Model FC Mass Flow Computer Wiring Diagrams - Niagara ...
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Model FC Mass Flow Computer Wiring Diagrams WIRING ®
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Transcript of Model FC Mass Flow Computer Wiring Diagrams - Niagara ...
Model FC Mass Flow ComputerWiring Diagrams
WIR
ING
®
®
Model FC Mass Flow ComputerWiring Diagrams
CONTENTS
INTRODUCTION
I. FORCEMETERTM wITh INTERNal POwER ........................................................................................................... 3
II. FORCEMETERTM wITh ExTERNal POwER .......................................................................................................... 4
III. NIagaRa METERS® 1050 wITh INTERNal POwER – PUlSE OUTPUT .............................................................. 5
IV. NIagaRa METERS® 1050 wITh INTERNal POwER – CURRENT OUTPUT ........................................................ 6
V. NIagaRa METERS® 1050 wITh ExTERNal POwER – PUlSE OUTPUT ............................................................. 7
VI. NIagaRa METERS® 1050 wITh ExTERNal POwER – CURRENT OUTPUT ....................................................... 8
VII. NIagaRa METERS® MagMETER 6600 wITh INTERNal POwER – aCTIVE FREqUENCy/PUlSE.................... 9
VIII. NIagaRa METERS® MagMETER 6600 wITh INTERNal POwER – CURRENT OUTPUT ................................. 10
Ix. NIagaRa METERS® MagMETER 6600 wITh ExTERNal POwER – PaSSIVE FREqUENCy/PUlSE ............... 11
FC Flow Computer Wiring Diagrams
2
®
INTRODUCTIONThis guide illustrates the proper wiring connections required for the Model FC Mass Flow Computer to be
connected with other Niagara Meters® products. These diagrams should be consulted during installation and for
any maintenance. Please consult the associated Installation and Operation Manual (IOM) for additional details
and instructions.
Niagara Meters® Customer Support can be reached at (800) 778-9251 for additional inquires.
FC Flow Computer Wiring Diagrams
3
®
I. ForceMeterTM with Internal Power
Integral Transmitter
Remote Transmitter
Conduit Entryfor CustomerWiring
Conduit Entryfor Customer
Wiring
CustomerWiring
4-20mA Output
Com
mon
I In (+)
Pulse In
24 VDC Output
1 2 3 4
FC Terminals
Pre-wired to Meter Sensing Element
Pre-wired to Transmitter
TransmitterEnclosure
MeterEnclosure
CustomerWiring
Belden 8418or Equivalent
Com
mon
I In (+)
Pulse In
24 VDC Output
1 2 3 4
FC Terminals
CustomerWiring
FC Flow Computer Wiring Diagrams
4
®
II. ForceMeterTM with External Power
Integral Transmitter
Remote Transmitter
Conduit Entryfor CustomerWiring
Conduit Entryfor Customer
Wiring
CustomerWiring
4-20mA Output
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
12-36 VDCPower Supply
Pre-wired to Meter Sensing Element
Pre-wired to Transmitter
TransmitterEnclosure
MeterEnclosure
CustomerWiring
Belden 8418or Equivalent
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
18-36 VDCPower Supply
CustomerWiring
FC Flow Computer Wiring Diagrams
5
®
III. Niagara Meters® 1050 with Internal Power – Pulse Output
Integral Transmitter
Remote Transmitter
SW1OP
+ Voltage In
0–1000 Hz
4–20mA
*
CAL
+VIN
P OUT
I OUT
Gnd
T –
T s
T +GNDTP1TP3
R2
RP1
CUTOFFCALZERO
RP2 RP3
SW2C1
TP5
R CAL
Com
mon
I In (+)
Pulse In
24 DC Output
1 2 3 4
FC Terminals
RTD Optional
75’ of 18 gauge wire BottomBoard
TopBoard
GRNWHTREDBLK
(A)(B)(C)(D)
TT
RTD –+
1234
12
+ E+ S– S– E
+ E+ S– S– ET –T sT +
+ VINPOUTI OUTGNDT –T sT +
Model 1050
+ VDC
* RTD Optional Com
mon
I In (+)
Pulse In
24 DC Output
1 2 3 4
FC Terminals
FC Flow Computer Wiring Diagrams
6
®
IV. Niagara Meters® 1050 with Internal Power – Current Output
Integral Transmitter
Remote Transmitter
SW1OP
+ Voltage In
0–1000 Hz
4–20mA
CAL
+VIN
P OUT
I OUT
Gnd
T –
T s
T +GNDTP1TP3
R2
RP1
CUTOFFCALZERO
RP2 RP3
SW2C1
TP5
R CAL
Com
mon
I In (+)
Pulse In
24 DC Output
1 2 3 4
FC Terminals
* RTD Optional
75’ of 18 gauge wire BottomBoard
TopBoard
GRNWHTREDBLK
(A)(B)(C)(D)
TT
RTD –+
1234
12
+ E+ S– S– E
+ E+ S– S– ET –T sT +
+ VINPOUTI OUTGNDT –T sT +
Model 1050
+ VDC
Com
mon
I In (+)
Pulse In
24 DC Output
1 2 3 4
BC Terminals
* RTD Optional
FC Flow Computer Wiring Diagrams
7
®
V. Niagara Meters® 1050 with External Power – Pulse Output
Integral Transmitter
Remote Transmitter
* RTD Optional
SW1OP
+ Voltage In
0–1000 Hz
4–20mA
CAL
+VIN
P OUT
I OUT
Gnd
T –
T s
T +GNDTP1TP3
R2
RP1
CUTOFFCALZERO
RP2 RP3
SW2C1
TP5
R CAL
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
12-36 VDCPower Supply
75’ of 18 gauge wire BottomBoard
TopBoard
GRNWHTREDBLK
(A)(B)(C)(D)
TT
RTD –+
1234
12
+ E+ S– S– E
+ E+ S– S– ET –T sT +
+ VINPOUTI OUTGNDT –T sT +
Model 1050
+ VDC
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
12-36 VDCPower Supply
* RTD Optional
FC Flow Computer Wiring Diagrams
8
®
VI. Niagara Meters® 1050 with External Power – Current Output
Integral Transmitter
Remote Transmitter
* RTD Optional
SW1OP
+ Voltage In
0–1000 Hz
4–20mA
CAL
+VIN
P OUT
I OUT
Gnd
T –
T s
T +GNDTP1TP3
R2
RP1
CUTOFFCALZERO
RP2 RP3
SW2C1
TP5
R CAL
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
12-36 VDCPower Supply
MARK V
75’ of 18 gauge wire BottomBoard
TopBoard
GRNWHTREDBLK
(A)(B)(C)(D)
TT
RTD –+
1234
12
+ E+ S– S– E
+ E+ S– S– ET –T sT +
+ VINPOUTI OUTGNDT –T sT +
Model 1050
+ VDC
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
12-36 VDCPower Supply
* RTD Optional
FC Flow Computer Wiring Diagrams
9
®
VII. Niagara Meters® 6600 with Internal Power – Active Frequency/Pulse
Integral Transmitter
Remote Transmitter
1 2 3
L N
7 8 9 10 11 12 13 14 15C ICNONCN
4 5 6IC NO F/P F/P O/C O/C
RDN3
2N
DR
1N
DR
SpareFuse
FuseT 1A, 250V
J1 J2
Com
mon
I In (+)
Pulse In
24 DC Output
1 2 3 4
FC Terminals
500 Ω
J1 J2 J1 J2
Active Frequency Pulse
1 2 3
L N
7 8 9 10 11 12 13 14 15C ICNONCN
4 5 6IC NO F/P F/P O/C O/C
RDN3
2N
DR
1N
DR
SpareFuse
FuseT 1A, 250V
J1 J2
Com
mon
I In (+)
Pulse In
24 DC Output
1 2 3 4
FC Terminals
500 Ω
J1 J2 J1 J2
Active Frequency Pulse
FC Flow Computer Wiring Diagrams
10
®
Remote Transmitter
VIII. Niagara Meters® 6600 with Internal Power – Current Output
Integral Transmitter
1 2 3
L N
7 8 9 10 11 12 13 14 15C ICNONCN
4 5 6IC NO F/P F/P O/C O/C
RDN3
2N
DR
1N
DR
SpareFuse
FuseT 1A, 250V
J1 J2
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
1 2 3
L N
7 8 9 10 11 12 13 14 15C ICNONCN
4 5 6IC NO F/P F/P O/C O/C
RDN3
2N
DR
1N
DR
SpareFuse
FuseT 1A, 250V
J1 J2
Com
mon
I In (+)
Pulse In
DC Output
1 2 3 4
FC Terminals
FC Flow Computer Wiring Diagrams
11
®
IX. Niagara Meters® 6600 with Internal Power – Passive Frequency/Pulse
Integral Transmitter
Remote Transmitter
2012 all rights reserved.
all data subject to change without notice.
M901 Rev. B
150 Venture Boulevard
Spartanburg, SC 29306
Tel: 800.778.9251
Fax: 864.574.8063
E-mail: [email protected]
www.niagarameters.com
®
