revenue metering connection diagrams metering connection diagrams... · 120/240 volt -1 phase -3...
TRANSCRIPT
REVENUE METERING CONNECTION DIAGRAMS
YELLOW Section 1. PRESENT STANDARDS (CONTENTS)
2. 1 PHASE – 2 & 3 W
3. NETWORK
4. 3 PHASE – 4 W – WYE
5. PULSE METERS
GREEN Section 6. PREVIOUS STANDARDS (CONTENTS)
7. 1 PHASE – 2 W
8. 1 PHASE – 3 W
9. 3 PHASE – 3 W – DELTA
10. 3 PHASE – 4 W – DELTA
11. 3 PHASE – 4 W – WYE
12. PULSE METERS
WHITE Section 13. APPENDIX (CONTENTS)
14. GENERAL
15. CURRENT TRANSFORMERS
16. TEST PROCEDURES
17. CHARTS & Meter Displays
18. ERRORS
REVENUE METERING CONNECTION DIAGRAMS
CONTENTS
NOTE: Additional metering information can be found in the “Electric Service Requirements”,
“Revenue Metering Material Code Book” and “Revenue Metering Course Manual.”
PRESENT STANDARDS
YELLOW SECTION
THE DIAGRAMS IN THIS SECTION ARE TO BE USED FOR ALL NEW CONSTRUCTION OR
NEW INSTALLATIONS.
1 PHASE – 2 WIRE CD-120
1 PHASE - 3 WIRE CD-130
NETWORK CD-140
3 PHASE - 4 WIRE WYE CD-181
PULSE METERS CD-510
PREVIOUS STANDARDS
GREEN SECTION
THE DIAGRAMS IN THIS SECTION ARE TO BE USED ONLY FOR THE MAINTENANCE OF
EXISTING INSTALLATIONS.
1 PHASE - 2 WIRE CD-220
1 PHASE - 3 WIRE CD-231
NETWORK
3 PHASE - 3 WIRE CD-239
3 PHASE - 4 WIRE DELTA CD-269
3 PHASE - 4 WIRE WYE CD-280
PULSE METERS CD-633
APPENDIX
WHITE SECTION
THIS SECTION CONTAINS INFORMATION IMPORTANT TO METERING.
GENERAL AP-100
CURRENT TRANSFORMERS AP-200
TEST PROCEDURES AP-300
CHARTS AP-500
ERRORS ER-700
YELLOW SECTION THE CONNECTION DIAGRAMS IN THIS SECTION ARE TO BE USED FOR ALL NEW CONSTRUCTION
REVENUE METERING CONNECTION DIAGRAMS
CONTENTS
NOTE: Additional metering information can be found in the “Electric Service Requirements”,
“Revenue Metering Material Code Book” and “Revenue Metering Course Manual.”
PRESENT STANDARDS
YELLOW SECTION
THE DIAGRAMS IN THIS SECTION ARE
TO BE USED FOR ALL NEW
CONSTRUCTION.
1 PHASE - 2 WIRE
CD-120 REV 2005
1 PHASE - 3 WIRE
CD-130 REV 2007
CD-133 REV 2006
CD-134 REV 2005
CD-136 REV 2008
CD-137 REV 2008
CD-138 REV 2008
NETWORK
CD-140 REV 2005
CD-142 REV 2008
3 PHASE - 4 WIRE WYE
CD-181 REV 2007
CD-182 REV 2008
CD-183 REV 2008
CD-185 REV 2008
CD-186 REV 2008
CD-187 REV 2008
CD-188 REV 2006
CD-XXX-N REV 2005
CD-XXX-R REV 2006
PULSE METERS
CD-500 REV 2005
CD-510 REV 2008
CD-512 REV 2005
CD-522 REV 2005
CD-551 REV 2008
CD-552 REV 2008
CD-554 REV 2008
CD-556 REV 2005
CD-562 REV 2006
CD-563 REV 2006
CD-564 REV 2007
CD-565 REV 2005
CD-570 REV 2005
CD-572 REV 2007
CD-573 REV 2005
CD-578 REV 2005
CD-579 REV 2007
CD-580 REV 2007
CD-581 REV 2007
SERVICE VOLTAGE
120 VOLT - 1 PHASE - 2 WIRECD- 120
LOAD
LINE
PH
AS
E
NE
UT
RA
L
TYPES
170S
K2S
D5S
J5S
C1S
(CENTRON)
METER
10 AMP - 120 VOLT - 1 PHASE - 2 WIRE
100 AMP - 120 VOLT - 1 PHASE - 2 WIRE
BILLING MULTIPLIER IS
METER MULTIPLIER
REV. 2008
PREVIOUSLY CD-218
CODE 14-12-11
kWh
200 AMP - 120 VOLT - 1 PHASE - 2 WIRE
PH
AS
E
PH
AS
E
NE
UT
RA
L
LINE
LOAD
CD-130
PH
AS
E
PH
AS
E
NE
UT
RA
L
BOND
SERVICE VOLTAGE
120/240 VOLT - 1 PHASE - 3 WIRE
TYPESkWh
M1S SS1S0D
AB1 C1S
J5S KS
K2S I60S
170S D5S
D4S D3S
KWSD K2WSD
VA DEMAND
(OILFIELD)
K2LS
SVIS
SS1S2L
REVISION 2008
METER
kWh
CODECODE AMP MULT.
15-23-11
15-23-17
15-23-13
2 - 200
1
40
15-23-19
15-23-1GSEE CD-510
100
10
1
1
10
4
DIALS
LP PULSE WEIGHT
0.5 ALPHA
1.5 SENTINEL
VA DEMAND (OILFIELD)
CODE AMP MULT.
34-23-11 1 - 100 20
VA DEMAND - ELECTRONIC
35-23-13
35-93-14 2 - 200
40
MAX. 24 kVA
MAX.
48 kVA
MAX.
96 kVA10
NOTE: VOLTAGE TEST LINKS,
LOCATED ON THE BACK OF OLDER METERS MUST
BE IN CLOSED POSITION BEFORE INSTALLATION.
NEW METERS DO NOT COME WITH TEST LINKS.
BILLING MULTIPLIER IS:
METER MULTIPLIER
240 VOLT 1 PHASE 3 WIRE
120-480 VOLT - 1 PHASE - 3 WIRE
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS SEE
CD-510
½ C
OIL
½ C
OIL
12
3 4
35-93-1C
35-93-1G10
MAX.
96 kVA
15-93-13 10 5 DIALS
PHASE
PHASE
NEUTRAL
LINE
LOAD
CD-133
PHASE
PHASE
NEUTRAL
BOND
SERVICE VOLTAGE
240/480 VOLT - 1 PHASE - 3 WIRE
TYPES
VA DEMAND
K2LS
SVIS
VECTRON
SS1S2L
SS1SOD
(SENTIENEL)
A3TL
(ALPHA3)
REVISION 2008
METER
VA DEMAND - THERMAL
CODE AMP MULT.
33-43-11 20
VA DEMAND - ELECTRONIC
35-43-13
35-93-142 - 200
80
10
NOTE 1:
VOLTAGE TEST LINKS,
LOCATED ON THE BACK OF
METER MUST BE IN CLOSED
POSITION BEFORE
INSTALLATION.
BILLING MULTIPLIER IS:
METER MULTIPLIER
480 VOLT - 1 Ø - 3 WIRE
120 – 480 VOLT - 1Ø – 3 WIRE
34-43-11 1 - 100 40
35-43-11 2 - 200 80
NOTE 2:
FOR "F" SERIES CABINET
CONNECTIONS SEE
CONSTRUCTION STANDARDS
SECTION-A24-XX
NOTE 3:
WHEN INSTALLING A
35-93-1C OR 35-93-1G
METER SEE CD-510
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS SEE
CD-510
INTERVAL METERS WITH INTERNAL MODEM OR
RS232 & MASS MEMORY
35-93-1C 2 - 200 10
12
3 435-93-1G 2 - 200 10
.5 - 20
kWh
CODE AMP MULT.
15-93-13 102 - 200
LINE
GND
R/BK
R/W
Y
R
LOAD
CIRCUIT CLOSER
LEFT SIDE
BOND
NEU
TR
AL
SERVICE VOLTAGE
120/240 VOLT - 1 PHASE - 3 WIRE
CD-134
TYPES
kWh
C1SD
M1S
K2S
I210
I70S
CJ3S
K2WSD
KWSD
VA DEMAND
K2LS
SVIS
KV2C
METER
kWh
VA DEMAND - THERMAL
VA DEMAND - ELECTRONIC
BILLING MULTIPLER IS:
METER MULTIPLIER X C.T. RATIO
NOTE:
REFER TO CD-137 WHEN 3-WIRE
CT IS NOT PRACTICAL DUE TO
SIZE OF CONDUCTORS.
REV. Oct 20 2009
.12-10 AMP - 240 VOLT - 1 PHASE - 2 WIRE
CODE 11-22-11
CODE 31-22-11
CODE 31-22-13
1 2
3 4CODE 31-22-14
CODE 11-22-13
kWh – Bidirectional Net meter
CODE 21-22-13
VA DEMAND – ELECTRONIC Bidirectional NET meter
CODE 51-22-14
LINE
GND
R/BK
R/W
Y
R
LOAD
CIRCUIT CLOSER
LEFT SIDE
BOND
NE
UT
RA
L
SERVICE VOLTAGE
240/480 VOLT - 1 PHASE - 3 WIRE
CD-136
TYPES
kWh
M1S
K2S
CJ3S
K2WSD
KWSD
I210
VA DEMAND
K2LS
KV2C
SVIS
ALPHA3
METER
kWh
VA DEMAND
BILLING MULTIPLER IS:
METER MULTIPLIER X C.T. RATIO X P.T. RATIO
REV. 2008
.12-10 AMP - 120 VOLT - 1 PHASE - 2 WIRE
CODE 11-12-11
CODE 31-12-111 2
3 4
Y
R
480 V
120 V
CODE 31-12-13
CODE 31-12-14
LINE
GND
R/BK
R/W
Y
R
LOAD
CIRCUIT CLOSER
LEFT SIDE
BOND
NEUTRAL
SERVICE VOLTAGE
120/240 VOLT - 1 PHASE - 3 WIRE
WINDOW OR BAR TYPE CT'S
CD-137
TYPES
kWh
M1S
K2S
I210
I70S
J5S
K2WSD
KWSD
kV2c
VA DEMAND
K2LS
KV2C
SVIS
ALPHA3
kV2c
METER
kWh
VA DEMAND - THERMAL
VA DEMAND - ELECTRONIC
BILLING MULTIPLER IS:
METER MULTIPLIER X 1/2 C.T. RATIOREV. Oct 20 2009
.12-10 AMP - 240 VOLT - 1 PHASE - 2 WIRE
CODE 11-22-11
CODE 31-22-11
CODE 31-22-13
Y/W
Y/BK
ALTERNATE TO CD-134,
DUE TO SIZE OF CONDUCTORS
1 2
3 4CODE 31-22-14
CODE 11-22-13
kWh – Bidirectional Net meter
CODE 21-22-13
VA DEMAND – ELECTRONIC Bidirectional NET meter
CODE 51-22-14
LINE
GND
R/BK
R/W
Y
R
LOAD
CIRCUIT CLOSER
LEFT SIDE
BOND
NEUTRAL
SERVICE VOLTAGE
240/480 VOLT - 1 PHASE - 3 WIRE
WINDOW OR BAR TYPE CT'S
CD-138
TYPES
kWh
M1S
K2S
I70S
K2WSD
KWSD
VA DEMAND
K2LS
KV2C
SVIS
ALPHA3
METER
kWh
VA DEMAND - THERMAL
VA DEMAND - ELECTRONIC
BILLING MULTIPLER IS:
METER MULTIPLIER X
1/2 C.T. RATIO X PT RATIO
REV. 2008
.12-10 AMP - 120 VOLT - 1 PHASE - 2 WIRE
CODE 11-12-11
CODE 31-12-11
CODE 31-12-13Y/W
Y/BK
ALTERNATE TO CD-136,
DUE TO SIZE OF CONDUCTORS
MULT.
1
1
1
1 2
3 4
480 V
120 V
R
Y
CODE 31-12-14 1
NEUTRAL
LINE
LOADNEUTRAL
BOND
SERVICE VOLTAGE
120/208 VOLT - 3 WIRE - NETWORK
CD-140
TYPES
kWh
PCS
KYS
P20S
V62S
D4S5
KWYSD
CN1S
METER
120 VOLT - NETWORK - 3 WIRE
kWh
CODE AMP. MULT.
14-13-21 1.2 - 1001
20
15-13-21 2.5 - 2001
40
NOTE 1:
THE LOAD CAN BE TAKEN
OFF ANY TWO OF THE
THREE PHASES FOR LOAD
BALANCING
NOTE 2:
NEW INSTALLATION LAY-IN
TERMINAL TO BE
CONNECTED TO 5TH JAW
NOTE 3:
INTERNAL METER
CONNECTION
REV. 2008
VOLTAGE AT
SOCKET
TERMINAL VOLTS
1 - 5
2 - 5
1 - 2
120
120
208
BILLING MULTIPLIER IS
METER MULTIPLIER
UNITY P.F.
ERN
IR
300
IR-B
R 0
ELEMENT
B 0
ELEMENT
IB
300
IB-R
EBN
120 V - LOAD - IR AND IB
208 V - LOAD - IRB AND IBR
15-13-23 2 - 200 1
1 2
3 4
5
.12 - 10 AMP - 120 VOLT 3 PHASE -3 WIRE
BOND
BE
R
R/W
WR/BK
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
WR BE R/BKR/W BE/BKBE/W
SERVICE VOLTAGE
120/208 VOLT - 3 WIRE - NETWORK
CD-142
8-JAW COMBINATION
SOCKET
TYPES
KYS
P20S
V63S
D4S2
KYWSD
kWh
VA DEMAND
KYLS
KVIS
SVIS
METER
METER - FOR VA DEMAND
0.1 - 10 AMP -120 VOLT - NETWORK
UNITY P.F.
ERN
IR
300
IR-B
R Ø
ELEMENT
B Ø
ELEMENT
IB
300
IB-R
EBN
kWh
CODE 11-13-31
VA DEMAND - ELECTRONIC
VA DEMAND - THERMAL
CODE 31-13-22
CODE 31-13-23
CODE 31-13-21
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
BILLING MULTIPLIER IS:
METER MULTIPLIER X CT RATIO
NOTE: LOAD CAN BE TAKEN OFF ANY TWO OF THE THREE PHASES FOR LOAD
BALANCING. REGARDLESS OF PHASES USED WIRING MUST BE COLOR
CODED AS SHOWN.
NOTE:
31-13-22 AND 31-13-
23 METERS MUST
BE MARKED AS
"NETWORK" ON THE
NAMEPLATE.
31-13-33
ELECTRONIC
METERS ARE NOT
MARKED AS
NETWORK METERS
LINE
NEUTRAL
REVISION 2008
CODE 31-13-33
CODE 31-13-34
3 ELEMENT SELF-CONTAINED
CD-181
w
4 5 6 7
N
RY BE
NOTE: 1
VOLTAGE TEST LINKS
(POT links) ON BACK OF
METER MUST BE CLOSED
NOTE: 2
0N 277/480 VOLT OR 347/600
VOLT SERVICES THE METER
MUST BE CONNECTED BEHIND
THE CUSTOMERS MAIN SWITCH
AND THE NEUTRAL SPLITTER IN
THE SOCKET MUST BE
INSULATED FROM GROUND.
UNITY P.F. ERN
EYNEBN
IR
IYIB
R ELEMENT
Y ELEMENT
B ELEMENT
N R Y BETYPES
KWH
KYS
VA DEMAND
SVIS
(VECTRON)
SV4SD
SV4SR
(SENTINEL)
SS4S0D
SS4S2L
(ELSTER)
A3KL
BILLING MULTIPLIER IS
METER MULTIPLIER
1 2 3
SERVICE VOLTAGE120/208 - 277/480 - 347/ 600V 3PH - 4W - WYE
OR EXISTING 120/240V 3PH - 4W - DELTA
SERVICE VOLTAGE
TERMINAL 120 / 208 120 / 240 277 / 480 347 / 600
1 – 6 120 120 277 347
VOLTAGE 2 - 6 120 120 277 347
AT 3 – 6 120 208 277 347
SOCKET 1 – 2 208 240 480 600
2 – 3 208 240 480 600
1 - 3 208 240 480 600
WYE
DELTA
REV. Oct 20 2009
SERVICE METER – 120 V0LT – 3PH – 4W – WYE
120/208 VOLT OR - 120-480 VOLT – 3PH – 4W - WYE
WYE CODE AMPS MULT.
KWH 15-15-31 4 DIAL X10
15-95-33 20
VA DEMAND 35-15-33 2.0 - 200 20
ELECTRONIC 55-95-34
55-95-3G
25
25
SERVICE METER – 120-480 VOLT – 3PH – 4W - WYE
120/240 VOLT
DELTA CODE AMPS MULT.
KWH 15-95-33 2.0 - 200 20
VA DEMAND 35-95-34 25
ELECTRONIC 55-95-34
55-95-3G
2.0 - 200 25
25
SERVICE METER – 277 V0LT – 3PH – 4W – WYE
277/480 VOLT OR - 120-480 VOLT – 3PH – 4W – WYE
WYE CODE AMPS MULT.
KWH
ELECTRONIC
15-95-37
15-95-33
100
20
VA DEMAND 35-75-33 2.0 - 200 20
ELECTRONIC 35-95-34
55-95-34
55-95-3G
25
25
25
SERVICE METER – 347 V0LT – 3PH – 4W – WYE
347/600 VOLT OR - 120-480 VOLT – 3PH – 4W - WYE
WYE CODE AMPS MULT.
KWH
ELECTRONIC
15-95-37
15-95-33
100
20
VA DEMAND 35-35-33 2.0 - 200 20
ELECTRONIC 35-95-34
55-95-34
55-95-3G
25
25
25
NOTE: 3
DO NOT USE SVIS METERS
ON 120/240 VOLT DELTA
SERVICES
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS SEE
CD-551
1 2 3 4 65 7 8 9 10
BOND
GN
R Y BE WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
120/208 VOLT - 3PHASE - 4 WIRE - WYE
THREE ELEMENT
CD-182
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT – 3 PHASE 4W - Y
kWh
CODE 11-15-31
VA - DEMAND - ELECTRONIC
CODE 31-15-33CODE 31-15-34
TYPES
VA DEM.
SVIS
VIME4S
SV4SD
SV4SR
SS4S2L
A3KL
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
UNITY
P.F.
ERN
IR
B Ø
ELEMENT
IB
R ØELEMENT
IY
Y Ø
ELEMENT
NOTE:
MANUFACTURER’S MARKINGS MAY VARY
AT THE TERMINALS ON THE METER
SOCKET. PLEASE WIRE AS INDICATED ON
THE DRAWING.
REV. Oct 20 2009
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS
SEE CD-552
INTERVAL METERS WITH
COMMUNICATIONS(SEE CD-552)
CODE 31-15-3CCODE 31-15-3G
1 2 3
4 5 6
7
8
9
13
12
11
10
EBN EYN
XO
SPC TRANSFORMATION
CODE 31-15-6CCODE 31-15-6GCODE 31-15-66CODE 31-15-69
CODE 51-15-34CODE 51-15-3G
CODE 51-15-3G
1 2 3 4 65 7 8 9 10
BOND
GN
R Y BE WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE – WITH GROUND FAULT RESISTOR
120/208 VOLT – 3 PHASE - 4 WIRE – WYE
THREE ELEMENT
CD-183
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT - 3PHASE 4W - Y
VA - DEMAND - ELECTRONIC
CODE 31-15-33CODE 31-15-34
TYPES
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
UNITY
P.F.ERN
IR
B Ø
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
NOTE:
MANUFACTURES MARKINGS MAY VARY AT THE
TERMINALS ON THE METER SOCKET. PLEASE
WIRE AS INDICATED ON THIS DRAWING.
REV. Oct 20 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
CAUTION: DO NOT GROUND XO (REF. DWG CS
A-30-04) ( CIRCULAR MSC-10) INSTALL
INSULATED NEUTRAL BUSHING FOR THE STAR
POINT FOR METERING 3 PHASE 4 WIRE WYE XO
R
GROUND
FAULT RELAYGROUND FAULT
RESISTOR
HO
EBNEYN
CUSTOMER EQUIPMENT
SPC TRANSFORMATION
kWh
CODE 11-15-31
INTERVAL METERS WITH
COMMUNICATIONS
(SEE CD-552)
CODE 31-15-3CCODE 31-15-3GCODE 31-15-6CCODE 31-15-6GCODE 31-15-66CODE 31-15-69
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS
SEE CD-552
4 5 6
1 2 37 13
8
10
12
119
VA DEM.
SVIS
ALPHA3
VECTRON
SENTINEL
ION 8500
ION 8600
Q1000CODE 51-15-34
CODE 51-15-3G
1 2 3 4 65 7 8 9 10
BOND
GN
R Y BE WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/W
Y/WBE/W
R/BK
Y/BK
BE/BK
SERVICE VOLTAGE
EXISTING 120/240 VOLT - 3 PHASE - 4 WIRE - DELTA
METERED 4 WIRE WYE THREE ELEMENT
* DO NOT USE FOR NEW CONSTRUCTION
CD-185
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT – 3 PHASE 4W - Y
kWh
CODE 11-15-31
VA - DEMAND - ELECTRONIC
CODE 31-15-33CODE 31-15-34
TYPES
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
240
240
240
208
120
120UNITY
P.F.
ERN
IR
B Ø
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
NOTE:
MANUFACTURE’S
MARKINGS MAY VARY AT
THE TERMINALS ON THE
METER SOCKET. PLEASE
WIRE AS INDICATED ON THE
DRAWING.
REV. DEC 2008 BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
INTERVAL METERS WITH
COMMUNICATIONS (SEE CD-554)
CODE 31-15-3CCODE 31-15-3G
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS
SEE CD-553
SPC
TRANSFORMATION
CODE 31-15-6CCODE 31-15-6GCODE 31-15-66CODE 31-15-69
4 5 6
1 2 37
8
9
10
11
12
13
VA DEM.
SVIS
ALPHA3
VECTRON
SENTINEL
ION 8500
ION 8600
Q1000
CODE 51-15-34
1 2 3 4 65 7 8 9 10
BOND
GN
RY BE
WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
277/480 - 347/600 - 2400/4160 – 8400/14400 - 14400/25000 - 41250/72000 - 80500/138000 VOLT
3 PHASE - 4 WIRE - WYE THREE ELEMENTCD-186
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT - 3PHASE 4W - Y
VA - DEMAND - ELECTRONIC
CODE 31-15-33CODE 31-15-34
TYPES
VA DEM.
SVIS
ALPHA3
VECTRON
SENTINEL
ION 8500
ION 8600
Q1000
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
UNIT
Y P.F.
ERN
IRBØ
ELEMENT
IB
R Ø
ELEMENT
I
YY Ø
ELEMENT
NOTE:
MANUFACTURES' MARKINGS MAY
VARY AT THE TERMINALS ON THE
METER SOCKET. PLEASE WIRE AS
INDICATED ON THIS DRAWING.
REV. Oct 20 2009
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO X
P.T. RATIO
13-JAW
COMBINATION
SOCKET
BRBK
277/480 347/600
192
192
192
111
111
111
200
200
200
115
115
115
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS
SEE CD-554
EYNEBN
CAUTION:
INSTALL INSULATED NEUTRAL BUSHING
FOR THE COMMON NEUTRAL POINT
FOR METERING 3 PHASE 4 WIRE WYE
CAUTION:
DO NOT COMMON THE H2 TERMINALS OF THE PT’s
OR CONNECT H2 TO THE X2 OF THE PT’s
XO
R Y BE
BK BR W
SPC TRANSFORMATION
INTERVAL METERS WITH
COMMUNICATIONS
(SEE CD-552)
CODE 31-15-3CCODE 31-15-3GCODE 31-15-6CCODE 31-15-6GCODE 31-15-66CODE 31-15-69
4 5 6
1 2 37
8
9
10
11
12
13
CODE 51-15-34
CODE 51-15-3G
1 2 3 4 65 7 8 9 10
RY BE
W
R/W
R/BK
Y/W BE/W
Y/BKBE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
PCS Cory GIS Substation 80500/138000 VOLT
3 PHASE - 4 WIRE - WYE THREE ELEMENT
CD-186aMETER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
ION 8600
R
Y
BE
NEUTRAL
LINE LOAD
R
Y
BE
N
BILLING
MULTIPLIER is
built in ION8600
meter program
13-JAW
COMBINATION
SOCKET
BRBK
CAUTION:
INSTALL INSULATED
NEUTRAL BUSHING FOR
THE COMMON NEUTRAL
POINT FOR METERING 3
PHASE 4 WIRE WYE
XO
R Y BE
BK BR W
PCS owned GIS with CT/PT built in
4 5 6
1 2 37
8
9
10
11
12
13
UNIT
Y P.F.
ERN
IRBØ
ELEMENT
IB
R Ø
ELEMENT
I
YY Ø
ELEMENT
EYNEBN
VOLTAGE AT TEST
SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
2 3 4 5 61 7 8 109
LCC Relay Cabinet
See PCS Drawing
80-70-1003
V1A
V2A V1B
V2B V1C
V2C
V3C
V1A
V1B
V1C
V1PE
V1C
V1B
V1A
C1PE
C13
C12
C11
R/BK Y/BK BE/BK
3 circuit
Breakers
UNUSED
1 2 3 4 65 7 8 9 10
BOND
GN
RY BE
WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
277/480 - 347/600 - 2400/4160 – 8400/14400 - 14400/25000 - 41250/72000 - 80500/138000 VOLT
3 PHASE - 4 WIRE - WYE THREE ELEMENT WITH GROUND FAULT RESISTORCD-187
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT - 3PHASE 4W - Y
VA - DEMAND - ELECTRONIC
CODE 31-15-33CODE 31-15-34
TYPES
R
Y
BE
LINE
LOAD
R
Y
BE
N
VOLTAGE AT TEST
SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
UNITY
P.F.ERN
IR
B Ø
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
NOTE:
MANUFACTURER’S MARKINGS
MAY VARY AT THE TERMINALS
ON THE METER SOCKET.
PLEASE WIRE AS INDICATED
ON THIS DRAWING.
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO X
P.T. RATIO
13-JAW
COMBINATION
SOCKET
BRBK
HO
R
GROUND
FAULT RELAYGROUND FAULT
RESISTOR
XO
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS
SEE CD-554
CAUTION: DO NOT GROUND XO (REF.
DWG CS A-30-04) ( CIRCULAR MSC-10)
INSTALL INSULATED NEUTRAL BUSHING
FOR THE COMMON NEUTRAL POINT
FOR METERING 3 PHASE 4 WIRE WYE
CAUTION:
DO NOT COMMON THE H2
TERMINALS OF THE PT’s OR
CONNECT H2 TO THE X2 OF THE
PT’s
CUSTOMER
EQUIPMENT
R Y BE
BK BR W
TCPL Transformer
80500-2400V
NEUTRAL
INTERVAL METERS WITH
COMMUNICATIONS
(SEE CD-552)
CODE 31-15-3CCODE 31-15-3GCODE 31-15-6CCODE 31-15-6GCODE 31-15-66CODE 31-15-69
1 2 3
4 5 6
7
8
9
10
11
12
13
VA DEM.
SVIS
ALPHA3
VECTRON
SENTINEL
ION 8500
ION 8600
Q1000
CODE 51-15-34
SaskPower PTs
2400-120V
SaskPower CTs
3000-5A
1 2 3 4 65 7 8 9 10
BOND
GN
RY BE
WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
277/480 - 347/600 - 2400/4160 – 8400/14400 - 14400/25000 - 41250/72000 - 80500/138000 VOLT
3 PHASE - 4 WIRE - WYE THREE ELEMENT WITH GROUND FAULT RESISTORCD-187
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT - 3PHASE 4W - Y
VA - DEMAND - ELECTRONIC
CODE 31-15-33CODE 31-15-34
TYPES
R
Y
BE
LINE
LOAD
R
Y
BE
N
VOLTAGE AT TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120UNITY
P.F.ERN
IR
B Ø
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
NOTE:
MANUFACTURER’S MARKINGS
MAY VARY AT THE TERMINALS
ON THE METER SOCKET.
PLEASE WIRE AS INDICATED
ON THIS DRAWING.
REV. DEC 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO X
P.T. RATIO
13-JAW
COMBINATION
SOCKET
BRBK
277/480 347/600
192
192
192
111
111
111
200
200
200
115
115
115
HO
R
GROUND
FAULT RELAYGROUND FAULT
RESISTOR
XO
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS
SEE CD-554
CAUTION: DO NOT GROUND XO (REF.
DWG CS A-30-04) ( CIRCULAR MSC-10)
INSTALL INSULATED NEUTRAL BUSHING
FOR THE COMMON NEUTRAL POINT
FOR METERING 3 PHASE 4 WIRE WYE
CAUTION:
DO NOT COMMON THE H2
TERMINALS OF THE PT’s OR
CONNECT H2 TO THE X2 OF THE
PT’s
CUSTOMER
EQUIPMENT
R Y BE
BK BR W
SPC TRANSFORMATION
NEUTRAL
INTERVAL METERS WITH
COMMUNICATIONS
(SEE CD-552)
CODE 31-15-3CCODE 31-15-3GCODE 31-15-6CCODE 31-15-6GCODE 31-15-66CODE 31-15-69
1 2 3
4 5 6
7
8
9
10
11
12
13
VA DEM.
SVIS
ALPHA3
VECTRON
SENTINEL
ION 8500
ION 8600
Q1000
CODE 51-15-34
CODE 51-15-3G
REV. Oct 20 2009
1 2 3 4 65 7 8 9 10
BOND
GN
RBE
WR
ORBK BE
GN W
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
WIND MILLS
SERVICE VOLTAGE
398/690 VOLT
3 PHASE - 4 WIRE - WYE THREE ELEMENT
CD-188
METER
.2 - 20 AMP -120-480 VOLT - 3PHASE 4W - Y
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT TEST
SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
398
398
398
120
120
120
UNITY
P.F.
ERN
IR
BØ
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
REV. 2005
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
X P.T. RATIO
13-JAW
COMBINATION
SOCKET
ION 8300 METER C/W MASS
MEMORY, RS232/485,
ETHERNET, OPTICAL PORT.
Stock Code 51-15-3K
I/O cable,
Ethernet, and
RS232/485
EYNEBN
ORBK GN
1 2 3 4 65 7 8 9 10
BOND
GN
RBE
WR
ORBK BE
GN W
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
WIND MILLS
SERVICE VOLTAGE
398/690 VOLT
3 PHASE - 4 WIRE - WYE THREE ELEMENT
CD-188
METER
.2 - 20 AMP -120-480 VOLT - 3PHASE 4W - Y
R U BE
Y V BK
BE W R
NEUTRAL
LINE
LOAD
N
VOLTAGE AT TEST
SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
398
398
398
120
120
120
UNITY
P.F.
ERN
IR
BØ
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
REV. 2006
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO X
P.T. RATIO
13-JAW
COMBINATION
SOCKET
ION 8300 METER C/W
MASS MEMORY, RS232/
485, ETHERNET,
OPTICAL PORT, AND
COMPENSATION
Stock Code 51-15-3K
I/O cable,
Ethernet, and
RS232/485
EYNEBN
ORBK GN
RBK BE
WGNOR
R U BE
Y V BK
BE W R
NOTE 2: BUS BAR AND H1
CONNECTIONS ON PT’s
CONNECTED BY VESTAS
NOTE 3: H2 SIDE OF PT’s
CONNECTED BY SASKPOWER TO
AN INSULATED NEUTRAL
CONNECTION POINT PROVIDED
BY VESTAS. AT THIS POINT
THERE SHOULD NOT BE ANY
CONNECTION BETWEEN
NEUTRAL AND GROUND.
NOTE 1: CT’s AND PT’s
INSTALLED BY VESTAS
NOTE 4: CT & PT SECONDARY
TERMINATED BY SASKPOWER
NOTE 5: CTs AND PTs ARE
NON-STANDARD TO NORMAL
METERING
4 5 6
1 2 37
8
9
10
11
12
13
1 2 3 4 65 7 8 9 10
GN
RY BE
WR/W
R/BKY/W BE/W
Y/BK BE/BKBR
BK
TO 3 ELEMENT METER
BE/BK
BE/W
X1
X2
X3
H1 H2
BE
W
HO
Y1
Y2
Y3
Z2
Z1
Z3
Y/BK
Y/W
X1
X2
X3
H1 H2
Y
BR
HO
Y1
Y2
Y3
Z2
Z1
Z3
R/BK
R/W
X1
X2
H1 H2
R
BK
HO
Y1
Y2
Y3
Z2
Z1
Z3
X3
40250/72000 - 3 PHASE - 4 WIRE WYE
WITH 3 OIL-FILLED SINGLE PHASE METERING UNITS
CD-XXX-N
SQUARE D TYPE N-350
LINE
LOAD
[B] (Y) R
[R] (B) Y
[Y] (R) B
NOTE 1:
POSITIVE SEQUENCE MUST BE
MANTAINED - RYB, YBR OR BRY
NOTE 2:
METERING SERVICES WILL USE 2 RUNS OF 6
CONDUCTOR #9 AWG
(R/W, R/BK, Y/W, Y/BK, BE/W, BE/BK)
VOLTAGE TRANSFORMERS
*Y1-Y3, *Z1-Z3 115 VOLTS
*Y2-Y3, *Z2-Z3 67.08 VOLTS
CURRENT TRANSFORMER
RATIO CONNECTIONS
HIGH LOW
*X1 - X3 *X2 - X3
NOTE 3:
UNDER COMMENTS ON H500 OR
SAP NOTIFICATIONS INDICATE
CONNECTION DIAGRAM USED
WITH UNITS. ie: CD-XXX-N
REV. 2008
Y3
Y2
Y1
X2
X3
X1
X1
X2
X3
H1
H2
H2
H1
Y3
Y2
Y1
X2
X3
X1
X1
X2
X3
H1
H2
H2
H
1
Y3
Y2
Y1
X2
X3
X1
X1
X2
X3
H1
H2
H2
H1
1 2 3 4 65 7 8 9 10
GN
RY BE
WR/W
R/BKY/W BE/W
Y/BK BE/BKBR
BK
TO 3 ELEMENT METER
NOTE 1:
POSITIVE SEQUENCE MUST BE
MANTAINED - RYB, YBE OR BRY
VOLTAGE TRANSFORMERS
*X1-X3, *Y1-Y3 115 VOLTS
*X2-X3, *Y2-Y3 67.08 VOLTS
CURRENT TRANSFORMER
RATIO CONNECTIONS
HIGH LOW
*X1 - X3 *X2 - X3
NOTE 3:
UNDER COMMENTS ON H500 OR
SAP NOTIFICATIONS INDICATE
CONNECTION DIAGRAM USED
WITH UNITS. ie: CD-558-N
NOTE 2:
METERING SERVICES WILL USE 2 RUNS OF 6
CONDUCTOR #9 AWG
(R/W, R/BK, Y/W, Y/BK, BE/W, BE/BK)
CD-XXX-R132800/230000 - 3 PHASE - 4 WIRE WYE
WITH OIL-FILLED INSTRUMENT TRANSFORMERS
ARTECHE - CT's CTG-245 (DUAL RATIO)
- PT's UTF-245 (DOUBLE SEC.)[B] [R] [Y]
(Y) (B) (R)
R Y B
LINE
LOAD
W
BE
BR
Y
R
BKR/W
R/BK
Y/W
Y/BK
BE/W
BE/BK
REVISION 2008
Y3
Y2
Y1
X2
X3
X1
H1
1 2 3 4 65 7 8 9
GN
RY
BE
W
R/WR/BK
Y/W BE/WY/BK BE/BK
TO 3 ELEMENT METER
NOTE 1:
POSITIVE SEQUENCE MUST BE
MANTAINED - RYB, YBR OR BRY
RATIO
LOW
CONNECTION
STRAPS
HIGH
CONNECTION
NOTE 3:
UNDER COMMENTS ON H500 OR
SAP NOTIFICATIONS INDICATE
CONNECTION DIAGRAM USED
WITH UNITS. ie: CD-558-P
NOTE 2:
METERING SERVICES WILL USE 2 RUNS
OF 6 CONDUCTOR #9 AWG
(R/W, R/BK, Y/W, Y/BK, BE/W, BE/BK)
CD-XXX-T80500/138000 - 3 PHASE - 4 WIRE WYE
WITH OIL-FILLED INSTRUMENT TRANSFORMERS
FERRANTI PACKARD
- CT's - K138 (DUAL RATIO)
- PT's - -MG-138 (DOUBLE SEC.)
[B] [R] [Y]
(Y) (B) (R)
R Y B
LINE
LOAD
W
R/W
R/BK
Y/W
Y/BK
BE/W
BE/BK
H0
BE
H2X2
X1
H1
H3
H4
X2
H1
H4
X2
H1
H4
H2
H3
X1
X1
H2
H3
Y3
Y2
Y1
X2
X3
X1
H1 BK
H0
R
LINE LOAD
H1 H4
H1 H4
PARALLEL
H3
H4
H2
H1
H1
H2 H3
H4
SERIES
Revised 2008
Y3
Y2
Y1
X2
X3
X1
H1 BRN
H0
Y
10
BRN
BK
Y3
Y2
Y1
X2
X3
X1
X1
X2
X3
H1
H2
H2
H1
X1
X2
X3
H2
H1
Y3
Y2
Y1
X2
X3
X1
X1
X2
X3
H1
H2
H2
H1
1 2 3 4 65 7 8 9
GN
R Y BEW
R/WR/BK
Y/W BE/WY/BK BE/BK
TO 3 ELEMENT METER
NOTE 1:
POSITIVE SEQUENCE MUST BE
MANTAINED - RYB, YBR OR BRY
VOLTAGE TRANSFORMERS
*X1-X3, *Y1-Y3 115 VOLTS
*X2-X3, *Y2-Y3 67.08 VOLTS
CURRENT TRANSFORMER
RATIO CONNECTIONS
HIGH LOW
*X1 & X3 *X2 & X3
NOTE 3:
UNDER COMMENTS ON H500 OR
SAP NOTIFICATIONS INDICATE
CONNECTION DIAGRAM USED
WITH UNITS. ie: CD-558-N
NOTE 2:
METERING SERVICES WILL USE 2 RUNS OF 6
CONDUCTOR #9 AWG
(R/W, R/BK, Y/W, Y/BK, BE/W, BE/BK)
CD-XXX-U80500/138000 - 3 PHASE - 4 WIRE WYE
WITH OIL-FILLED INSTRUMENT TRANSFORMERS
TYPES - CT's - CTE-145 (DUAL RATIO)
- CT’s – IMBD-145 (DUAL RATIO)
- PT's - UTE-145 (DOUBLE SEC.)
- PT’s- UT5-650 (DOUBLE SEC.)
[B] [R] [Y]
(Y) (B) (R)
R Y B
LINE
LOAD
W
BE
R
BKR/W
R/BK
Y/W
Y/BK
BE/W
BE/BK
REVISED 2009
Y3
Y2
Y1
X2
X3
X1
H1
H2
BRN
Y
10
BK
BRN
CD-500RELATIVE VALUE COMPARISONS
WATTS / VARS / Q
2Q - W
3Vars = VA = W
2+ Vars
2 W
VAPF =
AT 0.866 LAG PF Q = W AT UNITY PF Q = W/2 AT 0.866 LEAD PF Q = ZERO
LAG LEAD
900
690
450 30
000 30
0
Vars
Q
WATTS
0.358 0.707 0.866 UNITY 0.866
2 ELEMENT 2.5 ELEMENT 3 ELEMENT
ERB
IR
IB
ERY
Q
Q
300
300
VECTOR REPRESENTATION OF Q-METERING AT UNITY POWER FACTOR
ERN
EBN
IB-R
IB-Y
DEGREES
POWER FACTOR
ERN
EYN
EBN
-IB
-IR
-IY
Q
REVISION 2005
600
600
600
PH
ASE
PH
AS
E
NE
UTR
AL
LINE
LOAD
CD-510
PH
ASE
PH
ASE
NEU
TR
AL
BOND
SERVICE VOLTAGE
120/240 VOLT - 1 PHASE - 3 WIRE
240/480 VOLT - 1PHASE - 3 WIRE
TYPES
kWh
D4SPL AITL+
K2HS SS1S1L
K2PS A3TL
C1SD
VA DEMAND
SS1S2L
A3TL
REVISION 2008
METER
kWh
CODECODE AMP VOLT
15-23-18
15-23-74
15-23-14 2 - 200
240
15-23-1G
240
240
240
VA DEMAND - ELECTRONIC
35-93-1C
35-93-1G
NOTE:
VOLTAGE TEST LINKS,
LOCATED ON THE BACK OF METER
MUST BE IN CLOSED POSITION
BEFORE INSTALLATION.
BULLING MULTIPLIER IS:
METER MULTIPLIER
240 VOLT 1 PHASE 3 WIRE
120-480 VOLT - 1 PHASE - 3 WIRE
PULSE OUTPUTS
CONNECT TO
CUSTOMER TERMINAL
STRIP
K-Y1 Wh
K-Y2 VAh
MULT.
LP PULSE
WEIGHT
0.5 ALPHA
1.5 SENTINEL
1
1
1
11
COMMUNICATIONS CABLE
CONNECTED TO EXTERNAL
MODEM OR SASKTEL
PHONE JACK
NOTE:
PULSE CABLE COLORING WILL
VARY FOR THE DIFFERENT
METERS. USE THE
APPROPREIATE COLORS FOR
THE METER USED
2 - 200 10120 - 480VMAX.
96 kVA
25-23-13 0.5 - 200 1240VNET
METERING
LINE
GND
R/BK
R/W
Y
R
LOAD
CIRCUIT CLOSER
LEFT SIDE
BOND
NEUTRAL
SERVICE VOLTAGE
120/240 VOLT - 1 PHASE - 3 WIRE
CD-512
TYPES
kWh
D4SPL
I70S
IW70S
METER
kWh
BILLING MULTIPLER IS:
METER MULTIPLIER X C.T. RATIO
NOTE:
REFER TO CD-137 WHEN 3-
WIRE CT IS NOT PRACTICAL
DUE TO SIZE OF
CONDUCTORS.
REV. 2005
.12-10 AMP - 240 VOLT - 1 PHASE - 2 WIRE
CODE 11-22-11
CODE 11-22-1A
COMMUNICATIONS CABLE
CONNECTED TO EXTERNAL
MODEM OR SASKTEL
PHONE JACK
PULSE OUTPUTS
CONNECT TO
CUSTOMER TERMINAL
STRIP
K-Y1 Wh
K-Y2 VAh
.12 - 10 AMP - 120 VOLT 3 PHASE -3 WIRE
BOND
BE
R
R/W
WR/BK
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
WR BE R/BKR/W BE/BKBE/W
SERVICE VOLTAGE
120/208 VOLT - 3 WIRE - NETWORK
CD-522
8-JAW
COMBINATION
SOCKET
TYPES
VA DEMAND
KYLS
KVIS
SVIS
METER
UNITY
P.F.
ERN
IR
300IR-B
R Ø
ELEMENT
B Ø
ELEMENT
IB
300
IB-REBN
VA DEMAND - ELECTRONIC
CODE 31-13-3C
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
BILLING MULTIPLIER IS:
METER MULTIPLIER X CT RATIO
NOTE: LOAD CAN BE TAKEN OFF
ANY TWO OF THE THREE PHASES
FOR LOAD BALANCING.
REGARDLESS OF PHASES USED
WIRING MUST BE COLOR CODED AS
SHOWN.
LINE
NEUTRAL
K
Y1
Y2
Y3
GN
R
W CUSTOMER USE
2-WIRE OUTPUT
K-Y1 WATTS
K-Y2 VA9-PIN CONNECTOR
SEE CD- 564
CODE 31-13-6C
CODE 31-13-6G
CODE 51-13-3C
CODE 51-13-6E
NOTE:
PULSE CABLE COLORING WILL
VARY FOR THE DIFFERENT
METERS. USE THE
APPROPREIATE COLORS FOR
THE METER USED
REV. 2008
CODE 31-13-3G
3 ELEMENT SELF-CONTAINED
ALL VOLTAGE LEVELS
CD-551
w
4 5 6 7
N
RY BE
NOTE 1
VOLTAGE TEST LINKS ON
BACK OF METER MUST BE
CLOSED
NOTE 2
0N 277/480 VOLT OR 347/600
VOLT SERVICES THE METER
MUST BE CONNECTED BEHIND
THE CUSTOMERS MAIN SWITCH
AND THE NEUTRAL SPLITTER IN
THE SOCKET MUST BE
INSULATED FROM GROUND.
UNITY P.F.
ERN
EYNEBN
IR
IYIB
RØ
ELEMENT
YØ
ELEMENT
BØ
ELEMENT
N R Y BE TYPES
VA DEMAND
(SENTINEL)
SS4S0D
SS4S2L
(ALPH3)
A3KL
BILLING MULTIPLIER IS
METER MULTIPLIER
1 2 3
SERVICE VOLTAGE120/208 - 277/480 - 347/ 600V 3PH - 4W - WYE
AND 120/240V 3PH - 4W - DELTA
SERVICE VOLTAGE
TERMINAL 120 / 208 120 / 240 277 / 480 347 / 600
1 – 6 120 120 277 347
VOLTAGE 2 - 6 120 120 277 347
AT 3 – 6 120 208 277 347
SOCKET 1 – 2 208 240 480 600
2 – 3 208 240 480 600
1 - 3 208 240 480 600
WYE
DELTA
REV. 2008
NOTE 3
DO NOT USE SVIS METERS
ON 120/240 VOLT DELTA
SERVICES
K Y1 Y2 Y3
OR
RY
CUSTOMER USE 2-WIRE
OUTPUT
K-Y1 WATTS
K-Y2 VA
9-PIN CONNECTOR
SEE CD- 564
COMMUNICATIONS CABLE
CONNECTED TO
EXTERNAL MODEM OR
SASKTEL PHONE JACK
NOTE 4
PULSE CABLE COLORING WILL
VARY FOR THE DIFFERENT
METERS. USE THE
APPROPRIATE COLORS FOR
THE METER USED
GN
CODE 35-95-3C
CODE 35-95-3G
CODE 35-95-6C
CODE 35-95-6G
1 2 3 4 65 7 8 9 10
BOND
GN
R Y BE WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
120/208 VOLT - 3PHASE - 4 WIRE - WYE
THREE ELEMENT
CD-552
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT – 3 PHASE 4W - Y
VA - DEMAND - ELECTRONIC
TYPES
VA DEM.
SVIS
QUANTUM
Q1000
VECTRON
SENTINEL
ALPHA3
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
SOCKET
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
UNITY P.F.ERN
IR
B Ø
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
NOTE:
MANUFACTURER’S MARKINGS MAY
VARY AT THE TERMINALS ON THE
METER SOCKET. PLEASE WIRE AS
INDICATED ON THE DRAWING.
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
INTERVAL METERS WITH COMMUNICATIONS
CODE 31-15-3C
CODE 31-15-3G
K Y1 Y2 Y3
GN R W
CUSTOMER USE 2-WIRE
OUTPUT
K-Y1 WATTS
K-Y2 VA
9-PIN CONNECTOR
SEE CD- 564
COMMUNICATIONS CABLE
CONNECTED TO
EXTERNAL MODEM OR
SASKTEL PHONE JACK
CODE 31-15-6C
CODE 31-15-6G
CODE 31-15-6E
NOTE:
PULSE CABLE COLORING WILL
VARY FOR THE DIFFERENT
METERS. USE THE
APPROPREIATE COLORS FOR
THE METER USED
1 2 3
9
13
8
7
12
11
10
654
XO
SPC TRANSFORMATION
CODE 51-15-3C
CODE 51-15-6C
CODE 51-15-6E
SERVICE VOLTAGE
120/240 VOLT - 3Ø - 4 WIRE – DELTA (INDOOR OR OUTDOOR C.T.’s)3 ELEMENT METERING FOR USE ON EXISTING SERVICES ONLY
CD-553
1 2 3 4 65 7 8 91
0
BOND
GN
R Y BE WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
Y/WBE/W
R/BKY/BK
BE/BK
TYPES
VA DEM.
SVIS
SV4SD
SV4SR
SENTINEL
ALPHA3
QUANTUM
Q1000
R
Y
BE
NEUTRAL
LINE
3Ø 3W
240V
LOADS
R
Y
BE
N
REV. 2008
13-JAW
COMBINATION
SOCKET
1Ø 3W
120/240V
LOADS
208V
SPC TRANSFORMATION
BE
1 2 3
9
13
8
7
12
654
R/W
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
240
240
240
208
120
120
K Y1 Y2 Y3
GN R W
CUSTOMER USE 2-
WIRE OUTPUT
K-Y1 WATTS
K-Y2 VA
9-PIN
CONNECTOR
SEE CD- 564
COMMUNICATIONS CABLE
CONNECTED TO
EXTERNAL MODEM OR
SASKTEL PHONE JACK
NOTE:PULSE CABLE COLORING WILL
VARY FOR THE DIFFERENT
METERS. USE THE
APPROPREIATE COLORS FOR
THE METER USED
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT – 3 PHASE 4W - Y
VA - DEMAND - ELECTRONIC
UNITY
P.F.
ERN
IR
B Ø
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
INTERVAL METERS WITH COMMUNICATIONS
CODE 31-15-3C
CODE 31-15-3G
CODE 31-15-6C
CODE 31-15-6G
CODE 31-15-6E
NOTE: MANUFACTURER’S MARKINGS MAY
VARY AT THE TERMINALS ON THE
METER SOCKET. PLEASE WIRE AS
INDICATED ON THE DRAWING.
EYNEBN
CODE 51-15-6E
CODE 51-15-3C
1 2 3 4 65 7 8 9 10
BOND
GN
RY
BEW
R/WR/BK
Y/W BE/WY/BK BE/BK
W
R
Y
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
277/480 - 347/600 - 2400/4160 - 14400/25000 - 41250/72000 - 80500/138000 VOLT
3 PHASE - 4 WIRE - WYE THREE ELEMENTCD-554
METER
.12 - 10 AMP - 120 VOLT - 3 PHASE - 4W - Y
.2 - 20 AMP -120-480 VOLT - 3PHASE 4W - Y
TYPES
VA DEM.
SVIS
QUANTUM
Q1000
VECTRON
SENTINEL
ALPHA3
R
Y
BE
NEUTRAL
LINE LOAD
R
Y
BE
N
VOLTAGE AT SOCKET
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
UNITY P.F. ERN
IR
B Ø
ELEMENT
IB
R Ø
ELEMENT
IY
Y Ø
ELEMENT
NOTE:
MANUFACTURES' MARKINGS MAY
VARY AT THE TERMINALS ON THE
METER SOCKET. PLEASE WIRE AS
INDICATED ON THIS DRAWING.
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO X P.T. RATIO
13-JAW
COMBINATION
SOCKET
BRBK
277/480 347/600
192
192
192
111
111
111
200
200
200
115
115
115
INTERVAL METERS
WITH COMMUNICATIONS
CODE 31-15-3C
CODE 31-15-6C
CODE 31-15-6G
CODE 31-15-6E
CODE 51-15-3C
K Y1 Y2 Y3
GN R W
CUSTOMER USE 2-WIRE
OUTPUT
K-Y1 WATTS
K-Y2 VA
9-PIN CONNECTOR
SEE CD- 564
COMMUNICATIONS CABLE
CONNECTED TO
EXTERNAL MODEM OR
SASKTEL PHONE JACK
NOTE:
PULSE CABLE COLORING WILL
VARY FOR THE DIFFERENT
METERS. USE THE
APPROPREIATE COLORS FOR
THE METER USED
CODE 31-15-3G
XO
SPC TRANSFORMATION RY BE
BK BR W
CODE 51-15-3G
CODE 51-15-6C
CODE 51-15-6G
CODE 51-15-6E
W
R\W BE\WY\W
BE\W
BE\WY\W
Y\WR\W
R\W
WR\BK
R\BK
Y\BK
Y\BK
BE\BK
BE\BK
R\W Y\W BE\W
R
Y
BE
R
Y
BE
RY BE
W
SERVICE VOLTAGE
277/480 - 347/600 - 2400/4160 - 14400/25000 - 40250/72000 - 80500/138000 - 132800/230000V -3 PHASE - 4W - WYE
THREE ELEMENT DOUBLE METER SOCKET METERING
CD-556
BILLING METERNON-BILLING METER
METER
TYPES
ALPHA3
ION 8600
ION 8500
ION 8300
QUANTUM
Q1000
SENTINEL
METER
0.2-20 AMP - 120-480 V
3 PHASE - 4W
VA DEMAND
BR
BK
R WY
BE R\W
R\BK
Y\W
Y\BK
BE\W
BE\BK
PULSE OUTPUTS &
COMMUNICATIONS
CABLES
SEE CD-564
AUXCILIARY
POWER
FOR METER
CAN BE FROM
UPS SYSTEM OR
STATION POWER
1 1 2 3SASKTEL
PHONE LINE1 - METER 1
2 - METER 2
3 - PORTABLE PHONE THE "STICK"
PHONE LINE SHARING DEVICE
TO INSTRUMENT TRANSFORMERS
SEE CD-XXX-N OR CD-XXX-R
VOLTAGE AT SOCKET
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
277/480 347/600
192
192
192
111
111
111
200
200
200
115
115
115
REV. 2008
UNITY P.F.
ERN
IR
B 0
ELEMENT
IB
R 0
ELEMENT
IY
Y 0
ELEMENT
NOTE:
MANUFACTURES' MARKINGS MAY
VARY AT THE TERMINALS ON THE
METER SOCKET. PLEASE WIRE AS
INDICATED ON THIS DRAWING.
CODE 31-15-3C
CODE 31-15-6C
CODE 31-15-6G
CODE 31-15-6E
CODE 51-15-3C
CODE 31-15-3G
CODE 51-15-3G
CODE 51-15-6C
CODE 51-15-6G
CODE 51-15-6E
RGN/W
GN/BK
GN
BE/BK
BE
BE/W
BK/W
W
W/BK
R
R/W R/BK
++++++++
------ --
GN
S
H - + S
H - +
Y K Z
Y K Z
R\BK Y\BK BE\BK
R\W Y\W BE\WR
Y BEW
A-4 A-3 A-2 A-1
OPTIONAL
POWER (ANALOG VERSIONS ONLY)
N/- L/+ G
W BK
2 AMP
SLOW BLOW
FUSE
C-3
C-4
COM2/4
S
COM
Y K Z
Y K Z
DIGITAL CONNECTIONS TO EXTERNAL
RELAYS OR PULSE COUNTER
200 VDC/AC MAX.
ANALOG CONNECTIONS TO ANALOG TRANSDUCERS
0 - 20 mA: 500 LOAD MAX.
-1 TO 1mA: 10K LOAD MAX.
FORM C
DIGITAL OUTPUTSFORM C
DIGITAL OUTPUTS
C-1
C-2S
3
S
2
S
1S
6
S
5
S
4
S
8
S
7
ION EXPANSION MODULE
TO INSTRUMENT
TRANSFORMERS
R
BK
W
BK
BK
BK
BE Y
MOLEX MALE CONNECTOR
FROM ION METER
DATA ACCESS
TERMINAL STRIP
CUSTOMER USE KY
1
Y
2
Y
3
Y
4
Y
5
TYPICAL VALUES
K - Y1 KWH DEL.
K - Y2 KVAH DEL. & REC.
K - Y3 TIME
K - Y4 KWH REC.
THESE VALUES CAN BE SITE
SPECIFIC
R Y
BK 4X
BE W
DB9 MALE
CONNECTOR
RA-232 COM1
COM 1
RS-485
R
OR
BE
BR
BE/BK
OR/BK R/BK
BK
OPTIONAL
CONNECTION TO EXTERNAL DRY
CONTACTS 130 VDC MAXIMUM.
USUALLY FED INTO SECOND METER
3 WIRE OR 2 WIRE OUTPUT SIGNAL
AVAILABLE FOR ADDITIONAL
CUSTOMER INFORMATION WHEN
SECOND METER IS NOT PRESENT
CONNECTED TO SASKPOWER
GRID CONTROL CENTRE (DNP 3.0)
W
BK
NOTE:
ALL FUSES ARE SLOW BLOW TYPE
NOTE:
FOR ANALOG OUTPUT THE POWER SUPPLY CAN COME
FROM THE TEST SWITCH OR AN ALTERNATE PLUG-IN
SUPPLY ie ups
BKS H
CUSTOMER
COMMUNICATIONS
COM4 - 485
CD-562
TO SECOND METER
REV. 2008
CD-563
ION 8500 EXPANSION MODULES
DIGITAL MODEL AIOEA0 OR AIOEA1
SECONDARY DIGITAL OUTPUTS
FORM C CONTACTS – NORMALLY CONNECTED TO SECOND METER
K TO Z NORMALLY CLOSED, K TO Y, NORMALLY OPEN
PORTTERMINAL
NUMBER
WIRE
COLORQUANTITY DESTINATION TERMINAL
WIRE
COLOR
C1
Y1
K1
Z1
R
BK kWh DEL.
SECOND
METER
DIGITAL
INPUTS
1
SCOM
R
BK
C2
Y2
K2
Z2
Y
BKkVARh
DEL.
SECOND
METER
DIGITAL
INPUTS
2
SCOM
Y
BK
C3
Y3
K3
Z3
BE
BK kWh REC.
CUSTOMER
TERMINAL
STRIP
3
SCOM
BE
BK
C4
Y4
K4
Z4
W
BKkVARh
REC.
SECOND
METER
DIGITAL
INPUTS
4
SCOM
W
BK
PORTTERMINAL
NUMBER
WIRE
COLORQUANTITY DESTINATION TERMINAL
WIRE
COLOR
A
1
R
BK kWh DEL.
SECOND
METER
DIGITAL
INPUTS
Y1
K
R
BK
A
2
Y
BK
kVARh
DEL.OR
kVA
SECOND
METER
DIGITAL
INPUTS
Y2
K
W
BK
A
3
BE
BK TIME
CUSTOMER
TERMINAL
STRIP
Y3
K
BE
BK
FORM A DIGITAL OUTPUTS FOR CUSTOMER USE
PULSE OUTPUT QUANTITIES – MAXIMUM OF 4
kWh DEL, kWh REC, TIME, kVAh, kVARh DEL, kVARh REC
A
4
W
BK kWh REC.
CUSTOMER
TERMINAL
STRIP
Y4
K
W
BK
PORTTERMINAL
NUMBER
WIRE
COLORQUANTITY ORIGIN TERMINAL
WIRE
COLOR
SCOM
S1
S2
S3
S4
S5
S6
S7
S8
BK
R
Y
BE
W
GN
BR
COMMON
kWh DEL.
kVARh
DEL
kWh REC
kVARh
REC
SECOND
EXPANDER
Y1
K1
Y2
K2
Y3
K3
Y4
K4
R
BK
Y
BK
BE
BK
W
BK
FORM A DIGITAL INPUTS – STATUS INPUTS (OPTIONAL)
SIGNAL USUALLY COMES FROM SECOND METER
PORTTERMINAL
NUMBER
WIRE
COLORQUANTITY DESTINATION TERMINAL
WIRE
COLOR
A
1
R
BK kWh DEL.
SECOND
METER
DIGITAL
INPUTS
Y1
K
R
BK
A
2
Y
BKkVARh
DEL.
SECOND
METER
DIGITAL
INPUTS
Y2
K
W
BK
A
3
BE
BK TIME
CUSTOMER
TERMINAL
STRIP
Y3
K
BE
BK
MODEL AIOED0 AO:1-4 (0-20 Ma)
FORM A ANALOG OUTPUTS FOR CUSTOMER USE
ANALOG OUTPUT QUANTITIES – MAXIMUM OF 4
RELAY RANGE IS 4 TO 20 MILLIAMPS
kWh DEL, kWh REC, TIME, kVAh, kVARh DEL, kVARh REC
A
4
W
BK kWh REC.
CUSTOMER
TERMINAL
STRIP
Y4
K
W
BK
METER OUTPUT CABLES DESTINATION/USE
MOLEX MALE CONNECTOR
MODEM – RJ31 MALE CONNECTOR
ETHERNET – RJ45 MALE CONNECTOR (OPTIONAL)
AUXILIARY POWER – 3-PRONG PLUG
I/O EXPANDER
RJ31 FEMALE PHONE JACK (MV90)
CUSTOMER COMMUNICATIONS (OPTIONAL)
ALTERNATE POWER SUPPLY
REV. 2006
PULSE OUTPUT CABLES FROM VARIOUS METERSCABLE FROM KVIS, SVIS, VECTRON, AND SENTINEL METERS
HAVE A FEMALE DB-9 CONNECTOR
ALPHA+ METERS PRESENTLY COME WITHOUT A CONNECTOR
CD-564
KVIS WIRE METER CABLE
CONTACT
K1 WATTS
Y1 WATTS
Z1 WATTS
K2 VA
Y2 VA
Z2 VA
DEM. SYNC.
NOT USED
DEM. SYNC.
COLOR PIN OUTS
RED
YELLOW
BLACK
BROWN
ORANGE
BLUE
GREEN
PURPLE
WHITE
P1
P2
P3
P4
P5
P6
P7
P8
P9
SVIS WIRE METER CABLE
CONTACT
K1 WATTS
Y1 WATTS
Z1 WATTS
K2 VA
Y2 VA
Z2 VA
DEM. SYNC.
NOT USED
DEM. SYNC.
COLOR PIN OUTS
RED
YELLOW
BLACK
BROWN
ORANGE
BLUE
GREEN
PURPLE
WHITE
P1
P2
P3
P4
P5
P6
P7
P8
P9
VECTRON WIRE METER CABLE
CONTACT
K1 WATTS
Y1 WATTS
Z1 WATTS
K2 VA
Y2 VA
Z2 VA
EOI NO
EOI K
COLOR PIN OUTS
RED
YELLOW
BLACK
RED/WHITE
YELLOW/WHITE
BLACK/WHITE
ORANGE
WHITE
P1
P2
P3
P4
P5
P6
P7
P8
P9
SENTINEL WIRE METER CABLE
CONTACT
K1 WATTS
Y1 WATTS
Z1 WATTS
K2 VA
Y2 VA
Z2 VA
EOI NO
EOI K
COLOR PIN OUTS
RED
YELLOW
BLACK
RED/WHITE
YELLOW/WHITE
BLACK/WHITE
ORANGE
WHITE
P1
P2
P3
P4
P5
P6
P7
P8
P9
ALPHA+ WIRE METER CABLE
CONTACT
K1 WATTS
Y1 WATTS
Z1 WATTS
K2 VA
Y2 VA
Z2 VA
COLOR PIN OUTS
RED
YELLOW
BLACK
ORANGE
WHITE/BLACK
BLUE
P1
P2
P3
P4
P5
P6
P7
P8
P9
QUANTUM WIRE METER CABLE
CONTACT
Y3 WATTS
K3 WATTS
Z3 WATTS
Y4 VA
K4 VA
Z4 VA
COLOR PIN OUTS
LIGHT BLUE
VIOLET
GREY
TAN
PINK
DARK BLUE
P7
P8
P9
P10
P11
P12
QUANTUM CABLE CONNECTIONS FROM DB-25 CONNECTOR
FOR CUSTOMER TERMINAL STRIP PRE-2005
QUANTUM WIRE METER CABLE
CONTACT
Y1 WATTS
K1 WATTS
Z1 WATTS
Y2 VA
K2 VA
Z2 VA
Y3 EOI
K3 EOI
COLOR PIN OUTS
YELLOW
RED
BLACK
GREEN
ORANGE
BROWN
LIGHT BLUE
VIOLET
P1
P2
P3
P4
P5
P6
P7
P8
QUANTUM PIN OUTS FROM DB-25 CONNECTOR FOR
CUSTOMER TERMINAL CONNECTIONS WITH OUT AN
ISOLATION BUFFER PRESENT. AFTER 2005
DB-9 FEMALE
CONNECTOR
DB-9 MALE
CONNECTOR
FROM METER
TO AUXILIARY DEVICE OR
CUSTOMER TERMINAL STRIP
CONTACT
K1 WATTS
Y1 WATTS
Z1 WATTS
K2 VA
Y2 VA
Z2 VA
EOI NO
EOI K
COLORPIN OUTS
RED
YELLOW
BLACK
BROWN
ORANGE
BLUE
GREEN
PURPLE
WHITE
P1
P2
P3
P4
P5
P6
P7
P8
P9
PRESENTLY THE ALPHA METERS WE HAVE ARE NOT
EQUIPED WITH DB-9 CONNECTORS
21
34
5
67
89
NOTE: THE DB-9 MALE
CABLE MUST BE WIRED
AS SHOWN FOR
STANDARDIZATION
REV. 2007
CHANGE TO
21
34
5
67
89
CD-565SVIS PULSE OUTPUT
CONNECTION - TYPICAL
1
K1
R
E
D
2
Y1
Y
E
L
L
O
W
3
Z1
B
L
A
C
K
4
K2
B
R
O
W
N
5
Y2
O
R
A
N
G
E
6
Z2
B
L
U
E
7 GREEN
9 WHITE8 PURPLE NOT USED
A-BASE TYPE
S-BASE TYPE
EXTERNAL PULSE
CONNECTOR
EXTERNAL DUPLICATE
PULSE CONNECTOR
(OPPOSITE SIDE OF METER)
1
K1
R
E
D
2
Y1
Y
E
L
L
O
W
3
Z1
B
L
A
C
K
4
K2
B
R
O
W
N
5
Y2
O
R
A
N
G
E
6
Z2
B
L
U
E
7 GREEN
9 WHITE
8 PURPLE NOT USED
MATING CABLE
(INCLUDED)MALE CABLE
(INCLUDED)
FEMALE CONNECTOR
SECOND CONNECTOR (IF
DUPLICATE PULSES REQUESTED)
SVIS WIRE METER CABLE
CONTACT
K1 WATTS
Y1 WATTS
Z1 WATTS
K2 VA
Y2 VA
Z2 VA
SYNC.
NOT USED
M/S DMD INT.
COLOR PIN OUTS
RED
YELLOW
BLACK
BROWN
ORANGE
BLUE
GREEN
PURPLE
WHITE
P1
P2
P3
P4
P5
P6
P7
P8
P9
REVISION 2005
2 1345
6789MASTER OR SLAVE
DEMAND INTERVAL
SYNCHRONIZATION
CD-570ALTERNATE POWER SUPPLY
RED POT
OF
METER
6
7
5
1
2
10
4
9
8
3
FUSE
HOLDER
NEON
LAMPPB-R10-EI-X2-115V
VOLTAGE SELECTION
1 2 3 4
R Y
BE
W
BR BK
BK
BK
ALTERNATE
POWER
SUPPLY
BK
WW
BK
33 KΩ
W
W
BK
BK
BK
W
W
BK
BK
NOTE #1: NEON LIGHT ACROSS TERMINALS
4 AND 9 GIVES A-C STANDBY INDICATION.
OPENING THE FUSE DISABLES A-C STANDBY
FOR SERVICING. NEON LIGHT WILL GO OUT.
NOTE #2: CURRENT LIGHT A-C MOVED TO 1 AND 4
TO PREVENT BACKFEED. (120V CONVERTED
CURRENT LIGHTS ONLY)
TEST
SWITCH
TO CURRENT LIGHTS
WHERE APPLICABLE
COVER DECAL: “CAUTION AUX AC – OPEN FUSE TO SERVICE”
BK
BK
1 2 3 4
5
67 10
89C
C
RECORDER
OR OTHER
AUX. DEVICE
REV. 2005
CD-572QUANTUM METER
DB-25 CONNECTOR
PIN FUNCTION COLOR CODE PIN
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P24
P23
P22
P21
P25
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P24
P23
P22
P21
P25
Y1 WATTS YELLOW
REDK1 WATTS
Z1 WATTS BLACK
Y2 VA GREEN
ORANGEK2 VA
Z2 VA BROWN
LIGHT BLUEY3 TIME
K3 TIME VIOLET
Z3 GRAY
TANY4
K4 PINK
DARK BLUEZ4
QDIF 0 VOLTS WHITE/BLACK/ORANGE
WHITE
WHITE/BLACK
SYNC – (M/S DEMAND TIMING OR FREEZE)
SYNC + (M/S DEMAND TIMING OR FREEZE)
TRANSMIT (EXTERNAL MODEM/RS-232) TXD2
RECEIVE (EXTERNAL MODEM/RS-232) RXD2
GROUND (EXTERNAL MODEM/RS-232) GND2
XRTS
WHITE/BROWN
WHITE/ORANGE
WHITE/GRAY
WHITE/BLUE
XCTS
MODEM: DAISY CHAIN SLAVE INPUT
QDIF: TXD
MODEM: DAISY CHAIN GROUND
QDIF: RXD
MODEM: DAISY CHAIN MASTER OUT
QDIF: RTS
MODEM: DAISY CHAIN MASTER OUT
QDIF: CTS
QDIF: DCD
WHITE/VIOLET
WHITE/BLACK/RED
GREEN/YELLOW
WHITE/BLACK/GREEN
WHITE/BLACK/GRAY
WHITE/BLACK/BLUE
DB-25 FEMALE
CONNECTOR
1
25
REV. 2007
1
25
1
25
CD-573QUANTUM METER
DB – 25 CONNECTOR
KYZ PULSE OUTPUTSRS232 DIRECT CONNECTION
BETWEEN METER AND PC
PIN FUNCTION COLOR CODE PIN
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
Y1 WATTS YELLOW
REDK1 WATTS
Z1 WATTS BLACK
Y2 VA GREEN
ORANGEK2 VA
Z2 VA BROWN
LIGHT BLUEY3 EOI
K3 EOI VIOLET
Z3 GRAY
TANY4
K4 PINK
DARK BLUEZ4
P16
P17
P18
P16
P17
P18
TRANSMIT (EXTERNAL MODEM/RS-232)
RECEIVE (EXTERNAL MODEM/RS-232)
GROUND (EXTERNAL MODEM/RS-232)
WHITE/BROWN
WHITE/ORANGE
WHITE/GRAY
TO METERTO PCTO METER
TO EXTERNAL
DEVICE
REV. 2005
AC AC 1K 1Y 1Z 2K K2Z1Y1K13Z3K 3Y2Z2Y
IB-6 ISOLATION BUFFER
CD-578
TB11
OUTPUTS 5
OUTPUTS 6
OU
TP
UT
S 4
OU
TP
UT
S 3
OU
TP
UT
S 1
OU
TP
UT
S 2
JUMPER IN POSITION 2 AND 3
SETS OUTPUTS 5 AND 6 TO A
3 SECOND TIMED OUTPUT
INPUT 1
INP
UT
1
INPUT 2
INP
UT
2
INP
UT
3
INPUT 3
TB7 TB8 TB9
JUMPER IN SELECTS
FORM A OPERATION
Y2 Z2 Y3K3 Z3 Z4K4 Y4
Y6
K6
Z5
Y5
K5
Z6
K
Y
K
Y
K Y
K Y
K Y
K Y
INPUT 1
INPUT 2
INPUT 3
120/240
VAC
OUTPUT 1
FROM
INPUT 1
OUTPUT 2
FROM
INPUT 1
OUTPUT 3
FROM
INPUT 2
OUTPUT 4
FROM
INPUT 2
OUTPUT 6
FROM
INPUT 3
OUTPUT 5
FROM
INPUT 3
K Y K Y
K Y
AC AC 1K 1Y 1Z 2K K2Z1Y1K13Z3K 3Y2Z2Y
TB11
OUTPUTS 5
OUTPUTS 6
OU
TP
UT
S 4
OU
TP
UT
S 3
OU
TP
UT
S 1
OU
TP
UT
S 2
JUMPER IN POSITION 2 AND 3
SETS OUTPUTS 5 AND 6 TO A
3 SECOND TIMED OUTPUT
INPUT 1
INP
UT
1
INPUT 2
INP
UT
2
INP
UT
3
INPUT 3
TB7 TB8 TB9
JUMPER OUT SELECTS
FORM C OPERATION
Y2 Z2 Y3K3 Z3 Z4K4 Y4
Y6
K6
Z5
Y5
K5
Z6
K
Y
K Y
K Y
K Y
INPUT 1
INPUT 2
INPUT 3
120/240
VAC
OUTPUT 1
FROM
INPUT 1
OUTPUT 2
FROM
INPUT 1
OUTPUT 3
FROM
INPUT 2
OUTPUT 4
FROM
INPUT 2
OUTPUT 6
FROM
INPUT 3
OUTPUT 5
FROM
INPUT 3
FORM C OPERATION – 3WFORM A OPERATION – 2W
Z
Y ZKZZ
Z
YK
Y ZK
Y ZK
Y
Z
K
Z
REV. 2005
MARSHALLING PANEL WIRING CD-579
15
14
1
2
3
4
5
6
7
8
9
10
11
12
13
30
29
16
17
18
19
20
21
22
23
24
25
26
27
28
CURRENT
TERMINAL STRIP
T1
VOLTAGE
TERMINAL STRIP
T2
IN COMING CABLES
FROM TRANSFORMERS
CRX1 (R/W) (R/W ) VRX1(R/W) CRX1 VRX1 (R/W)
CRX2 (R/BK)
CRX3 (R/BK)
CYX1 (Y/W)
CYX2 (Y/BK)
CYX3 (Y/BK)
CBX1 (BE/W)
CBX2 (BE/BK)
CBX3 (BE/BK)
(R/BK) CRX2
GN
GN
GN
(Y/W) CYX1
(Y/BK) CRX2
(BE/W) CBX1
(BE/BK) CRX2
SPARE
SPARE
SPARE
(Y/BK) VYX3
(BE/W) VBX1
(BE/BK) VBX3
(R/W) VRY1
(R/BK ) VRX3
(Y/W ) VYX1
(R/BK) VRY3
(Y/W) VYY1
(Y/BK) VYY3
(BE/W) VBY1
(BE/BK) VBY3
VRX3 (R/BK)
VYX1 (Y/W)
VYX3 (Y/BK)
VBX1 (BE/W)
VBX3 (BE/BK)
VRY1 (R/W)
VBY1 (BE/W)
VBY3 (BE/BK)
VYY1 (Y/W)
VRY3 (R/BK)
VYY3 (Y/BK)
CT CABLE 6C #9 RJ
TO METER
EXAMPLE
X1 – X2 LOW RATIO
X1 – X3 HIGH RATIO
2 PT CABLES 6C #9 RJ
TO METER LOCATION(ONE CABLE IS FOR
CUSTOMER VOLTAGE SIGNAL)
EXAMPLE
X1 – X3 115 V SEC.
X2 – X3 67.08 V SEC.
CT’s ARE SHOWN ON THE LOW RATIO: TO CHANGE TO HIGH RATIO – SHORT OUT THE SECONDARY WINDINGS BY INSERTING MARRETTED END
OF JUMPER AT X3 OF EACH PHASE INTO TERMINAL BELOW EACH X3 WINDING (GN). THEN MOVE THE X2 WIRE OF EACH PHASE FROM METER
DOWN TO X3 TERMINAL AND REMOVE ALL MARRETTED JUMPERS.
PT Y WINDINGS ARE FOR CUSTOMER VOLTAGE SIGNAL. IF THEY ARE NOT BEING USED GROUND ALL Y3"S
CAUTION:
CHECK NAMEPLATE OF
TRANSFORMER
BEFORE CHANGING
RATIOS
REV. 2007
F
U
S
E
Y
BLK/R
BRN
BRN/Y
R
BE
ORG
BLK
W12V DC
Y
345V
BLK/R
277V BRN
240V
BRN/Y
120V
ORG
0V
BLK
240V
W0V
277V CONNECTION
CDMA
AIRLINK MODEM
RAVEN
TNC
SERIAL
PORT
RS232
ADAPTER
ANTENNA
RAVENAIRLINK
RESET
CHAN
LINK
REG
RSSI
TxRx
Err
PWR
277V OR 345V CDMA MODEM
CONNECTION
CD-580
345V CONNECTION
RS232 CONNECTION
FROM METER
RAVEN POWER SUPPLY SPEC:
INPUT VOLTAGE 10V DC TO 28V DC
INPUT CURRENT 40 ma to 200 ma
REVISION 2007
HAMMOND
TRANSFORMER
H301080
14V
500mA
LED
F
U
S
E
Y
W
BRNGRY
R
BE
ORG
BLK
12V DC
BRN
ORG BLK
W
240V CONNECTION
CDMA
AIRLINK MODEM
RAVEN
TNC
SERIAL
PORT
RS232
ADAPTER
ANTENNA
RAVENAIRLINK
RESET
CHAN
LINK
REG
RSSI
TxRx
Err
PWR
120V OR 240V CDMA MODEM
CONNECTION
CD-581
RS232 CONNECTION
FROM METER
RAVEN POWER SUPPLY SPEC:
INPUT VOLTAGE 10V DC TO 28V DC
INPUT CURRENT 40 ma to 200 ma
REVISION 2007
TRANSFORMER
266G14
R Y
LED
120V CONNECTION:
REMOVE ORIGINAL JUMPER.
CONNECT ORANGE TO WHITE
AND BROWN TO BLACK.
CONNECT PRIMARY LEADS TO
ORANGE AND BLACK
GREEN SECTION THE CONNECTION DIAGRAMS IN THIS SECTION ARE ONLY TO BE USED FOR MAINTENANCE OF EXISTING INSTALLATIONS
REVENUE METERING CONNECTION DIAGRAMS
CONTENTS
NOTE: Additional metering information can be found in the “Electric Service Requirements”,
“Revenue Metering Material Code Book” and “Revenue Metering Course Manual.”
PREVIOUS STANDARDS
GREEN SECTION
THE DIAGRAMS IN THIS SECTION ARE
TO BE USED ONLY FOR THE
MAINTENANCE OF EXISTING
INSTALLATIONS
1 PHASE - 2 WIRE
CD-221 REV 2005
CD-226 REV 2005
1 PHASE - 3 WIRE
CD-231 REV 2005
CD-232 REV 2005
CD-233 REV 2005
CD-234 REV 2005
CD-236 REV 2005
CD-237 REV 2005
CD-238 REV 2008
NETWORK
3 PHASE - 3 WIRE
CD-239 REV 2005
CD-244 REV 2005
CD-245 REV 2005
CD-246 REV 2008
CD-247 REV 2008
CD-248 REV 2005
CD-250 REV 2005
CD-261 REV 2008
CD-XXX-A REV 2006
CD-XXX-B REV 2006
CD-XXX-C REV 2006
CD-XXX-D REV 2006
CD-XXX-E REV 2005
CD-XXX-H REV 2005
CD-XXX-I REV 2006
3 PHASE - 4 WIRE DELTA
CD-269 REV 2005
CD-270 REV 2008
CD-271 REV 2008
CD-272 REV 2008
CD-273 REV 2008
CD-274 REV 2008
3 PHASE - 4 WIRE WYE
CD-280 REV 2005
CD-281 REV 2008
CD-284 REV 2008
CD-285 REV 2008
CD-287 REV 2008
CD-288 REV 2008
CD-292 REV 2008
CD-293 REV 2008
CD-295 REV 2008
CD-296 REV 2008
CD-XXX-J REV 2006
CD-XXX-K REV 2006
CD-XXX-L REV 2006
CD-XXX-M REV 2006
CD-XXX-O REV 2005
CD-XXX-P REV 2006
CD-XXX-Q REV 2006
CD-XXX-S REV 2006
PULSE METERS
CD-633 REV 2005
CD-637 REV 2008
CD-638 REV 2008
CD-645 REV 2007
CD-647 REV 2007
CD-648 REV 2005
CD-649 REV 2008
N
SERVICE VOLTAGE
120 VOLT - 1 PHASE - 2 WIRE
CD- 220
LINE
PHASE
N
PHASE
LOAD
REV. 2005
METER
10 AMP - 120 VOLT - 1 PHASE - 2 WIRE
BILLING MULTIPLIER IS
METER MULTIPLIER
CODE 42-12-11
kWh
TYPES
kWh
CA
CFA
1 432
1
N
PHASE
N
PHASE
LOAD
SERVICE VOLTAGE
120 VOLT - 1 PHASE - 2 WIRE
CD- 221
12
3 4
2
4
1
3
LINE
METER
10 AMP - 120 VOLT - 1 PHASE - 2 WIRE
100 AMP - 120 VOLT - 1 PHASE - 2 WIRE
BILLING MULTIPLIER IS
METER MULTIPLIER
CODE 12-12-11
kWh
CODE 14-12-11
TYPES
kWh
CFS
CSI
CS
D5S
I70S
K2S
REV. 2005
A-BASE
100 AMP
SOCKET ADAPTER
SOCKET METER
SERVICE VOLTAGE
480, 600, 1200, 2400, 14400 VOLT - 1 PHASE - 2 WIRECD- 226
LINE
GND
R/BK
R/W
Y
R
LOAD
CIRCUIT CLOSER
LEFT SIDE
BOND
NEU
TR
AL (G
RO
UN
D P
HASE)
1 2
3 4
GND
kWh
VA DEMAND
BILLING MULTIPLER IS:
METER MULTIPLIER X C.T.
RATIO X P.T. RATIO
.12-10 AMP - 120 VOLT - 1 PHASE - 2 WIRE
CODE 11-12-11
CODE 31-12-11
REV. 2008
TYPES
kWH
CJ3S
K2S
TJSD
K2WSD
KWSD
VA DEMAND
K2LS
R
Y
CODE 31-12-13
CAUTION
A-BASE
100 AMP
S0CKET ADAPTER½ COIL
½ COIL
1 2
3 4
METER SOCKET
CD-231
TYPES
kWh
D4S
D5S
B1S
B1XS
B2S
B3S
B4S
CFS
CS1
CS
D2S
D3S
B5S
K2S
155S
I60S
I70S
B21S
CJS
CJ3S
DS
KS
M1S
J5S
SERVICE VOLTAGE
120 / 240 - 1 PHASE – 3 WIRE
FARM SOCKET ADAPTER
METER
240 VOLT – 1 PHASE – 3 WIRE
CODECODE AMP MULT.
13-23-11
13-23-13
1
1015 - 25
kWh
14-23-11
14-23-13.75 - 100
1
10
15-23-11
15-23-132 - 200 1
LOAD
NOTE:
VOLTAGE TEST LINKS,
LOCATED ON THE BACK OF
METER MUST BE IN CLOSED
POSITION BEFORE
INSTALLATION.
LINE
NEUTRAL
1 2
3 4
BILLING MULTIPLIER IS:
METER MULTIPLIER
REVISION 2005
NEUTRAL
½ COIL ½ COIL
CD-232SERVICE VOLTAGE
120 / 240 - 1 PHASE – 3 WIRE
(UP TO 100 AMPS)
LINE LOAD
METER
240 VOLT – 1 PHASE – 3 WIRE
CODECODE AMP MULT.
44-23-11 1.75 - 100
kWh
44-23-13 .75 - 100 10
44-23-19 .75 - 100 1
NOTE:
VOLTAGE TEST LINKS,
LOCATED NEAR THE METER
TERMINALS MUST BE IN
CLOSED POSITION BEFORE
INSTALLATION.
BILLING MULTIPLIER IS:
METER MULTIPLIER
TYPES
kWh
155A
CJ3A
DA
D3A
CFA
CA
REVISION 2005
NEUTRAL
A-BASE
S0CKET ADAPTER
1 2
3 4
METER SOCKET
CD-233
TYPES
kWh
K2S
I210
I70S
CJ3S
K2WSD
KWSD
TJSD
SERVICE VOLTAGE
120 / 240 - 1 PHASE – 3 WIRE
METER
.12 – 10 AMP - 240 VOLT – 1 PHASE – 2 WIRE
CODECODE 11-22-11
kWh
LOADLINE
1 2
3 4
BILLING MULTIPLIER IS:
METER MULTIPLIER X CT RATIO REVISION 2008
VA DEMAND - THERMAL
CODE 31-22-11
VA DEMAND - ELECTRONIC
CODE 31-22-13
VA DEM.
K2LS
SVIS
KV2C
CAUTION:
SHORT OUT CT PRIOR TO
REPLACEMENT OF METER, NO
CIRCUIT CLOSER ON SOCKET
ADAPTER.
PLACE CAUTION DECAL CODE
85-90-00 0N ADAPTER BASE
BOND
GND
R
Y
R/BKR/W
CODE 11-22-13
CD-234SERVICE VOLTAGE
120 / 240 - 1 PHASE – 3 WIRE
NEUTRAL
LOAD
1 2 3 4
BOND
GND
TYPES
kWh
CFA
METER
.12 – 10 AMP - 240 VOLT – 1 PHASE – 2 WIRE
CODECODE 41-22-11
kWh
BILLING MULTIPLIER IS:
METER MULTIPLIER X CT RATIO
LINE
REV. 2008
R
Y
R/BKR/W
NEUTRAL
LOAD
1 2 3 4BOND
GND
TYPES
kWh
CFA
CD-236
SERVICE VOLTAGE
120 / 240 - 1 PHASE – 3 WIRE
LINEPHASE
PHASE
PHASE
PHASE
METER
.12 – 10 AMP - 240 VOLT – 1 PHASE – 2 WIRE
CODECODE 41-22-11
kWh
BILLING MULTIPLIER IS:
METER MULTIPLIER X ½ CT RATIO
NOT RECOMMENDED
REPLACE 2-WIRE C.T.’S
WITH A 3-WIRE C.T.
WHENEVER C.T.’S
REQUIRE
REPLACEMENT
REFER TO CD-134
REVISION 2008
R
Y BE/W
BE/BK
R/W R/BK
CD-237
SERVICE VOLTAGE
120 / 240 - 1 PHASE – 3 WIRE
OUTDOOR WINDOW CT
LINE
GND
R/BK
R/W
YR
LOAD
CIRCUIT
CLOSER
LEFT SIDE
BOND
NEUTRAL
1 2
3 4
BOND
kWh
VA DEMAND - THERMAL
VA DEMAND - ELECTRONIC
.12-10 AMP - 240 VOLT - 1 PHASE - 2 WIRE
CODE 11-22-11
CODE 31-22-11
CODE 31-22-13
WHEN CT IS INSTALLED
POLE TOP, BOND CT
SECONDARY THROUGH
JAW #3 OF SOCKET
BILLING MULTIPLER IS:
METER MULTIPLIER X ½ C.T. RATIO
TYPES
kWH
M1S
K2S
I210
I70S
CJ3S
K2WSD
KWSD
TJSD
VA DEMAND
K2LS
KV2C
SVIS
REV. 2008
NOTE:
REFER TO CD-137 WHEN ABOVE
CT IS NOT PRACTICAL DUE TO
SIZE OF CONDUCTORS.
CODE 11-22-13
LINE
GND
R/BK
R/W
Y
R
LOAD
CIRCUIT
CLOSER
LEFT SIDE
BOND
NEUTRAL
1 2
3 4
CD-238
SERVICE VOLTAGE
240 / 480 - 1 PHASE – 3 WIRE
OUTDOOR METERING
- TRANSRACK -
TYPES
kWH
M1S
K2S
I70S
CJ3S
K2WSD
KWSD
TJSD
VA DEMAND
K2LS
SVIS
GND
kWh
VA DEMAND - THERMAL
.12-10 AMP - 120 VOLT - 1 PHASE - 2 WIRE
CODE 11-12-11
CODE 31-12-11
NOTE:
GROUND INSTRUMENT TRANSFORMERS
AT TERMINALS 3 AND 4 OF THE SOCKET
WHEN THE CT-PT ARE LOCATED POLE
TOP.
REV. 2008
BILLING MULTIPLER IS:
METER MULTIPLIER X ½ C.T.
RATIO X PT RATIO
MULT.
1
0.5
GN
Y
R
480 V
120 V
SERVICE VOLTAGE
240 VOLT - 3 PHASE - 3 WIRE
CD-239
LOAD
BOND
43
5
21
LINE
R BY
R Y B
TYPES
kWh
S3S
V62S
PBS
KYWSD
KYS
REV. 2005
240 VOLT – 3 PHASE - 3 WIRE
kWh
CODE AMP. MULT.
14-23-3150
1.2 - 10010
40
BILLING MULTIPLIER IS
METER MULTIPLIER
NOTE 1:
#12 FLAMESEAL (YELLOW) CONNECTED
BETWEEN YELLOW PHASE AND 5TH TERMINAL
NOTE 2:
INTERNAL METER CONNECTION BETWEEN
ALTEDRNATE POSITIONS OF 5TH TERMINAL
NOTE 3:
TEST LINKS TO BE IN CLOSED POSITION
EBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VA DEMAND - ELECTRONIC
CODE AMP. MULT.
35-93-34 2.0 – 200
VA DEM, - ELEC.
SS2S2L
(SENTINEL)
METER
20
43
5
21
31 2 4 5 6 87
R
Y
B
R
Y
B
LINE LOAD
SERVICE VOLTAGE240 VOLT - 3 PHASE - 3 WIRE
(SOCKET ADAPTER)
CD-244
SOCKET METERS
kWh
S3S
V62S
PBS
P20S
KYWSD
KYS
VA DEM. ELEC.
SS2S2L
(SENTINEL
REV. 2005
240 VOLT – 3 PHASE - 3 WIRE
kWh
CODE AMP. MULT.
14-23-3150
1.2 - 100
BILLING MULTIPLIER IS
METER MULTIPLIER
VA DEMAND - ELECTRONIC
CODE AMP. MULT.
35-93-34 2.0 – 200
METER
20
(ADAPTER CODE 83-33-50)
EBY
ERY
IR
IB
300
300
B Ø
ELEMENT
UNITY P. F.
NOTE #1:
SOCKET ADAPTER USED WHEN
REPLACING S3 METERS
NOTE #2:
INTERNAL METER CONNECTION
BETWEEN ALTERNATE POSITIONS
OF 5TH
TERMINAL
NOTE #3:
TEST LINKS TO BE IN
CLOSED POSITION
10
40
SERVICE VOLTAGE
480 VOLT - 3 PHASE - 3 WIRECD-245
LOAD
BOND
43
5
21
LINE
R BY
R Y B
TYPES
kWh
D4S5
V62S
PCS
KYWSD
KYS
REV. 2008
480 VOLT – 3 PHASE - 3 WIRE
kWh
CODE AMP. MULT.
13-43-31
BILLING MULTIPLIER IS
METER MULTIPLIER
NOTE 1: WITH #12 (Y) FLAMESEAL MAKE
SOCKET CONNECTION FROM YELLOW PHASE
SPLITTER BLOCK TO 5TH
JAW
NOTE 2: INTERNAL METER
CONNECTION
NOTE 3: YELLOW PHASE
SPLITTER BLOCK MUST
BE INSULATED FOR 600
VOLTS
EBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VA DEMAND - ELECTRONIC
CODE AMP. MULT.
35-93-34 2.0 – 200
VA DEM.KYLS
KVIS
SVIS
SS2S2L
(SENTINEL)
KV2c
METER
20
0.6 - 50 40
14-43-31
15-43-31
15-43-37
15-93-37
1.2 - 10010
80
2.5 - 200 10
2.5 - 200
205 - 200
100
100
34-43-32 1.0 - 100 40
34-43-33 1.0 - 100 40
35-43-32 2.0 - 200 80
35-43-33 2.0 - 200 80
F.S. DEMAND
MAXIMUM
96 kVA
96 kVA
192 kVA
192 kVA
192 kVA
FARM
IRRIGATION
NOTE 4: METER MUST BE
INSTALLED BEHIND THE
CUSTOMERS MAIN SWITCH
CODE AMP. MULT.
32-43-31 0.3 - 25 20
33-43-31 0.6 - 50 40
34-43-31 1.2 - 100 80
35-43-31 2.5 - 200 160
F.S. DEMAND
MAXIMUM
20 kVA
40 kVA
80 kVA
160 kVA
VA DEMAND - THERMAL
VOLTAGE AT SOCKET
TERMINAL VOLTS
1 - 5 480
1 - 2 480
2 - 5 480
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS SEE
CD-633
BOND
BER
R/W
YR/BK
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
W BE R/BKR/W BE/BKBE/W
8-JAW
COMBINATION
SOCKET
LINE
R R
Y Y
BE B
GN
R Y
GN
CD-246
SERVICE VOLTAGE
480 – 600 – 1080 – 2400 – 14400 – 25000 – 72000 VOLT - 3 PHASE – 3 WIRE
REV. 2008
BILLING MULTIPLIER IS: METER
MULT. X CT RATIO X PT RATIO
.12 - 10 AMP - 120 VOLT - 3 Ø -3 WIRE
METER
CODE 11-13-31
VA DEMAND - THERMAL
CODE 31-13-32
CODE 31-13-33
CODE 31-13-31
kWh
VA DEMAND - ELECTRONIC
CODE 31-13-34
NOTE: WHEN USED WITH AN
OILFILLED METERING UNIT REFER TO
SERIES CD-XXX-A TO CD-XXX-E
EBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
120
TYPES
kWh
KYS
P20S
V63S
KYWSD
VA DEM.
KYLS
KVIS
SVIS
SV3SR
(VECTRON)
SS3S2L
(SENTINEL)
R
Y
BE
W
BOND
BE
R
R/W
YR/BK
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
W BE R/BKR/W BE/BKBE/W
8-JAW
COMBINATION
SOCKET
LINE
R R
Y Y
BE B
GN
R Y
GN
CD-247
SERVICE VOLTAGE
480 – 600 – 1080 – 2400 – 14400 – 25000 – 72000 VOLT - 3 PHASE – 3 WIRE
APPLICATION: CUSTOMERS WITH GROUND FAULT RESISTOR
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X CT RATIO X PT
RATIO
.12 - 10 AMP - 120 VOLT - 3 Ø -3 WIRE
METER
CODE 11-13-31
VA DEMAND - THERMAL
CODE 31-13-32
CODE 31-13-33
CODE 31-13-31
kWh
VA DEMAND - ELECTRONIC
CODE 31-13-34
NOTE: WHEN USED WITH AN
OILFILLED METERING UNIT REFER TO
SERIES CD-XXX-A TO CD-XXX-E
EBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
120
TYPES
kWh
KYS
P20S
V63S
KYWSD
VA DEM.
KYLS
KVIS
SVIS
SV3SR
(VECTRON)
SS3S2L
(SENTINEL)
GROUND FAULT
SENSING RESISTOR
XOHO
CAUTION:
DO NOT GROUND XO(REF. DWG A-30-04)
(CIRCULAR MSC-10) CUSTOMER
EQUIPMENT
SPC TRANSFORMATION
R
Y
BE
W
BOND
BE
R
R/W
YR/BK
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
BE R/BKR/W BE/BKBE/W
8-JAW
COMBINATION
SOCKET
LINE
R R
Y Y
B B
GN
R Y
GN
CD-248
SERVICE VOLTAGE
240 VOLT - 3 PHASE – 3 WIRE
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X CT RATIO
.12 - 10 AMP - 240 VOLT - 3 Ø -3 WIRE
METER
CODE 11-23-31
VA DEMAND - THERMAL
CODE 31-23-32
CODE 31-23-33
CODE 31-23-31
kWh
VA DEMAND - ELECTRONIC
EBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
240
240
240
TYPES
kWh
KYS
P20S
V63S
KYWSD
VA DEM.
KYLS
KVIS
SVIS
SV3SR
(VECTRON)
SS3S2L
(SENTINEL)
BE
R
R/W
YR/BK
BE/W
BE/BK
12 3 4
56 7 8
LOAD
BE R/BKR/W BE/BKBE/W
LINER R
Y Y
B B
R Y
GN
CD-250
SERVICE VOLTAGE
240 VOLT - 3 PHASE – 3 WIRE
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X CT RATIO
.12 - 10 AMP - 240 VOLT - 3 Ø -3 WIRE
METER
CODE 11-23-31
VA DEMAND - THERMAL
CODE 31-23-32
CODE 31-23-33
CODE 31-23-31
kWh
VA DEMAND - ELECTRONIC
EBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VOLTAGE AT
SOCKET
TERMINAL VOLTS
2 - 6
3 - 7
2 - 3
240
240
240
TYPES
kWh
KYS
P20S
V63S
KYWSD
VA DEM.
KYLS
KVIS
SVIS
SV3SR
(VECTRON)
SS3S2L
(SENTINEL)
NOTE:
CIRCUIT CLOSURE
BOTH SIDES
UPGRADE THIS
SERVICE REWIRE TO
CD-248
31
2 4 5
6 8
7
R
Y
B
R
Y
B
LINE
LOAD
SERVICE VOLTAGE480, 1080, 2400, 14400, 72000 VOLT - 3 Ø- 3 WIRE
CD-261
kWh
KYWPD
VA DEM.
KYLP
KYWPE
REV. 2008
.12 – 10A – 120 V -3 Ø – 3 W
kWh
CODE 41-13-31
BILLING MULTIPLIER IS
METER MULTIPLIER X CT
RATIO X PT RATIO
VA DEMAND - THERMAL
CODE 61-13-31
METER
EBY
ERY
IR
IB
300
300
B Ø
ELEMENT
UNITY P. F.
TYPES
1 2 3 4 5 6 7
GN
R/W
R
BE
BE/W
Y
Y
BE/BK
R/BK
VOLTAGE AT TEST SWITCH
TERMINAL 1080 V OTHER
1 – 2
2 – 3
1 - 3
108
108
108
120
120
120R WY BE R/W R/BK BE/BK BE/BK
GN
GN
BOND
NOTE: WHEN USED WITH AN
OILFILLED METERING UNIT REFER TO
SERIES CD-XXX-A TO CD-XXX-E
R
Y
BE
W
CD-XXX-A5KV – 3 Ø – 3 W – OIL FILLED METERING UNIT
FERRANTI-PACKARD – CSS-5
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK BE/W BE/BK
GN
V1A
V2A
V2C
V1C
C2A
C1A
C3A
C1C
C2C
C3C
R WY BE R/W R/BK BE/W BE/BK
H1B
H1A
H1C
H2A
H2C
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
(F.P.) CSS-5
3 Ø – 3W
METERING UNIT
2 – 4200-120V – P.T.
2 - ____ /___ -5A – C.T.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON SAP
S5 NOTIFICATIONS PLEASE INDICATE CONNECTION
DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-A (CD-246-A)
C. T. RATIO CONNECTION
HIGH LOW
H1A – C.T.
HIC – C.T.
CIA & C3A
CIC & C3C
C1A & C2A
C1C & C2C
REV. 2006
TEST
SWITCH
TO METER
LINE
3Ø – 3W
4160 V
CD-XXX-B15KV – 3 Ø – 3 W – OIL FILLED METERING UNIT
FERRANTI-PACKARD – CSS-15
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK BE/W BE/BK
GN
V1A
V2A
V2C
V1C
C2A
C1A
C3A
C1C
C2C
C3C
R WY BE R/W R/BK BE/W BE/BK
H1B
H1A
H1C
H2A
H2C
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR, OR
BRY.
(F. P.) CSS-15
3 Ø – 3W
METERING UNIT
2 – 14,400-120V – P.T.
2 - ____ /___ -5A – C.T.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON SAP S5
NOTIFICATIONS PLEASE INDICATE CONNECTION DIAGRAM USED
WITH METERING UNIT.
i.e – CD-XXX-B (CD-246-B)
C. T. RATIO CONNECTION
HIGH LOW
H1A – C.T.
HIC – C.T.
CIA & C3A
CIC & C3C
C1A & C2A
C1C & C2C
REV. 2007
TEST
SWITCH
TO METER
LINE3Ø – 3W
14,400 V
CD-XXX-C72KV – 3 Ø – 3 W – OIL FILLED METERING UNIT
FERRANTI-PACKARD – KM-69 AND KMD-69
WITH SECONDARY RATIO SETTINGS
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK BE/W BE/BK
GN
V1A
V2A
V2C
V1C
C2A
C1A
C3A
C1C
C2C
C3C
R WY BE R/W R/BK BE/W BE/BK
H1A
H1C
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON
SAP S5 NOTIFICATIONS PLEASE INDICATE
CONNECTION DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-A (CD-246-C)
C. T. RATIO CONNECTION
HIGH LOW
H1A – C.T.
HIC – C.T.
CIA & C3A
CIC & C3C
C1A & C2A
C1C & C2C
REV. 2006
TO METER
TEST
SWITCH
H2A
H BH2C
(F. P.) KM-69 - 3 Ø – 3W
METERING UNIT
2 – 72,000-120V – P.T.
2 - ____ /___ -5A – C.T.
LINE
CURRENT BYPASS
& POTENTIAL DISCONNECTS
SHOWN WITH METERING UNIT IN
SERVICE
H1 H2
LINE LOAD
PRIMARY BUSHING KMD 69
WITH SECONDARY
RATIO SETTING
H1
H2
LOAD
LINE
PRIMARY BUSHING KM 69
WITH SECONDARY
RATIO SETTING
CD-XXX-D72KV – 3 Ø – 3 W – OIL FILLED METERING UNIT
FERRANTI-PACKARD – KMD-69
WITH PRIMARY RATIO SETTINGS
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK BE/W BE/BK
GN
V1A
V2A
V2C
V1C
C1A
C2A
C1C
C2C
R WY BE R/W R/BK BE/W BE/BK
H3A
H1C
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON
SAP S5 NOTIFICATIONS PLEASE INDICATE
CONNECTION DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-D (CD-246-D)
REV. 2006
TO METER
TEST
SWITCH
H2A
H B
H3C
(F. P.) KM-69 - 3 Ø – 3W
METERING UNIT
2 – 72,000-120V – P.T.
2 - ____ /___ -5A – C.T.
LINE
CURRENT BYPASS
& POTENTIAL DISCONNECTS
SHOWN WITH METERING
UNIT IN SERVICE
RATIOCONNECTION
STRAPS
CONNECTION
LINE LOAD
LOW
HIGH
H1 H4
H1 H4
SERIES
PARELLEL
H1
H2 H3
H4
H1
H2 H3
H4
H2C
H4C
H1AH4A
H1H2 H3
H4
R
H1
H2 H3
H4
B
CD-XXX-E72KV – 3 Ø – 3 W – OIL FILLED METERING UNIT
C. G. E. – KFE-69 – 3 Ø – 3W UNIT
P1 – X1
P1 – X2
P3 – X2
P3 – X1
C1 – X2
C1 – X1
C1 – X3
C3 – X1
C3 – X2
C3 – X3
R WY BE R/W R/BK BE/W BE/BK
H1-S
LINE
H3-S
LINE
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE
MAINTAINED FROM H1 THROUGH H3,
RYB,YBR, OR BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON
SAP S5 NOTIFICATIONS PLEASE INDICATE
CONNECTION DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-E (CD-246-E)
C. T. RATIO CONNECTION
HIGH LOW
H1 – C.T.
H3 – C.T.
CI-X1 & C1-X3
C3-X1 & C3-X3
C1-X1 & C1-X2
C3-X1 & C3-X2
REV. 2005
H1-L
LOAD
H-2
H3-L
LOAD
(G. E.) KFE-69 - 3 Ø – 3W METERING UNIT
2 – 72,000-120V – P.T.
2 - 100 / 200 -5A – C.T.
LINE
CURRENT BYPASS
& POTENTIAL DISCONNECTS
SHOWN WITH METERING
UNIT IN SERVICE
CD-XXX-H25KV – 3 Ø – 3 W – OIL FILLED METERING UNIT
PIONEER ELECTRIC – TYPE - IAPAT
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK BE/W BE/BK
GN
V1
V2
V3
V4
C1
C2
C3
C4
R WY BE R/W R/BK BE/W BE/BK
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (A) THROUGH (C), RYB,YBR, OR
BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS
OR ON SAP S5 NOTIFICATIONS PLEASE
INDICATE CONNECTION DIAGRAM USED
WITH METERING UNIT.
i.e – CD-XXX-H (CD-246-H)
REV. 2005
TO METER
TEST
SWITCH
PIONEER ELECTRIC - IAPAT
2 – 24,000-120V – P.T.
2 - ____ /___ -5A – C.T.
LINE
LINE-A
LINE-B
LINE-C
LOAD-A
LOAD-C
SHORTING SCREWS
MUST BE LEFT OPEN
LOAD SIDE
PRIMARY BUSHING300/5 AMP
150/5 AMP
CD-XXX-I25KV – 3 Ø – 3 W – OIL FILLED METERING UNIT
FERRANTI-PACKARD – KM-25
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK BE/W BE/BK
GN
V1A
V2A
V2C
V1C
C2A
C1A
C3A
C1C
C2C
C3C
R WY BE R/W R/BK BE/W BE/BK
H1A
H1C
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON
SAP S5 NOTIFICATIONS PLEASE INDICATE
CONNECTION DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-A (CD-246-C)
C. T. RATIO CONNECTION
HIGH LOW
H1A – C.T.
HIC – C.T.
CIA & C3A
CIC & C3C
C1A & C2A
C1C & C2C
REV. 2006
TO METER
TEST
SWITCH
H2A
H BH2C
(F. P.) KM-25 - 3 Ø – 3W
METERING UNIT
2 – 24,000-120V – P.T.
2 - ____ /___ -5A – C.T.
LINE
CURRENT BYPASS
& POTENTIAL DISCONNECTS
SHOWN WITH METERING UNIT IN
SERVICE
PRIMARY BUSHING KM25
WITH SECONDARY
RATIO SETTING
H2
H1
LINE
LOAD
w
4 5 6 7
1 2 3
½ COILS
CD-269
N
RY
B
NOTE 1:
VOLTAGE TEST LINKS ON BACK OF METER MUST BE
CLOSED
NOTE 2:
DO NOT ALLOW CUSTOMER TO CONNECT SINGLE PHASE
LOADS FROM RED PHASE
UNITY P.F.ERN
EYB
IR
IY
2
-IB
2RØ
ELEMENT
YBØ
ELEMENT
TYPES
KWH
KYS
V66S
VA DEMAND
KVIS
SVIS
SV4SD
SV4SR
SS4S0D
SS4S2L
A3KL
BILLING MULTIPLIER IS
METER MULTIPLIER
SERVICE VOLTAGE
120/240V 3 Ø - 4W – DELTA
(2.5 ELEMENT METER SHOWN)
REV. 2008
METER
240 VOLT - 3Ø – 4W DELTA
kWh
CODE AMPS MULT.
14-24-31
15-24-31
1.2 - 10010
40
2.5 - 20010
40
CAUTION:RED PHASE (208 VOLTS TO
GRD.) MUST BE CONNECTED
TO TERMINAL #3
VA DEMAND - ELECTRONIC
CODE
35-24-32
35-24-33
AMPS. MULT. F. S. DEMAND
MAXIMUM
2.0 - 200
2.0 - 200
40
40
96 kVA
96 kVA
CODE
35-24-31
AMPS. MULT. F. S. DEMAND
MAXIMUM
2.5 - 200 80 80 kVA
VA DEMAND - THERMAL
IY-B
2
IYB+IYB
2
(1Ø)
(3Ø)
VOLTAGE AT SOCKET
TERMINAL VOLTS
1 – 6
2 – 6
3 – 6
1 - 2
120
120
208
240
NOTE 3:
ONCE THIS SERVICE HAS A 3 ELEMENT METER ON IT DO NOT
GO BACK TO A 2.5 ELEMENT
METER. THE NEW CONNECTION DIAGRAM NUMBER IS CD-181
BOND
Y B R
208V
LINE
LOAD
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS SEE
CD-551
3 ELEMENT
METERING
35-95-34 2.0 - 200 25 CD-181
1 2 3 4 65 7 8 9 10
BOND
GN
R Y B WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/W
Y/WBE/W
R/BKY/BK
BE/BK
SERVICE VOLTAGE
120/240 VOLT - 3Ø - 4 WIRE – DELTA (INDOOR OR OUTDOOR C.T.’s)CD-270
METER
.12 - 8 AMP - 240 VOLT - 3 Ø - 4W - DELTA
kWh
CODE 11-24-31
VA - DEMAND - ELECTRONIC
CODE 31-24-32
CODE 31-24-33
TYPES
VA DEM.
SVIS
SV4SD
SV4SR
R
Y
BE
NEUTRAL
LINE
3Ø 3W
240V
LOADS
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
240
240
240
208
120
120
NOTE:
MANUFACTURER’S MARKINGS MAY VARY
AT THE TERMINALS ON THE METER
SOCKET. PLEASE WIRE AS INDICATED ON
THE DRAWING.
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
FOR OPTIONAL
PULSE OUTPUTS &
COMMUNICATION
CONNECTIONS
SEE CD-553
1 2 3
4 5 6
7
8
9
13
12
11
10
1Ø 3W
120/240V
LOADS
½ COIL
FULL COIL
UNITY P.F.ERN
EYB
IR
IY
2
-IB
2RØ ELEMENT
YBØ ELEMENT
IY-B
2
IYB+IYB
2
(1Ø)
(3Ø)
NOTE:ONCE THIS SERVICE HAS A 3
ELEMENT METER ON IT DO NOT GO
BACK TO A 2.5 ELEMENT METER.
THE NEW CONNECTION DIAGRAM
NUMBER IS CD-185
208V
kWh
KYS
KYWSD
VA - DEMAND - THERMAL
CODE 31-24-31
CODE 31-15 -34
300
300
SPC TRANSFORMATION
½ COIL
BOND
Y
R
R/W
Y
R/BK
Y/W
Y/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
3Ø LOAD
WBE R/BKR/W Y/BKY/W
8-JAW COMBINATION
SOCKET
LINE
RR
YY
BB
GN
R Y
GN
CD-271
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X CT RATIO
.12 - 10 AMP - 240 VOLT - 3 Ø -3 WIRE
METER
CODE 11-23-31
kWh
CAUTION: TO CORRECT NEGATIVE SEQUENCE
INTERCHANGE THE SERVICE
CONDUCTORS ON LINE SIDE OF 3W – C.T.
ALSO LOAD SIDE IF REQUIRED FOR
MOTOR ROTATION.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 – 3
1 – 4
2 – 4
3 - 4
240
240
240
208
120
120
TYPES
kWhKYS
V63S
KYWSD
SERVICE VOLTAGE
120/240 VOLT - 3Ø - 4 WIRE – DELTA (LINE FROM LEFT HAND SIDE)
8
BE
W
1Ø LOAD
NEUTRAL
20
8V
UNITY P.F.ERN
EYB
IRRØ
ELEMENT
YBØ
ELEMENT
IY-B
NOTE
DO NOT INSTALL 31-23-31
METERS – THEY READ 125%
HIGH ON DEMAND
SPC TRANSFORMATION
VA DEM.SENTINEL
ALPHA 3
VA - DEMAND - ELECTRONIC
CODE 31-13-34
BOND
Y
R
R/W
Y
R/BK
Y/W
Y/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
WBE R/BKR/W Y/BKY/W
8-JAW COMBINATION
SOCKET
LINE
R
YY
B
B
GN
R Y
GN
CD-272
REV. 2008
BILLING MULTIPLIER IS: METER MULT. X CT RATIO
.12 - 10 AMP - 240 VOLT - 3 Ø -3 WIRE
METER
CODE 11-23-31
kWh
CAUTION: TO CORRECT FOR NEGATIVE
SEQUENCE INTERCHANGE THE
SERVICE CONDUCTORS ON
LINE SIDE OF 3W – C.T. ALSO
LOAD SIDE IF REQUIRED FOR
MOTOR ROTATION.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 – 3
1 – 4
2 – 4
3 - 4
240
240
240
208
120
120
TYPES
kWhKYS
V63S
KYWSD
SERVICE VOLTAGE
120/240 VOLT - 3Ø - 4 WIRE – DELTA (LINE FROM RIGHT HAND SIDE)
8
BE
W
NEUTRAL
208V
UNITY P.F.ERN
EYB
IRRØ
ELEMENT
YBØ
ELEMENT
IY-B
NOTE
DO NOT INSTALL 31-23-31
METERS – THEY READ 125%
HIGH ON DEMAND
3Ø LOAD
1Ø LOAD
R
SPC TRANSFORMATION
VA DEM.SENTINEL
ALPHA 3
VA - DEMAND - ELECTRONIC
CODE 31-13-34
BOND
Y
R
R/W
Y
R/BK
Y/W
Y/BK
1 2 3 4
5 6 7 8
1 2 34 5 6 7
3Ø LOAD
WBE R/BKR/W Y/BKY/W
8-JAW COMBINATION
SOCKET
LINE
R
R
Y Y
B
B
GN
RY
GN
CD-273
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X ½ CT RATIO
.12 - 10 AMP - 240 VOLT - 3 Ø -3 WIRE
METER
CODE 11-23-31
kWh
CAUTION: TO CORRECT NEGATIVE
SEQUENCE INTERCHANGE
Y AND B CONDUCTORS AT
SOURCE ALSO LOAD SIDE IF
REQUIRED FOR MOTOR
ROTATION.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 – 3
1 – 4
2 – 4
3 - 4
240
240
240
208
120
120
TYPES
kWhKYS
P20S
V63S
KYWSD
SERVICE VOLTAGE
120/240 VOLT - 3Ø - 4 WIRE – DELTA (OUTDOOR WINDOW TYPE C.T.’S)
8
BE
W
1Ø LOAD
NEUTRAL
20
8V
UNITY P.F.ERN
EYB
IRRØ
ELEMENT
YBØ
ELEMENT
IY-B
NOTE
DO NOT INSTALL 31-23-31
METERS – THEY READ 125%
HIGH ON DEMAND
SPC TRANSFORMATION
VA DEM.SENTINEL
ALPHA 3
VA - DEMAND - ELECTRONIC
CODE 31-13-34
Y
R
R/W
Y
R/BK
BE/W
1 2 3 4
5 6 7 8
3Ø LOAD
W
BE R/BKR/W BE/BKBE/W
LINE
RR
YY
BB
R
CD-274
REV. 2008BILLING MULTIPLIER IS:
METER MULT. X CT RATIO
.12 - 10 AMP - 240 VOLT - 3 Ø -3 WIRE
METER
CODE 11-23-31
kWh
CAUTION: TO CORRECT NEGATIVE
SEQUENCE INTERCHANGE THE
SERVICE CONDUCTORS ON
LINE SIDE OF 3W – C.T. ALSO
LOAD SIDE IF REQUIRED FOR
MOTOR ROTATION.
VOLTAGE AT
METER SOCKET
TERMINAL VOLTS
2 - 6
3 - 6
2 – 3
3 – 7
2 – 7
6 - 7
240
240
240
208
120
120
TYPES
kWh
KYS
V63S
KYWSD
SERVICE VOLTAGE
120/240 VOLT - 3Ø - 4 WIRE – DELTA (INDOOR C.T.’S)
W
1Ø LOAD
NEUTRAL
208V
UNITY P.F.ERN
EYB
IRRØ
ELEMENT
YBØ
ELEMENT
IY-B
NOTE
DO NOT INSTALL 31-23-31
METERS – THEY READ 125%
HIGH ON DEMAND
NOTE
CIRCUIT CLOSURES BOTH
SIDES
GN
SPC TRANSFORMATION
CD-280
NOTE 1:
VOLTAGE TEST LINKS ON
BACK OF METER MUST BE
CLOSED
UNITY P.F.
TYPES
KWH
KYS
V66S
VA DEMAND
SVIS
SV4SD
SV4SR
SS4S0D
SS4S2L
A3KL
BILLING MULTIPLIER IS
METER MULTIPLIER
REV. 2008
VOLTAGE
AT
SOCKET
TERMINAL 120/208
1 – 6
3 – 6
1 – 2
2 – 3
1 - 3
120
120
208
208
208 NOTE 3:
ONCE THIS SERVICE HAS A 3
ELEMENT METER ON IT DO NOT
GO BACK TO A 2.5 ELEMENT
METER. THE NEW CONNECTION
DIAGRAM NUMBER IS CD-181
SERVICE VOLTAGE
120/208 - 277/480 - 347/ 600V 3Ø - 4W - WYE
ERN
EBN
IR-IY
IB-Y
RØ
ELEMENT
BØ
ELEMENT
300
300
IR-Y
2.5 ELEMENT SELF-CONTAINED
METER 120 V0LT 3PH 4W WYE
120
208
CODE
AMPS
MULT.
KWH 14-14-31 1.2 - 100 10 30
15-14-31 2.5 - 200 10 60
VA DEM 35-14-31 2.0 - 200 60
THERM
VA DEM 35-15-33 2.0 – 200 20
ELECT 35-95-34 25
METER 277 V0LT 3PH 4W WYE
277
480
CODE
AMPS
MULT.
KWH 15-74-37 2.5 - 200 100
34-74-32 1.0 – 100 25
VA DEM 34-74-33 1.0 – 100 25
ELECT 35-74-32 2.0 – 200 50
35-74-33 2.0 – 200 50
35-95-34 2.0 - 200 25
VA DEM 33-74-31 .6 – 50 37.5
THERM 34-74-31 1.2 – 100 75
35-74-31 2.5 - 200 150
METER 345 V0LT 3PH 4W WYE
347
600
CODE
AMPS
MULT.
KWH 13-34-31 .6 - 50 45
14-34-31 1.2 - 100 10 90
34-34-32 1.0 - 100 30
VA DEM 34-34-33 1.0 – 100 30
ELECT 35-34-32 2.0 – 200 60
35-34-33 2.0 – 200 60
35-95-34 2.0 - 200 25
VA DEM 34-34-31 1.2 – 100 90
THERM 34-34-31 2.5 - 200 180
NOTE 2:
ON 277/480 VOLT OR 347/600
VOLT SERVICES THE METER
MUST BE CONNECTED
BEHIND THE CUSTOMER’S
MAIN SWITCH AND THE
NEUTRAL SPLITTER IN THE
SOCKET MUST BE INSULATED
FROM GROUND.
SERVICE VOLTAGE
277/480
277
277
480
480
480
347/600
347
347
600
600
600
w
4 5 6 7
R
Y
1 2 3
BOND
Y BR
B
N
N
BOND
BE
R
R/W
WR/BK
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
B R/BKR/W Y/BKY/W
8-JAW
COMBINATION
SOCKET
LINE
R R
Y Y
B B
GN
R W
GN
CD-281
REV. JAN. 2009BILLING MULTIPLIER IS:
METER MULT. X CT RATIO
.12 - 10 AMP - 120 VOLT - 3 Ø -3 WIRE
METER
CODE 11-13-31
kWh
WARNING: DO NOT INSTALL
THERMAL VA DEMAND
METERS AS THE DEMAND
WILL READ HIGH.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
TYPES
kWh
KYS
V63S
KYWSD
8 9
BE/BKBE/W
SERVICE VOLTAGE
120 / 208 V 3Ø - 4W - WYE
Y/BK
Y/W
NN
UNITY P.F.
ERN
EBN
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
SPC TRANSFORMATION
VA DEMAND - ELECTRONIC
CODE 31-13-33
CODE 31-13-34
1 2 3 4 65 7 8 9
BOND
GN
R BWR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
120 / 208 VOLT – 3 Ø - 4 W - WYECD-284
METER
.12 - 8A - 120V - 3Ø - 4W -W YE
VA - DEMAND - ELECTRONIC
CODE 31-14-32
CODE 31-14-33
TYPES
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
NOTE:
MANUFACTURES MARKINGS
MAY VARY AT THE TERMINALS
ON THE METER SOCKET.
PLEASE WIRE AS INDICATED
ON THIS DRAWING.
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
VA DEM.
SVIS
VIME4S
SV4SD
SV4SR
SS4S2L
A3KL
CODE 31-14-34
VA - DEMAND - THERMAL
CODE 31-14-31
CODE 11-14-31
kWh
UNITY P.F.
ERN
EBN
IR
-IY
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
kWh
KYS
V65S
KYWSD
CAUTION: INSTALL JUMPER
4 5 6
1 2 3
12
137
8
SPC TRANSFORMATION
1 2 3 4 65 7 8 9
BOND
GN
R BWR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE – WITH GROUND FAULT RESISTOR
120 / 208 VOLT – 3 Ø - 4 W - WYECD-285
METER
.12 - 8A - 120V - 3Ø - 4W -W YE
VA - DEMAND - ELECTRONIC
CODE 31-14-32
CODE 31-14-33
TYPES
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
NOTE:
MANUFACTURES MARKINGS
MAY VARY AT THE TERMINALS
ON THE METER SOCKET.
PLEASE WIRE AS INDICATED
ON THIS DRAWING.
REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
VA DEM.
SVIS
SV4SD
SV4SR
SS4S2L
A3KL
CODE 31-14-34
VA - DEMAND - THERMAL
CODE 31-14-31
CODE 11-14-31
kWh
UNITY P.F.
ERN
EBN
IR-IY
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
kWh
KYS
V65S
KYWSD
CAUTION: INSTALL JUMPER
R
GROUND
FAULT RELAY
GROUND FAULT
RESISTOR
HO
CAUTION: DO NOT GROUND XO (REF. DWG CS
A-30-04) ( CIRCULAR MSC-10) INSTALL
INSULATED NEUTRAL BUSHING FOR THE
COMMON NEUTRAL POINT FOR METERING 3
PHASE 4 WIRE WYE
654
1 2 3
7
812
13
CUSTOMER
EQUIPMENT
XO
SPC TRANSFORMATION
W
R/BK
BE/BK
1 2 3 4 5 6 7
LOAD
BE R/BKR/W Y/BKY/W
LINE
R R
Y Y
BE BE
GN
R W
GN
CD-287
BILLING MULTIPLIER IS:
METER MULT. X CT RATIO
.12 - 10 AMP - 120 VOLT - 3 Ø -4 WIRE
METER
CODE 11-14-31
kWh
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
TYPES
kWh
KYS
V65S
KYWSD
8 9
BE/BK
BE/W
SERVICE VOLTAGE
120 / 208 V 3Ø - 4W - WYE
WITH 13-JAW A-BASE SOCKET ADAPTER
Y/BKY/W
N N
UNITY P.F.
ERN
EBN
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
31
2 4
5
6 8
7
R/W
WBE/W
R
BE
REVISION 2008
VA DEMAND
CODE 31-14-33
CODE 31-14-34
4 5 6
1 2 3
4
5 6
1 2 3
2 ½ ELEMENT METER
9
10
11
VA DEM.
SVIS
SV4SD
SV4SR
SS4S2L
A3KL
SPC TRANSFORMATION
W
R/BK
BE/BK
1 2 3 4 5 6 7
LOAD
BE R/BKR/W Y/BKY/W
LINE
R R
Y Y
BE BE
GN
R W
GN
CD-288
BILLING MULTIPLIER IS:
METER MULT. X CT RATIO
.12 - 8 AMP - 120 VOLT - 3 Ø - 4 WIRE
METER
CODE 41-14-31
kWh
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
TYPES
kWh
KYS
V63S
KYWSD
8 9
BE/BKBE/W
SERVICE VOLTAGE
120 / 208 V 3Ø - 4W - WYE
Y/BK
Y/W
NN
31
2 4 9
6 8
7
R/W
WBE/W
R
BE
REVISION 2008
GN
Y/BK
5 10
VA DEMAND - ELECTRONIC
CODE 61-14-32
VA DEMAND - THERMAL
CODE 61-14-31
APPLICATION
FOR USE IN SWITCHGEAR
OR METERING CABINET
UNITY P.F.
ERN
EBN
IR
-IY
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
SPC TRANSFORMATION
1 2 3 4 65 7 8 9
BOND
GN
R BW
R/WR/BK
Y/W BE/WY/BK BE/BK
W
R
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
277/480 – 347/600 – 2400/4160 – 14400/25000 VOLT – 3 Ø - 4 W - WYECD-292
METER
.12 - 8A - 120V - 3Ø - 4W -W YE
VA - DEMAND - ELECTRONIC
CODE 31-14-32
CODE 31-14-33
TYPES
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
NOTE:
MANUFACTURES MARKINGS
MAY VARY AT THE TERMINALS
ON THE METER SOCKET.
PLEASE WIRE AS INDICATED
ON THIS DRAWING.
REV. 2008
BILLING MULTIPLIER IS: METER
MULT. X C.T. RATIO X PT RATIO
13-JAW
COMBINATION
SOCKET
VA DEM.
SVIS
SV4SD
SV4SR
SS4S2L
A3KLCODE 31-14-34
VA - DEMAND - THERMAL
CODE 31-14-31
CODE 11-14-31
kWh
UNITY P.F.
ERN
EBN
IR
-IY
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
kWh
KYS
V65S
KYWSD
CAUTION: INSTALL JUMPER
Y
5 64
1 2 3
7
8
12
13
SPC TRANSFORMATION R
W
BEY
1 2 3 4 65 7 8 9
BOND
GN
RB
WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE – WITH GROUND FAULT RESISTOR
277/488 – 347/600 – 2400/4160 – 14400/25000 VOLT – 3 Ø - 4 W - WYECD-293
METER
.12 - 8A - 120V - 3Ø - 4W -W YE
VA - DEMAND - ELECTRONIC
CODE 31-14-32
CODE 31-14-33
TYPES
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT TEST SWITCH
TERMINAL NORMAL
1 - 2
2 - 3
1 - 3
120
120
208
NOTE:
MANUFACTURES MARKINGS
MAY VARY AT THE TERMINALS
ON THE METER SOCKET.
PLEASE WIRE AS INDICATED
ON THIS DRAWING.
REV. 2008
BILLING MULTIPLIER IS: METER MULT. X
C.T. RATIO X PT RATIO
13-JAW
COMBINATION
SOCKET
VA DEM.
SVIS
SV4SD
SV4SR
SS4S2L
A3KLCODE 31-14-34
VA - DEMAND - THERMAL
CODE 31-14-31
CODE 11-14-31
kWh
UNITY P.F.ERN
EBN
IR-IY
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
kWh
KYS
V65S
KYWSD
CAUTION: INSTALL JUMPER
R
GROUND
FAULT RELAYGROUND FAULT
RESISTOR
HO
CAUTION: DO NOT GROUND XO
(REF. DWG CS A-30-04) (
CIRCULAR MSC-10) INSTALL
INSULATED NEUTRAL BUSHING
FOR THE STAR POINT FOR
METERING 3 PHASE 4 WIRE WYE
Y
277/480
111
111
192
347/600
115
115
200
4 5 6
1 2 3
7
8
12
13
CUSTOMER
EQUIPMENT
XO
SPC TRANSFORMATION R
BE
WY
W
R/BK
BE/BK
1 2 3 4 5 6 7
LOAD
BE R/BKR/W Y/BKY/W
LINE
R R
Y Y
BE BE
GN
R W
GN
CD-295
.12 - 10 AMP - 120 VOLT - 3 Ø -4 WIRE
METER
CODE 11-14-31
kWh
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
TYPES
kWh
KYS
V65S
KYWSD
8 9
BE/BK
BE/W
SERVICE VOLTAGE
277/480 – 347/600 – 2400/4160 – 14400/25000 V 3Ø - 4W - WYE
WITH 13-JAW A-BASE SOCKET ADAPTER
Y/BKY/W
N N
UNITY P.F.
ERN
EBN
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
31
2 4
5
6 8
7
R/W
WBE/W
R
BE
REVISION 2008
VA DEMAND
CODE 31-14-31
CODE 31-14-33
4 5 6
1 2 3
4
5 6
1 2 3
2 ½ ELEMENT METER
9
10
11
VA DEM.
SVIS
SV4SD
SV4SR
SS4S2L
A3KL
CODE 31-14-34
Y
BE
W
Y
RSPC TRANSFORMATION
BILLING MULTIPLIER IS: METER MULT. X
C.T. RATIO X PT RATIO
W
R/BK
BE/BK
1 2 3 4 5 6 7
LOAD
BE R/BKR/W Y/BKY/W
LINE
R R
Y Y
BE BE
GN
RW
GN
CD-296
.12 - 8 AMP - 120 VOLT - 3 Ø - 4 WIRE
METER
CODE 41-14-31
kWh
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
TYPES
kWh
KYWPD
8 9
BE/BKBE/W
SERVICE VOLTAGE
277 / 480 – 347 / 600 – 2400 / 4160 – 14400 / 25000 V 3Ø - 4W - WYE
Y/BK
Y/W
NN
31
2 4 9
6 8
7
R/W
WBE/W
R
BE
REVISION 2008
GN
Y/BK
5 10
VA DEMAND - ELECTRONIC
CODE 61-14-32
VA DEMAND - THERMAL
CODE 61-14-31
UNITY P.F.
ERN
EBN
IR
-IY
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
VA DEM.
KYLP
KYWPE
Y
NOTE:
WHEN USED WITH OILFILLED
METERING UNIT REFER TO
SERIES CD-XXX-J TO CD-XXX-P
277/480 347/600
111
111
192
115
115
200SPC TRANSFORMATION
Y
W
R
BEBILLING MULTIPLIER IS: METER
MULT. X C.T. RATIO X PT RATIO
CD-XXX-J5KV – 3 Ø – 4 W – OIL FILLED METERING UNIT
FERRANTI-PACKARD – CSS-5
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK Y/W Y/BK
GN
V1A
V2A
V2C
V1C
C2A
C1A
C3A
C1C
C2C
C3C
R WY BE R/W R/BK BE/BK BE/BK
H0
H1A
H1B
H2A
H2B
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
(F.P.) CSS-5 3 Ø – 4W
METERING UNIT
2 – 2400-120V – P.T.’s
3 - ____ /___ -5A – C.T.’s
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON SAP
S5 NOTIFICATIONS PLEASE INDICATE CONNECTION
DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-J (CD-292-J)
C. T. RATIO CONNECTION
HIGH LOW
H1A – C.T.
H1B – C.T.
C1A & C3A
C1B & C3B
C1A & C2A
C1B & C2B
REV. 2008
TEST
SWITCH
TO METER
LINE
H1C – C.T. C1C & C3C C1C & C2C
C1B
C2B
C3B
Y/W Y/BK
H1C H2C
9
BE/BK
8
BE/W
N
3Ø – 4W – WYE
4160 V
CD-XXX-K25KV – 3 Ø – 4 W – OIL FILLED METERING UNIT
FERRANTI-PACKARD – KM-25
V1A
V2A
V2C
V1C
C2B
C1B
C3B
C1C
C2C
C3C
R WY BE
Y/W Y/BK BE/BK BE/BK
H1B
H1C
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON
SAP S5 NOTIFICATIONS PLEASE INDICATE
CONNECTION DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-K (CD-292-K)
C. T. RATIO CONNECTION
HIGH LOW
H1A – C.T.
H1B – C.T.
C1A & C3A
C1B & C3B
C1A & C2A
C1B & C2B
REV. 2006
H2B
H 0
H2C
(F. P.) KM-25 - 3 Ø – 4W
METERING UNIT2 – 14,400-120V – P.T.
3 - ____ /___ -5A – C.T.
LINE
CURRENT BYPASS
& POTENTIAL DISCONNECTS
SHOWN WITH METERING UNIT IN
SERVICE
PRIMARY BUSHING
ON PHASE R – Y - & B
H2
H1
LINE
LOAD
H1A
H2A
C2A
C1A
C3A
R/W R/BK
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK Y/W Y/BK
GN
TEST
SWITCH
TO METER
9
BE/BK
8
BE/W
3Ø – 4 WIRE – WYE
25,000 V
H1C – C.T. C1C & C3C C1C & C2C
CD-XXX-L25KV – 3 Ø – 4 W – OIL FILLED METERING UNIT
PIONEER ELECTRIC – TYPE – IAPFT & IP
(SINGLE RATIO)
V1
V2
V3
V4
C3
C4
C5
C6
R WY BE
Y/W Y/BK BE/W BE/BK
H1B
H1A
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON
SAP S5 NOTIFICATIONS PLEASE INDICATE
CONNECTION DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-L (CD-292-L)
C. T. RATIO CONNECTION
HIGH LOWH1A – C.T. H1B – C.T.
C3 & C4 C5 & C6
REV. 2006
H2B
H 0
H2A
(P. E.) 25 KV- 3 Ø – 4W
METERING UNIT2 – 14,400-120V – P.T.’s
3 - ____ /___ -5A – C.T.’s
LINE
CURRENT BYPASS
& POTENTIAL DISCONNECTS
SHOWN WITH METERING UNIT IN
SERVICE
PRIMARY BUSHING
ON PHASE R – Y - & B
H2
H1
LINE
LOAD
H1C
H2C
C1
C2
R/W R/BK
1 2 3 4 5 6 7
GN
R WY BE R/W R/BK Y/W Y/BK
GN
TEST
SWITCH
TO METER
9
BE/BK
8
BE/W
3Ø – 4 WIRE – WYE
25,000 V
H1C – C.T.
C1 & C2
CD-XXX-M25KV – 3 Ø – 4 W – OIL FILLED METERING UNIT
PIONEER ELECTRIC – TYPE – IAPFT(DUAL RATIO)
V1
V2
V4
V3
C5
C2
C8
C3
C6
C9
R WY BE
Y/W Y/BK BE/W BE/BK
H1B
H1A
LOAD
NOTE 1:
POSITIVE SEQUENCE TO BE MAINTAINED
FROM (H1A) THROUGH (H1C), RYB,YBR,
OR BRY.
NOTE 2:
UNDER COMMENTS ON H500 DOCUMENTS OR ON
SAP S5 NOTIFICATIONS PLEASE INDICATE
CONNECTION DIAGRAM USED WITH METERING UNIT.
i.e – CD-XXX-M (CD-292-M)
C. T. RATIO CONNECTION
HIGH LOW
H1A – C.T.
H1B – C.T.
C1 & C7
C2 & C8
C1 & C4
C2 & C5
REV. 2007
H2B
H 0
H2A
(P. E.) 25 KV - 3 Ø – 4W
METERING UNIT2 – 14,400-120V – P.T.’s
3 - ____ /___ -5A – C.T.’s
LINE
CURRENT BYPASS
& POTENTIAL DISCONNECTS
SHOWN WITH METERING UNIT IN
SERVICE
PRIMARY BUSHING
ON PHASE R – Y - & B
H2
H1
LINE
LOAD
H1C
H2C
C4
C1
C7
R/W R/BK
1 2 3 45 6 7
GN
R WY BE R/W R/BK Y/W Y/BK
GN
TEST
SWITCH
TO METER
9
BE/BK
8
BE/W
3Ø – 4 WIRE – WYE
25,000 V
H1C – C.T. C3 & C9 C3 & C6
1 2 3 4 65 7 8 9
GN
RY BW R/W
R/BKY/W BE/W
Y/BK BE/BK
TO 2.5 ELEMENT METER
BE/BK
BE/W
X1
X2
X3
H1 H2
BE
W
HO
Y1
Y2
Y3
Z2
Z1
Z3
X1
X2
X3
H1 H2
Y
HO
Y1
Y2
Y3
Z2
Z1
Z3
R/BK
R/W
X1
X2
H1 H2
R
HO
Y1
Y2
Y3
Z2
Z1
Z3
X3
40250/72000 V - 3 PHASE - 4 WIRE WYE
WITH 3 OIL-FILLED SINGLE PHASE METERING UNITS
CD-XXX-O
SQUARE D TYPE N-350
LINE
LOAD
[B] (Y) R
[R] (B) Y
[Y] (R) B
NOTE 1:
POSITIVE SEQUENCE MUST BE
MANTAINED - RYB, YBR OR BRY
NOTE 2:
METERING SERVICES WILL USE 2 RUNS OF 6
CONDUCTOR #9 AWG
(R/W, R/BK, Y/W, Y/BK, BE/W, BE/BK)
VOLTAGE TRANSFORMERS
*Y1-Y3, *Z1-Z3 115 VOLTS
*Y2-Y3, *Z2-Z3 67.08 VOLTS
CURRENT TRANSFORMER
RATIO CONNECTIONS
HIGH LOW
*X1 & X3 *X2 & X3
NOTE 3:
UNDER COMMENTS ON H500 OR
SAP NOTIFICATIONS INDICATE
CONNECTION DIAGRAM USED
WITH UNITS. ie: CD-XXX-O
REV. 2005
Y/W
Y/BK
GN
Y3
Y2
Y1
X2
X3
X1
H1
1 2 3 4 65 7 8 9
GN
RY
BW R/WR/BK
Y/W BE/WY/BK BE/BK
TO 2.5 ELEMENT METER
NOTE 1:
POSITIVE SEQUENCE MUST BE
MANTAINED - RYB, YBR OR BRY
RATIO
LOW
CONNECTION
STRAPS
HIGH
CONNECTION
NOTE 3:
UNDER COMMENTS ON H500 OR
SAP NOTIFICATIONS INDICATE
CONNECTION DIAGRAM USED
WITH UNITS. ie: CD-558-P
NOTE 2:
METERING SERVICES WILL USE 2 RUNS
OF 6 CONDUCTOR #9 AWG
(R/W, R/BK, Y/W, Y/BK, BE/W, BE/BK)
CD-XXX-P80500/138000 - 3 PHASE - 4 WIRE WYE
WITH OIL-FILLED INSTRUMENT TRANSFORMERS
FERRANTI PACKARD
- CT's - K138 (DUAL RATIO)
- PT's - -MG-138 (DOUBLE SEC.)
[B] [R] [Y]
(Y) (B) (R)
R Y B
LINE
LOAD
W
R/W
R/BK
Y/W
Y/BK
BE/W
BE/BK
H0
BE
H2X2
X1
H1
H3
H4
X2
H1
H4
X2
H1
H4
H2
H3
X1
X1
H2
H3
Y3
Y2
Y1
X2
X3
X1
H1 Y
H0
R
LINE LOAD
H1 H4
H1 H4
PARALLEL
H3
H4
H2
H1
H1
H2 H3
H4
SERIES
Revised 2008
Y3
Y2
Y1
X2
X3
X1
X1
X2
X3
H1
H2
H2
H1
X1
X2
X3
H2
H1
Y3
Y2
Y1
X2
X3
X1
X1
X2
X3
H1
H2
H2
H1
1 2 3 4 65 7 8 9
GN
R Y BW
R/WR/BK
Y/W BE/WY/BK BE/
BK
TO 2.5 ELEMENT METER
NOTE 1:
POSITIVE SEQUENCE MUST BE
MANTAINED - RYB, YBE OR BRY
VOLTAGE TRANSFORMERS
*X1-X3, *Y1-Y3 115 VOLTS
*X2-X3, *Y2-Y3 67.08 VOLTS
CURRENT TRANSFORMER
RATIO CONNECTIONS
HIGH LOW
*X1 & X3 *X2 & X3
NOTE 3:
UNDER COMMENTS ON H500 OR
SAP NOTIFICATIONS INDICATE
CONNECTION DIAGRAM USED
WITH UNITS. ie: CD-558-N
NOTE 2:
METERING SERVICES WILL USE 2 RUNS OF 6
CONDUCTOR #9 AWG
(R/W, R/BK, Y/W, Y/BK, BE/W, BE/BK)
CD-XXX-Q80500/138000 - 3 PHASE - 4 WIRE WYE
WITH OIL-FILLED INSTRUMENT TRANSFORMERS
TYPES - CT's - CTE-145 (DUAL RATIO)
- CT’s – IMBD-145 (DUAL RATIO)
- PT's - UTE-145 (DOUBLE SEC.)
- PT’s- UT5-650 (DOUBLE SEC.)
[B] [R] [Y]
(Y) (B) (R)
R Y B
LINE
LOAD
W
BE
R
YR/W
R/BK
Y/W
Y/BK
BE/W
BE/BK
REVISED 2008
R BW R/W
R/B
K
Y/W
BE/WY/B
K
BE/B
K
R
Y
BE
LINE
LOAD
R
Y
BE
Y
CD-XXX-S
X1
H1
X2
X2
X1
H1
H2
H2
X1 X2
X3
X1 X2
X3
X1 X
2
X3
5 KV INDIVIDUAL CT’s AND PT’s
ENBRIDGE – WHITE CITY
2 – 2400/120V PT’s
TYPE – JVW3 OR PTOM-5
(OUTDOOR)
4160V
3Ø 4W - Y
3 - / -5 -CT’s
TYPE -RU-5 (WINDOW – OUTDOOR)
OR TYPE – PU-5 (BAR – OUTDOOR)
REVISED 2008
SERVICE VOLTAGE
480 VOLT - 3 PHASE - 3 WIRECD-633
LOAD
BOND
43
5
21
LINE
R BY
R Y B
TYPES
REV. 2008
480 VOLT – 3 PHASE - 3 WIRE
BILLING MULTIPLIER IS
METER MULTIPLIER
EBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VA DEMAND - ELECTRONIC
CODE AMP. MULT.VA DEM.
KYLS
KVIS
SVIS
SS2S2L
A3KL
METER
35-93-3C 2.0 - 200 20
35-93-3G 2.0 - 200 20
F.S. DEMAND
MAXIMUM
192 kVA
192 kVA
VOLTAGE AT SOCKET
TERMINAL VOLTS
1 - 5 480
1 - 2 480
2 - 5 480
35-93-6C 2.0 - 200 20 192 kVA
K
CUSTOMER ACCESS
DATA TERMINAL STRIPY1 Y2 Y3
KWh KVAh TIME
OUT
RDB-9 CABLE COLOURS
SHOWN
SEE CD-564
Y
ORBRN
GRNPURPLE
NOTE: Y-TERMINAL
CONNECTOR INSIDE METER
SOCKET MUST BE
INSULATED.
35-93-6G 2.0 - 200 20 192 kVA
35-93-7C 2.0 - 200 20 192 kVA
BOND
BE
R
R/W
YR/BK
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
W B R/BKR/W BE/BKBE/W
8-JAW
COMBINATION
SOCKET
LINE
R R
Y Y
B B
GN
R Y
GN
CD-637SERVICE VOLTAGE
480 – 600 – 1080 – 2400 – 14400 – 25000 – 72000 VOLT - 3 PHASE – 3 WIRE
REV. 2008
BILLING MULTIPLIER IS: METER
MULT. X CT RATIO X PT RATIO
.12 - 10 AMP - 120 VOLT - 3 Ø -3 WIRE
METER
CODE 31-13-3C
CODE 31-13-3G
VA DEMAND - ELECTRONIC
CODE 31-13-6C
NOTE: WHEN USED WITH AN
OILFILLED METERING UNIT REFER TO
SERIES CD-XXX-A TO CD-XXX-EEBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
120
Types:
VA DEM.
SV3SR
SS3S2L
A3KL
K
CUSTOMER ACCESS
DATA TERMINAL STRIPY1 Y2 Y3
KWh KVAh TIME
OUT
RDB-9 CABLE COLOURS
SHOWN
SEE CD-564
Y
ORBRN
GRNPURPLE
NOTE: PULSE CABLE COLOURS ARE
DIFFERENT FOR DIFFERENT METERS.
PLEASE SEE CD-564 FOR PROPER
COLOURS USED
R
Y W
BE
CODE 31-13-6G
CODE 31-13-7C
BOND
BER
R/W
YR/W
BE/W
BE/BK
1 2 3 4
5 6 7 8
1 2 3 4 5 6 7
LOAD
W R/BKR/W BE/BKBE/W
8-JAW
COMBINATION
SOCKET
LINE
R R
Y Y
B B
GN
R Y
GN
CD-638
SERVICE VOLTAGE
480 – 600 – 1080 – 2400 – 14400 – 25000 – 72000 VOLT - 3 PHASE – 3 WIRE
REV. 2008
BILLING MULTIPLIER IS: METER
MULT. X CT RATIO X PT RATIO
.12 - 10 AMP - 120 VOLT - 3 Ø -3 WIRE
METER
CODE 31-13-3G
CODE 31-13-6C
VA DEMAND - ELECTRONIC
CODE 31-13-6G
NOTE: WHEN USED WITH AN
OILFILLED METERING UNIT REFER TO
SERIES CD-XXX-A TO CD-XXX-EEBY
ERY
IR
IB
300
300
R Ø
ELEMENT
B Ø
ELEMENT
UNITY P. F.
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
120
TYPES
VA DEM.
ION 8300
ION 8500
ION 8600
QUANTUM
SV3SR
(VECTRON)
SS3S2L
(SENTINEL)
K
CUSTOMER ACCESS
DATA TERMINAL STRIPY1 Y2 Y3
KWh KVAh TIME
OUT
RDB-9 CABLE COLOURS
SHOWN
SEE CD-564
Y
ORBRN
GRNPURPLE
NOTE: PULSE CABLE COLOURS ARE DIFFERENT
FOR DIFFERENT METERS. PLEASE SEE CD-563
AND CD-564 FOR PROPER COLOURS USED
CODE 31-13-3C
BER
R/W
Y
BE/BK
BE/W
1 2 3 4
5 6 7 8
OPTIONAL
8-JAW
COMBINATION
SOCKET
R/BK
R/BK
Y BE
BE
R
CODE 31-13-7C
CODE 51-13-6I
R
Y
BE
W
* ONLY APPLICABLE TO EXISTING SERVICES OVER 5 MVA LOAD
BILLING METER BACK-UP METER
CODE 51-13-6J
CD-645
NOTE 1:
VOLTAGE TEST LINKS ON
BACK OF METER MUST BE
CLOSED UNITY P.F.
TYPES
VA DEMAND
(SENTINEL)
SS4S0D
SS4S2L
(ALPHA3)
A3KL
QUANTUM
ION
BILLING MULTIPLIER IS
METER MULTIPLIER
REV. 2007
VOLTAGE
AT
SOCKET
TERMINAL 120/208
1 – 6
3 – 6
1 – 2
2 – 3
1 - 3
120
120
208
208
208
NOTE 3:
ONCE THIS SERVICE HAS A 3
ELEMENT METER ON IT DO NOT
GO BACK TO A 2.5 ELEMENT
METER. THE NEW CONNECTION
DIAGRAM NUMBER IS CD-181
SERVICE VOLTAGE120/208 - 277/480 - 347/ 600V 3Ø - 4W – WYE
2.5 ELEMENT SELF-CONTAINED
ERN
EBN
IR-IY
IB-Y
RØ
ELEMENT
BØ
ELEMENT
300
300
IR-Y
NOTE 2:
ON 277/480 VOLT OR 347/600
VOLT SERVICES THE METER
MUST BE CONNECTED
BEHIND THE CUSTOMER’S
MAIN SWITCH AND THE
NEUTRAL SPLITTER IN THE
SOCKET MUST BE INSULATED
FROM GROUND.
SERVICE VOLTAGE
277/480
277
277
480
480
480
347/600
347
347
600
600
600
w
4 5 6 7
R
Y
1 2 3
BOND
Y BR
B
N
N
LOAD
K Y1 Y2 Y3
OR
RY
CUSTOMER USE 2-WIRE
OUTPUT
K-Y1 WATTS
K-Y2 VA
9-PIN CONNECTOR
SEE CD- 564
COMMUNICATIONS CABLE
CONNECTED TO
EXTERNAL MODEM OR
SASKTEL PHONE JACK
NOTE:
PULSE CABLE COLORING WILL
VARY FOR THE DIFFERENT
METERS. USE THE APPROPREIATE
COLORS FOR THE METER USED
GN
ONLY AVAILABLE METER FOR PULSE
OUTPUT IS A 3 ELEMENT SELF-CONTAINED
- INSTALL 3 ELEMENT METER AND CHANGE
CD# TO CD-551
1 2 3 4 65 7 8 9
BOND
G
N
R BWR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
120 / 208 VOLT – 3 Ø - 4 W - WYE CD-647
METER.12 - 8A - 120V - 3Ø - 4W -W YE
VA - DEMAND - ELECTRONIC
CODE 31-14-3CCODE 31-14-3G
TYPES
VA DEM.
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
NOTE:
MANUFACTURES MARKINGS MAY VARY AT THE
TERMINALS ON THE METER SOCKET. PLEASE
WIRE AS INDICATED ON THIS DRAWING.REV. 2008
BILLING MULTIPLIER IS:
METER MULT. X C.T. RATIO
13-JAW
COMBINATION
SOCKET
(VECTRON)
SV4SD
SV4SR
(SENTINEL)
SS4S2L
(ALPHA3)
A3KL
QUANTUM
CODE 31-14-6C
UNITY P.F.
ERN
EBN
IR-IY
IB-Y
RØ ELEMENT
BØ ELEMENT
300
300
IR-Y
CAUTION: INSTALL JUMPER
654
1 2 3
7
812
13
K Y1 Y2 Y3
GNR
Y
CUSTOMER USE 2-WIRE
OUTPUT
K-Y1 WATTS
K-Y2 VA
9-PIN CONNECTOR
SEE CD- 564
COMMUNICATIONS CABLE
CONNECTED TO
EXTERNAL MODEM OR
SASKTEL PHONE JACK
NOTE:
PULSE CABLE COLORING WILL VARY FOR THE
DIFFERENT METERS. USE THE APPROPREIATE
COLORS FOR THE METER USED
OR
CODE 51-14-6JCODE 51-14-6I
CODE 31-14-6GCODE 31-14-66CODE 31-14-69
W
R\W BE\WY\W
BE\W
BE\WY\W
Y\WR\W
R\W
WR\BK
R\BK
Y\BK
Y\BK
BE\BK
BE\BK
R\W Y\W BE\W
R
B
R
B
R BW
SERVICE VOLTAGE
277/480 - 347/600 - 2400/4160 - 14400/25000 - 40250/72000 - 80500/138000 - 132800/230000V -3 PHASE - 4W - WYE
2-1/2 ELEMENT DOUBLE METER SOCKET METERING
CD-648
BILLING METERNON-BILLING METER
METER
TYPES
ALPHA3
ION 8600
ION 8500
ION 8300
QUANTUM
Q1000
SENTINEL
METER
0.2-20AMP - 120-480V
3PHASE - 4W
VA DEMAND
R WY
B R\W
R\BK
Y\W
Y\BK
BE\W
BE\BK
PULSE OUTPUTS &
COMMUNICATIONS
CABLES
SEE CD-564
CODE 31-14-3C
CODE 31-14-3G
CODE 31-14-6E
CODE 31-14-7C
CODE 51-14-6I
AUXCILIARY
POWER
FOR METER
CAN BE FROM
UPS SYSTEM OR
STATION POWER
1 1 2 3SASKTEL
PHONE LINE1 - METER 1
2 - METER 2
3 - PORTABLE PHONE THE "STICK"
PHONE LINE SHARING DEVICE
VOLTAGE AT SOCKET
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
1 - 4
2 - 4
3 - 4
208
208
208
120
120
120
277/480 347/600
192
192
192
111
111
111
200
200
200
115
115
115
REV. 2008
NOTE:
MANUFACTURES' MARKINGS MAY
VARY AT THE TERMINALS ON THE
METER SOCKET. PLEASE WIRE AS
INDICATED ON THIS DRAWING.
CODE 31-14-6G
CODE 31-14-6C
UNITY P.F.
ERN
EBN
IR-IY
IB-Y
RØ
ELEMENT
BØ
ELEMENT
300
300
IR-Y
K
CUSTOMER ACCESS
DATA TERMINAL STRIPY1 Y2 Y3
KWh KVAh TIME
OUT
VOLTAGE SIGNAL
R
Y W
B
FUSEFUSE
TO “Y” WINDING
OF PT’SR
O
VIO
QUANTUM DB-25 CABLE
COLOURS SHOWN
LIGHT
BLUE
Y GRN
TO INSTRUMENT
TRANSFORMERS
CODE 51-14-6J
1 2 3 4 65 7 8 9
BOND
GN
R BEW
R/WR/BK
Y/W BE/WY/BK BE/BK
W
R
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
SERVICE VOLTAGE
277/480 – 347/600 – 2400/4160 – 14400/25000 VOLT – 3 Ø - 4 W - WYE CD-649METER
.12 - 8A - 120V - 3Ø - 4W -W YE
VA - DEMAND - ELECTRONIC
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
VOLTAGE AT
TEST SWITCH
TERMINAL VOLTS
1 - 2
2 - 3
1 - 3
120
120
208
NOTE:
MANUFACTURES MARKINGS
MAY VARY AT THE TERMINALS
ON THE METER SOCKET.
PLEASE WIRE AS INDICATED
ON THIS DRAWING.
REV. 2008
BILLING MULTIPLIER IS: METER
MULT. X C.T. RATIO X PT RATIO
13-JAW
COMBINATION
SOCKET
TYPES
VA DEM.
(VECTRON)
SV4SD
SV4SR
(SENTINEL)
SS4S2L
(ALPHA3)
A3KL
QUANTUM
ION
UNITY P.F.ERN
EBN
IR-IY
IB-Y
RØ
ELEMENT
BØ
ELEMENT
300
300
IR-Y
CAUTION: INSTALL JUMPER
Y
5 64
1 2 37
8
12
13
K Y1 Y2 Y3
GNR
Y
CUSTOMER USE 2-WIRE
OUTPUT
K-Y1 WATTS
K-Y2 VA
9-PIN CONNECTOR
SEE CD- 564
COMMUNICATIONS CABLE
CONNECTED TO
EXTERNAL MODEM OR
SASKTEL PHONE JACK
OR
CODE 31-14-3CCODE 31-14-3GCODE 31-14-6C
CODE 51-14-6ICODE 31-14-6ECODE 31-14-6G
BE
W
R
Y
SPC TRANSFORMATION
CODE 51-14-6J
REVENUE METERING CONNECTION DIAGRAMS
APPENDIX
-- I N D E X --
NOTE: Additional metering information can be found in the “Electric Service Requirements”,
“Revenue Metering Material Code Book” and “Revenue Metering Course Manual.”
GENERAL PAGE REV.
Polarity AP-101 2006
Power Factor AP-102 2006
Wiring for Positive Sequence -- (New Service_ AP-103 2006
Correcting Negative Sequence -- (Existing Service) cont’d AP-104 2006
Peculiarities in Oil Field Testing AP-105 87
3 -- 4W DELTA Selfcontained AP-107 91
Seal Period Extension Program AP-108 2006
CURRENT TRANSFORMERS Current Transformer Ratio Selection Using CSIS AP-200 2006
Current Transformer Ratio Selection AP-201 2006
AP-202 2006
1 - 3 Wire And Network AP-203 2006
3 - 3 Wire AP-204 2006
3 - 4 Wire Delta AP-205 2006
3 - 4 Wire WYE AP-206 2006
AP-207 2006
Maximum Number of Conductors Though Window CT AP-208 2006
Connection of Dual Ratio CT.’s AP-209 2006
Connection of Dual Ratio CT.’s AP-210 2006
Connection of Dual Ratio CT.’s AP-211 2006
Connection of Dual Ratio CT.’s AP-212 2006
General Electric CT.’s Type JAD-O AP-213 2006
TEST PROCEDURES Metering Data Reference AP-300 2006
kVA Calculations AP-301 2006
Single Phase -- 3 Wire and Network Service AP-302 91
3 - 3 Wire Service AP-305 91
3 - 4 Wire Delta Service AP-309 91
3 - 4 Wire Delta Service (CD-278, OBSOLETE) AP-313 91
3 - 4 Wire WYE Service AP-318 91
REVENUE METERING CONNECTION DIAGRAMS
APPENDIX
-- I N D E X --
NOTE: Additional metering information can be found in the “Electric Service Requirements”,
“Revenue Metering Material Code Book” and “Revenue Metering Course Manual.”
Charts Colours AP-500 2006
ITRON Meter Types AP-501 2006
Relative Value Comparison Chart AP-502 2005
kVA Calculation Chart AP-503 2006
Metering Data Reference AP-504 2006
Cosine, Sine, and Tangent Tables AP-505 2006
Vector Diagram Convention AP-506 2005
Response Curves for Exponential and Thermal Demands AP-507 2006
Positive Disc Ratio Curve AP-508 2006
Negative Disc Ratio Curve AP-509 2006
Demand Calculation Methods
Elster Alpha PLUS Meter Read Sheet
Quantum Meter Read Sheet AP-510 97
SVIS Meter Display Sheet AP-511 97
KVIS Meter Display Sheet AP-512 97
GE VIM Meter Display Sheet AP-513 97
GE VIM Meter Test Procedure AP-514 97
Meter Displays
Quantum meter Display AP-601 2007 KVIS AP-602 2007
SVIS AP-603 2007
Elster Alpha Plus AP-604 2007
Elster Alpha3 AP-605 2007
Vectron AP-606 2007
Sentinel AP-607 2007
Centron AP-608 2007
ION Wind mill meter AP-609 2007
REVENUE METERING CONNECTION DIAGRAMS
APPENDIX
-- I N D E X --
NOTE: Additional metering information can be found in the “Electric Service Requirements”,
“Revenue Metering Material Code Book” and “Revenue Metering Course Manual.”
ERRORS Miscellaneous Errors ER-700 2006
Network Meter on 120/240 V 1 - 3W Service ER-710 2006
120/240V 1 -3W Meter on NETWORK Service ER-711 2006
2 Element 480 V meter on 240/480v 1 service with neutral ER-712 2006
2 Element 480 V meter on 240/480v 1 service without neutral ER-713 2006
240V 1 meter on 120V 1 service ER-714 2006
5th
Jaw Not Connected on 120/208v Network Service ER-715 2007
120/208V Meter on 120/240V Service ER-741 2006
120v Trans. Rated Meter on 240V Rated Service ER-742 2006
Combination Socket with Terminals 7 & 8 Switched ER-743 2006
on a Delta Service
120/240V Meter on 120/208V Service ER-744 2006
240 Transformer Rated Meter on 120V Rated Service ER-745 2006
Combination Socket with Terminal 7 & 8 Switched ER-746 2006
on a WYE Service.
AP-101 POLARITY Polarity is the means of identifying primary and secondary winding terminals of transformers in order that proper vector relationships can be maintained. On distribution and power transformers, the terminals are identified as H1, H2, and H3 on the primary side and X1, X2, X3, etc. on the low voltage side. In the case of current and potential transformers, there is usually an additional polarity marking, that being a white dot on the H1 and X1 terminals. The phase condition of any voltage at terminal X1 of a potential transformer or a current leaving the X1 terminal of a current transformer is identical to that of the voltage or current applied to terminal H1 on the primary side of the transformer and differs only in magnitude. If the instrument transformer is used to determine the magnitude only of a current or voltage, vector relationship, and consequently polarity, is of no importance. However, when used for measuring voltage and current simultaneously as with revenue metering, it is imperative that not only the correct magnitude of current and voltage be supplied to the meter coils, but also that the correct vector relationship between the two be maintained. Therefore, knowledge of electrical polarities and how respective voltage and current polarities are to be applied to meter elements is extremely critical in order to correctly meter any load. The SaskPower standards with respect to polar connections of current and potential transformers and connections to revenue meters are indicated in all of the connection diagrams in this manual. Revision 2006
AP-102 POWER FACTOR
Power factor is that percentage of total or apparent power (KVA) supplied to a customer that is actually being used to produce real power or work (KW). Power Factor can be expressed as the ratio of useful or real power to the supplied apparent power, i.e. P.F. = KW/KVA. Perhaps the best way to describe power factor would be to explain the difference between real and apparent power. In the case of purely resistive loads such as heating elements or incandescent lighting, real and apparent power are identical, that is the power factor is 100% since the current is in phase with the voltage and all the current drawn is used to produce heat and light. In the case of motor loads, a certain portion of the total current drawn is required to excite or magnetize the motor windings. This is in addition to the current required to do any actual work. This exciting current is a constant quantity for any given motor and is drawn exactly 900 behind the working current component. When the exciting current (Ix) and the working current (Iw) are added vectorially, they result in a running current (Ir) which lags the voltage and the working current component by a certain angle θ between 00 & 900. Figures 1-3 illustrate that as the motor becomes more fully loaded, the angle by which the running current lags the working current component and the voltage becomes smaller, i.e. the running current is closer to being in-phase with the voltage and therefore, the power factor increases (1000 power factor results when current and voltage are totally in-phase).
If all three currents described above are multiplied by the circuit voltage, we can see that the Iw and Ix components produce the watts and vars respectively of the circuit VA. From this, we can graphically illustrate the “Power Triangle” shown in Fig. 4. applying our high school trigonometry, it can be readily seen that:
P.F. = KW/KVA (Stated in paragraph 1) = Cos θ Therefore, the power factor of a circuit can be obtained from the angle by which the current of a circuit lags the voltage.
On polyphase 3 Wire and 4 Wire Wye services having reasonably balanced currents, a reliable circuit power factor can also be obtained from the meter itself, since there is a direct relationship between the ratio of disc speeds on each element (for a given number of revolutions) and the power factor of the circuit. For detailed procedure on how to determine power factor by this method, refer to the test procedure section of the appendix Where circuits have a large current unbalance and on all polyphase 4 Wire Delta circuits, the approximate circuit power factor can be obtained by simply dividing the KW load (obtained from the meter) by the KVA load (obtained from the clip-on current and voltage readings). Rev. 2008
FIG. 1 LIGHTLY LOADED
Iw
Ir
E
Ix
FIG. 2 PARTIALLY LOADED
FIG. 3 FULLY LOADED
E θ θ Iw
Iw
Ir Ir
Ix Ix
E
FIG. 4 THE “POWER TRIANGLE”
θ
KW
KVA
KVar
θ
AP-103 WIRING FOR POSITIVE PHASE SEQUENCE – (NEW SERVICE) After the primary connections to our current transformers have been completed by the contractor, positive phase sequence to the meter can be assured as follows: 1. 3Ø – 4 Wire – Wye – connect the three terminals of the phase sequence indicator to
the three phase conductors such that the disc or indicating lights indicate positive sequence. (CAUTION – Where service voltage exceeds 600 volts, the connections must be made to the secondary terminals of the potential transformers). Then complete the wiring according to the appropriate metering connection diagram, using phase identification given by the phase sequence indicator.
2. 3Ø – 3 Wire – Connect the “S” (or Yellow) terminal of the phase sequence indicator
to the “no C.T.” phase conductor. Connect the other 2 terminals such that the disc or indicating lights indicate positive sequence. (CAUTION – Where service voltage exceeds 600 volts, the connections must be made to the secondary terminals of the potential transformers). Then complete the wiring according to the appropriate metering connection diagram, using phase identifications given by the phase sequence indicator.
3. 3Ø – 4 Wire Delta – (CD-272 using three 2 – Wire CT’s). Connect the “R” (or Red)
terminal of the phase sequence indicator to red phase conductor (208 volts to ground), the “S” (or Yellow) terminal and “T” (or Black) terminal to the remaining two phases. If negative sequence is indicated, then reverse terminals “S” and “T”. using phase identification now given by the phase sequence indicator for positive sequence, wire according to connection diagram CD-272
CORRECTING NEGATIVE PHASE SEUENCE – (EXISTING SERVICE) 1. 3Ø – 3 Wire & 4 Wire Wye – Where negative phase sequence is found on existing
installations, correction to positive sequence can be carried out by either of the following methods:
a. Primary – Interchange the red and blue phase primary connections on both the line and load side of the current transformers
b. Secondary – Interchange the red and blue phase secondary wiring (both
voltage and current) at the secondary terminals of the current and potential transformers. Where no potential transformers are involved, the red and blue phase meter potential tap connections must be interchanged.
2. 3Ø – 4-Wire – Delta
a. Using one 3-Wire and 2-Wire CT - When Red phase is established as 208 volts to ground and negative sequence is found, correction to positive sequence can be carried out by interchanging the primary phases at the 3-Wire CT, on both the line and load sides (120 volts to ground).
AP-104 b. CD-272 – Using Three 2-Wire CT’s – When Red phase is established as
208 volts to ground and negative sequence is found, correction to positive sequence can be carried out by either of the following:
1. Primary – Interchange the Yellow and Blue primary phases (120
volts to ground) on both the line and load side of the CT’s.
2. Secondary – Interchange the Yellow and Blue secondary wiring (both voltage and current) at the secondary terminals of the current transformers.
Revised. 2006
AP- 108
SEAL PERIOD EXTENSION PROGRAM
This is a program designed to determine the length of time that a group of domestic watt-hour meters is permitted to remain in service without recalibration, by measuring the performance of the group periodically, using statistical sampling methods of testing a representative random sample. This random sample is called for by a FORM-636. Meter types shown below are included in the program and are not to be shipped into Metering Services unless defective, surplus or called for by a FORM-636. They are to be retained in the district as their seal dates are no longer a basis for retest. All meters shipped in for reasons other than retest must have an orange tag with information requirements as indicated on the tag.
MANUFACTURER TYPE ITRON, Schlumberger, Sangamo CJS CJ3S KS K2S KYS CN1S
CJA CJ3S C1S J5S KVIS SVIS SV4SD
C. G.E. 155S 160S 170S V62S 155A V65S V66S
ELSTER, ABB, WESTINGHOUSE DS D2S D3S D4S D5S DA D2A AB1 ALPHA ALPHA3
REVISED 2008
AP-200
Revision 2006
CURRENT TRANSFORMER RATIO SELECTION USING CSIS
Assume a new grain elevator requiring a 277/480 Volt 3Ø – 4W WYE service is to be built and you know that a similar elevator was built at some other location. Using the CSIS Billing Information for the existing service establish a projected demand load for the new services. From this billing information the existing service recorded a maximum demand of 120 kVA. Now referring to AP-206, under Metering Voltage 277/480, and the applicable load range column, continue down the chart until you find a range where the 120 kVA load falls approximately ½ to 2/3 of the indicated load range. It appears that the load range of 30 to 203 will be applicable, now reading to the left we find a billing multiplier of 150 with 150-5 C.T.’s. With selection of the 150-5 C.T.’s we can now verify our selection as follows:
Scale Reading = Load in VA or Watts
Billing Multiplier
= 120,000VA 150 (B.M.)
= 800 VA
The above VA reading falls within the range ½ to 2/3 full scale recommended for 3Ø – 4W WYE services. Billing Multiplier = Meter Multiplier X CT Ratio X PT Ratio = 2 X 150/5 X 300/120 = 2 X 30 X 2.5 = 150
AP-201 CURRENT TRANSFORMER RATIO SELECTION FOR DEMAND METERED LOADS
Revision 2006
DEFINITIONS Scale range: Demand scale range, usually 200 to 1500, 120 to 1200 or 100 to 1000 for thermal demand meters. Scale reading: Demand indication from position of indicating needle on scale range
Scale Reading = Load in W or VA Billing Multiplier
Load Range: Meter Scale reading multiplied by Billing Multiplier refers to actual range of load that can be measured by the meter with selected CT Ratio. Preferred Range: General rule of ½ to 2/3 Full Scale
Exception: Use ½ Full Scale on: • Oilfield pump jack service • 120/240 V - 3Ø – 4W Delta service where
percent 1Ø amps is higher than 3Ø amps (Refer to AP-202)
Method of Selecting C.T. Ratio In order to select current transformer ratio, we have to establish a projected demand (Diversified demand) from Table 1. e.g.) Assume an office building with 600 amp main requiring 120/208 V-3Ø-4W-WYE service and having an area of 8,000 sq. ft. By referring to Table 1 we can determine a projected demand using 6 VA per sq. ft. time 8,000 sq. ft. for 48,000 VA (48 KVA). Now referring to AP-206 under Metering Voltage 120/208 and applicable load range column, continue down until we find a range where 48 KVA falls approximately ½ to 2/3 of indicated load range.
TABLE 1 DEMAND GUIDELINE FOR CT RATIO & TRANSFORMATION
PROJECTED DEMAND TYPE OF CUSTOMER SUMMER PEAK WINTER PEAK Office, Banks, Hotels 6 VA/Sq. Ft. Malls, Food Stores 10 VA/Sq. Ft. Department Stores 5 VA/Sq. Ft. Apartments – Air Cond. 2 KVA/Suite. Senior Citizen Apart. 1 KVA/Suite 1 KVA/Suite Schools 7.5 KVA/ Class
Room Townhouses 2.5 KVA/Res. Single Family Res. 3.0 KVA/Res. Skating Rinks – Art. Ice 135 KVA For air-conditioned buildings, the winter peak is 75% of summer peak or winter peak plus 33% equals summer peak.
It appears load range 12 to 81 KVA seems applicable, now reading to the left we find a billing multiplier of 60 with 150-5 CT. With selection of 150-5 CT we can verify our selection as follows:
Scale Reading = Load in VA or W Billing Multiplier = 48,000 VA
60 (BM) = 800 VA
The above reading falls within ½ to 2/3 full scale recommended for 120/208 V-3Ø-4W-WYE service
AP-202 CURRENT TRANSFORMER RATIO SELECTION FOR DEMAND METERED LOADS
Revision 2006
120/240 V - 3Ø – 4W – DELTA – an accurate method. To determine proper CT ratio for this service is to calculate 3Ø amps from projected 3Ø KVA load. Once this has been done, select the appropriate CT ratio on the basis of the Sum Total of 3Ø and 1Ø amps. Example 1 Example 2 Projected 3Ø load 75 kVA Projected 3Ø load 20 kVA Projected 1Ø load 29 kVA Projected 1Ø load 60 kVA Total 104 kVA Total 80 kVA 3Ø Amps = 75000 VA = 180 3Ø Amps = 20000 VA = 48 240 V x 1.73 240 V x 1.73 1Ø Amps = 29000 VA = 121 1Ø Amps = 60000 VA = 250 240 V X 1.73 240 V X 1.73
Total amps 301 Total Amps 298
With 300 amp loads we would select 300-5 CT’s, allowing for a 50% increase in customers load. Referring to page AP-205, CD-272, note the billing multiplier associated with 300-5 CT’s is (x120) therefore calculate scale readings as follows: Scale reading Scale reading Example 1 Example 2 104,000 (VA) = 866 VA 80,000 VA = 666 VA 120 (B.M.) 120 (B.M.) In both cases from the above examples, we have 300 amp loads in total. However, in Example 1, with a larger 3Ø load, we have a scale reading of 866 and in Example 2, with a larger 1Ø load we have a scale reading of 666. The scale range of this meter is designed primarily for 3Ø loads and points out the necessity of selecting the CT ratio on the basis of total 3Ø and 1Ø amps – Not total kVA.
TABLE 2 SCALE READINGS Where Blue Phase C.T. is loaded 150% of rating due to percent 1Ø amps to 3Ø amps distribution.
Percent 1Ø Amps
Percent 3Ø Amps
KVA Demand Meter
KW Demand Meter
100 90 80 70 60 50 40 30 20 10 0
0 10 20 30 40 50 60 70 80 90 100
900 966 1032 1096 1164 1230 1295 1361 1427 1493 1559
900 945 990 1035 1080 1125 1170 1215 1260 1305 1350
KW Demand Readings Based on 3Ø Load @ 86% P.F.
and 1Ø Load @ 100% P.F. The above Table 2 indicates scale readings corresponding to percent single phase to three phase amps making it possible to overload blue phase CT (over 150%). It is advisable to check this type of service with demand readings over 900, to confirm the situation. 3Ø – 3W Delta – Oilfield Pumpjack Metering Due to the extremely fluctuating load on this type of service, the rectified demand section of a KYLS, or K2LS meter may be subjected to high current levels for the short periods of time, therefore causing damage to the diodes without any indication given by the demand reading. To overcome this problem, we recommend selecting CT ratios to limit demand readings to ½ of full scale.
SINGLE PHASE - 3 WIRE & NETWORKSELECTION OF CURRENT TRANSFORMER RATIO
FOR DEMAND METERED LOADS
SCALE READING = CUSTOMER’S DIVERSIFIED LOAD (WATTS OR VA)BILLING MULTIPLIER
NOTE: SEE AP-201 FOR PREFERRED RANGE
C. T.NAME PLATE
RATIO
CD - 134BILL’GMULT.
LOADRANGE
100/100-5150/150-5200/200-5300/300-5400/400-5600/600-5800/800-5
20 4 - 3030406080
120160
6 - 458 - 6012 - 90
16 - 12024 - 18032 - 240
CD - 136BILL’GMULT.
LOADRANGE
40 8 - 606080120160
12 - 9016 - 12024 - 18032 - 240
C. T.NAME PLATE
RATIO
CD – 137 (X1 METER)
BILL’GMULT.
LOADRANGE
100-5150-5200-5300-5400-5500-5600-5
20
40
60
4 - 30
8 - 60
12 - 90
CD – 138*/CD - 142
BILL’GMULT.
LOADRANGE
20 4 - 303040*6080*
120*
6 - 458 – 60 12 - 9016 - 12020 - 15024 - 180
* - CD-238 AND CD-142- CONSIDER WINDOW CT’s – CD-137
100
800-5 80 16 - 120 160* 32 - 240
REVISION 2006
3Ø – 3 WIRE DELTA SERVICE
SELECTION OF CURRENT TRANSFORMER RATIOFOR DEMAND METERED LOADS
SCALE READING = CUSTOMER’S DIVERSIFIED LOAD (VA OR WATTS)BILLING MULTIPLIER
NOTE: SEE AP-201 FOR PREFERRED RANGE
C. T.RATIO
METERING VOLTAGE
BILL’GRATIO
LOADRANGE
480 - V
10-520-525-540-550-575-5
100-5
150-5
200-5
300-5
400-5
500-5
600-5
800-5
40 8-60
60 12-90
80 16-120
120 24-180
160 32-240
240 48-360
320 64-480
400 80-600
480 96-720
640 128-960
BILL’GRATIO
LOADRANGE
600 - V
50 10-75
75 15-112.5
100 20-150
150 30-225
200 40-300
300 60-450
400 80-600
500 100-750
600 120-900
800 160-1200
BILL’GRATIO
LOADRANGE
1080 - V
20 4-30
40 8-60
50 10-75
80 16-120
100 20-150
150 30-225
200 40-300
BILL’GRATIO
LOADRANGE
2400 - V
40 8-60
80 16-120
100 20-150
160 32-240
200 40-300
300 60-450
400 80-600
600 120-900
800 160-1200
1200 240-1800
1600 320-2400
2000 400-3000
2400 480-3600
3200 640-4800
BILL’GRATIO
LOADRANGE
14400 -V
240 48-360
480 96-720
600 120-900
960 192-1440
1200 240-1800
1800 360-2700
2400 480-3600
3600 720-5400
4800 960-7200
7200 MVA1.44- 10.8
9600 MVA1.92-14.4
12000 MVA2.4-18
14400 MVA2.88-21.6
19200 MVA3.84-28.8
BILL’GRATIO
LOADRANGE
72000 - V
1200 240-1800
2400 480-3600
3000 600-4500
4800 960-7200
6000 1200-9000
9000 12-90
12000 MVA1.8-13.5
18000 MVA2.4-18
24000 MVA3.6-27
48000 MVA9.6-72
72000 MVA14.4-108
36000 MVA7.2-54
96000 MVA19.2-144
REVISION 2006
NOTE: LOADS ARE SHOWN IN KVA UNLESS SPECIFIED OTHERWISE
120 / 240 V - 3Ø – 4 WIRE DELTA
SELECTION OF CURRENT TRANSFORMER RATIO FOR DEMAND METERED LOADS
SCALE READING = CUSTOMER’S DIVERSIFIED LOAD (VA OR WATTS)BILLING MULTIPLIER
NOTE: SEE AP-201 FOR PREFERRED RANGE
CD - 272
C.T.NAME PLATE
RATIO
BILLINGMULTIPLIER
LOAD RANGEKW OR KVA
100-5150-5200-5300-5400-5500-5600-5800-5
406080 REFER
TOPAGEAP-202
120160200240320
CAUTION:WHERE THE CUSTOMER’S LOAD IS PREDOMINANTLY SINGLE PHASE, CARE MUST BE TAKEN NOT TO OVERLOAD CT’s CONNECTED IN Y-B PHASES (120-V TO GROUND) SINCE THEY CAN BE LOADED BEYOND CAPACITY (150% OF NAME PLATE RATING) WITHOUTTHE DEMAND NEEDLE GOING OFF-SCALE. A CLIP-ON AMMETER CHECK TAKEN NEAR PEAK LOAD WILL VERIFY ANY OVERLOAD CONDITION. SEE PAGE AP-202.
REVISION 2006
C. T.RATIO
METERING VOLTAGE
BILL’GRATIO
LOADRANGE
120/208 - V
10-515-5
25-5
40-5
50-5
75-5
100-5
150-5
200-5
300-5
400-5
500-5
600-5
800-5
20 8-54
30 12-81
40 16-108
60 24-162
80 32-216
100 40-270
120 48-324
160 64-432
BILL’GRATIO
LOADRANGE
277/480 - V
25 10-68
37.5 15-101
50 20-135
75 30-203
100 40-270
150 60-405
200 80-540
250 100-675
300 120-810
400 160-1080
BILL’GRATIO
LOADRANGE
347/600 - V
30 12-81
45 18-122
60 24-162
90 36-243
120 48-324
180 72-486
240 96-668
300 120-810
360 144-972
480 192-1296
BILL’GRATIO
LOADRANGE
2400/4160 - V
40 16-108
60 24-162
100 40-270
160 64-432
200 80-540
300 120-810
400 160-1080
600 240-1620
800 320-2160
1200 480-3340
1600 640-4320
2000 800-5400
2400 960-6680
3200 1280-9640
BILL’GRATIO
LOADRANGE
14400/25000 -V
240 96-648
360 144-972
600 240-1620
960 384-2592
1200 480-3240
1800 720-4860
2400 960-6680
3600 1440-9720
4800 MVA1.9-13
7200 MVA2.9-19.5
9600 MVA3.8-26
12000 MVA4.8-32.4
14000 MVA5.8-38.9
19200 MVA7.7-51.8
NOTE: LOADS ARE SHOWN IN KVA UNLESS SPECIFIED OTHERWISE
1000-5
1200-5
1500-5
1600-5
2000-5
3000-5
200
240
300
320
400
600
80-540
96-648
120-810128-864160-1080240-1620
500
600
750
800
1000
1500
200-1350
240-1620
300-2025
320-2160
400-2700
600-4050
600
720
900
960
1200
1800
240-1620
288-1944
360-2430
384-2592
480-3240
720-4860
3Ø – 4 WIRE WYE SERVICESELECTION OF CURRENT TRANSFORMER RATIO FOR DEMAND METERED LOADS
SCALE READING= CUSTOMER’S DIVERSIFIED LOAD (VA OR WATTS)
BILLING MULTIPLIER
NOTE: SEE AP-201 FOR PREFERRED RANGE
CAUTION:WHERE 2 ½ ELEMENT OR 3 ELEMENT (X1) METERS ARE USED, THE MAXIMUM PERMISSIBLE DEMAND SCALE REGISTRATION IS 2700 VA. AT LOADS IN EXCESS OF THIS REGISTRATION, BAR TYPE CURRENT TRANSFORMERS BECOME OVERLOADED. (i.e. CURRENT EXCEEDS 150% OF NAME PLATE RATIO)
REVISION 2006
BILL’GRATIO
LOADRANGE
40250/72000 - V
700 280-1890
1050 420-2835
1750 700-4725
2800 MVA1.12-7.56
3500 MVA1.4-9.45
5250 MVA2.1-14.175
7000 MVA2.8-18.9
10500 MVA4.2-28.35
14000 MVA5.6-37.8
28000 MVA11.2-75.6
35000 MVA14.0-94.5
42000 MVA16.8-113.4
21000 MVA8.4-56.7
56000 MVA22.4-151.2
BILL’GRATIO
LOADRANGE
80500/138000 - V
1400 560-3780
2100 840-5670
3500 MVA1.4-9.4
5600 MVA2.2-15.1
7000 MVA2.8-18.9
10500 MVA4.2-28.4
14000 MVA5.6-37.8
21000 MVA8.4-56.7
28000 MVA11.2-75.6
56000 MVA22-151
70000 MVA28-189
84000 MVA34-227
42000 MVA16.8-113
112000 MVA44.8-302
BILL’GRATIO
LOADRANGE
138000/230000 - V
2400 960-6480
3600 MVA1.4-9.7
6000 MVA2.8-16.2
9600 MVA3.8-25.9
12000 MVA4.8-32.4
18000 MVA7.2-48.6
24000 MVA9.6-64.8
36000 MVA14.4-97.2
48000 MVA19.2-129.6
96000 MVA38.4-259.2
120000 MVA48-324
144000 MVA57.6-388.8
72000 MVA28.8-194.4
192000 MVA76.8-518.4
3Ø – 4 WIRE WYE SERVICE CONTINUED
SELECTION OF CURRENT TRANSFORMER RATIO FOR DEMAND METERED LOADS
SCALE READING= CUSTOMER’S DIVERSIFIED LOAD (VA OR WATTS)
BILLING MULTIPLIER
C. T.RATIO
10-5
15-5
25-5
40-5
50-5
75-5
100-5
150-5
200-5
300-5
400-5
500-5
600-5
800-5
METERING VOLTAGE
NOTE: SEE AP-201 FOR PREFERRED RANGE
CAUTION:WHERE 2 ½ ELEMENT OR 3 ELEMENT (X1) METERS ARE USED, THE MAXIMUM PERMISSIBLE DEMAND SCALE REGISTRATION IS 2700 VA. AT LOADS IN EXCESS OF THIS REGISTRATION, BAR TYPE CURRENT TRANSFORMERS BECOME OVERLOADED. (i.e. CURRENT EXCEEDS 150% OF NAME PLATE RATIO)
REVISION 2006
ALLOWABLE NUMBER OF CONDUCTORS THROUGH OUTDOOR WINDOW TYPE C.T.’S
CONDUCTOR -EXCLUDING BRAIDED,CORFLEX & U.G. TYPE
WINDOW SIZE IN INCHES
SIZEAWG
OUTSIDEDIA.
INCHES
1.312DIA.
1.375DIA.
1.562DIA.
1.75DIA
2.0DIA.
1.87X2.75
OVAL
2.75DIA.
3.06DIA.
3.125DIA.
3.50DIA.
#2
#1/0
#2/0
#3/0
#4/0
#250MCM
#300MCM
#350MCM
#500MCM
#750MCM
0.40
0.50
0.56
0.61
0.67
0.75
0.80
0.85
0.98
1.20
7 7 9
3 3 5 7 9
3 3 5 7 9
2 2 4 4 8 8 9
1 2 3 4 5 6 9
1 1 2 3 4 5 6 9
1 1 1 1 4 4 8 8 9
1 1 1 2 3 4 7 8 8 9
1 1 1 1 2 2 5 6 7 7
1 1 1 1 1 2 3 4 4 4
NUMBER OF CONDUCTORS
EXCEEDS PRACTICAL REQUIREMENTS
LISTING OF C.T. WINDOW SIZESINDOOR/OUTDOOR
1.312" DIA. CGE - JCWO 200-5
1.375" DIA. SANG. – KH6 200-5
1.562" DIA. F.P. - DCBW 200-5
1.75" DIA.CGE – JCWOSANG. – KH6F.P. DCBW
400-5400-5, 600-5
600-5
2.0" DIA.CGE – JKPO
SANG. – MIT-A6
F.P. DCBW
200-5200-5, 400-5
400-5
1.87" X 2.75"OVAL SANG – BH6A 800-5
2.75" DIA. WEST. - KTR 400-5, 600-5800-5, 1200-5
3.06" DIA. CGE – JKPOCGE - JAKO
SANG – MIT-B6
400-5, 600-5800-5
400-5, 600-5800-53.125" DIA.
F. P. - DCCW 400-5, 600-5800-5, 1200-53.50" DIA.
INDOOR
SANG – CW61000-51500-52000-5
1.375" X 4.125"
SANG – CW6 3000-54.125" X 4.125"
WEST.WCT
1000/500-51500/750-5
2000/1000-55.0" DIA.
5.75" DIA 3000/1500-5
NOTE:WHEN ORDERING WINDOW TYPE C.T.’s, SPECIFY ON THE FORM 44 THE SIZE OF CONDUCTOR BEING USED & THE NUMBER OF CONDUCTOR(S) TO PASS THROUGH THE WINDOW.
REVISION 2008
ITRON R6L R6P
200-5, 300-5, 400-5600-5, 800-5, 1200-55.50" DIA.
CONNECTION DIAGRAMS FOR DUAL RATIO C.T.’sITRON/SANGAMO – CW6WINDOW OR BAR TYPE
ITRON/SANGAMO – MI-150
POLARITY MARKS
HIGH RATIOSHORTING LINK OPEN SEC.
SHORTING LINK CLOSED
LOW RATIO
SHORTING LINK OPEN
SHORTING LINK OPEN SEC.
INSTALL EXTERNAL JUMPER
INSTALL EXTERNAL JUMPER
NOTE:SHORTING LINK IS ONLY ACROSS HIGH RATIO TERMINALS AND MUST BE OPENED AFTER CONNECTING SECONDARY TO LOW OR HIGH RATIO.
X1
X1 X2
X3
HIGHSHORTING LINK
SECONDARY TERMINALS
HIGH RATIO
LOW RATIO
X1 – X3
X1 – X2LOW
REVISION 2006
CONNECTION DIAGRAMS FOR DUAL RATIO C.T.’sWESTINGHOUSE – WCTINDOOR WINDOW TYPE
WESTINGHOUSE – CCO-150OUTDOOR WINDOW TYPE
NOTE:NO LONGER MANUFACTURED – USE FOR EXISTING STOCK ONLY
REVISION 2006
HIGH RATIO X1 – X3LOW RATIO X2 – X3
H1 H2
X1 X2 X3
NOTE:AFTER CONNECTIONS SHORTING LINKS MUST BE LEFT OPEN
X1X2 X3
HIGH RATIO X1 – X3LOW RATIO X1 – X2
CONNECTION DIAGRAMS FOR DUAL RATIO C.T.’sABB ACF-24
SHORTING SCREWSABB ACF-24
RATIO SELECTION
SHORTING SCREWS
HIGH RATIO
LOW RATIO
BOLTS USED AS SHORTING DEVICE
NOTE:WHEN IN SERVICE REMOVE BOLTS USED AS SHORTING DEVICE AND PLACE IN EXTRA HOLES IN BASE PLATES
PARALLEL FERRULE
FERRULESERIES
REVISION 2006
CONNECTION DIAGRAMS FOR DUAL RATIO C.T.’s
HIGH RATIO X1 – X3LOW RATIO X1 – X2
H1 H2
X1 X2X3
HIGH RATIO X1 – X3LOW RATIO X2 – X3
H1 H2
X1 X2 X3
TRANSFORMER TYPES
R6LR6P
TRANSFORMER TYPES
BB25CLCJVW-5JVW-6KOR15
NOTE:AFTER CONNECTIONS SHORTING LINKS MUST BE LEFT OPEN
REVISION 2008
GENERAL ELECTRIC
TYPE JAD-O
SECONDARY TERMINAL CONNECTION INSTRUCTIONS FOR DUAL RATIO CURRENT TRANSFORMERS
These dual ratio current transformers have four secondary terminals. A secondary terminal cover and a short circuiting bridge are provided for each of the two pairs of secondary terminals. The appropriate primary current ratings and polarity designation are shown on top of the transformer.
When either or both short circuiting bridges are in the closed position, all of the secondary hardware can be safely handled during installation or ratio change. Both bridges must be in the open position for normal meter operation from either pair of terminals.
The conventional secondary cover with lead ports is provided for the terminals in use and cannot be assembled to the transformer with the ports accessible unless the short circuiting bridge for the used terminals is open. The cover without lead ports is provided for the unused pair of terminals and cannot be assembled to the transformer unless the sort circuiting bridge for the terminal is open.
The dual ratio transformer is shipped with the conventional cover on the lower current rating terminals, with the short circuiting bridge in these terminals closed and the lead ports of the cover inaccessible. This special arrangement of secondary hardware is designed to help the user:
1. Have one short circuiting bridge closed when making or changing connections to the secondary terminals.
2. Have both shorting bridges open when making meter operation is intended.
3. Avoid wiring errors by providing means for sealing the blank cover over the unused terminals in advance of installation.
REVISION 2008
General ElectricFour Terminal Secondary Dual Ratio
Window Current Transformer
HIGH RATIO
LOW RATIO
X1 X1
X2X3
POLARITY TERMINALSX1 FOR BOTH WINDINGS
HIGH RATIO CONNECTION: X1 – X3LOW RATIO CONNECTION: X1 – X2
Safety: When the transformer is energized, either X1 – X3 or X1 – X2 terminals must be shorted using the short circuit device provided, or, X1 – X3 or X1 – X2 connected to an ohmic burden not to exceed that on the nameplate.
METERING: either X1 – X3 or X1 – X2 terminal pair can be used. NEVER BOTH SETS OF TERMINALS. The unused terminals must be open.
TERMINAL COVERS: Two secondary terminal covers are provided. The cover with cutout for secondary leads is to be used with the terminal pair connected to the burden. The second cover without the cutouts protects the unused terminal pair. This cover cannot be connected unless the unused terminal’s short circuit device is “OPEN”.
2008
METERING DATA REFERENCE
PYTHAORAS THEOREM TRIG RATIOS POWER TRIANLE
A
B Ca
bc
900
a2 + b2
c2 = a2 + b2
c =
c2 - a2b =
c2 + b2a =
900HYPOTENUSE
ADJACENT
Θ 900Θ900APPARENT POWER
(VOLT AMP)
(WATTS)ACTIVE POWER OR REAL POWER
Θ 900Θ
Θ = ANGULAR DISPLACEMENT
SUM OF THREE ANGLES = 1800
ADJ HYP
= COS VALUE OF Θ
OPP HYP
= SIN VALUE OF Θ
OPP ADJ
= TAN VALUE OF Θ
OPPOSITE REACTIVE POWER(VARS)
Θ = POWER FACTOR ANGLE
P.F.ANGLE
POWER FACTOR = COS Θ
USUALLY YOU CAN OBTAIN VOLT. AMP AT A METERING INSTALLATION BY TAKING DISC READINGS FROM THE CUSTOMERS METER, WATTS CAN BE OBTAINED. VAR VA;UES CAN BE CALCULATED FROM VALUES SHOWN BELOW.
POWER FACTOR DATA REFERENCE
VA X COS Θ VA X P.F. ACTIVE POWER(REAL POWER)WATTS VA2 - VAR2
WATTSCOS Θ
WATTS X TAN Θ
WATTSP.F.
VA X SIN Θ
WATTS2 + VAR2
VA2 - WATTS2
APPARENT POWER
REACTIVE POWER
COS Θ WATTSP.F.
ACTIVE POWERAPPARENT POWER
VA
VAR
POWER FACTOR
REVISION 2006
CIRCUIT KVA CALCULATIONS
SINGLE PHASE AVERAGE AMPS X AVERAGE LINE TO LINE VOLTAGE1000
3 PHASE 3 WIREAND
3 PHASE 4W WYE
AVERAGE AMPS X AVERAGE LINE TO LINE VOLTAGE X 1.7321000
(OPTION)3 PHASE 4W WYE
TOTAL AMPS X AVERAGE LINE TO GROUND VOLTAGE1000
3 PHASE 4W DELTA
3 PHASE ONLY
SINGLE PHASE ONLY
CALCULATE 3Ø AND 1Ø KVA SEPARATELY AS INDICATED BELOW(TOTAL KVA = 3Ø KVA PLUS 1Ø KVA)
RED PHASE AMPS X AVERAGE LINE TO LINE VOLTAGE X 1.7321000
(IY – IR) + (IB – IR) AMPS X AVERAGE LINE TO GROUND VOLTS1000
MISCELLANEOUS DATA
WATTS BY DISC. REV’S X kh X 3600SECONDS
BILLING MULTIPLIER PT RATIO X CT RATIO X METER MULTIPLIER
SCALE READING
LOAD FACTOR
LOAD IN WATTS OR VABILLING MULTIPLIER
AVERAGE LOAD KWH CONSUMPTION / HOURS BETWEEN READSPEAK LOAD MAX. KVA LOAD X POWER FACTOR
REVISION 2006
AP-302
METERING INSTALLATION TEST PROCEDURE SINGLE – PHASE & NETWORK
(Using Form MS250.03)
1. GENERAL INFORMATION – Check wiring and connections as per connection diagram. If found in error continue and complete “as found test,” then correct and using another test sheet, complete “as corrected test” to establish error or registration at time of test.
2. DEMAND READINGS – Take both red and black demand reading prior to
running test and confirm red demand after test.
3. PHASE SEQUENCE –
4. VOLTAGE & CLAMP-ON READINGS –
5. DISC READINGS –
6. KVA CALCULATIONS –
7. KW CLCULATIONS –
8. POWER FACTOR –
9. SUMMATION –
10. BILLING CORRECT – Ensure that customer is being billed correctly by checking billing multiplier, consumption, demand and rate from CSIS system.
AP-500
Colours Conductor Colours used in wiring meters for SaskPower
ABBREVIATIONS COLOUR NORMAL USAGE
R RED RED PHASE POLARITY -- VOLTAGE
Y YELLOW YELLOW PHASE POLARITY -- VOLTAGE
BE BLUE BLUE PHASE POLARITY -- VOLTAGE
W WHITE BLUE PHASE NON-POLARITY -- VOLTAGE
BK BLACK RED PHASE NON-POLARITY -- VOLTAGE
BR BROWN YELLOW PHASE NON-POLARITY -- VOLTAGE
R/W RED/WHITE RED PHASE POLARITY -- CURRENT
R/BK RED/BLACK RED PHASE NON-POLARITY -- CURRENT
Y/W YELLOW/WHITE YELLOW PHASE POLARITY -- CURRENT
Y/BK YELLOW/BLACK YELLOW PHASE NON-POLARITY -- CURRENT
BE\W BLUE/WHITE BLUE PHASE POLARITY -- CURRENT
BE/BK BLUE/BLACK BLUE PHASE NON-POLARITY -- CURRENT
GRN GREEN GROUND WIRE
R RED PULSE CABLES
Y YELLOW PULSE CABLES
W WHITE PULSE CABLES
O ORANGE PULSE CABLES
BE BLUE PULSE CABLES
BK BLACK PULSE CABLES
BR BROWN PULSE CABLES
PK PINK PULSE CABLES
GY GREY PULSE CABLES
VIO VIOLET PULSE CABLES
TAN TAN PULSE CABLES
GRN GREEN PULSE CABLES
LBE LIGHT BLUE PULSE CABLES
DBE DARK BLUE PULSE CABLES
W/O WHITE/ORANGE PULSE CABLES
W/R WHITE/RED PULSE CABLES
W/Y WHITE/YELLOW PULSE CABLES
W/BR WHITE/BROWN PULSE CABLES
W/BE WHITE/BLUE PULSE CABLES
W\GN WHITE/GREEN PULSE CABLES
W/VIO WHITE/VIOLET PULSE CABLES
W/GY WHITE/GREY PULSE CABLES
GY/Y GREY/YELLOW PULSE CABLES
W/BK/GY WHITE/BLACK/GREY PULSE CABLES
W/BK/R WHITE/BLACK/RED PULSE CABLES
W/BK/BN WHITE/BLACK/BROWN PULSE CABLES
W/BK/Y WHITE/BLACK/YELLOW PULSE CABLES
W/BK/O WHITE/BLACK/ORANGE PULSE CABLES
ITRON METER TYPES
CENTRON Q1000
SENTINEL
CP 1 S
METROLOGYC = SINGLE PHASECN = NETWORKCP = POLYPHASE
VERSION1 = 1ST VERSION
BASES = SOCKETA = A-BASE
ATTACHMENTS= KWH ONLY
R = R300D = DEMANDT = TOUL = LOAD PROFILEC – CELLNETX = METROLGY ONLY
S M4SP
PRODUCTSP = Q1000SV = VECTRONSQ = QUANTUMSM = FULCRUMSL = ELECTROMECH
METER TYPE2 = 3 PH, 3W, 2 EL3 = 3 PH, 4W, 2 EL4 = 3 PH, 4W, 3 EL5 = 3 PH, 4W, 2.5 EL6 = 3 PH, 4W, DELTA12 = NETWORK
BASES = SOCKETA = A-BASEF = FLUSH-MOUNT/SWITCHBOARDR = RACK-MOUNTD = DIN
METER OPTIONSD = DEMANDT = TOUR = RECORDERQ = QDIFM = MODEM
S 44S S L
MANUFACTURERS = ITRON
PRODUCTS = SENTIENEL
METER FORM1 = 1 PH (FORM 2, 3, 4)2 = 3 PH, 3W, 2 EL [FORM 12]3 = 3 PH, 3W, 2 EL [FORM 45(5), 66(26)]4 = 3 PH, 4W, 3 EL [FORM 9(8), 10, 16,(14/15/17), 48]5 = 3 PH, 4W, 2.5 EL [FORM 46(6)]6 = 3 PH, 4W, DELTA
METER OPTIONSD = DEMANDT = TOUL = LOAD PROFILE
MEASUREMENT LEVEL0 = Wh ONLY1 = Wh, PF2 = Wh, PF, +Varh, or Vah or Qh3 = Wh, PF, Varh, Vah, Qh, PER PHASE V&A4 = Wh, PF, 4Q Varh, Vah, Qh, PER PHASE V&A, POWER QUALITY, BI-DIRECTIONAL
BASES = SOCKETA = A-BASE
REVSION 2006
R 3R300 # OF ERT’s
= 1 ERT2 = 2 ERT’s3 = 3 ERT’s
AP-502RELATIVE VALUE COMPARISONSWATTS / VARS / Q
2Q - W3
Vars = VA = W2 + Vars2 WVA
PF =
AT 0.866 LAG PF Q = W AT UNITY PF Q = W/2 AT 0.866 LEAD PF Q = ZERO
LAG LEAD
900 690 450 300 00 300
Vars
Q
WATTS
0.358 0.707 0.866 UNITY 0.866
2 ELEMENT 2.5 ELEMENT 3 ELEMENT
ERB IR
IB
ERY
Q
Q300
300
VECTOR REPRESENTATION OF Q-METERING AT UNITY POWER FACTOR
ERN
EBN
IB-R
IB-Y
DEGREES
POWER FACTOR
ERN
EYNEBN
-IB
-IR
-IY
Q
REVISION 2005
600
600
600
CIRCUIT KVA CALCULATIONS
SINGLE PHASE AVERAGE AMPS X AVERAGE LINE TO LINE VOLTAGE1000
3 PHASE 3 WIREAND
3 PHASE 4W WYE
AVERAGE AMPS X AVERAGE LINE TO LINE VOLTAGE X 1.7321000
(OPTION)3 PHASE 4W WYE
TOTAL AMPS X AVERAGE LINE TO GROUND VOLTAGE1000
3 PHASE 4W DELTA
3 PHASE ONLY
SINGLE PHASE ONLY
CALCULATE 3Ø AND 1Ø KVA SEPARATELY AS INDICATED BELOW(TOTAL KVA = 3Ø KVA PLUS 1Ø KVA)
RED PHASE AMPS X AVERAGE LINE TO LINE VOLTAGE X 1.7321000
(IY – IR) + (IB – IR) AMPS X AVERAGE LINE TO GROUND VOLTS1000
MISCELLANEOUS DATA
WATTS BY DISC. REV’S X kh X 3600SECONDS
BILLING MULTIPLIER PT RATIO X CT RATIO X METER MULTIPLIER
SCALE READING
LOAD FACTOR
LOAD IN WATTS OR VABILLING MULTIPLIER
AVERAGE LOAD KWH CONSUMPTION / HOURS BETWEEN READSPEAK LOAD MAX. KVA LOAD X POWER FACTOR
REVISION 2006
METERING DATA REFERENCE
PYTHAORAS THEOREM TRIG RATIOS POWER TRIANGLE
A
B Ca
bc
900
a2 + b2
c2 = a2 + b2
c =
c2 - a2b =
c2 + b2a =
HYPOTENUSE
ADJACENT
900Θ
APPARENT POWER
(VOLT AMP)
(WATTS)ACTIVE POWER OR REAL POWER
900Θ
Θ = ANGULAR DISPLACEMENT
SUM OF THREE ANGLES = 1800
ADJ HYP
= COS VALUE OF Θ
OPP HYP
= SIN VALUE OF Θ
OPP ADJ
= TAN VALUE OF Θ
OPPOSITE REACTIVE POWER(VARS)
Θ = POWER FACTOR ANGLE
P.F.ANGLE
POWER FACTOR = COS Θ
USUALLY YOU CAN OBTAIN VOLT. AMP AT A METERING INSTALLATION BY TAKING DISC READINGS FROM THE CUSTOMERS METER, WATTS CAN BE OBTAINED. VAR VA;UES CAN BE CALCULATED FROM VALUES SHOWN BELOW.
POWER FACTOR DATA REFERENCE
VA X COS Θ VA X P.F. ACTIVE POWER(REAL POWER)WATTS VA2 - VAR2
WATTSCOS Θ
WATTS X TAN Θ
WATTSP.F.
VA X SIN Θ
WATTS2 + VAR2
VA2 - WATTS2
APPARENT POWER
REACTIVE POWER
COS Θ WATTSP.F.
ACTIVE POWERAPPARENT POWER
VA
VAR
POWER FACTOR
REVISION 2008
TABLE OF NATURAL FUNCTIONS OF ANGLESAP-505
REVISION 2006
DEGREES SINE COSINE TANGENT0 0.0000 1.0000 0.0000 INFINITE 901 0.0175 0.9998 0.0175 57.2900 892 0.0349 0.9994 0.0349 28.6363 883 0.0523 0.9986 0.0524 19.0811 874 0.0698 0.9976 0.0699 14.3007 865 0.0872 0.9962 0.0875 11.4301 856 0.1045 0.9945 0.1051 9.5144 844 0.0698 0.9976 0.0699 8.1443 838 0.1392 0.9903 0.1405 7.1154 829 0.1564 0.9877 0.1584 6.3138 8110 0.1736 0.9848 0.1763 5.6713 8011 0.1908 0.9816 0.1944 5.1446 7912 0.2079 0.9781 0.2126 4.7046 7813 0.2250 0.9744 0.2309 4.3315 7714 0.2419 0.9703 0.2493 4.0108 7615 0.2588 0.9659 0.2679 3.7321 7516 0.2756 0.9613 0.2867 3.4874 7417 0.2924 0.9563 0.3057 3.2709 7318 0.3090 0.9511 0.3249 3.0777 7219 0.3256 0.9455 0.3443 2.9042 7120 0.3420 0.9397 0.3640 2.7475 7021 0.3584 0.9336 0.3839 2.6051 6922 0.3746 0.9272 0.4040 2.4751 6823 0.3907 0.9205 0.4245 2.3559 6724 0.4067 0.9135 0.4452 2.2460 6625 0.4226 0.9063 0.4663 2.1445 6526 0.4384 0.8988 0.4877 2.0503 6427 0.4540 0.8910 0.5095 1.9626 6328 0.4695 0.8829 0.5317 1.8807 6229 0.4848 0.8746 0.5543 1.8040 6130 0.5000 0.8660 0.5774 1.7321 6031 0.5150 0.8572 0.6009 1.6643 5932 0.5299 0.8480 0.6249 1.6003 5833 0.5446 0.8387 0.6494 1.5399 5734 0.5592 0.8290 0.6745 1.4826 5635 0.5736 0.8192 0.7002 1.4281 5536 0.5878 0.8090 0.7265 1.3764 5437 0.6018 0.7986 0.7536 1.3270 5338 0.6157 0.7880 0.7813 1.2799 5239 0.6293 0.7771 0.8098 1.2349 5140 0.6428 0.7660 0.8391 1.1918 5041 0.6561 0.7547 0.8693 1.1504 4942 0.6691 0.7431 0.9004 1.1106 4843 0.6820 0.7314 0.9325 1.0724 4744 0.6947 0.7193 0.9657 1.0355 4645 0.7071 0.7071 1.0000 1.0000 45
COSINE SINE TANGENT DEGREES
ROTATION
VECTOR DIAGRAM CONVENTION FOR REVENUE METERING
300
(ER)
ERN
ERBERY
EYN
IY
EYBIY-B
-IY
ENY
IR-Y
-IB
(-EB)ENB
IR-B
IR
EYR
IY-R
EBN
IB
(-ER)ENR
-IR
IB-R
EBR
EBY
IB-Y
( ) VOLTAGE REFERENCE
VOLTAGE POSITIONS ARE FIXED
CURRENTS ARE SHOWN AT UNITY P.F. REVISION 2005
0
0 10 20 30 40
10
20
60
50
40
30
90
80
70
10010 20 30 40
RESPONSE CURVES FOR THERMAL DEMAND METERS%
IND
ICA
TIO
N
TIME - MINUTES
% REGISTRATION
0% 25% 50% 99%90%75%
11
159
6
4.5
3
2
0
0
3216
30
32 MINUTE TIME CONSTANT- OTHER METER TYPES -
30 MINUTE TIME CONSTANTK-LINE & ELECRONIC
EMULATION MINUTES
K-LINE ORELEC. EMULATEDTHERMAL DEMAND30-MIN. DEMAND
OTHER32-MIN.DEMAND
REVISION 2006
0.1 0.2 0.60.50.40.3 1.00.90.80.70
DISC RATIO
PO
WE
R F
AC
TOR
.5
.6
.7
.8
.9
1.00.1 0.2 0.60.50.40.3 1.00.90.80.70
NUMBER OF SECONDS FOR FAST DISC FOR EQUAL NUMBER OF REV / DISCNUMBER OF SECONDS FOR SLOW DISC
DISC RATIO – POWER FACTOR CONVERSION CURVE POSITIVE – BOTH ELEMENT DISC TURNING FORWARD
ONLY RELIABLEUNDER BALANCED LOAD CONDITIONS
DISC RATIO = COS (30 + Ø)COS (30 – Ø)
WHERE Ø IS ANGLE OF P.F.
REVISION 2006
-0.1-0.2-0.6 -0.5 -0.4 -0.3-1.0 -0.9 -0.8 -0.7 0
DISC RATIO
POW
ER
FA
CTO
R
0
0.1
0.2
0.3
0.4
0.5-0.1-0.2-0.6 -0.5 -0.4 -0.3-1.0 -0.9 -0.8 -0.7 0
NUMBER OF SECONDS FOR FAST DISC FOR EQUAL NUMBER OF REV / DISCNUMBER OF SECONDS FOR SLOW DISC
DISC RATIO – POWER FACTOR CONVERSION CURVE NEGATIVE – BOTH ELEMENT DISC TURNING FORWARD
ONLY RELIABLEUNDER BALANCED LOAD CONDITIONS
DISC RATIO = COS (30 + Ø)COS (30 – Ø)
WHERE Ø IS ANGLE OF P.F.
REVISION 2006
0.1
0.2
0.3
0.4
0.5
0
ELECTRONIC DEMAND CALCULATION METHODS
V1
V2
V3
I1I2
I3
VECTORIAL CALCULATION(Recommended Method) VECTOR KVA
PHASOR SUM
V1I1
V2I2V 3I 3
ARITHMETIC CALCULATION
V1I1 V2I2 V3I3
ARITHMETIC KVA
REV. 2008
SASKPOWER STANDARD IS TO USE VECTORIAL CALCULATION TO DETERMINE DEMAND
QUANTUM METER READ SHEET AP-601
REVISION 2007
DISPLAY ID ANNUCIATOR EXPLANATION READINGS2 KWh d Total kilowatt-hours3 A kWh d On Peak kilowatt-hours4 KQh d Total Kilo-Q-hours5 A max VA Maximum VA demand, on peak, for current month
5 A max VA Time Time of on peak VA demand for current month6 B max VA Maximum VA demand off peak for current month
6 B max VA Time Time of off peak VA demand for current month7 A kWh d FZ On peak Total kilowatt-hours frozen at bill cycle
8 A max VA FZ On peak VA demand frozen at bill cycle8 A max VA TIFZ Time of on peak Va demand frozen at bill cycle9 B max VA FZ Off peak VA demand frozen at bill cycle9 B max VA TIFZ Time of off peak VA demand frozen at bill cycle10 KWh d FZ Kilowatt-hour total frozen at bill cycle11 KQh d FZ Kilo-Q-hour total frozen at bill cycle12 Ins VA Instantaneous VA demand13 Prs VA Present VA demand14 Pf Present Power Factor15 Rt Present Time16 Btm Battery minutes Used17 Unit Identification
QUANTUM METER DEMANDS ARE RESET AUTOMATICALLY AT 00:00 HOUR ON THE FIRST DAY OF EACH MONTH.
ALTERNATE DISPLAY30 Ins V Instantaneous Volts31 Ins A Instantaneous Amps32 Ins W Instantaneous Watts delivered33 Ins var Instantaneous Volt-Amps-Reactive
Number of Power Downs (Loss of Power)
35 #dmr Number of demand resets36 TOU Time of Use Schedule37 Set38 KVAh d Total KVA hours delivered39 SV Software Version
34 Pwd
AP-602
KVI Normal Mode Electronic Display Main Display Register Sequence Annunciator Segment Test 8.8.8.8.8.8 VA Peak 1 VA MAX Power Factor at VA Peak 2 VA MAX PF VA Present Demand 3 VA PRES Present Power Factor 4 PF PRES Potential Indicators 5 PHASE ABC Blank Display Screen -- FOR BILLING PURPOSE: The kWh reading is obtained from the mechanical register The VA demand is obtained from the electronic screen VA Peak (Screen 01). To view the Alternate Display for the meter, pass a small magnet near the 5 o'clock position on the meter face. This action closes a magnetic switch and places the KVI in the Alternate display sequence. The meter will scroll through the Alternate display sequence once and then return to the Main display sequence. The Alternate Display of KVI meters Alternate Display Display Sequence Annunciator Wh Consumption KWh VA Peak 1 VA MAX VA Cumulative Demand 2 VA CUM Number of Demand Resets 3 #RST Instantaneous VAs 4 VA Instantaneous Power Factor 5 PF(LEAD/LAG) Volts Phase A 6 VA Volts Phase C 7 VC Amps Phase A 8 AA Amps Phase B 9 AB Amps Phase C 10 AC Electronic Register Kt 11 #Kh Firmware Revision Number 12 # Blank Display Screen 13 The momentary contact toggle switch on the face of the KVI/SVI electronic register is the Demand Reset. The demand registers can only be reset once every 3 minutes. This prevents anyone from inadvertently resetting the demand more than once while reading the meter. Both KVI and SVI meters count the number of times the meter has been reset.
ELSTER ALPHA3 METER DISPLAY AP-605 31-15-3G NORMAL MODE NORMAL DISPLAY SEQUENCE ID NAME READINGS
1 888 LCD TEST 2 2 CURRENT BILLING TOTAL KWH 3 3 CURRENT BILLING MAXIMUM KVA-DEL. 4 4 AVERAGE PF: KW-DEL AND KVA-DEL@KVA-DEL 5 SYS SYSTEM KVA (ARITHMETIC) 6 SYS SYSTEM PF (ARITHMETIC)
This meter has an alternate register which can be displayed by breaking the demand seal, lifting the lever, turning it to the right and pressing the ALT button. ALTERNATE DISPLAY SEQUENCE ID NAME READINGS
1 201 DEMAND RESETS (ALL) 2 202 CURRENT BILLING CUMULATIVE KVA DEL 3 203 PRESENT INTERVAL KVA-DEL 4 204 PREVIOUS INTERVAL KVA-DEL 5 SYS SYSTEM PF (ARITHMETIC) 6 SYS SYS KVA (ARITHMETIC) 7 SYS SYSTEM KW 8 SYS SYSTEM KVAR (ARITHMETIC) 9 PHA PHASE A VOLTAGE
10 PHB PHASE B VOLTAGE 11 PHC PHASE C VOLTAGE 12 PHA PHASE A CURRENT 13 PHB PHASE B CURRENT 14 PHC PHASE C CURRENT 15 215 PREVIOUS BILLING TOTAL KWH-DEL 16 216 PREVIOUS BILLING MAX. KVA-DEL 17 217 POWER OUTAGE COUNT 18 218 PROGRAM ID 19 219 FIRMWARE VERSION 20 220 HARDWARE VERSION 21 221 CUSTOM DISPLAY STRING 1
• - ID indicator not present but the annunciator is still present REVISION 2007
ION 8300 Primary Display Schedule AP-609 WIND MILL METERS
REVISION 2005
Notes: 1. Normal and Alt mode display demand values shall be based on a 20 min block. 2. Latest approved firmware shall be used.
Normal Display Screen Description Display Characters Screen 1 Mwh delivered XXXXXXXX.XX
Mwh received Rate A Mwh Delivered Rate B Mwh Delivered
Screen 2 MVARh del. XXXXXXXX.XX MVARh rec.
Screen 3 MVAh del. XXXXXXXX.XX MVAh rec.
Screen 4 KVA sw MAX A del. XXXXXX.XXX Screen 5 KVA sw MAX B del. XXXXXX.XXX Screen 6 Disk Simulator Screen 7 All Segments *Normal Display will scroll every 8 seconds
Alternate Display Screen Description Display Characters Screen 1 Owner SASKPOWER
Tag 1 Metering Services Tag 2 SPXXXXXX Firmware Battery Life
Screen 2 Dmd type Config Update Sync Max (KW)
Screen 3 Event Log Screen 4 Vector Diagram Screen 5 V RN XXXXXX.X
V YN V BN V avg
Screen 6 I r XXXX.X I y I b I avg
Screen 7 KW ins XXXXXX.XXX KVAR ins KVA ins PF pres
Screen 8 KVA SW pres del XXXXXX.XXX KVA SW pres rec
ION 8300 Primary Display Schedule AP-609 WIND MILL METERS
REVISION 2005
Screen 9 V R harmonic Screen 10 V Y harmonic Screen 11 V B harmonic Screen 12 I R harmonic Screen 13 I Y harmonic Screen 14 I B harmonic Screen 15 Rate A Mwh del. XXXXXXXX.XX Rate B Mwh del. Rate A Mwh rec. Rate B Mwh rec. Screen 16 KVA sw MAX A del. XXXXXX.XXX
KVA sw MAX B del. Screen 17 KVA sw MAX A rec. XXXXXX.XXX
KVA sw MAX B rec. Screen 18 PB Mwh del A XXXXXXXX.XX PB Mwh del B PB Mwh del total Screen 19 PB Mwh rec A XXXXXXXX.XX PB Mwh rec B PB Mwh rec total Screen 20 PB KVA sw MAX A del. XXXXXX.XXX
PB KVA sw MAX B del. Screen 21 PB KVA sw MAX A rec. XXXXXX.XXX
PB KVA sw MAX B rec. Screen 22 PB MVARh del Rate A XXXXXXXX.XX PB MVARh rec Rate A PB MVARh del Rate B PB MVARh rec Rate B Screen 23 PB KW sw max del XXXXXX.XXX
PB KW sw max rec Screen 24 PB KVAR sw max del XXXXXX.XXX
PB KVAR sw max rec Screen 25 PS Mwh del A XXXXXXXX.XX PS Mwh del B PS Mwh del total Screen 26 PS Mwh rec A XXXXXXXX.XX PS Mwh rec B PS Mwh rec total Screen 27 PS KVA sw MAX A del. XXXXXX.XXX
PS KVA sw MAX B del. Screen 28 PS KVA sw MAX A rec. XXXXXX.XXX
PS KVA sw MAX B rec. Screen 29 PS MVARh del Rate A XXXXXXXX.XX PS MVARh rec Rate A PS MVARh del Rate B PS MVARh rec Rate B Screen 30 PS KW sw MAX del XXXXXX.XXX
PS KW sw MAX rec Screen 31 PS KVAR sw MAX del XXXXXX.XXX
ION 8300 Primary Display Schedule AP-609 WIND MILL METERS
REVISION 2005
PS KVAR sw MAX rec Screen 32 Number of Demand Resets XXXX Test Display Screen 1 Kwh del T Kwh rec T Screen 2 KVARh del T KVARh rec T Screen 3 KVAh del T KVAh rec T Screen 4 KW sw del T KW sw rec T
ION 8300 Primary Display Schedule AP-609 WIND MILL METERS
REVISION 2005
Notes: 1. Normal and Alt mode display demand values shall be based on a 20 min block. 2. Latest approved firmware shall be used.
Normal Display Screen Description Display Characters Screen 1 Mwh delivered XXXXXXXX.XX
Mwh received Rate A Mwh Delivered Rate B Mwh Delivered
Screen 2 MVARh del. XXXXXXXX.XX MVARh rec.
Screen 3 MVAh del. XXXXXXXX.XX MVAh rec.
Screen 4 KVA sw MAX A del. XXXXXX.XXX Screen 5 KVA sw MAX B del. XXXXXX.XXX Screen 6 Disk Simulator Screen 7 All Segments *Normal Display will scroll every 8 seconds
Alternate Display Screen Description Display Characters Screen 1 Owner SASKPOWER
Tag 1 Metering Services Tag 2 SPXXXXXX Firmware Battery Life
Screen 2 Dmd type Config Update Sync Max (KW)
Screen 3 Event Log Screen 4 Vector Diagram Screen 5 V RN XXXXXX.X
V YN V BN V avg
Screen 6 I r XXXX.X I y I b I avg
Screen 7 KW ins XXXXXX.XXX KVAR ins KVA ins PF pres
Screen 8 KVA SW pres del XXXXXX.XXX KVA SW pres rec
Screen 9 V R harmonic Screen 10 V Y harmonic Screen 11 V B harmonic Screen 12 I R harmonic Screen 13 I Y harmonic
ION 8300 Primary Display Schedule AP-609 WIND MILL METERS
REVISION 2005
Screen 14 I B harmonic Screen 15 Rate A Mwh del. XXXXXXXX.XX Rate B Mwh del. Rate A Mwh rec. Rate B Mwh rec. Screen 16 KVA sw MAX A del. XXXXXX.XXX
KVA sw MAX B del. Screen 17 KVA sw MAX A rec. XXXXXX.XXX
KVA sw MAX B rec. Screen 18 PB Mwh del A XXXXXXXX.XX PB Mwh del B PB Mwh del total Screen 19 PB Mwh rec A XXXXXXXX.XX PB Mwh rec B PB Mwh rec total Screen 20 PB KVA sw MAX A del. XXXXXX.XXX
PB KVA sw MAX B del. Screen 21 PB KVA sw MAX A rec. XXXXXX.XXX
PB KVA sw MAX B rec. Screen 22 PB MVARh del Rate A XXXXXXXX.XX PB MVARh rec Rate A PB MVARh del Rate B PB MVARh rec Rate B Screen 23 PB KW sw max del XXXXXX.XXX
PB KW sw max rec Screen 24 PB KVAR sw max del XXXXXX.XXX
PB KVAR sw max rec Screen 25 PS Mwh del A XXXXXXXX.XX PS Mwh del B PS Mwh del total Screen 26 PS Mwh rec A XXXXXXXX.XX PS Mwh rec B PS Mwh rec total Screen 27 PS KVA sw MAX A del. XXXXXX.XXX
PS KVA sw MAX B del. Screen 28 PS KVA sw MAX A rec. XXXXXX.XXX
PS KVA sw MAX B rec. Screen 29 PS MVARh del Rate A XXXXXXXX.XX PS MVARh rec Rate A PS MVARh del Rate B PS MVARh rec Rate B Screen 30 PS KW sw MAX del XXXXXX.XXX
PS KW sw MAX rec Screen 31 PS KVAR sw MAX del XXXXXX.XXX
PS KVAR sw MAX rec Screen 32 Number of Demand Resets XXXX
ION 8300 Primary Display Schedule AP-609 WIND MILL METERS
REVISION 2005
Test Display Screen 1 Kwh del T Kwh rec T Screen 2 KVARh del T KVARh rec T Screen 3 KVAh del T KVAh rec T Screen 4 KW sw del T KW sw rec T
R\custserv\csms\pml\8500\ABB 8500 Bidirectional Display Schedule.doc
ABB 8500 Display Schedule Bi-directional Meter
Normal Display Screen Description Display Characters Screen 1 Kwh delivered XXXXX.X
Kwh received XXXXX.X Rate A Kwh Delivered XXXXX.X
Rate B Kwh Delivered XXXXX.X Screen 2 KVARh del. XXXXX.X
KVARh rec. XXXXX.X Screen 3 KVAh del. XXXXX.X
KVAh rec. XXXXX.X Screen 4 KVA sw MAX A del. X.XXX Screen 5 KVA sw MAX B del. X.XXX Screen 6 All Segments *Normal Display will scroll every 8 seconds Alternate Display Screen Description Display Characters Screen 1 Owner SASKPOWER
Tag 1 Metering Services Tag 2 SPXXXXXX Firmware Battery Life
Screen 2 Dmd type Config Update Sync Max (KW)
Screen 3 Event Log Screen 4 Vector Diagram Screen 5 V RN XXX.X
V YN XXX.X V BN XXX.X V avg XXX.X
Screen 6 I r X.XXX I y X.XXX I b X.XXX I avg X.XXX
Screen 7 W ins X.XXX VAR ins X.XXX VA ins X.XXX PF pres X.XXX
R\custserv\csms\pml\8500\ABB 8500 Bidirectional Display Schedule.doc
Screen 8 VA SW pres del X.XXX Screen 9 VA SW pres rec X.XXX Screen 10 V R harmonic Screen 11 V Y harmonic Screen 12 V B harmonic Screen 13 I R harmonic Screen 14 I Y harmonic Screen 15 I B harmonic Screen 16 Rate A Kwh del. XXXXX.X Rate B Kwh del. XXXXX.X Rate A Kwh rec. XXXXX.X Rate B Kwh rec. XXXXX.X Screen 17 KVA sw MAX A del. X.XXX Screen 18 KVA sw MAX B del. X.XXX Screen 19 KVA sw MAX A rec. X.XXX Screen 20 KVA sw MAX B rec. X.XXX Screen 21 PB Kwh del A XXXXX.X PB Kwh del B XXXXX.X PB Kwh del total XXXXX.X Screen 22 PB Kwh rec A XXXXX.X PB Kwh rec B XXXXX.X PB Kwh rec total XXXXX.X Screen 23 PB KVA sw MAX A del. X.XXX Screen 24 PB KVA sw MAX B del. X.XXX Screen 25 PB KVA sw MAX A rec. X.XXX Screen 26 PB KVA sw MAX B rec. X.XXX Screen 27 PB KVARh del Rate A XXXXX.X PB KVARh rec Rate A XXXXX.X PB KVARh del Rate B XXXXX.X PB KVARh rec Rate B XXXXX.X Screen 28 PB KW sw max del X.XXX Screen 29 PB VAR sw max del X.XXX Screen 30 PS Kwh del A XXXXX.X PS Kwh del B XXXXX.X PS Kwh total XXXXX.X Screen 31 PS Kwh rec A XXXXX.X PS Kwh rec B XXXXX.X PS Kwh rec total XXXXX.X Screen 32 PS KVA MAX A del. X.XXX Screen 33 PS KVA MAX B del. X.XXX Screen 34 PS KVA MAX A rec. X.XXX Screen 35 PS KVA MAX B rec. X.XXX
R\custserv\csms\pml\8500\ABB 8500 Bidirectional Display Schedule.doc
Screen 36 PS KVARh del Rate A XXXXX.X PS KVARh rec Rate A XXXXX.X PS KVARh del Rate B XXXXX.X PS KVARh rec Rate B XXXXX.X Screen 37 PS KW MAX del X.XXX Screen 38 PS KVAR MAX del X.XXX Screen 39 PS KVAR MAX rec X.XXX Screen 40 Number of Demand Resets XXX Test Display Screen 1 Kwh del T Kwh rec T Screen 2 KVARh del T KVARh rec T Screen 3 KVAh del T KVAh rec T Screen 4 KW sd del T KW sd rec T
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB8500 Meter Read Sheet.doc
ABB 8500 Meter Read Sheet Customer: ______________________________ Account Number: ________________________ Date & Time: ___________________________ Read By: _______________________________ Normal Display
Screen Description Display Reading Screen 1
Kwh delivered kWh del. Kwh received kWh rec.
Kwh delivered rate A kWh del A Kwh delivered rate B kWh del B
Screen 2 KVARh delivered kVARh del. KVARh received kVARh rec.
Screen 3 KVAh delivered kVAh del. KVAh received kVAh rec. Screen 4
VA Sliding Window Max Rate A received KVAsw maxA del.
Time format: mm/dd/yy hh:mm:ss Screen 5
VA Sliding Window Max Rate B delivered kVAsw maxB del.
Time format: mm/dd/yy hh:mm:ss
Screen 6 All Segments *Normal Display will scroll every 8 seconds
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB8500 Meter Read Sheet.doc
Alternate Display
Screen Description Display Reading Screen 1 Owner SASKPOWER
Tag 1 METERING SERVICES
Tag 2 SP Firmware 8500V205 Battery Life
Screen 2 Dmd type BLOCK/SLIDING Config 20 MIN X 1 PER
Update 20
Sync EXTERNAL Max (KW)
Screen 3 Event Log
Screen 4 Vector Diagram
Screen 5 Voltage line to neutral r Vln r
Vln y
Vln b
Vln avg.
Screen 6 Current phase r I r
I y
I b
I avg.
Screen 7 W instantaneous kW ins
KVAR ins
kVA ins PF present PF sign Tot
Screen 8 kVA Sliding Window Demand present delivered
KVAsw pres del.
kVA Sliding Window Demand present received
KVAsw pres rec.
Screen 9 V R harmonic THD%
Screen 10 V Y harmonic THD%
Screen 11 V B harmonic THD%
Screen 12 I R harmonic THD%
Screen 13 I Y harmonic THD%
Screen 14 I B harmonic THD%
Screen 15 Rate A Kwh del. kWh del. A. Rate B Kwh del. kWh del. B
Rate A Kwh rec. kWh rec. A Rate B Kwh rec. kWh rec. B
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB8500 Meter Read Sheet.doc
Screen 16 KVA sd max del A KVAsw maxA del.
Date & Time mm/dd/yy hh:mm:ss
Screen 17 KVA sd max del B kVAsw maxB del.
Date & Time mm/dd/yy hh:mm:ss
Screen 18 KVA sd max rec. A kVAsw maxA rec.
Date & Time mm/dd/yy hh:mm:ss Screen 19 KVA sd max rec. B
KVAsw maxB rec.
Date & Time mm/dd/yy hh:mm:ss
Screen 20 PB kWh del. A PB kWh del. B PB kW del. total
Screen 21 PB kWh rec. A PB kWh rec. B PB kWh rec. total
Screen 22 PB kVA sd max del A, PBkVA maxA del.
Date & Time mm/dd/yy hh:mm:ss Screen 23
PB kVA sd max del B, PBkVA maxB del.
Date & Time mm/dd/yy hh:mm:ss
Screen 24 PB kVA sd max rec. A, PBkVA maxA rec.
Date & Time mm/dd/yy hh:mm:ss
Screen 25 PB kVA sd max rec. B, PBkVA maxB rec.
Date & Time mm/dd/yy hh:mm:ss Screen 26 PB KVARh del. A
PB KVARh rec. A PB KVARh del B PB KVARh rec. B
Screen 27 PB kW sd max del., PBkWsw max del.
Date & Time mm/dd/yy hh:mm:ss Screen 28 PB kVAR sd max del.,
PBkVARsw max del.
Date & Time mm/dd/yy hh:mm:ss
Screen 29 PS kWh del. A PS kWh del. B PS kWh total
Screen 30 PS kWh rec. A PS kWh rec. B PS kWh rec. total
Screen 31 PS kVA sd max del A, PSkVA maxA del.
Date & Time mm/dd/yy hh:mm:ss
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB8500 Meter Read Sheet.doc
Screen 32 PS kVA sd max del B, PSkVA maxB del.
Date & Time mm/dd/yy hh:mm:ss
Screen 33 PS kVA sd max rec. A, PSkVA maxA rec.
Date & Time mm/dd/yy hh:mm:ss
Screen 34 PS kVA sd max rec. B, PSkVA maxB rec.
Date & Time mm/dd/yy hh:mm:ss
Screen 35 PS KVARh del A PS KVARh rec. A PS KVARh del B PS KVARh rec. B
Screen 36 PS KW sd max del., PSkW max del.
Date & Time mm/dd/yy hh:mm:ss
Screen 37 PS KVAR sd max del., PSkVAR max del.
Date & Time mm/dd/yy hh:mm:ss Screen 38 PS KVAR sd max del.,
PSkVAR max rec.
Date & Time mm/dd/yy hh:mm:ss Screen 39 Demand Resets Count
Test Display
Screen 1 Kwh del T Kwh rec. T
Screen 2 KVARh del. T KVARh rec. T
Screen 3 KVAh del. T KVAh rec. T
Screen 4 KW sd del. T KW sd rec. T
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet2.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB 8500 Meter Read Sheet2.doc
ABB 8500 Meter Read Sheet #2 Customer: ______________________________ Account Number: ________________________ Date & Time: ___________________________ Read By: _______________________________ Normal Display
Screen Description Display Reading Screen 1
kWh deliver kWh receive
Screen 2 kVARh deliver kVARh receive.
Screen 3 kVAh deliver kVAh receive Screen 4 KW block peak deliver Time mm/dd/yy hh:mm:ss KVA block peak deliver Time mm/dd/yy hh:mm:ss KVAR block peak deliver Time mm/dd/yy hh:mm:ss Screen 5 Peak demand reset count Time mm/dd/yy hh:mm:ss Screen 6 KQ block deliver
KQhours deliver KQ block receive KQhours receive Screen 7 KWh disk simulator Screen All Segments *Normal Display will scroll every 8 seconds
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet2.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB 8500 Meter Read Sheet2.doc
Alternate Display
Screen Description Display Reading Screen 1 Owner SASKPOWER
Tag 1 METERING SERVICES
Tag 2 SP Firmware 8500V232 Battery Life % DIAG NUM
Screen 2 Dmd type BLOCK/SLIDING Config 20 min X 1 per Update 20 minutes Sync EXTERNAL Max (KW)
Screen 3 Event Log Screen 4 Vector Diagram Screen 5 Voltage line to neutral Vln a
Vln b Vln c Vln avg.
Screen 6 Current phase I a I b I c I avg.
Screen 7 kW total KVAR total kVA total PF sign Total
Screen 8 KW block deliver KW block receive Screen 9 Availablty-ppm No. of “Nines” EvalTime (days) Screen 10 V1-Flck N1/N V2-Flck N1/N V3-Flck N1/N Screen 11 VA Harmonics THD % Screen 12 VB Harmonics THD % Screen 13 VC Harmonics THD % Screen 14 IA Harmonics THD % Screen 15 IB Harmonics THD % Screen 16 IC Harmonics THD %
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet2.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB 8500 Meter Read Sheet2.doc
Screen Description Display Reading Screen 17 TOU Rate A Active TOU Rate B Inactive TOU Rate C Inactive TOU Rate D Inactive Screen 18 TOU Season 1 Active TOU Season 2 Inactive TOU Season 2 Inactive TOU Season 4 Inactive Screen 19 kWh del. A. kWh del. B kWh del. C kWh del. D Screen 20 KW block peak deliver A Date & Time mm/dd/yy hh:mm:ss KW block peak deliver B Date & Time mm/dd/yy hh:mm:ss Screen 21 KW block peak deliver C Date & Time mm/dd/yy hh:mm:ss KW block peak deliver D Date & Time mm/dd/yy hh:mm:ss Screen 22 Past Billing kWh del. A PB kWh del. B PB kWh del. C PB kWh del. C Screen 23 PB kW block peak deliver A Date & Time mm/dd/yy hh:mm:ss PB kW block peak deliver B Date & Time mm/dd/yy hh:mm:ss Screen 24 PB kW block peak deliver C Date & Time mm/dd/yy hh:mm:ss PB kW block peak deliver D Date & Time mm/dd/yy hh:mm:ss Screen 25 Past Season kWh deliver A PS kWh deliver B PS kWh deliver C PS kWh deliver D Screen 26 PS kW block peak deliver A Date & Time mm/dd/yy hh:mm:ss PS kW block peak deliver B Date & Time mm/dd/yy hh:mm:ss
PB – Previous Billing – Last month’s billing PS – means Previous Season – last year’s billing R\custserv\csms\library\Display Schedules\ABB8500 Meter Read Sheet2.doc R:\custserv\csms\connection diagrams\appendix\Meter Displays\ABB 8500 Meter Read Sheet2.doc
Screen Description Display Reading Screen 27 PS kW block peak deliver C Date & Time mm/dd/yy hh:mm:ss PS kW block peak deliver D Date & Time mm/dd/yy hh:mm:ss Screen 28 PB kWh del. PS kWh del. PB kWh rec. PS kWh rec. Screen 29 PB kW block peak receive PS kW block peak receive Screen 30 PB kVARh del PS kVARh del. PB kVARh rec. PS kVARh rec. Screen 31 PB kVarh block peak del PS kVARh block peak del. PB kVARh block peak rec. PS kVARh block peak rec. Screen 32 PB kVAh del PS kVAh del. PB kVAh rec. PS kVah rec. Screen 33 PB kVA block peak del. PS kVA block peak del. PB kVA block peak rec. PS kVA block peak rec. Screen 34 Frequency Test Display
Screen 1 Kwh del T Kwh rec. T Screen 2 KVARh del. T KVARh rec. T Screen 3 KVAh del. T KVAh rec. T Screen 4 KW sd del. T KW sd rec. T
ELSTER ALPHA3 METER DISPLAY 31-15-3G NORMAL MODE NORMAL DISPLAY SEQUENCE ID NAME READINGS
1 888 LCD TEST 2 2 CURRENT BILLING TOTAL KWH 3 3 CURRENT BILLING MAXIMUM KVA-DEL. 4 4 AVERAGE PF: KW-DEL AND KVA-DEL@KVA-DEL 5 SYS SYSTEM KVA (ARITHMETIC) 6 SYS SYSTEM PF (ARITHMETIC)
This meter has an alternate register which can be displayed by breaking the demand seal, lifting the lever, turning it to the right and pressing the ALT button. ALTERNATE DISPLAY SEQUENCE ID NAME READINGS
1 201 DEMAND RESETS (ALL) 2 202 CURRENT BILLING CUMULATIVE KVA DEL 3 203 PRESENT INTERVAL KVA-DEL 4 204 PREVIOUS INTERVAL KVA-DEL 5 SYS SYSTEM PF (ARITHMETIC) 6 SYS SYS KVA (ARITHMETIC) 7 SYS SYSTEM KW 8 SYS SYSTEM KVAR (ARITHMETIC) 9 PHA PHASE A VOLTAGE
10 PHB PHASE B VOLTAGE 11 PHC PHASE C VOLTAGE 12 PHA PHASE A CURRENT 13 PHB PHASE B CURRENT 14 PHC PHASE C CURRENT 15 215 PREVIOUS BILLING TOTAL KWH-DEL 16 216 PREVIOUS BILLING MAX. KVA-DEL 17 217 POWER OUTAGE COUNT 18 218 PROGRAM ID 19 219 FIRMWARE VERSION 20 220 HARDWARE VERSION 21 221 CUSTOM DISPLAY STRING 1
* - ID indicator not present but the annunciator is still present
* - ID indicator not present but the annunciator is still present.
ELSTER/ABB Alpha Plus Meters Meter displays Residential single phase meters 15-23 1G A1TL+ NORMAL DISPLAY SEQUENCE ID ANNUNCIATOR
1 888 LCD TEST 2 2 TOTAL KWH
This meter has an alternate register which can be displayed by breaking the demand seal, lifting the lever, turning it to the right and pressing the ALT button. ALTERNATE DISPLAY SEQUENCE ID ANNUNCIATOR COMMENTS
1 * SYS VA 2 * PH A VOLTAGE 3 * PH A CURRENT 4 * PH B CURRENT 5 16 PROGRAM ID 6 17 POWER OUTAGE COUNT
Co-generation sites A1KL+ NORMAL DISPLAY SEQUENCE ID ANNUNCIATOR COMMENTS
1 888 COMPLETE LCD TEST 2 1 TOTAL KWH DEL. KWH DELIVERED TO CUSTOMER 3 2 TOTAL KWH REC. KWH RECEIVED BY SASKPOWER 4 * SYS POWER FACTOR INSTANTANROUS PF. 5 * SYS KVA INSTANTANEOUS KVA 6 * LINE FREQYENCY
This meter has an alternate register which can be displayed by breaking the demand seal, lifting the lever, turning it to the right and pressing the ALT button. ALTERNATE DISPLAY SEQUENCE ID ANNUNCIATOR COMMENTS
1 * PH A VOLTAGE 2 * PH B VOLTAGE 3 * PH C VOLTAGE 4 * PH A CURRENT 5 * PH B CURRENT 6 * PH C CURRENT 7 * SYS POWER FACTOR INSTANTANROUS PF. 8 * SYS WATTS INSTANTANEOUS WATTS 9 * SYS VARS INSTANTANEOUS VARS
10 * SYS VA INSTANTANEOUS VA 11 11 POWER OUTAGE COUNT NUMBER OF POWER OUTAGES 12 12 PROGRAM ID
KVI AND SVI METER DISPLAY KVI Normal Mode Electronic Display
Main Display Register Sequence Annunciator Segment Test 8.8.8.8.8.8 VA Peak 1 VA MAX Power Factor at VA Peak
2 VA MAX PF
VA Present Demand 3 VA PRES Present Power Factor 4 PF PRE S Potential Indicators 5 PHASE ABC Blank Display Screen -- For billing purposes the mechanical register dial reading is recorded and from the electronic register only the VA Peak is recorded. SVI Normal Mode Display
Main Display Register Sequence Annunciator Segment Test 8.8.8.8.8.8 KWh Total 1 kWh VA Peak 2 VA MAX Power Factor at VA Peak
3 VA MAX PF
VA Present Demand 4 VA PRES Present Power Factor 5 PF PRES Potential Indicators PHASE ABC Blank Display Screen -- The Alternate Display of KVI/SVI meters
Alternate Display Display Sequence Annunciator Wh Consumption 1 KWh VA Peak 2 VA MAX VA Cumulative Demand 3 VA CUM Number of Demand Resets
4 #RST
Instantaneous VA 5 VA Instantaneous Power Factor
6 PF(LEAD/LAG)
Volts Phase A 7 VA Volts Phase C 8 VC Amps Phase A 9 AA Amps Phase B 10 AB Amps Phase C 11 AC Electronic Register Kt 12 #Kh Firmware Revision Number
13 #
Blank Display Screen --
QUANTUM BI-DIRECTIONAL METER READINGS
R:\custserv\csms\quantum\QTbiMRSHT.doc Revised November 21, 2001
CUSTOMER:______________________________________________________DATE:_________________________________ ACCOUNT NUMBER:______________________________________________TIME:_________________________________ METER NUMBER:_____________________________________ BILLING MULTIPLIER: ____________________________ RECORDER NUMBER: (IF APPLICABLE)__________________________ DISPLAY
ID
ANNUCIATOR
EXPLANATION METER
READINGS 01 Kwh d Total kilowatt-hours delivered 02 A kwh d On Peak kilowatt-hours delivered
03 kQh d Total Kilo-Q-hours delivered 04 A max VA d Max VA demand delivered, On Peak, for current month
05 A max VA Time Time of On Peak VA demand delivered for current month
06 B max VA d Max VA demand delivered Off Peak for current month
07 B max VA Time Time of Off Peak VA demand delivered for current month
08 Kwh r Total kilowatt-hours received
09 A kwh r On Peak kilowatt-hours received
10 kQh r Total Kilo-Q-hours received
11 A max VA r Max VA demand received, On-Peak, for current month
12 A max VA r Time Time of On Peak VA demand received for current month
13 B max VA r Max VA demand received Off Peak for current month
14 B max VA r Time Time of Off Peak VA demand delivered for current month
15 ins VA Intsantaneous Volt-Amps
16 Prs VA Present VA
17 KWh d FZ Total Kilowatt hours delivered Frozen
18 A kWh d FZ On Peak kilowatt hours delivered
19 A max VA d FZ Max VA demand delivered, On Peak, Frozen: 1st of Month
20 A max VA Time FZ Time of On Peak VA demand delivered, Frozen 1st of Month
21 B max VA d FZ Max VA demand delivered Off Peak, Frozen 1st of Month
22 B max VA d Time FZ Time of Off Peak VA demand delivered, Frozen 1st of Month
23 Kwh r FZ Total kilowatt-hours received Frozen 1st of Month
24 A kwh r FZ On Peak kilowatt-hours received, Frozen 1st of Month
25 A max VA r FZ Max VA demand received, On-Peak, Frozen 1st of Month
26 A max VA r Time FZ Time of On Peak VA demand received, Frozen 1st of Month
27 B max VA r FZ Max VA demand received Off Peak, Forzen 1st of Month
28 B max VA r Time FZ Time of Off Peak VA demand received, Frozen 1st of Month
QUANTUM BI-DIRECTIONAL METER READINGS
R:\custserv\csms\quantum\QTbiMRSHT.doc Revised November 21, 2001
ALTERNATE DISPLAY
DISPLAY ID
ANNUCIATOR
EXPLANATION
METER READINGS
88 All Positions Black Segment Test
41 Ins V Instantaneous Volts
42 Ins A Instantaneous Amps
43 Ins W Instantaneuos Watts
44 Ins var Instantaneous Volt-Amps-Reactive
45 Pf Power Factor
46 KQh d FZ Total kiloQhours delivered
47 KQh r FZ Total kiloQhours received
48 A kQh d On-Peak kiloQhours delivered
49 A kQh r Off-Peak klioQhours received
50 A kQh d FZ On-Peak klioQhours delivered, Frozen 1st of Month
51 A kQh r FZ Off-Peak klioQhours received Frozen 1st of Month
52 PWD Number of Power Downs (Loss of Power)
53 #DMR Number of demand resets
54 Btm Battery minutes used
55 Rt Real Time and Date
56 SV Software Version
QUANTUM METER READINGS
R:\custserv\csms\quantum\qtm read sheet.doc R:\custserv\csms\connection diagrams\appendix\meter displays\qtm read sheet.doc Revised September 26, 2006
CUSTOMER:______________________________________________________DATE:_________________________________ ACCOUNT NUMBER:______________________________________________TIME:_________________________________ METER NUMBER:_____________________________________ BILLING MULTIPLIER: ____________________________ RECORDER NUMBER: (IF APPLICABLE)__________________________
MAIN DISPLAY
DISPLAY ID
ANNUCIATOR EXPLANATION READINGS
02 KWh d Total kilowatt-hours
03 A kWh d On Peak kilowatt-hours
04 KQh d Total Kilo-Q-hours
05 A max VA Maximum VA demand, on peak, for current month
05 A max VA Time Time of on peak VA demand for current month
06 B max VA Maximum VA demand off peak for current month
06 B max VA Time Time of off peak VA demand for current month
07 A kwh d FZ On peak Total kilowatt-hours frozen at bill cycle
08 A max VA FZ On peak VA demand frozen at bill cycle
08 A max VA TIFZ Time of on peak Va demand frozen at bill cycle
09 B max VA FZ Off peak VA demand frozen at bill cycle
09 B max VA TIFZ Time of off peak VA demand frozen at bill cycle
10 KWh d FZ Kilowatt-hour total frozen at bill cycle
11 KQh d FZ Kilo-Q-hour total frozen at bill cycle
12 Ins VA Instantaneous VA demand
13 Prs VA Present VA demand
14 Pf Present Power Factor
15 Rt Present Time
16 Btm Battery minutes Used
QUANTUM METER READINGS
R:\custserv\csms\quantum\qtm read sheet.doc R:\custserv\csms\connection diagrams\appendix\meter displays\qtm read sheet.doc Revised September 26, 2006
17 Unit Identification
QUANTUM METER READINGS
R:\custserv\csms\quantum\qtm read sheet.doc R:\custserv\csms\connection diagrams\appendix\meter displays\qtm read sheet.doc Revised September 26, 2006
ALTERNATE DISPLAY
30 Ins V Instantaneous Volts Total of each voltage
31 Ins A Instantaneous Amps Total of each current
32 Ins W Instantaneous Watts delivered
33 Ins var Instantaneous Volt-Amps-Reactive
34
Pwd Number of Power Downs (Loss of Power)
35
#dmr Number of demand resets
36
TOU Time of Use Schedule
37
kWh d Total KW hours delivered
38
KVAh d Total KVA hours delivered
39 Set
40 SV Software Version
R:\custserv\csms\connection diagrams\appendix\meter displays\Sentinel meter displays.doc
Sentinel meter displays Single phase meters ie 15-93-13
Normal Display ID. Quantity Name Annunciator Reading 88 Segment Test 2 Watt-hours - delivered KWh d 3 Instantaneous VA Vec Ins VA Vec 4 Instantaneous PF Ins PF
Alternate Display
ID. Quantity Name Annunciator Reading 201 Instantaneous VA Vec Ins VA Vec 202 Instantaneous Watts Ins W 203 Instantaneous VAR Ins VAR 204 Instantaneous PF Ins PF 205 Instantaneous Volts A Ins Va 206 Instantaneous Amp A Ins Aa 207 Instantaneous Amp C Ins Ac 208 Instantaneous NA Instantaneous NA 209 Outage Count Outage Count 210 Program ID Program ID 211 Firmware Revision Firmware Revision 212 User Data 01 User Data 01
ie 15-93-33
Normal Display ID. Quantity Name Annunciator Reading 88 Segment Test 2 Watt-hours - delivered KWh d 3 Instantaneous VA Ins VA Vec 4 Instantaneous PF Ins PF
Alternate Display
ID. Quantity Name Annunciator Reading 201 Instantaneous Volts Amps Ins Va 202 Instantaneous Watts Ins W 203 Instantaneous VAR Ins VAR 204 Instantaneous PF Ins PF 205 Instantaneous VA Vec Ins VA Vec d 206 Instantaneous Volts A Ins Va 207 Instantaneous Volts C Ins Vc 208 Instantaneous Amp A Ins Aa 209 Instantaneous Amp C Ins Ac 210 Watt hours del. (Snap Shot 1) Whd (SS1) 211 Watt hours del. (Snap Shot 2) Whd (SS2) 212 Instantaneous NA Instantaneous NA 213 Outage Count Outage Count 214 Program ID Program ID 215 Firmware Revision Firmware Revision 216 User Data 01 User Data 01
R:\custserv\csms\connection diagrams\appendix\meter displays\Sentinel meter displays.doc
ie 35-93-1G Normal Display
ID. Quantity Name Annunciator Reading 88 Segment Test 2 Watt-hours - delivered KWh d 3 Maximum VA demand Max VA Arith d 4 PF @ Maximum VA demand PF @ max VA Arith d 5 Instantaneous VA Ins VA Arith 6 Instantaneous PF Ins PF
Alternate Display ID. Quantity Name Annunciator Reading 201 Demand Reset Count Demand Reset Count 202 Continuous Cum VA Arith d Ccum Va Arith d 203 Present VA Arith d Prs Va Arith d 204 Previous VA Arith d Prv Va Arith d 205 Instantaneous PF Ins PF 206 Instantaneous VA Arith Ins VA Arith d 207 Instantaneous Watts Ins W 208 Instantaneous VAR Ins VAR 209 Instantaneous Volts A Ins Va 210 Instantaneous Amp A Ins Vb 211 Instantaneous Amp C Ins Vc 212 Watt hours del. (Snap Shot 1) Whd (SS1) 213 Max VA Arithmetic d (Snap Shot 1) Max VA Arith d (SS1) 214 Watt hours del. (Snap Shot 2) Whd (SS2) 215 Max VA Arithmetic d (Snap Shot 2) Max VA Arith d (SS2) 216 Average power factor Average power factor 217 Minimum power factor Minimum power factor 218 Instantaneous NA Instantaneous NA 219 Projected VA Arith Projected VA Arith 220 Outage Count Outage Count 221 Program ID Program ID 222 Firmware Revision Firmware Revision 223 User Data 01 User Data 01 224
R:\custserv\csms\connection diagrams\appendix\meter displays\Sentinel meter displays.doc
Sentinel Three Phase ie 31-15-3C
Normal Display ID. Quantity Name Annunciator Reading 88 Segment Test 2 Watt-hours – delivered KWh d 3 Maximum VA demand Max VA Arith d 4 PF @ Maximum VA demand PF @ max VA Arith d 5 Instantaneous VA Ins VA Arith 6 Instantaneous PF Ins PF
Alternate Display
ID. Quantity Name Annunciator Reading 201 Demand Reset Count 202 Continuous Cum VA Arith d CUM VA Arith d 203 Present VA Arith d Prs VA Arith d 204 Previous VA Arith d Prv VA Arith d 205 Previous PF MAX 206 Instantaneous PF Ins PF 207 Instantaneous VA Arith Ins VA Arith d 208 Instantaneous Watts Ins W 209 Instantaneous VAR Ins VAR 210 Instantaneous Volts A Ins V a 211 Instantaneous Volts B Ins V b 212 Instantaneous Volts C Ins V c 213 Instantaneous Amp A Ins Amp a 214 Instantaneous Amp B Ins Amp b 215 Instantaneous Amp C Ins Amp c 216 Instantaneous Neutral Amps Ins na 217 Whd (Snap Shot 1) Whd (SS1) 218 Max VA Arithmetic d (Snap Shot 1) Max VA Arith d (SS1) 219 Whd (Snap Shot 2) Whd (SS2) 220 Max VA Arithmetic d (Snap Shot 2) Max VA Arith d (SS2) 221 Average power factor Ave PF 222 Minimum power factor Min PF 223 Projected VA Arithmetic d Proj VA Arith D 224 Outage Count 225 Program ID 226 Firmware Revision 227 Option Board Field 1 228 Option Board Field 2 229 User Data 01
R:\custserv\csms\connection diagrams\appendix\meter displays\Sentinel meter displays.doc
Time of Use Display ie 31-15-6C
Normal Display ID. Quantity Name Annunciator Reading 888 Segment Test Segment Test
2 Watt hours delivered Wh d 3 Watt hours delivered for Rate A Wh d Rate A 4 Max VA Arithmetic d Rate A Max VA Arith d Rate A 5 Date of Max VA Arithmetic
delivered for Rate A Date of Max VA Arith d Rate A
6 Time of Max VA Arithmetic delivered Rate A
Time of Max VA Arith d Rate A
7 Watt hours delivered for Rate B Wh d Rate B 8 Max VA Arithmetic delivered for
Rate B Max VA Arith d Rate B
9 Date of Max VA Arithmetic delivered Rate B
Date of Max VA Arith d Rate B
10 Time of Max VA Arithmetic delivered for Rate B
Time of Max VA Arith d Rate B
11 Max VA Arithmetic delivered Max VA Arith d 12 PF @ max VA Arithmetic delivered PF @ max VA Arith d 13 Instantaneous VA Arithmetic Ins VA Arith 14 Instantaneous Power Factor Ins PF
Alternate Display
ID. Quantity Name Annunciator Reading 201 Demand Reset Count 202 Continuous Cum VA Arith d CUM VA Arith d 203 Present VA Arith d Prs VA Arith d 204 Previous VA Arith d Prv VA Arith d 205 Previous PF MAX 206 Instantaneous PF Ins PF 207 Instantaneous VA Arith Ins VA Arith d 208 Instantaneous Watts Ins W 209 Instantaneous VAR Ins VAR 210 Instantaneous Volts A Ins V a 211 Instantaneous Volts B Ins V b 212 Instantaneous Volts C Ins V c 213 Instantaneous Amp A Ins Amp a 214 Instantaneous Amp B Ins Amp b 215 Instantaneous Amp C Ins Amp c 216 Instantaneous Neutral Amps Ins na 217 Whd (Snap Shot 1) Whd (SS1) 218 Max VA Arithmetic d (Snap Shot 1) Max VA Arith d (SS1) 219 Whd (Snap Shot 2) Whd (SS2) 220 Max VA Arithmetic d (Snap Shot 2) Max VA Arith d (SS2) 221 Average power factor Ave PF 222 Minimum power factor Min PF 223 Projected VA Arithmetic d Proj VA Arith D 224 Outage Count 225 Program ID 226 Firmware Revision 227 Option Board Field 1 228 Option Board Field 2 229 User Data 01
Display sequence for KVA Demand Vectron Meter
(i.e. Stock code 3X-XX-33 AND 3X-XX-6C)
Normal Display Mode: ID. Quantity Name Format Annunciator Units
88 Segment Test 1 Watt-hours 00000. KWh Kilo 2 Maximum VA demand 0000. Max Units 3 Present VA demand 0000. Units
Alternate Display Mode: ID. Quantity Name Format Annunciator Units
11 Previous VA demand 0000. Units 12 Cumulative VA demand 000000. CUM Units 13 Instantaneous VA 0000. Units 14 Instantaneous watts 0000. Units 15 Maximum watts 0000. MAX Units 16 Present watts 0000. Units 17 Demand Reset Count 18 Outage Count 19 Normal Kh 20 Firmware Revision
Time of Use Vectron Meters Stock Code 3X-XX-6C
Normal Display Display ID. Annunciator Explanation 88 Segment Test 01 KWh KWhr 02 MAX Maximum KVA demand since last reset 03 MAX Maximum demand ON PEAK 04 Date of ON PEAK demand 05 Time of ON PEAK demand 06 MAX Maximum OFF PEAK demand 07 Date of OFF PEAK demand 08 Time of OFF PEAK demand Alternate Display Mode: ID. Quantity Name Format Annunciator Units
11 Previous VA demand 0000. Units 12 Cumulative VA demand 000000. CUM Units 13 Instantaneous VA 0000. Units 14 Instantaneous watts 0000. Units 15 Maximum watts 0000. MAX Units 16 Present watts 0000. Units 17 WHR Rate A KWH Kilo 18 WHR Rate B KWH Kilo 19 Demand Reset Count
20 Outage Count 21 Normal Kh 22 Firmware Revision
New Time of Use Display, for use with all XX-XX-6C meters. All XX-XX-66 and 69 meters are being converted to this new display as they become due for retest. Normal Display Mode: ID. Quantity Name Format Annunciator Units
88 Segment Test 1 Watt-hours 00000. KWh Kilo 2 Maximum VA demand 0000. Max VA Units 3 Present VA demand 0000. Prs VA Units
Alternate Display Mode: ID. Quantity Name Format Annunciator Units
11 Watt hours for Rate A 00000. Wh Rate A Kilo 12 Max. VA for Rate A 0000. Max. VA Rate A Units 13 Date of max. VA for
Rate A
14 Time of max VA for Rate A 15 Watt hours for Rate B 00000. Wh Rate B Kilo 16 Max. VA for Rate B 0000. Max VA Rate B Units 17 Date of max VA Rate B 18 Time of max VA Rate B 19 Previous VA demand 0000. Prv VA Units 20 Cumulative VA demand 000000. CUM VA Units 21 Instantaneous VA 0000. Ins VA Units 22 Instantaneous watts 0000. Ins W Units 23 Maximum watts 0000. MAX W Units 24 Present watts 0000. PRV W Units 25 Demand Reset Count 26 Outage Count 27 Normal Kh 28 Firmware Revision
When used as a VA demand meter record kWhr, register 01 and maximum demand, register 02 only. When used as a Time of Use Meter record kWhr (01), On Peak Demand (03), Date (04) and Time (05), and Off Peak Demand (06), Date (07) and Time (08).
MISCELLANEOUS METERING ERRORS
31-13-21 – NETWORK METERS USED ON 3Ø – 3W TRANSFORMER RATED SERVICES WILL READ 115% OF THE TRUE DEMAND. THE KWH REGISTRATION WILL BE 100%
WHEN CD-269 DOES NOT HAVE RED PHASE (208 VOLT TO GROUND) CONNECTED TO TERMINAL 3, SEE CIRCULAR MSC1 IN THE REVENUE METERING MATERIAL CODE BOOK
31-23-31 – VA DEMAND METERS INSTALLED ON 120/240 VOLT 3Ø 4W DELTA SERVICES (CD-271, CD-272, CD-273 & CD-274) WILL REGISTER 124% OF TRUE DEMAND. KWH REGISTRATION WILL BE 100%
31-13-31 – VA DEMAND METERS INSTALLED ON 120/208 VOLT 3Ø 4W WYE SERVICES, CD-281, WILL REGISTER 124% OF TRUE DEMAND. KWH REGISTRATION WILL BE 100%.
REVISION 2006
120/240 VOLT - 1 PHASE - 3 WIRELINE
NEU
TRAL
1 2
3 4
5
ERROR CONDITION:120 VOLT NETWORK 3-WIRE METER INSTALLED
PH
ASE
PH
ASE
NEU
TRA
L
PH
ASE
PH
ASE
RIGHT HAND ELEMENT UNITY P.F.
E
(120 V LOAD)
(240 V LOAD)
(240/2)
LEFT HAND ELEMENT
E
(120 V LOAD)
(240 V LOAD)
(240/2)
METER WOULD SEE- 240 VOLT LOAD CURRENT TWICE. HOWEVER @ ½ VOLTS (100% REGISTRATION)- 120 VOLT LOAD CURRENT TRUE ON BOTH LEGS (100% REGISTRATION)
REVISION 2006
I
I
I
I
NE
UTR
AL LINE
LOAD
NE
UTR
AL
½ C
OIL
½ C
OIL
1 2
3 4
R B
120/208 VOLT - 3 WIRE - NETWORKERROR CONDITION:240 VOLT 1Ø 3-WIRE METER INSTALLED
ERB
IRB + IRB2
(208V LOAD)
(120V LOAD)
(120V LOAD)
300
300 -IB2
IR2
UNITY
AT UNITY208V LOAD – 100% REGISTRATION @ ALL P.F.120V LOAD – 75% REGISTRATION (BALANCED LOAD)
NOTE:(120 VOLT LOADS) THE PERCENT OF REGISTRATION CAN BE GREATER THAN 75% OR LESS FOR BALANCED LOADS WITH POWER FACTOR OTHER THAN UNITY.
UNITY POWER FACTOR = 75% REGISTRATION – BALANCED OR UNBALANCED0.866 POWER FACTOR = 75% BALANCED
= 86% UNBALANCED 25/10= 64% UNBALANCED 10/25= 50% UNBALANCED 0/30 REVISION 2006
240/480 VOLT - 1 PHASE - 3 WIREERROR CONDITION:480 VOLT 3Ø 3-WIRE METER INSTALLED AND NEUTRAL CONNECTED
LOAD
BOND
43
5
21
NE
UTR
AL
PH
ASE
PH
ASE
LINELEFT ELEMENT1 X E = 240 VOLT LOAD
CORRECT REGISTRATION
10 AMP X 240 = 2400 VAMETER SHOULD SEE5 AMP X 480 = 2400 VA
RIGHT ELEMENT1 X E = 240 VOLT LOAD
CORRECT REGISTRATION
480 VOLT LOADLEFT 1 X E = 1RIGHT -1 X -E =1
2 REGISTRATION ISDOUBLE
240V
240V
480V
VOLTAGE AT SOCKETTERMINAL VOLTS
1 – 51 – 22 - 5
240480240
REVISION 2006
240/480 VOLT - 1 PHASE - 3 WIRE
ERROR CONDITION:480 VOLT 3Ø 3-WIRE METER INSTALLED AND NO NEUTRAL CONNECTED
LOAD
BOND
43
5
21
NE
UTR
AL
PH
ASE
PH
ASE
LINE
SHOP TEST RESULTSKWH – READS DOUBLEKW DEMAND 100%KVA DEMAND 50%
VOLTAGE AT SOCKETTERMINAL VOLTS
1 – 51 – 22 - 5
240480240
REVISION 2006
240/480 VOLT - 1 PHASE - 3 WIRELINE – 120 VOLT
LINE – 120 VOLT
½ C
OIL
½ C
OIL
½ C
OIL
½ C
OIL
LOAD – 5 AMPS
LOAD – 5 AMPS
CONDITION 1:120/240 VOLT 1 PHASE, 3 WIRE METER ON 120 VOLT, 1 PHASE 2 WIRE SERVICE.
LOAD = 5 AMP X 120 VOLTS = 6OO WATTS
LEFT SIDE = 5A/2 X 120V = 300 WATTSRIGHT SIDE = 5A/2 X 120V = 300 WATTS
TOTAL = 600 WATTS
100% REGISTRATION
CONDITION 2:120/240 VOLT 1 PHASE, 3 WIRE METER ON 120 VOLT, 1 PHASE 2 WIRE SERVICE.
LOAD = 5 AMP X 120 VOLTS = 6OO WATTS
LEFT SIDE = 5A/2 X 120V = 300 WATTSRIGHT SIDE = 0A/2 X 120V = 0 WATTS
TOTAL = 300 WATTS
50% REGISTRATION
REVISION 2006
120/208 VOLT - NETWORKERROR CONDITION:NEUTRAL IS NOT CONNECTED IN SOCKET TO THE 5TH TERMINAL AND THE METER IS ELECTROMECHANICAL TYPE
LOAD
BOND
43
5
21
NE
UTR
AL
PHA
SE
PHAS
E
LINE
VOLTAGE AT SOCKETTERMINAL VOLTS
1 – 51 – 22 - 5
02080
REVISION 2007
EFFECT:METER WILL ONLY REGISTER THE IMBALANCE OF THE LOAD
BALANCED LOAD 0 REGISTRATION
IMBALANCED LOAD ON RED PHASE POSITIVE KWH REGISTRATION
IMBALANCED LOAD ON BLUE PHASE NEGATIVE KWH REGISTRATION ORIF METER IS DETENT EQUIPPED0 REGISTRATION
4
w
N
RY
B
Y B R
208V
LINE
LOAD
4 5 6 7
1 2 3
SERVICE VOLTAGE120/240V 3 Ø - 4W – DELTA
ERROR CONDITION:3Ø 4-WIRE WYE METER INSTALLED
UNITY P.F.
EYN
IY
-IB
2(IYB) (1Ø)
IYB (3Ø)
ERN
IR -IB
INBIYB
IRB (3Ø)
UNITY P.F.
IYNINB UNBALANCE
(1Ø)
LEFT HAND ELEMENT RIGHT HAND ELEMENT
PROVIDING RED PHASE IS ON TERMINAL #3
3Ø AT UNITY P. F. = 125% REGISTRATION*1Ø AT UNITY P. F. = 100% REGISTRATION
3Ø AT 0.866 P. F. = 100% REGISTRATION**1Ø AT 0.866 P. F. = BALANCED LOAD 50% REGISTRATION
UNBALANCED DEPENDS ON LEG.
* L. H. EL. – 50%R. H. EL. – 75%
**L. H. EL. – 50%R. H. EL. – 50%
3Ø @ UNITY
3Ø @ UNITY
REVISION 2006
SERVICE VOLTAGE120/240V 3 Ø - 4W – DELTA
ERROR CONDITION:120 VOLT - 3Ø - 4-WIRE WYE METER INSTALLED
1 2 3 4 65 7 8 9 10
BOND
GN
R Y BE WR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
Y
BE
R/W
Y/WBE/W
R/BKY/BK
BE/BK
VA DEM.
KYLS
R
Y
BE
NEUTRAL
LINE
3Ø 3W240V
LOADS
R
Y
BE
N
13-JAW COMBINATION
SOCKET
10
1Ø 3W120/240VLOADS
208V
4 5 6
1 2 3
12
1378
TYPES
YELLOW – BLUE ELEMENT – CORRECT REGISTRATION
SHOULD SEE EYB X ( IYB 1Ø + IYB 3Ø )2 2
METER SEE’SEYN X (IYB 1Ø + IYB 3Ø)
SAME
RED ELEMENTNO REGISTRATION, VOLTAGE OPEN.RED EL. HAS 50% OF 3Ø LOAD ONLY.THEREFORE REGISTRATION WILL BE 100% 1Ø LOADS PLUS 50% OF 3Ø LOAD. (AT ALL P. F.)
UNITY P.F.
EYN
IYB (1Ø)
IYB (3Ø)
ALL CONDITIONS3Ø LOADS = 50%1Ø LOADS = 100%
1Ø LOAD = EYN (120V) X IYB FUL CURRENT3Ø LOAD = EYN (120V) X IYB FULL CURRENT
REVISION 2006
SERVICE VOLTAGE120/240V 3 Ø - 4W – DELTA
ERROR CONDITION:TERMINAL CONNECTIONS AT 7 & 8 ON THE SOCKET INTERCHANGED.
1 2 3 4 65 7 8 9 10
BOND
GN
R Y BE W R/W
R/BK
Y/W BE/WY/BK BE/BK
W
R
Y
BE
R/W
Y/WBE/W
R/BKY/BKBE/BK
VA DEM.
KYLS
R
Y
BE
NEUTRAL
LINE
3Ø 3W240V
LOADS
R
Y
BE
N
REV. 2006
13-JAW COMBINATION
SOCKET
1 2 3
4 5 6
7
8
9
13
12
11
10
1Ø 3W120/240VLOADS
½ C
OIL
FULL
CO
IL
208V
kWhKYS
KYWSD
UNITY P.F.
ERN
EYB
IR
IYB - 3Ø
IYB - 1Ø
3Ø LOADS ARE CANCELED
ALL 1Ø WILL BE IN THE REVERSE DIRECTION
w
R
Y
Y BR
B
N
N
SERVICE VOLTAGE120/208 - 277/480 - 347/ 600V - 3Ø - 4W - WYE
ERROR CONDITION:3Ø 4-WIRE DELTA METER INSTALLED
4 5 6 7
1 2 3
½ C
OIL
S
LEFT HAND ELEMENT RIGHT HAND ELEMENT
ERY
-IY2
IR2
UNITYIRY2
UNITYIB
EBN
AT ALL P.F. CONDITIONS(BALANCED LOAD)
KWH % REGISTRATION = 83.3% OF TRUE
DEMAND REGISTRATION WILL BE OKAY UNLESS THE VOLTAGE COILS ARE OVERLOADED.
SERVICE VOLTAGE120 / 208 VOLT – 3 Ø - 4 W - WYE
1 2 3 4 65 7 8 9
BOND
GN
R BWR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R/W
Y/BK BE/BK
TYPES
VA DEM.
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
13-JAW COMBINATION
SOCKET
SVISVIME4S
(VECTRON)SV4SDSV4SR
(SENTINEL)SS4S2L
kWhKYSV65S
KYWSD12
ERROR CONDITION:3Ø 4-WIRE DELTA METER INSTALLED
R BE
R/W
Y/W
BE/W
Y/BK
1 2 3
4 5 6
7
8
9
13
12
11
10
½ C
OIL
FULL
CO
IL
CAUTION: INSTALL JUMPER
KWH GENERAL FORMULA (BALANCED LOAD)
COS. (300 – θ) + COS. (900 – θ)2√3 COS. θ
= 100% REG.
POWER FACTORUNITY – 25% REGISTRATION0.866 – 50% REGISTRATION0.500 – 100% REGISTRATION
BALANCED DEMAND NO CHANGE 100%
ERB
-IY2
IRY2
UNITY
IR2
REVISION 2006
1 2 3 4 65 7 8 9
BOND
GN
R BEWR/W
R/BKY/W BE/W
Y/BK BE/BK
W
R
BE
R/WY/W
BE/W
R/BK
Y/BKBE/BK
R
Y
BE
NEUTRAL
LINE
LOAD
R
Y
BE
N
13-JAW COMBINATION
SOCKET
KYSV65S
KYWSD4 5 6
1 2 3
12
1378
SERVICE VOLTAGE120 / 208 VOLT – 3 Ø - 4 W - WYE
ERROR CONDITION:TERMINAL CONNECTIONS AT 7 & 8 ON THE SOCKET INTERCHANGED. CAUTION: INSTALL JUMPER
UNITY P.F.
ERN
EBN
IB-Y
IR-Y
FOR BALANCED LOAD ZERO REGISTRATION
REVISION 2006
TYPE 2 ½ EL.
KVA DEM.
KYLSKVISSVIS
480 VOLT - 3 PHASE – 3 WIRE
ERROR CONDITION:SELF-CONTAINED 480 VOLT 1Ø 3-WIRE METER INSTALLED
LOAD
BOND
43
5
21
LINE
R BY
R Y B
½ C
OIL
½ C
OIL
THE SINGLE PHASE METER SEES;(100/2 + 100/2) AMP x 480 VOLTS X 0.866 = 41.568 KWs
3 PHASE SERVICE IS SEEING;100 AMPS x 480 VOLTS x 1.732 = 83.1 KWs
REGISTRATION ERROR41.586/83.1 x 100 = 50.0%
CORRECTION FACTOR83.1/41.568 = 1.998
2008
ERB
IRB + IRB2
(480V LOAD)
300
300 -IB2
IR2
UNITY