Standard Dataset Common Registers

Circuit Breaker Status Register

Address	Register	RW	Unit	Type	Range	Bit	Description
0x7CFF	32000	R	–	INT16U	–	–	Quality of each bit of register 32001 (refer to Quality of Bits in Registers): 0 = Invalid 1 = Valid
0x7D00	32001	R	–	INT16U	–	–	Circuit breaker status register
						0	OF status indication contact 0 = The circuit breaker is open. 1 = The circuit breaker is closed.
						1	SD trip indication contact 0 = Circuit breaker is not tripped. 1 = Circuit breaker is tripped due to electrical fault, shunt trip, or push-to-trip. Bit always equal to 0 for EasyPact MVS circuit breakers with motor mechanism.
						2	SDE fault trip indication contact 0 = Circuit breaker is not tripped on electrical fault. 1 = Circuit breaker is tripped due to electrical fault (including ground-fault test).
						3	CH spring charged contact 0 = Spring discharged 1 = Spring charged Bit always equal to 0 for EasyPact MVS circuit breakers with motor mechanism.
						4	Reserved
						5	PF ready to close contact 0 = Not ready to close 1 = Ready to close Bit always equal to 0 for EasyPact MVS circuit breakers with motor mechanism.
						6–14	Reserved
						15	Data availability If this bit is set at 1, all other bits of the register are not significant.

IO Status Registers

Address	Register	RW	Unit	Type	Range	Bit	Description
0x7D01	32002	R	–	INT16U	–	–	Quality of each bit of register 32003 (refer to Quality of Bits in Registers): 0 = Invalid 1 = Valid
0x7D02	32003	R	–	INT16U	–	–	IO1 module and M2C status
						0	Digital input 1 status: 0 = Off 1 = On
						1	Digital input 2 status: 0 = Off 1 = On
						2	Digital input 3 status: 0 = Off 1 = On
						3	Digital input 4 status: 0 = Off 1 = On
						4	Digital input 5 status: 0 = Off 1 = On
						5	Digital input 6 status: 0 = Off 1 = On
						6	Digital output 1 status: 0 = Off 1 = On
						7	Digital output 2 status: 0 = Off 1 = On
						8	Digital output 3 status: 0 = Off 1 = On
						9	Digital M2C output 1 status: 0 = Off 1 = On
						10	Digital M2C output 2 status: 0 = Off 1 = On
						11–14	Reserved
						15	Data availability If this bit is set at 1, all other bits of the register are not significant.
0x7D03	32004	R	–	INT16U	–	–	Quality of each bit of register 32005: 0 = Invalid 1 = Valid
0x7D04	32005	R	–	INT16U	–	–	IO2 module status
						0	Digital input 1 status: 0 = Off 1 = On
						1	Digital input 2 status: 0 = Off 1 = On
						2	Digital input 3 status: 0 = Off 1 = On
						3	Digital input 4 status: 0 = Off 1 = On
						4	Digital input 5 status: 0 = Off 1 = On
						5	Digital input 6 status: 0 = Off 1 = On
						6	Digital output 1 status: 0 = Off 1 = On
						7	Digital output 2 status: 0 = Off 1 = On
						8	Digital 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.

Tripping Cause

The tripping cause register provides information about the cause of the trip for the standard protection functions. When a tripping cause bit is at 1 in the tripping cause register, it indicates that a trip has occurred and has not been reset.

The tripping cause bit is reset as soon as the circuit breaker is closed again.

Address	Register	RW	Unit	Type	Range	Bit	Description
0x7D05	32006	R	–	INT16U	–	–	Quality of each bit of register 32007 (refer to Quality of Bits in Registers): 0 = Invalid 1 = Valid
0x7D06	32007	R	–	INT16U	–	–	Tripping cause for the standard protection functions
						0	Long-time protection Ir
						1	Short-time protection Isd
						2	Instantaneous protection Ii
						3	Ground-fault protection Ig
						4	Reserved
						5	Integrated instantaneous protection (SELLIM and DIN/DINF)
						6	Other protections
						7	Internal failure (overvoltage)
						8–14	Reserved
						15	If this bit is at 1, bits 0 to 14 are not valid.
0x7D07–0x7D1A	32008–32027	–	–	–	–	–	Reserved

Current

Address	Register	RW	Unit	Type	Range	Description
0x7D1B–0x7D1C	32028–32029	R	A	FLOAT32	–	RMS current on phase 1
0x7D1D–0x7D1E	32030–32031	R	A	FLOAT32	–	RMS current on phase 2
0x7D1F–0x7D20	32032–32033	R	A	FLOAT32	–	RMS current on phase 3
0x7D21–0x7D22	32034–32035	R	A	FLOAT32	–	RMS current on the neutral⁽¹⁾
0x7D23– x7D24	32036–32037	R	A	FLOAT32	–	Maximum of RMS current of phases 1, 2, 3 and N (most loaded phase)⁽²⁾
0x7D25–0x7D26	32038–32039	R	–	FLOAT32	–	Current ratio on ground (Ig setting ratio)
(1) Value available when system type register returns 30 or 41. (2) Value reset: see the reset minimum/maximum command.

Maximum Current Values

Maximum current values can be reset with the reset minimum/maximum command.

Address	Register	RW	Unit	Type	Range	Description
0x7D29–0x7D2A	32042–32043	R	A	FLOAT32	–	Maximum RMS current on phase 1
0x7D2B–0x7D2C	32044–32045	R	A	FLOAT32	–	Maximum RMS current on phase 2
0x7D2D–0x7D2E	32046–32047	R	A	FLOAT32	–	Maximum RMS current on phase 3
0x7D2F–0x7D30	32048–32049	R	A	FLOAT32	–	Maximum RMS current on the neutral⁽¹⁾
0x7D31–0x7D32	32050–32051	R	A	FLOAT32	–	This is the highest (i.e. maximum) maximum current value since this measurement was last reset. The measurement looks at all 3 currents, MaxI1, MaxI2, MaxI3, and MaxIN, and keeps track of the highest value of any of them over time.
(1) Value available when system type register returns 30 or 41.

Voltage

Address	Register	RW	Unit	Type	Range	Description
0x7D37–0x7D38	32056–32057	R	V	FLOAT32	41.6–2250	RMS phase-to-phase voltage V12
0x7D39–0x7D3A	32058–32059	R	V	FLOAT32	41.6–2250	RMS phase-to-phase voltage V23
0x7D3B–0x7D3C	32060–32061	R	V	FLOAT32	41.6–2250	RMS phase-to-phase voltage V31
0x7D3D–0x7D3E	32062–32063	R	V	FLOAT32	24-1500	RMS phase-to-neutral voltage V1N⁽¹⁾
0x7D3F–0x7D40	32064–32065	R	V	FLOAT32	24-1500	RMS phase-to-neutral voltage V2N⁽¹⁾
0x7D41–0x7D42	32066–32067	R	V	FLOAT32	24-1500	RMS phase-to-neutral voltage V3N⁽¹⁾
(1) Value available when system type register returns 40 or 41.

Power

Address	Register	RW	Unit	Type	Range	Description
0x7D47–0x7D48	32072–32073	R	W	FLOAT32	-16000000–16000000	Active power on phase 1^{(1) (2)}
0x7D49–0x7D4A	32074–32075	R	W	FLOAT32	-16000000–16000000	Active power on phase 2^{(1) (2)}
0x7D4B–0x7D4C	32076–32077	R	W	FLOAT32	-16000000–16000000	Active power on phase 3^{(1) (2)}
0x7D4D–0x7D4E	32078–32079	R	W	FLOAT32	-16000000–16000000	Total active power⁽²⁾
0x7D4F– 0x7D50	32080–32081	R	VAr	FLOAT32	-16000000–16000000	Reactive power on phase 1^{(1) (2)}
0x7D51–0x7D52	32082–32083	R	VAr	FLOAT32	-16000000–16000000	Reactive power on phase 2^{(1) (2)}
0x7D53–0x7D54	32084–32085	R	VAr	FLOAT32	-16000000–16000000	Reactive power on phase 3^{(1) (2)}
0x7D55–0x7D56	32086–32087	R	VAr	FLOAT32	-16000000–16000000	Total reactive power⁽²⁾
0x7D57–0x7D58	32088–32089	R	VA	FLOAT32	0–16000000	Apparent power on phase 1⁽¹⁾
0x7D59–0x7D5A	32090–32091	R	VA	FLOAT32	0–16000000	Apparent power on phase 2⁽¹⁾
0x7D5B–0x7D5C	32092–32093	R	VA	FLOAT32	0–16000000	Apparent power on phase 3⁽¹⁾
0x7D5D–0x7D5E	32094–32095	R	VA	FLOAT32	0–16000000	Total apparent power
(1) Value available when system type register returns 40 or 41. (2) The sign for the active and reactive power depends on the configuration of the register 3316.

Energy

Energy is stored in big-endian format: the most significant register is transmitted first.

Address	Register	RW	Unit	Type	Range	Description
0x7D5F–0x7D62	32096–32099	R	Wh	INT64	–	Total active energy
0x7D63–0x7D66	32100–32103	R	VARh	INT64	–	Total reactive energy
0x7D67–0x7D94	32104–32149	–	–	–	–	Reserved

Ground-Fault Current

Address	Register	RW	Unit	Type	Range	Description
0x7D95–0x7D96	32150–32151	R	A	FLOAT32	–	Ground-fault current
0x7D97–0x7D9A	32152–32155	–	–	–	–	Reserved

Current Demand Values

Address	Register	RW	Unit	Type	Range	Description
0x7D9B–0x7D9C	32156–32157	R	A	FLOAT32	–	Current demand value on phase 1: I1 Dmd
0x7D9D–0x7D9E	32158–32159	R	A	FLOAT32	–	Current demand value on phase 2: I2 Dmd
0x7D9F–0x7DA0	32160–32161	R	A	FLOAT32	–	Current demand value on phase 3: I3 Dmd
0x7DA1–0x7DA2	32162–32163	R	A	FLOAT32	–	Current demand value on the neutral: IN Dmd⁽¹⁾
(1) Value available when system type register returns 30 or 41.

Power Demand Values

When the window is a fixed type, this value is updated at the end of the window. For the sliding type, the value is updated every 15 seconds.

Address	Register	RW	Unit	Type	Range	Description
0x7DA3–0x7DA4	32164–32165	R	W	FLOAT32	–	Total active power demand: P Dmd
0x7DA5–0x7DA6	32166–32167	R	VAR	FLOAT32	–	Total reactive power demand: Q Dmd
0x7DA7–0x7DA8	32168–32169	R	VA	FLOAT32	–	Total apparent power demand: S Dmd
0x7DA9–0x7DC0	32170–32193	–	–	–	–	Reserved

Maximum Voltage Values

Address	Register	RW	Unit	Type	Range	Description
0x7DC1–0x7DC2	32194–32195	R	V	FLOAT32	41.6–2250	Maximum RMS phase-to-phase voltage V12
0x7DC3–0x7DC4	32196–32197	R	V	FLOAT32	41.6–2250	Maximum RMS phase-to-phase voltage V23
0x7DC5–0x7DC6	32198–32199	R	V	FLOAT32	41.6–2250	Maximum RMS phase-to-phase voltage V31
0x7DC7–0x7DC8	32200–32201	R	V	FLOAT32	24–1500	Maximum RMS phase-to-neutral voltage V1N⁽¹⁾
0x7DC9–0x7DCA	32202–32203	R	V	FLOAT32	24–1500	Maximum RMS phase-to-neutral voltage V2N⁽¹⁾
0x7DCB–0x7DCC	32204–32205	R	V	FLOAT32	24–1500	Maximum RMS phase-to-neutral voltage V3N⁽¹⁾
(1) Value available when system type register returns 40 or 41.

Power Factor

Address	Register	RW	Unit	Type	Range	Description
0x7DCD–0x7DCE	32206–32207	R	–	FLOAT32	–	Power factor on phase 1⁽¹⁾
0x7DCF–0x7DD0	32208–32209	R	–	FLOAT32	–	Power factor on phase 2⁽¹⁾
0x7DD1–0x7DD2	32210–32211	R	–	FLOAT32	–	Power factor on phase 3⁽¹⁾
0x7DD3–0x7DD4	32212–32213	R	–	FLOAT32	–	Total power factor
0x7DD5–0x7E52	32214–32339	–	–	–	–	Reserved
(1) Value available when system type register returns 40 or 41.

Inhibit Close Order

Address	Register	RW	Unit	Type	Range	Bit	Description
0x7E53	32340	R	–	INT16U	–	–	Quality of each bit of register 32341: 0 = Invalid 1 = Valid
0x7E54	32341	R	–	INT16U	–	–	Inhibit close order status
						0	Close breaker inhibited by IO module 0 = Disable 1 = Enable
						1	Close breaker inhibited by communication 0 = Disable 1 = Enable
						2–15	Reserved