Leviton 2K480-8W Guide d'installation

Taper
Guide d'installation
Series 1000 and Series 2000
Installation Manual
PK-93856-10-00-0C
WEB VERSION
WEB VERSION
TABLE OF CONTENTS
1 Product Description ...........................................................................5
1.1 General Description ..................................................................5
1.2 Meter Features .........................................................................5
1.3 Meter Certifications ...................................................................5
1.4 Physical Description .................................................................5
2 Technical Specifications ...................................................................7
2.1 Electrical Specifications
Table 1 - Series 1000 Electrical Specifications ..........................7
Table 2 - Series 2000 Electrical Specifications ..........................8
2.2 Input/Output Connections and User Display .............................9
2.3 Display Specifications .............................................................11
2.3.1 General Display Information ...........................................11
2.3.2 Resetting the Peak Demand .......................................... 11
Installation Instructions ...................................................................12
3.1 Explanation of Warning Symbols ............................................12
3.2 Safety Precautions ..................................................................12
3.3 Preparation .............................................................................13
3.4 List of Materials .......................................................................13
3.5 Mounting the Enclosure ..........................................................13
3.5.1 Selecting a Mounting Location .......................................13
3.5.2 Conduit Openings ...........................................................14
3.5.3 Mounting Procedure and Conduit Installation ................14
3.6 Installation of Voltage Lines ....................................................15
3.7 Installation of Current Transformers .......................................16
General Requirements ............................................................16
Installing Solid Core CTs .........................................................17
Installing Split Core CTs ..........................................................17
Figure 7: 1-Phase, 2-Wire Hookup Diagram ...........................18
Figure 8: 1 or 2 Phase, 3-Wire Hookup Diagram ....................19
Figure 9: 3-Phase, 4-Wire WYE Hookup Diagram ..................20
3.8 Testing the Installation ............................................................21
Testing Voltage ........................................................................21
CT Reverse Phase Indicator ...................................................21
Load LEDs ...............................................................................21
LCD Display ............................................................................21
3.9 Securing the Enclosure ...........................................................21
4 Maintenance .....................................................................................22
5 Troubleshooting/FAQ .......................................................................22
6 Contact Information .........................................................................23
7 Warranty ............................................................................................68
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List of Figures
Figure 1: Steel Enclosure Dimensions ......................................................5
Figure 2: Plastic Enclosure Dimenstions ...................................................6
Figure 3: Series 1000/2000 I/O Connections ............................................9
Figure 4: Mounting the Enclosure ............................................................14
Figure 5: Leviton Solid Core CTs .............................................................16
Figure 6: Leviton Split Core CTs ..............................................................17
Figure 7: 1-Phase, 2-Wire Hookup Diagram ...........................................18
Figure 8: 1 or 2-Phase, 3-Wire Hookup Diagram ....................................19
Figure 9: 3-Phase, 4-Wire WYE Hookup Diagram ..................................20
List of Tables
Table 1: Series 1000 Electrical Specficiation .............................................7
Table 2: Series 2000 Electrical Specficiation .............................................8
Table 3: I/O Connections and Status Indicators ......................................10
TABLE OF CONTENTS
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1 PRODUCT DESCRIPTION
1.1 General Description
The Leviton Series 1000 and 2000 meters are self-powered; current transformer
(CT) rated electronic kilowatt-hour (kWh) meters designed for permanent connection
to an electrical service.
• Series 1000 meters are designed for 1-phase, 2-wire and 1 or 2-phase, 3-wire
services, whereas Series 2000 meters are designed for 3-phase, 4-wire services.
• This guide is for use with individual Series 1000 and 2000 units.
• These meters are suitable for WYE configurations only.
1.2 Meter Features
• Revenue-grade accuracy with solid core CTs
• Use with 100mA solid core, or easy-to-install split core CTs
• Built-in LCD that displays kWh data
AMR-compatible isolated pulse outputs
• Reverse phase diagnostic indicator
• 5-year warranty
1.3 Meter Certifications
• UL-Listed in the US and Canada
• Conforms to accuracy requirements set forth in ANSI C12.10
• Series 2000 meters are California CTEP approved with 100A and 200A solid core CTs.
1.4 Physical Description
Single Series 1000 and Series 2000 meters are available in two enclosures:
1. Industrial grade JIC steel enclosures for indoor installations, shown in Figure 1
Figure 1 - Steel Enclosure Dimensions
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1 PRODUCT DESCRIPTION
Figure 2 - Plastic Enclosure Dimensions
2. Plastic NEMA 4X enclosures, shown in Figure 2
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2 TECHNICAL SPECIFICATIONS
2.1 Electrical Specifications
Series 1000 and Series 2000 Meters fall under UL Circuit Category III: a device for
measurements performed in the building installation. The electrical and
environmental specifications for Series 1000 and Series 2000 meters are given in
Table 1 and Table 2 below:
Series 1000 Electrical Specifications
Input Configurations 1 Phase, 2 Wire (120V or 277V) 1 or 2 Phase, 3 Wire (120/208V,
120/240V, or 277/480V)
Supply Voltage Range (Line to
Neutral)
102-138VAC
235-320VAC
102-138VAC
235-320VAC
Maximum Input Power 7VA 7VA
Maximum Rated Current Primary: Max Operating Current
+ 10%
Secondary: 0.12A
Primary: Max Operating Current
+ 10%
Secondary: 0.12A
Line Frequency 50-60Hz 50-60Hz
Power Factor Range 0.5 to 1.0 Leading or Lagging 0.5 to 1.0 Leading or Lagging
Accuracy
1
+/- 0.5% of registration @ 1.0 PF,
1% to 100% of rated current
+/- 0.75% of registration @ 0.5
PF, 1% to 100% of rated current
+/- 0.5% of registration @ 1.0 PF,
1% to 100% of rated current
+/- 0.75% of registration @ 0.5
PF, 1% to 100% of rated current
Meter Operating Temperature -30 to 60° C -30 to 60° C
Display Operating Temperature -20 to 50° C -20 to 50° C
Rated Pollution Degree
2
22
Rate Relative Humidity 80% 80%
Terminal Block Torque Ratings:
Voltage Terminal
CT and I/O Terminal
12 in-lb max
4.4 in-lb max
12 in-lb max
4.4 in-lb max
Table 1 - Series 1000 Electrical Specifications
1
Accuracy based on Leviton solid core current transformers (included), with 100 mA secondary output.
Meter input burden resistance at 2 Ohms
2
Pollution Degree 2: Normally only non-conductive pollution occurs. Occasionally, however, a temporary
conductivity caused by condensation must be expected.
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2 TECHNICAL SPECIFICATIONS
Series 2000 Electrical Specifications
Input Configurations 3Phase, 4 Wire (120/208V or 277/480V)
Supply Voltage Range (Line to Neutral) 102-138VAC
235-320VAC
Maximum Input Power 7VA
Maximum Rated Current Primary: Max Operating Current + 10%
Secondary: 0.12A
Line Frequency 60Hz
Power Factor Range 0.5 to 1.0 Leading or Lagging
Accuracy
1
+/- 0.5% of registration @ 1.0 PF, 1% to 100%
of rated current
+/- 0.75% of registration @ 0.5 PF, 1% to 100%
of rated current
Meter Operating Temperature -30 to 60° C
Display Operating Temperature -20 to 50° C
Rated Pollution Degree
2
2
Rate Relative Humidity 80%
Terminal Block Torque Ratings:
Voltage Terminal
CT and I/O Terminal
12 in-lb max
4.4 in-lb max
Table 2 - Series 2000 Electrical Specifications
1
Accuracy based on Leviton solid core current transformers (included), with 100 mA secondary output.
Meter input burden resistance at 2 Ohms
2
Pollution Degree 2: Normally only non-conductive pollution occurs. Occasionally, however, a temporary
conductivity caused by condensation must be expected.
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2 TECHNICAL SPECIFICATIONS
Figure 4 - Mini Meter Connections and Display
2.2 Input/Output Connections and User Display
The input and output terminals for Series 1000 and Series 2000 meters are shown
below in Figure 3. For hookup diagrams and wiring information, refer to section 3.
Fig
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i
i
ure 4 - Mini
Me
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e
e
e
e
e
ter
Co
Co
Co
Co
o
Co
o
o
o
o
Co
nne
nne
nn
nne
nn
nne
nne
nne
nne
nn
nne
nne
n
n
cti
ons
s
s
s
s
s
s
and Displa
y
y
y
Figure 3: Series 1000/2000 I/O Connections
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2 TECHNICAL SPECIFICATIONS
Voltage Inputs Description
L3 Voltage Input Line 3
L2 Voltage Input Line 2 (3-wire and 4-wire models only)
L1 Voltage Input Line 1
N Neutral Input (Meter powered from L1 & N)
CT Inputs (J1, Left Side)
CT3: X1 Current Transformer input CT3 Colored wire of CT3
(4 wire models only)
CT3: X2 Current Transformer input CT3. White wire of CT3
(4 wire models only)
CT2: X1 Current Transformer input CT2. Colored wire of CT2
(3-wire and 4-wire models only)
CT2: X2 Current Transformer input CT2. White wire of CT2
(3-wire and 4-wire models only)
CT1: X1 Current Transformer input CT1. Black or colored wire
of CT2
CT1: X2 Current Transformer input CT2. White wire of CT1
CT Inputs (J1, Right Side)
10, Isolated Output (10 Wh/P, Kh = 10 Isolated pulse output: 5 watt/hours on, 5 watt/hours
off, referenced to ISOL COM
COM, Isolated Output Isolated common for 10/1000 isolated outputs
1K, Isolated Output (1 kWh/P, Kh = 1000) Isolated pulse output: 500 watt/hours on, 500 watt/
hours off, referenced to ISOL COM
1 kWh LED (D3 – Green) 50% duty cycle (at constant load) LED with a pulse
rate of 1 kWh per on/off cycle (500 watt/hours on,
500 watt/hours off). In the absence of a significant
load, the LED could be on or off.
10 Wh LED (D2 – Green) 50% duty cycle (at constant load) LED with a pulse
rate of 10 Wh per on/off cycle (5 watt/hours on,
5 watt/hours off). In the absence of a significant load,
the LED could be on or off.
Reverse Phase LED (D1 – Red) Illuminates when a problem with meter phasing
exists. In the absence of a significant load, the LED
could be on or off. See section 3.7 for CT installation
instructions.
Table 3 - I/O Connections and Status Indicators
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2 TECHNICAL SPECIFICATIONS
2.3 Display Specifications
2.3.1 General Display Information
Series 1000 and 2000 meters provide active energy measurements, which are
displayed on the LCD in 1 kWh resolution. These values are cumulative and
cannot be reset. When configured with the energy demand option, the meters provide
instantaneous readings on the integrated LCD. These values are displayed one at a
time, for six seconds each, as follows:
• Total Active Energy, in kWh (1 kWh resolution, cumulative, non-resettable)
• Instantaneous Demand, in Kilowatts (last 5 minute average, 1/100 kW resolution)
• Peak Demand: Kilowatts (15 minute rolling demand interval, 1/100 kW resolution)
A dot in the LCD aligns with an arrow on the display label to differentiate between
instantaneous and peak demand. After displaying peak demand and before displaying
total energy, the meter tests the LCD by activating all segments simultaneously for
one second.
2.3.2 Resetting the Peak Demand (optional additional feature)
An additional optional feature is the Peak Demand reset. Meters configured with the
Peak Demand Reset option have an integrated key switch which is used to reset the
peak demand. A demand reset command will only be recognized during the period
when the peak demand is displayed on the LCD. In order to reset the demand, a
pulse must be generated by turning the key switch from locked position (arrow up)
to the right and then back to the original position. This back and forth transition
triggers a demand reset. The maximum transition period is one second. Multiple key
switch transitions during the peak demand display interval may be required to reset
peak demand.
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3 INSTALLATION INSTRUCTIONS
The following section contains installation and wiring instructions for the Leviton Series 1000
and Series 2000 meters in either the indoor or outdoor enclosure. If technical assistance is
required at any point during the installation, contact information can be found at the end of
this manual. Leviton is not responsible for damage to the meter caused by incorrect wiring.
3.1. Explanation of Warning Symbols
Indicates the need to consult the operation manual due to the presence of a
potential risk.
Indicates the presence of electric shock hazards. Prior to proceeding,
de-energize the circuit and consult the operation manual.
Indicates that the equipment is protected throughout by double insulation.
3.2. Safety Precautions
• Installation of electric meters requires working with possibly hazardous
voltages. These instructions are meant to be a supplement to aid trained,
qualified professionals. Failure to follow these warnings could result in
death or injury.
• TO AVOID FIRE, SHOCK, OR DEATH, turn off all power supplying the
equipment before performing any wiring operations. Use a properly rated
voltage sensing device to confirm power is off.
• Bonding is not automatic for metal conduit connections; separate bonding
is to be provided.
• Installations should be done in accordance with local codes and current
National Electric Code requirements.
• Equipment used in a manner not specified by this document impairs the
protection provided by the equipment.
WARNING
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3 INSTALLATION INSTRUCTIONS
3.3 Preparation
Verify the model number and electrical specifications of the device being installed
to confirm they are appropriate for the intended electrical service (see Section 2).
Consult local codes for any possible permits or inspections required before
beginning electrical work.
Ensure the conduit for the installation is appropriate for the intended application.
UL Type 4x conduit and conduit fittings are required for outdoor applications.
Make sure all tools to be used during installation have proper insulation ratings.
Look at the meter and inside the electrical panel for possible exposed wire, broken
wire, damaged components or loose connections.
3.4 List of Materials
Series 1000 or Series 2000 meter, enclosure, and associated mounting materials
Line 1, Line 2, Line 3 and Neutral hookup wires, as needed for the electrical
service
Wires must be 18 AWG or larger and insulated for 600 VAC min. Meter terminals
will accept wiring up to 14 AWG.
Current Transformers (CTs): This product is designed for use with Leviton 100mA
series of solid and split core CTs.
Conduit and fittings, as appropriate. UL Type 4X conduit and fittings must be used
for outdoor applications to maintain the rating of the installation.
3.5 Mounting the Enclosure
3.5.1 Selecting a Mounting Location
Series 1000 and 2000 meters require a switch or circuit breaker as part of the
building installation.
The switch or circuit breaker must be marked as the disconnecting device for
the meter.
It is recommended that the enclosure be mounted near the disconnecting device
in an area with adequate ventilation.
The enclosure should not be positioned in a manner that makes it difficult to
operate the disconnecting device.
Ensure that the CT and voltage lead lengths (and conduit lengths) are capable
of reaching the enclosure from the load center.
If a suitable mounting location near the load center cannot be found, additional
in-line fuses or circuit breaker may be required in accordance with
NEC regulations.
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3 INSTALLATION INSTRUCTIONS
Figure 4 - Mounting the Enclosure
3.5.2 Conduit Openings
Steel Enclosure
The Series 1000 and 2000 steel enclosure comes with a 1 1/16” knockout (3/4”
conduit) on the bottom of the enclosure, and a 7/8” knockout (1/2” conduit) on
top of the enclosure. To remove a knockout, use a flathead screwdriver (or other
rigid device) to puncture the indentations first, and then pry off and discard the
knockout.
Outdoor Enclosure
The bottom panel and lower half of the side panels work best for conduit opening
locations in outdoor single meter enclosures. Select the location that makes wire
installation easiest for the given environment. If the side panels are used, holes
should be centered approximately half an inch from the bottom of the enclosure.
Hole sizes must be appropriate to fittings, and large enough to fit all voltage and
CT wiring (4-10 18 AWG min. wires insulated for 600 V min.). Care should be
exercised to keep drill bit away from components inside the enclosure. UL Type
4X conduit and fittings must be used in order to maintain the outdoor rating
of the enclosure.
3.5.3 Mounting Procedure and Conduit Installation
1. For outdoor enclosures, attach the mounting brackets to the back of the
enclosure with the four provided screws, as shown in Figure 4.
2. Fasten the enclosure to the selected surface using the provided mounting holes
(steel enclosure) or mounting brackets (plastic enclosure).
3. Verify that the enclosure is not loose and that all connections are secure.
4. Attach the conduit between enclosure and load center, routing wires as
necessary for later use.
5. Make sure the conduit fittings are aligned properly and tightened securely to
prevent moisture from entering the enclosure (outdoor applications).
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3 INSTALLATION INSTRUCTIONS
3.6 Installation of Voltage Lines
1. Connect 18 AWG min., 600 V min. insulated wiring for Line voltages and Neutral
to the appropriate locations in the breaker panel, in accordance with all national
and local electrical codes.
2. Route wires through the conduit if not already done.
3. Trim the wire to the appropriate length to avoid coils of excess wiring.
4. Strip wiring to approximately .300 inches if needed and connect to the appropriate
terminals. Wires should be tightened so that they are held snuggly in place, but do
not over-tighten, as this may compress and weaken the conductor.
TO AVOID FIRE, SHOCK OR DEATH, make sure service is disconnected
before any connections are made.
Voltage connections must be made in accordance with NEC Section 240
and all other local electrical code requirements.
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3 INSTALLATION INSTRUCTIONS
Figure 5: Leviton Solid Core CTs
3.7 Installation of Current Transformers
General Requirements:
Splices on the CT leads must be within the meter enclosure, not inside the conduit.
Leviton CTs come with standard 48-inch leads. Wire insulation should be stripped
so that the bare conductor length that connects to the meter terminal block does
not exceed 0.300 inches.
CTs should be securely fastened such that they will not slide down to live terminals.
Wires should be tightened so that they are held snuggly in place, but do not
over-tighten, as this may compress and weaken the conductor.
Current and voltage inputs must be installed ‘in phase’ for accurate readings (e.g.
CT1 on Line 1, CT2 on Line 2). Orientation is critical. Ensure that all CTs are
properly oriented with the line and load, as marked.
TO AVOID FIRE, SHOCK OR DEATH, always open or disconnect the circuit
from the power distribution system of a building before installing or servicing
current transformers.
In accordance with NEC, CTs may not be installed in any panel board where
they exceed 75% of the wiring space of any cross-sectional area.
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3 INSTALLATION INSTRUCTIONS
Installing Solid Core CTs
1. Route CT wires through the conduit if not already done.
2. Trim the wire to the appropriate length to avoid coils of excess wiring.
3. Strip wiring to approximately .300 inches and connect to the appropriate
terminals as described above.
4. With power turned off, disconnect each monitored conductor and slide on a CT,
ensuring the CT is correctly oriented as noted above.
5. Reconnect the conductors.
Installing Split Core CTs
1. Route CT secondary wires through conduit if not already done.
2. Trim the wire to the appropriate length to avoid coils of excess wiring.
3. Strip wiring to approximately .300 inches.
4. Connect the CT leads to the appropriate meter as described above.
5. With power to the conductors turned off, place one CT around each conductor,
ensuring that the white dot is facing the line side.
6. Current and voltage inputs must be installed ‘in phase’ for accurate readings
(e.g. CT1 on Line 1, CT2 on Line 2) Orientation is critical. Ensure that all CTs
are properly oriented with the white label facing the line side of the circuit.
Failure to install CTs in the correct orientation and on the correct
phase will lead to inaccurate meter readings.
Figure 6: Leviton Split Core CTs
Failure to install CTs in the correct orientation and on the correct phase
will lead to inaccurate meter readings.
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3 INSTALLATION INSTRUCTIONS
Figure 7: 1-Phase, 2-Wire Hookup Diagram
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3 INSTALLATION INSTRUCTIONS
Figure 8: 1 or 2 Phase, 3-Wire Hookup Diagram
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Figure 9: 3-Phase, 4-Wire WYE Hookup Diagram
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Leviton 2K480-8W Guide d'installation

Taper
Guide d'installation