

Overcurrent on phase 1

–

P/H

–

2

Overcurrent on phase 2

–

P/H

–

3

Overcurrent on phase 3

–

P/H

–

4

Overcurrent on Neutral

–

P/H

X

5

Undervoltage

–

P/H

X

6

Overvoltage

–

P/H

–

7

Voltage unbalance

–

P/H

–

8

Overpower

–

P/H

X

9

Reverse power

–

P/H

X

10

Underfrequency

–

P/H

X

11

Overfrequency

–

P/H

–

12

Phase rotation

–

P/H

–

13

Load shedding based on current

–

P/H

–

14

Load shedding based on power

–

P/H

X

15

If this bit is at 1, bits 0 to 14 are not valid.

0x2EE5– 0x2EE6

12006– 12007

–

–

–

–

–

–

–

–

Reserved

0x2EE7

12008

R

–

INT16U

–

A/E

P/H

–

–

Overrun of the standard protection setpoints

A/E

P/H

–

0

Long-time protection pick-up

–

–

–

1–14

Reserved

A/E

P/H

–

15

If this bit is at 1, bits 0 to 14 are not valid.

0x2EE8

12009

R

–

INT16U

–

–

P/H

–

–

Overrun of the advanced protection setpoints

–

P/H

–

0

Current unbalance

–

P/H

–

1

Maximum current on phase 1

–

P/H

–

2

Maximum current on phase 2

–

P/H

–

3

Maximum current on phase 3

–

P/H

–

4

Maximum current on the neutral

–

P/H

–

5

Minimum voltage

–

P/H

–

6

Maximum voltage

–

P/H

–

7

Voltage unbalance

–

P/H

–

8

Maximum power

–

P/H

–

9

Reverse power

–

P/H

–

10

Minimum frequency

–

P/H

–

11

Maximum frequency

–

P/H

–

12

Phase rotation

–

P/H

–

13

Load shedding based on the current

–

P/H

–

14

Load shedding based on the power

–

P/H

–

15

If this bit is at 1, bits 0 to 14 are not valid.

0x2EE9

12010

R

–

INT16U

–

–

P/H

–

–

Continuation of the previous register

–

P/H

–

0

Ground-fault alarm

E

P/H

–

1

Earth-leakage alarm

–

–

–

2–14

Reserved

–

P/H

–

15

If this bit is at 1, bits 0 to 14 are not valid.

0x2EEA

12011

R

–

INT16U

–

A/E

–

X

–

Pre-alarm register

A/E

–

X

0

Long-time protection time pre-alarm (PAL Ir)

E

–

–

1

Earth-leakage protection pre-alarm (PAL IΔn)

–

–

X

Earth-leakage alarm⁽¹⁾

A/E

–

–

2

Ground-fault protection pre-alarm (PAL Ig)

–

–

X

Ground-fault alarm⁽²⁾

–

–

–

3–14

Reserved

A/E

–

X

15

If this bit is at 1, bits 0 to 14 are not valid.

0x2EEB

12012

R

–

INT16U

–

A/E

–

–

–

Register of user-defined alarms

A/E

–

–

0

User-defined alarm 201

A/E

–

–

1

User-defined alarm 202

A/E

–

–

2

User-defined alarm 203

A/E

–

–

3

User-defined alarm 204

A/E

–

–

4

User-defined alarm 205

A/E

–

–

5

User-defined alarm 206

A/E

–

–

6

User-defined alarm 207

A/E

–

–

7

User-defined alarm 208

A/E

–

–

8

User-defined alarm 209

A/E

–

–

9

User-defined alarm 210

–

–

–

10–14

Reserved

A/E

–

–

15

If this bit is at 1, bits 0 to 14 are not valid.

0x2EEC– 0x2EEE

12013– 12015

–

–

–

–

–

–

–

–

Reserved

(1) Value available on MicroLogic 7.0 X control unit only when the Digital Module ANSI 51N/51G Ground-fault alarm is installed.

(2) Value available on MicroLogic 2.0 X, 3.0 X, 5.0 X, and 6.0 X control units only when the Digital Module ANSI 51N/51G Ground-fault alarm is installed.

0x2EEF

12016

R

A

INT16U

0–32767

A/E

A/E/P/H

X

RMS current on phase 1: I1

0x2EF0

12017

R

A

INT16U

0–32767

A/E

A/E/P/H

X

RMS current on phase 2: I2

0x2EF1

12018

R

A

INT16U

0–32767

A/E

A/E/P/H

X

RMS current on phase 3: I3

0x2EF2

12019

R

A

INT16U

0–32767

A/E

A/E/P/H

X

RMS current on the neutral: IN ⁽¹⁾

0x2EF3

12020

R

A

INT16U

0–32767

A/E

A/E/P/H

X

Maximum of I1, I2, I3, and IN

0x2EF4

12021

R

%Ig

INT16U

0–32767

A/E

A/E/P/H

X

Ground-fault current Ig ⁽²⁾

0x2EF5

12022

R

%lΔn

INT16U

0–32767

E

A/P/H

X

Earth-leakage current IΔn ⁽³⁾

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral current transformer (ENCT).

(2) This value is only available:

• For MasterPact MTZ MicroLogic 6.0 X control units, expressed as %Ig pick-up

• For MasterPact NT/NW and ComPacT NS MicroLogic 6.0 trip units, expressed as %Ig pick-up

• For ComPacT NSX MicroLogic 6.2 and 6.3 trip units, expressed as %Ig pick-up

(3) This value is only available:

• For MasterPact MTZ MicroLogic 7.0 X control units, expressed as %lΔn pick-up

• For MasterPact NT/NW and ComPacT NS MicroLogic 7.0 trip units, expressed as %lΔn pick-up

• For ComPacT NSX MicroLogic 7.2 and 7.3 trip units, expressed as %lΔn pick-up

0x2EF6

12023

R

A

INT16U

0–32767

A/E

A/E/P/H

X

Maximum RMS current on phase 1: I1

0x2EF7

12024

R

A

INT16U

0–32767

A/E

A/E/P/H

X

Maximum RMS current on phase 2: I2

0x2EF8

12025

R

A

INT16U

0–32767

A/E

A/E/P/H

X

Maximum RMS current on phase 3: I3

0x2EF9

12026

R

A

INT16U

0–32767

A/E

A/E/P/H

X

Maximum RMS current on the neutral: IN ⁽¹⁾

0x2EFA

12027

R

A

INT16U

0–32767

A/E

A/E/P/H

X

Maximum RMS current out of the 4 previous registers

0x2EFB

12028

R

%Ig

INT16U

0–32767

A/E

A/E/P/H

X

Maximum ground-fault current Ig ⁽²⁾

0x2EFC

12029

R

%lΔn

INT16U

0–32767

E

A/P/H

X

Maximum earth-leakage current ⁽³⁾

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral current transformer (ENCT).

(2) This value is only available:

• For MasterPact MTZ MicroLogic 6.0 X control units, expressed as %Ig pick-up

• For MasterPact NT/NW and ComPacT NS MicroLogic 6.0 trip units, expressed as %Ig pick-up

• For ComPacT NSX MicroLogic 6.2 and 6.3 trip units, expressed as %Ig pick-up

(3) This value is only available:

• For MasterPact MTZ MicroLogic 7.0 X control units, expressed as %lΔn pick-up

• For MasterPact NT/NW and ComPacT NS MicroLogic 7.0 trip units, expressed as %lΔn pick-up

• For ComPacT NSX MicroLogic 7.2 and 7.3 trip units, expressed as %lΔn pick-up

0x2EFD

12030

R

V

INT16U

0–1200

E

E/P/H

X

RMS phase-to-phase voltage V12

0x2EFE

12031

R

V

INT16U

0–1200

E

E/P/H

X

RMS phase-to-phase voltage V23

0x2EFF

12032

R

V

INT16U

0–1200

E

E/P/H

X

RMS phase-to-phase voltage V31

0x2F00

12033

R

V

INT16U

0–1200

E

E/P/H

X

RMS phase-to-neutral voltage V1N ⁽¹⁾

0x2F01

12034

R

V

INT16U

0–1200

E

E/P/H

X

RMS phase-to-neutral voltage V2N ⁽¹⁾

0x2F02

12035

R

V

INT16U

0–1200

E

E/P/H

X

RMS phase-to-neutral voltage V3N ⁽¹⁾

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral voltage transformer (ENVT).

0x2F03

12036

R

0.1 Hz

INT16U

400–600

E

P/H

X

Frequency

0x2F04

12037

R

0.1 Hz

INT16U

400–600

E

P/H

X

Maximum frequency ⁽¹⁾

(1) This value can be reset with the reset minimum/maximum command.

0x2F05

12038

R

0.1 kW

INT16

-32767–+32767

E

E/P/H

X

Active power on phase 1: P1 ^{(1) (2)}

0x2F06

12039

R

0.1 kW

INT16

-32767–+32767

E

E/P/H

X

Active power on phase 2: P2 ^{(1) (2)}

0x2F07

12040

R

0.1 kW

INT16

-32767–+32767

E

E/P/H

X

Active power on phase 3: P3 ^{(1) (2)}

0x2F08

12041

R

0.1 kW

INT16

-32767–+32767

E

E/P/H

X

Total active power: Ptot ⁽²⁾

0x2F09

12042

R

0.1 kVAR

INT16

-32767–+32767

E

E/P/H

X

Reactive power on phase 1: Q1 ^{(1) (2)}

0x2F0A

12043

R

0.1 kVAR

INT16

-32767–+32767

E

E/P/H

X

Reactive power on phase 2: Q2 ^{(1) (2)}

0x2F0B

12044

R

0.1 kVAR

INT16

-32767–+32767

E

E/P/H

X

Reactive power on phase 3: Q3 ^{(1) (2)}

0x2F0C

12045

R

0.1 kVAR

INT16

-32767–+32767

E

E/P/H

X

Total reactive power: Qtot ⁽²⁾

0x2F0D

12046

R

0.1 kVA

INT16U

0–32767

E

E/P/H

X

Apparent power on phase 1: S1 ⁽¹⁾

0x2F0E

12047

R

0.1 kVA

INT16U

0–32767

E

E/P/H

X

Apparent power on phase 2: S2 ⁽¹⁾

0x2F0F

12048

R

0.1 kVA

INT16U

0–32767

E

E/P/H

X

Apparent power on phase 3: S3 ⁽¹⁾

0x2F10

12049

R

0.1 kVA

INT16U

0–32767

E

E/P/H

X

Total apparent power: Stot

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral current transformer (ENCT).

(2) The sign for the active and reactive power depends on the configuration of:

• register 3316 for ComPacT NSX, ComPacT NS and MasterPact NT/NW circuit breakers.

• register 8405 for MasterPact MTZ circuit breakers.

0x2F11–0x2F12

12050–12051

R

kWh

INT32

-1 999 999 999– +1 999 999 999

E

E/P/H

X

Active energy: Ep ⁽¹⁾

0x2F13–0x2F14

12052–12053

R

kVARh

INT32

-1 999 999 999– +1 999 999 999

E

E/P/H

X

Reactive energy: Eq ⁽¹⁾

0x2F15–0x2F16

12054–12055

R

kWh

INT32U

0–1 999 999 999

E

P/H

X

Active energy counted positively: EpIn

0x2F17–0x2F18

12056–12057

R

kWh

INT32U

0–1 999 999 999

E

P/H

X

Active energy counted negatively: EpOut

0x2F19–0x2F1A

12058–12059

R

kVARh

INT32U

0–1 999 999 999

E

P/H

X

Reactive energy counted positively: EqIn

0x2F1B–0x2F1C

12060–12061

R

kVARh

INT32U

0–1 999 999 999

E

P/H

X

Reactive energy counted negatively: EqOut

0x2F1D–0x2F1E

12062–12063

R

kVAh

INT32U

0–1 999 999 999

E

E/P/H

X

Total apparent energy: Es

0x2F1F–0x2F20

12064–12065

R

kWh

INT32U

0–1 999 999 999

E

–

X

Active energy counted positively (non-resettable): EpIn

0x2F21–0x2F22

12066–12067

R

kWh

INT32U

0–1 999 999 999

E

–

X

Active energy counted negatively (non-resettable): EpOut

0x2F23–0x2F2E

12068–12079

–

–

–

–

–

–

–

Reserved

(1) This value is always positive with MicroLogic E trip units for MasterPact NT/NW and ComPacT NS circuit breakers.

0x2F2F

12080

R

A

INT16U

0–32767

E

E/P/H

X

Current demand value on phase 1: I1 Dmd

0x2F30

12081

R

A

INT16U

0–32767

E

E/P/H

X

Current demand value on phase 2: I2 Dmd

0x2F31

12082

R

A

INT16U

0–32767

E

E/P/H

X

Current demand value on phase 3: I3 Dmd

0x2F32

12083

R

A

INT16U

0–32767

E

E/P/H

X

Current demand value on the neutral: IN Dmd ⁽¹⁾

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral current transformer (ENCT).

0x2F33

12084

R

0.1 kW

INT16U

0–32767

E

E/P/H

X

Total active power demand: P Dmd

0x2F34

12085

R

0.1 kVAR

INT16U

0–32767

E

P/H

X

Total reactive power demand: Q Dmd

0x2F35

12086

R

0.1 kVA

INT16U

0–32767

E

P/H

X

Total apparent power demand: S Dmd

0x2F36– 0x2F38

12087– 12089

–

–

–

–

–

–

–

Reserved

0x2F39

12090

R

V

INT16U

0–1200

E

E/P/H

X

Maximum RMS phase-to-phase voltage V12

0x2F3A

12091

R

V

INT16U

0–1200

E

E/P/H

X

Maximum RMS phase-to-phase voltage V23

0x2F3B

12092

R

V

INT16U

0–1200

E

E/P/H

X

Maximum RMS phase-to-phase voltage V31

0x2F3C

12093

R

V

INT16U

0–1200

E

E/P/H

X

Maximum RMS phase-to-neutral voltage V1N ⁽¹⁾

0x2F3D

12094

R

V

INT16U

0–1200

E

E/P/H

X

Maximum RMS phase-to-neutral voltage V2N ⁽¹⁾

0x2F3E

12095

R

V

INT16U

0–1200

E

E/P/H

X

Maximum RMS phase-to-neutral voltage V3N ⁽¹⁾

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral voltage transformer (ENVT).

0x2F3F

12096

R

0.01

INT16

-100–

+100

E

E/P/H

X

Power factor on phase 1: PF1 ⁽¹⁾

0x2F40

12097

R

0.01

INT16

-100–

+100

E

E/P/H

X

Power factor on phase 2: PF2 ⁽¹⁾

0x2F41

12098

R

0.01

INT16

-100–

+100

E

E/P/H

X

Power factor on phase 3: PF3 ⁽¹⁾

0x2F42

12099

R

0.01

INT16

-100–

+100

E

E/P/H

X

Total power factor: PF

0x2F43

12100

R

0.01

INT16

-100–

+100

E

H

X

Fundamental power factor on phase 1: cosϕ1 ⁽¹⁾

0x2F44

12101

R

0.01

INT16

-100–

+100

E

H

X

Fundamental power factor on phase 2: cosϕ2 ⁽¹⁾

0x2F45

12102

R

0.01

INT16

-100–

+100

E

H

X

Fundamental power factor on phase 3: cosϕ3 ⁽¹⁾

0x2F46

12103

R

0.01

INT16

-100–

+100

E

H

X

Total fundamental power factor: cosϕ

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral voltage transformer (ENVT).

0x2F47

12104

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of V12 compared to the fundamental

0x2F48

12105

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of V23 compared to the fundamental

0x2F49

12106

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of V31 compared to the fundamental

0x2F4A

12107

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of V1N compared to the fundamental ⁽¹⁾

0x2F4B

12108

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of V2N compared to the fundamental ⁽¹⁾

0x2F4C

12109

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of V3N compared to the fundamental ⁽¹⁾

0x2F4D

12110

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of I1 compared to the fundamental

0x2F4E

12111

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of I2 compared to the fundamental

0x2F4F

12112

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of I3 compared to the fundamental

0x2F50

12113

R

0.1 %

INT16U

0–5000

E

H

X

Total harmonic distortion of total current compared to the fundamental

(1) This value cannot be accessed for motor applications and in cases of three-pole circuit breakers without external neutral voltage transformer (ENVT).

0x2F7F

12160

R

–

INT16U

0–32766

A/E

A/E/P/H

X

Trip counter

0x2F80

12161

R

–

INT16U

0–32766

A/E

A/E/P/H

X

Counter of alarms with priority level = 3 (high)

0x2F81

12162

R

–

INT16U

0–32766

A/E

A/E/P/H

X

Counter of alarms with priority level = 2 (medium)

0x2F82

12163

R

–

INT16U

0–32766

A/E

A/E/P/H

X

Counter of alarms with priority level = 1 (low)

0x2F83

12164

R

–

INT16U

–

A/E

A/E/P/H

X

–

Validity of the breaker close inhibit

0

Validity of the breaker close inhibit by IO module

1

Validity of the breaker close inhibit by remote controller

2–15

Reserved

0x2F84

12165

R

–

INT16U

–

A/E

A/E/P/H

X

–

Status of the breaker close inhibit

0

Status of the breaker close inhibit by IO module

1

Status of the breaker close inhibit by remote controller

2–15

Reserved