WattNode T-WNB-3Y-208 Instruction manual
WattNode®Pulse Output kWh Transducer Connection Instructions
For use with HOBO®H21, H22, U30, UX90, UX120, and RX3000 series data loggers, and HOBO data nodes
© 2005–2015 Onset Computer Corporation. All rights reserved. Onset, HOBO, HOBOware, and HOBOlink are registered trademarks of
Onset Computer Corporation. Other products and brand names may be trademarks or registered trademarks of their respective owners.
10332-M MAN-WATTNODE
Applies to these WattNode Pulse Output kWh Transducers:
Onset Part No. Configuration / VAC Output Maximum Pulse Output WattNode Part No.
T-WNB-3Y-208 Single-phase 120 or
Wye 208-240
Pulses representing kWh 4 Hz WNB-3Y-208-P
T-WNB-3Y-208-P Single-phase 120 or
Wye 208-240
Pulses representing kWh 4 Hz WNB-3Y-208-P
option P3
T-WNB-3D-240 Delta 208-240 Pulses representing kWh 4 Hz WNB-3D-240-P
T-WNB-3D-480 Delta (or Wye) 480 Pulses representing kWh 4 Hz WNB-3D-480-P
DANGER!—HIGH VOLTAGE HAZARD
Installing transducers in an energized electrical enclosure or on any energized conductor can result in severe injury or death.
These transducers are for installation by qualified personnel only. To avoid electrical shock, do not perform any installation or
servicing of these transducers unless you are qualified to do so. Disconnect and lock-out all power sources during installation
and servicing. Please read transducer user manuals for instructions and use.
This document provides instructions on connecting the WattNode Pulse Output
kWh Transducers listed above to HOBO H21, H22, U30, UX90, UX120, and
RX3000 series data loggers and to ZW series data nodes. Note: For information
on connecting the kWh transducer to the power source and other transducer
details, refer to the WattNode documentation provided by Continental Control
Systems.
Required
•Selected WattNode Pulse Output kWh Transducer
•Appropriately rated Current Transducer(s)
•Smart Sensor-compatible HOBO data logger (H21, H22, U30, or RX3000 series) with:
oPulse Input Adapter(s), Onset Part No: S-UCC-M00x*
oHOBOware®software (version 2.2 or higher for H21 or H22, 2.4 or higher for U30), or HOBOlink for
RX3000
•22 AWG twisted pair wire (customer supplied) for UX120 series with HOBOware software, version 3.2.0 or higher
•Pulse input-compatible HOBO data node (ZW series) and HOBO data logger (UX90 series) with:
oOnset Part No: CABLE-2.5-STEREO*
oHOBOware Pro software, version 3.0 or higher for ZW series and HOBOware version 3.3 or higher for UX90
series
*For monitoring power demand as well as generated power, a second S-UCC-M00x pulse input adapter (for H21, H22, U30
or RX3000 series) or CABLE-2.5-STEREO (for pulse input-compatible ZW series) is required (at output terminal P2).
WattNode Pulse Output kWh Transducer Features
•The WattNode transducer includes three LEDs—one per phase—for diagnostics and indication of power direction and
correctly installed CTs.
•The WattNode transducer provides bidirectional kWh energy pulses. Positive energy pulses (energy consumed from the
utility) are output on the P1 and COM terminals and negative energy pulses (energy produced and supplied to the
utility) are output on the P2 and COM terminals. It can be used for conventional power and energy measurement as
well as for net metering and PV applications. For monitoring power demand as well as generated power, a second S-
WattNode Pulse Output kWh Transducer
(Onset Part No. T-WNB-3Y-208-P shown)
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WattNode Pulse Output kWh Transducer Connection Instructions
Page 2 of 7
UCC-M00x pulse input adapter (for H21, H22, U30, or RX3000 series) or CABLE-2.5-STEREO (for pulse input-
compatible ZW series) is required (at output terminal P2).
•The T-WNB-3Y-208-P can measure two or three separate branch circuits simultaneously. Note that an S-UCC-M00x
pulse input adapter (for H21, H22, U30, or RX3000 series) or a CABLE-2.5-STEREO (for pulse input-compatible ZW
series) is required for each circuit monitored.
Note: Refer to the WattNode WNB Series Installation and Operation Manual for details of these features.
Configuring the System
To configure the system, refer to the applicable connection diagram that corresponds to your electrical power configuration.
Also refer to the WattNode manual for additional configurations.
White
Black
S-UCC-M00x
Pulse Input Adapter
Output
P3
P2
P1
COM
White
Black
Connect to
Smart Sensor port
Connect to
pulse port
HOBO H21, H22, or U30 Series Data Logger
(H22-001 shown)
CABLE-2.5-STEREO
HOBO ZW Series Wireless Data Node
Output
P3
P2
P1
COM
HOBO UX120 Series Data Logger
Connect ground ( ) terminal from
UX120 terminal block to COM
Connect (+) terminal from
UX120 terminal block to P1
Output
P3
P2
P1
COM
Customer-supplied
22 AWG twisted pair
HOBO UX90-001/M Data Logger
Output
P3
P2
P1
COM
White
Black
Red wire
not used
CABLE-2.5-STEREO
Red wire
not used
Figure 1: Connecting HOBO Data Logger or Data Node to WattNode
Electrical Service Types
Below is a list of service types, with connections and recommended WattNode models. Note: the WattNode ground
connection improves measurement accuracy, but is not required for safety.
Model Type
Phase to
Neutral
Phase to
Phase
Electrical
Service Types*
WNB-3Y-208-P Wye 120 VAC 208–240
VAC
1 Phase 2 Wire 120V with neutral
1 Phase 3 Wire 120V/240V with neutral
3 Phase 4 Wire Wye 120V/208V with neutral
WNB-3D-240-P Delta
or Wye
120–140
VAC
208–240
VAC
1 Phase 2 Wire 208V (No neutral)
1 Phase 2 Wire 240V (No neutral)
1 Phase 3 Wire 120V/240V with neutral
3 Phase 3 Wire Delta 208V (No neutral)
3 Phase 4 Wire Wye 120V/208V with neutral
3 Phase 4 Wire Delta 120/208/240V with neutral
WNB-3D-480-P Delta
or Wye 277 VAC 480 VAC
3 Phase 3 Wire Delta 480V (No neutral)
3 Phase 4 Wire Wye 277V/480V with neutral
3 Phase 4 Wire Delta 240/415/480V with neutral
*The wire count does NOT include ground. It only includes neutral (if present) and phase wires.
HOBO H21, H22, U30, or RX3000 Series
Data Logger (H22-001 shown)
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WattNode Pulse Output kWh Transducer Connection Instructions
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Single-Phase Two-Wire with Neutral
This configuration is most often seen in homes and offices. The two wires are neutral and line. For these models, the
WattNode is powered from the Nand ØA terminals.
Figure 2: Single-Phase Two-Wire Connection
Recommended WattNode Model
The following table shows the WattNode model that should be used, depending on the line to neutral voltage.
Line to Neutral Voltage WattNode Model
120 VAC WNB-3Y-208-P
Single-Phase Three-Wire
This configuration is seen in North American residential and commercial service with 240 VAC for large appliances. The
three wires are neutral and two line voltage wires with AC waveforms 180° out of phase; this results in 120 VAC between
either line wire (phase) and neutral, and 240 VAC (or sometimes 208 VAC) between the two line wires (phases).
Figure 3: Single-Phase Three-Wire Connection
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WattNode Pulse Output kWh Transducer Connection Instructions
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Recommended WattNode Models
The following table shows the WattNode models that can be used. If neutral may or may not be present, you should use the
WNB-3D-240-P (see Single-Phase Two-Wire without Neutral below). If neutral is present, it must be connected for accurate
measurements. If phase B may not be present, you should use the WNB-3Y-208-P (see Single-Phase Two-Wire with Neutral
above).
WattNode Power Source WattNode Model
Nand ØA (Neutral and Phase A) WNB-3Y-208-P
ØA and ØB (Phase A and Phase B) WNB-3D-240-P
Single-Phase Two-Wire without Neutral
This is seen in residential and commercial service with 208 to 240 VAC for large appliances. The two wires are two line
voltage wires with AC waveforms 120° or 180° out of phase. Neutral is not used. This results in 240 VAC (or 208 VAC)
between the two line wires (phases). For this configuration, the WattNode is powered from the ØA and ØB (phase A and
phase B) terminals.
For best accuracy, we recommend connecting the WattNode N(neutral) terminal to earth ground. This will not cause ground
current to flow because the neutral terminal is not used to power the WattNode.
Figure 4: Single-Phase Two-Wire without Neutral Connection
Recommended WattNode Model
This configuration is normally measured with one WattNode model.
Phase-to-Phase Voltage WattNode Model
208 - 240 VAC WNB-3D-240-P
However, if neutral is available, then you may also use the WNB-3Y-208-P model. If you use the WNB-3Y-208-P, you will
need to hook up the WattNode as shown in section Single-Phase Three Wire and connect neutral. You will need two CTs.
Grounded Leg
In rare cases (non-residential), one of the lines (phase A or phase B) may be grounded. You can check for this by using a
multimeter (DMM) to measure the voltage between each phase and ground. If you see a reading between 0 and 5 VAC, that
leg (phase) is probably grounded.
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WattNode Pulse Output kWh Transducer Connection Instructions
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The WattNode will correctly measure circuits with a grounded leg, but the measured voltage and power for the phase will be
zero and the status LED will not light for whichever phase is grounded, because the voltage is near zero. If you have a
grounded leg configuration, you can save money by removing the CT for the grounded phase, since all the power will be
measured on the non-grounded phase. We recommend putting the grounded leg (phase) on the ØB input and attaching a note
to the WattNode indicating this configuration for future reference.
Three-Phase Four-Wire Wye
This is typically seen in commercial and industrial environments. The wires are neutral and three power lines with AC
waveforms shifted 120° between the successive phases. With this configuration, the line voltage wires may be connected to
the ØA, ØB,and ØC terminals in any order, so long as the CTs are connected to matching phases. It is important that you
connect N(neutral). For these models, the WattNode is powered from the Nand ØA terminals.
Figure 5: Three-Phase Four-Wire Wye Connection
Recommended WattNode Models
The following table shows the WattNode model that should be used, depending on the line to neutral voltage and line to line
voltage (also called phase to phase voltage).
Line to Neutral Voltage Line to Line Voltage WattNode Model
120 VAC 208 VAC WNB-3Y-208-P
Note: you may also use the following delta WattNode models to measure three-phase four-wire wye circuits. The only
difference is that delta WattNode models are powered from ØA and ØB, rather than Nand ØA. If neutral is present, it must
be connected for accurate measurements.
Line to Neutral Voltage Line to Line Voltage WattNode Model
120 - 140 VAC 208 - 240 VAC WNB-3D-240-P
277 VAC 480 VAC WNB-3D-480-P
Three-Phase Three-Wire Delta (No Neutral)
This is typically seen in manufacturing and industrial environments. There is no neutral wire, just three power lines with AC
waveforms shifted 120° between the successive phases. With this configuration, the line voltage wires may be connected to
the ØA, ØB,and ØC terminals in any order, so long as the CTs are connected to matching phases. For these models, the
WattNode is powered from the ØA and ØB (phase A and phase B) terminals. Note: all delta WattNode models provide a
neutral connection N, which allows delta WattNode models to measure both wye and delta configurations.
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WattNode Pulse Output kWh Transducer Connection Instructions
Page 6 of 7
For best accuracy, we recommend connecting the N(neutral) terminal to earth ground. This is not necessary on balanced
three-phase circuits, where the ground-to-phase A, ground-to-phase B, and ground-to-phase C voltages are all roughly the
same. This will not cause ground current to flow because the neutral terminal is not used to power the WattNode.
Figure 6: Three-Phase Three-Wire Delta (No Neutral) Connection
Recommended WattNode Models
The following table shows the WattNode model that should be used, depending on the line to neutral voltage and line to line
voltage (also called phase to phase voltage).
Line to Line Voltage WattNode Model
208 - 240 VAC WNB-3D-240-P
480 VAC WNB-3D-480-P
Grounded Leg
In rare cases, one of the phases may be grounded. You can check for this by using a multimeter (DMM) to measure the
voltage between each phase and ground. If you see a reading between 0 and 5 VAC, that leg is probably grounded.
The WattNode will correctly measure circuits with a grounded leg, but the measured voltage and power for the phase will be
zero and the status LED will not light for whichever phase is grounded, because the voltage is near zero. Also, one or both of
the active (non-grounded) phases may show yellow or red/yellow LED flashing because the grounded leg configuration
results in unusual power factors.
For optimum accuracy with a grounded leg, you should also connect the N(neutral) terminal on the WattNode to the ground
terminal; this will not cause any ground current to flow because the neutral terminal is not used to power the WattNode. If
you have a grounded leg configuration, you can save money by removing the CT for the grounded phase, since all the power
will be measured on the non-grounded phases. We recommend putting the grounded leg on the ØC (Phase C) input and
attaching a note to the WattNode indicating this configuration for future reference.
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WattNode Pulse Output kWh Transducer Connection Instructions
Page 7 of 7
Separate Branch Circuits Connection (T-WNB-3Y-208-P** only)
White (P1, P2, P3)
S-UCC-M00x
Pulse Input Adapters
Output
P3
P2
P1
COM
A CT
B CT
C CT
Status
Status
Status
N
A
B
C
Black (COM)
LOAD
Branch Circuit 1
Neutral
LINE
Source Faces
White
Black
White
Black
White
Black
Current Transformers
Branch Circuit 2
Branch Circuit 3
Output
P3
P2
P1
COM
CABLE-2.5-STEREO
Red wires
not used
White (P1, P2)
Black (COM)
T-WNB-3Y-208-P**
Pulse Output kWh Transducer
Connect to
Smart Sensor ports
R
WNB-3Y-208-P
Connect ground ( ) terminal from
each UX120 terminal block to COM
Connect (+) terminals from UX120
terminal blocks to P1, P2, and P3
Output
P3
P2
P1
COM
Connect to
pulse port
Customer-supplied
22 AWG twisted pairs
HOBO H21, H22, or U30 Series Data Logger
(H22-001 shown)
HOBO UX120 Series Data Logger
HOBO ZW Series Wireless Data Node
Output
P3
P2
P1
COM
CABLE-2.5-STEREO
Red wires
not used
White (P1, P2)
Black (COM)
HOBO UX90-001/M Data Loggers
Figure 7: Separate Branch Circuits Connection
** The T-WNB-3Y-208-P can measure two or three separate branch circuits simultaneously. Note that a S-UCC-M00x pulse
input adapter (if used with H21, H22, U30, or RX3000 data loggers) or a CABLE-2.5-STEREO (if used with ZW data
node or UX90 logger pulse ports) is required for each circuit monitored. A three-branch circuit arrangement is shown for
H21, H22, U30, RX3000, and UX120 data loggers.
HOBO H21, H22, U30, or RX3000 Series Data
Logger (H22-001 shown)
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This manual suits for next models
3
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