Relay
Status
23 24/
CPM-10 MODBUS ADDRESS TABLE**Address number are Hexadecima
r!!sl
0~24 R/W
r!!sp
-19999~29999 R/W
r!!md
0~4 R/W
1 R/W
R/W
r!@sp
-19999~29999 R/W
r!@md
0~4
r!@sl
0~24
R/W
r!#sl
3
r!#sp
-19999~29999 R/W
r!!sb
0~9999 R/W
0~5999
(0.1second)
r!!hy
0~5000 R/W
0~5999
R/W
003DH R/W
r!!sd
r!#md
0~4 R/W
(0.1second)
0~5999
(0.1second)
r!@sb
0~9999 R/W
0~5999
(0.1second)
r!@hy
0~5000 R/W
0~5999
(0.1second)
r!@rd
r!@sd
r!!fd
0
0~5999
(0.1second)
r!#sb
0~9999 R/W
0~5999
(0.1second)
r!#hy
0~5000 R/W
0~5999
(0.1second)
0~5999
(0 1second)
r!#fd
r!#rd
r!#sd
r!@fd
.
bit0~bit2: Relay1.1~Relay1.3; 0=Relay off 1=Relay on
R/W
r!!rd
0~7
0~24
R/W
R/W
3000
0049H
0048H
0047H
0046H
0045H
0044H
0043H
0042H
0041H
0040H
003FH
003EH
003CH
003BH
003AH
0039H
0038H
0037H
0036H
0037H
0035H
0034H
0033H
0032H
0031H
40050
40051
40052
40053
40054
40055
40056
40057
40058
40059
40060
40061
40062
40063
40064
40065
40066
40067
40068
40069
40070
40071
40072
40073
40074
R/W
R/W
R/W
R/W
R/W
0
2
2
5000
4500
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0: Average Voltage 1: Average Current 2: Frequency 3: Total Active Power
4: Total Re-active Power 5: Total Apparent Power 6: Average Power Factor
7: Phase-A Voltage 8: Phase-B Voltage 9: Phase-C Voltage
10: Phase-A Current 11: Phase-B Current 12: Phase-C Current
13: Phase-A Power Factor 14: Phase-B Power Factor 15: Phase-C Power Factor
16: Phase-A Active Power 17: Phase-B Active Power 18: Phase-C Active Power
19: Phase-A Re-active Power 20: Phase-B Re-active Power
21: Phase-C Re-active Power 22: Phase-A Apparent Power
23: Phase-B Apparent Power 24: Phase-C Apparent Power
The parameter relative to Relay 1.1
0: Average Voltage 1: Average Current 2: Frequency 3: Total Active Power
4: Total Re-active Power 5: Total Apparent Power 6: Average Power Factor
7: Phase-A Voltage 8: Phase-B Voltage 9: Phase-C Voltage
10: Phase-A Current 11: Phase-B Current 12: Phase-C Current
13: Phase-A Power Factor 14: Phase-B Power Factor 15: Phase-C Power Factor
16: Phase-A Active Power 17: Phase-B Active Power 18: Phase-C Active Power
19: Phase-A Re-active Power 20: Phase-B Re-active Power
21: Phase-C Re-active Power 22: Phase-A Apparent Power
23: Phase-B Apparent Power 24: Phase-C Apparent Power
0: Average Voltage 1: Average Current 2: Frequency 3: Total Active Power
4: Total Re-active Power 5: Total Apparent Power 6: Average Power Factor
7: Phase-A Voltage 8: Phase-B Voltage 9: Phase-C Voltage
10: Phase-A Current 11: Phase-B Current 12: Phase-C Current
13: Phase-A Power Factor 14: Phase-B Power Factor 15: Phase-C Power Factor
16: Phase-A Active Power 17: Phase-B Active Power 18: Phase-C Active Power
19: Phase-A Re-active Power 20: Phase-B Re-active Power
21: Phase-C Re-active Power 22: Phase-A Apparent Power
23: Phase-B Apparent Power 24: Phase-C Apparent Power
The parameter relative to Relay 1.2
The parameter relative to Relay 1.3
Relay 1.1 Energized Mode
0: No Use 1: Low Energized 2: High Energized 3: Low Energized Hold
4: High Energized Hold
Relay 1.1 Set Point
Relay 1.2 Set Point
Relay 1.2 Energized Mode
0: No Use 1: Low Energized 2: High Energized 3: Low Energized Hold
4: High Energized Hold
0: No Use 1: Low Energized 2: High Energized 3: Low Energized Hold
4: High Energized Hold
Relay 1.3 Energized Mode
Hysteresis of Relay 1.1
Energized Delay Time of Relay 1 1
Relay 1.3 Set Point
Start Band of input for Relay1.1 energized
Start Delay Time of input for Relay1.1 energized
Energized Delay Time of Relay 1.2
Start Delay Time of input for Relay1.2 energized
Hysteresis of Relay 1.2
De-Energized Delay Time of Relay 1.1
Start Band of input for Relay1.2 energized
De-Energized Delay Time of Relay 1.3
Hysteresis of Relay 1.3
Energized Delay Time of Relay 1.3
Start Band of input for Relay1.3 energized
Start Delay Time of input for Relay1.3 energized
De-Energized Delay Time of Relay 1.2
Name
Address
Range
Read/White
Initial
Explain
Modbus
Address
En d te rm in al o hm
ADEFGHI -1,:JKL)*MNO.PQNOMRS.<)
*3 4RSTUVWP4W.3
)*1 2 4,1-10~1-27XYZRSP W
)*1 4,1-14/1-1 ~ XYZRSP3W 6 27
)*3 4,1-1 1-1 /1-1 1- /P3W.1 3~ 5 7/1-18/ 20 1-21/1-23/1-24/1-
26/1-27XYZRS
)*3 4,1-1 1- /1- XYZRSP3W.2 7/ 20 23/1-26
)*3 4,1-1 1- /1- XYZRSP3W.3 7/ 20 23/1-26
)*3 4,1-1 1- /1-P4W.1 4~15/ 17~18 20~21/1-23~24/1-26~27
XYZRS
)*+,:1 p 2 w 1 p 3 w 3 p 3 w .1 3 p 3w .2 3p 3w .3/ / / / /
3 p 4 w .1 3 p 4 w .3/
"#$%&':
v a v g. ()*+,-.:
i a v g. ()*/,-.:
f r e q :
2345.
p . t l :()673.
q . t l :()6873.
s . t l :()69:73.
p f . a vg :(),-73;
%45.
v a : )*+.45A
vb :B)*+.45
vc :C)*+.45
ia :A)*/.45
ib :B)*/.45
ic :C)*/.45
p f - a :A)7345.
pf-b :B)7345.
pf-c :C)7345.
p - a :A)7345.
p-b :B)7345.
p-c :C)7345.
q - a :A)87345.
q-b :B)87345.
q-c :C)87345.
s - a :A)9:7345
s - b :B)9:7345
s - c :C)9:7345
RELAY / PULSE output of the outputs can
only choose a functional output
EX: Select PULSE output and then RELAY
function no output and vice versa
Clamp CT
Optional of Clamp CT, make sure
(1)CT of the SN number with the
CPM-10 SN number, as shown
( )2 On the label
A A Phase B B: - ; : -
Phase C C Phase; : - ;
According to the phase matching
Relay Pulse output
CL
BK
AK
AL
BL
CK
, ,0123CT4 56789:; <=>?@A