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HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH? Apply appropriate personal protective equipment (PPE) and follow safe electrical work practices. In the USA, see NFPA 70E.? Only qualified electrical workers should install this equipment. Such work should be performed only after reading this entire set of instructions.?
provided by the equipment may be impaired.? NEVER work alone.? Before performing visual inspections, tests, or maintenance on this equipment, disconnect all sources of electric power. Assume that all circuits are live until they have been completely de- energized, tested, and tagged. Pay particular attention to the design of the power system. Consider all sources of power, including the possibility of backfeeding. ? Turn off all power supplying the power meter and the equipment in which it is installed before working on it.? Always use a properly rated voltage sensing device to confirm that all power is off.? Before closing all covers and doors, carefully inspect the work area for tools and objects that may have been left inside the equipment. ? Use caution while removing or installing panels so that they do not extend into the energized bus; avoid handling the panels, which could cause personal injury.? The successful operation of this equipment depends upon proper handling, installation, and operation. Neglecting fundamental installation requirements may lead to personal injury as well as damage to electrical equipment or other property.? NEVER bypass external fusing.? NEVER short the secondary of a PT.? NEVER open circuit a CT; use the shorting block to short circuit the leads of the CT before removing the connection from the power meter.? Before performing Dielectric (Hi-Pot) or Megger testing on any equipment in which the power meter is installed, disconnect all input and output wires to the power meter. High voltage testing may damage electronic components contained in the power meter.?The power meter should be installed in a suitable electrical enclosure.
Failure to follow these instructions will result in death or serious injury
If the equipment is not used in the manner specified by the manufacturer, the protection
Quick Start Guide EnglishCTD7306 01/2011
Safety Precautions
Models and Parameters
Box Contents
WiringsInstallationQuick Setup, While Powering ON
Introduction ELF3200 Series Power MeterRead and follow all the safety precautions and instructions before installing and working with this equipment.
The ELF3200 series power meter ships in three different configurations as given below.1. ELF3259: V, A, F meter.2. ELF3234: Power meter.3. ELF3234-3: Power meter.
Wiring Diagram Symbols
Supported System TypesConnecting Cable Requirements
Fuse
StAr 7Star/Wye
dLtA 8Delta
StAr 92-phase
StAr 10Single-phase
Current transformer (CT)
S2
S1
Additional Resources
Go to http://www.schneider-electric.co.in > in the search window enter ELF3200 > On the ELF3200 screen, click Downloads tab, then click on tech publications tab > click on the document name to download or read the document file.
Table 5: Wiring diagram symbols
Table 4: Supported system types
Symbol
System type
Description
Meter configuration Figure number
Table 1: Models and parameters with ELF3200 series power meter
Parameter ELF3259 ELF3234 ELF3234-3
RMS V12 V23 V31 VLLV1 V2 V3 VLN
A1 A2 A3 A
L%1 L%2 L%3
% Load unbalance
Frequency
RPM
W1 W2 W3 W
VA1 VA2 VA3 VA
VAR1 VAR2 VAR3 VAR
PF1 PF2 PF3 PF
INTG Wh
VAh
VARh
-VARh
OLD Wh
VAh
VARh
-VARh
Power Meter Physical DescriptionFront Panel
Rear Panel
Figure 1: Front panel
Figure 2: Rear panel
80 to 270v ac
Cl 1.0
Conzerv
80 to 270 Vac 50/60 Hz <3 VA
Acc Cl: X.X
80 to 500 VLL
50mA to 6AInput current terminalsA1, A2, A3 Aux supply
(control power) terminals80 to 270 VAC
Input voltage terminals V1, V2, V3, VN
? One (1) ELF3200 series power meter
? Two (2) retainer clips
? One (1) quick start guide (QSG)
? One (1) test and calibration certificate for the power meter
Tools and Fasteners
Insulation rating Current rating
Voltage circuit > 500 VAC > 0.1 A
> 7.5 Aor 16 AWG minimum
> 500 VACCurrent circuit
Table 2: Connecting cable requirements
Table 3: Tools and fasteners
Torque driver preferred; may use hand screwdriver.Philips tip preferred, but you can also use flat.
3.5 mm < 5 mm. Diameter ³ 5 mm will get stuck in the cover.
Driver Tip
Screw head Diameter
Shaft diameter
Torque
Screw Travel
Do not use Pozidriv tip
Tightening Torque: 0.25 to 1 N.m.
6 mm less wire thickness
Loosening Torque: 1.2 N.m.
Torque > 1 N.m may strip the screw or break the cover
Schneider Electric recommends the use of insulated sleeved U lugs 2
(2.5 mm /14 AWG) for wiring terminals.
Dimensions and MountingFigure 4: Power meter dimensions
Figure 6: Power meter mounting steps
Figure 5: Power meter mounting angle
Power meter mounting
1 2 3
1. Remove the retainer clips from the power meter.2. Gently slide the power meter through the cut-out.3. Put the retainer clips back in the power meter.
90° 90°
40
48
1.9
1.6
96
48
1.9
3.78
90
96
3.54
3.78
90.5
43.5
17.1
.536
Wiring Diagrams
Figure 7: 3-phase 4-wire star/wye connection
It is much easier to set up the power meter before you mount the power meter into the panel.This section explains, how to set up the power meter before mounting the power meter in the panel.
1. Connect the auxiliary supply (control power) 80 to 270 VAC to terminals 11 and 12. Press and hold for two seconds, while powering up the power meter. The display enters PROG menu setup and displays SET. Refer to “Edit set parameters” for more information. Program the following readings for accurate readings: A.PRI, A.SEC: Set these values to match your CT primary and secondary values. For example, if your CT ratio is 200:5, set A.PRI =200.0 and A.SEC = 5.000. V.PRI, V.SEC: Set these values to your input voltage VLL of circuit, if your input voltage is < 500 VACLL. For example, if the input voltage is 300 VACLL, set V.PRI = 300.0 and V.SEC = 300.0. Use potential transformer (PT/VT), if the input voltage > 500 VACLL. Set the V.pri and V.sec values to match the primary and secondary of the PT(VT) respectively. For example, if PT(VT) ratio is 11 kV: 110, set V.pri = 11.00 k and V.sec = 110.0. Select one of the following system configuration according to your wiring configuration. SYS = STAR for 4-phase 3-wire system SYS = dLtA for 3-phase 3-wire system.2. Connect the current transformers (CTs).
3. Connect the voltage inputs. Use PT(VT) if input voltage exceeds 500 VLL
Figure 3: Quick setup
CT1 CT2 CT3
1, 2 3, 4 5, 6
PT1 PT2 PT3 Neutral
7 8 9 10
NOTE: - Standard; - Selectable through setup.
NOTE: Installation should include a disconnecting device, like a switch or circuit breaker, with clear ON/OFF markings, to turn-off the auxiliary supply (control power). The disconnecting device should be within the reach of the equipment and the operator.
N L3 L2 L1
LINE
LOAD
White wire
Black wire
White wire
Black wire
White wire
Black wire
0.25 A
80 to 270v ac
Cl 1.0
Conzerv
80 to 270 50/60 Hz <3 VA
Acc Cl: X.X
80 to 500 VLL
50mA to 6A
Use CT1
Use CT1
Use CT2
Use CT2
Use CT3
Use CT3
Use PT1
Use PT2
Use PT3
Auxiliary supply (control power) 80 to 270 VAC
1
2
3
Keys
Kilo, mega, and negative indicators
Bright LED display
ELF3234
^
80 to 270v ac
Cl 1.0
Conzerv
80 to 270 50/60 Hz <3 VA
Acc Cl: X.X
80 to 500 VLL
50mA to 6A
Figure 8: 3-phase 3-wire delta connection
Figure 9: 2-phase 3-wire 110 -110 V connection (US)
Keypad SetupKeys Operation
PROG Menu - Setup
The following example explains, how the different keys in the power meter operates. The example explains, how to navigate from the RMS page to VLN page and back to RMS page, in ELF3259 meter.
1. Press from RMS page. The display shows VLL. 2. Press . The display shows VLN. 3. Press to go back to RMS page.
NOTE: Use to go forward to sub-parameter pages and to go back to main parameter pages. Use to scrollthrough the display pages in same level.
NOTE: The following symbols are used to explain the different operations of the keys. for right key operation. for left key operation. for down key operation.
The PROG menu setup gives the complete list of user-programmable parameters.? You must set up the power meter to match the application settings before use. Otherwise, readings will be wrong.? All the setup parameters can be re-programmed, using SET. However, the following settings critically determine the scaling of the measured readings: SYS (star or delta), Vpri, Vsec, Apri, Asec.? The scaling may be used to minimize the errors in reading due to Instrument Transformer errors. However, wrong settings will introduce errors in readings on other running systems.
You can enter PROG menu setup in ? View mode: To view the set parameters.
? Edit mode: To view or edit the set parameters.
HAZARD OF UNINTENDED OPERATIONOnly qualified personnel are authorized to set up the power meter.
Failure to follow these instructions can result in injury or equipment damage.
RMS VLL
VLN
Energy Integrator, OLD Data Register, Overflow
Energy Integrator INTG
Labeling of INTG Parameters
View INTG Parameters
? Your ELF3200 series power meter is equipped with an energy integrator function which provides several parameters for energy management: VAh, Wh, VARh (Ind), -VARh (Cap). ? The integrator parameters are always accumulated irrespective of the parameter selected in the setup. For example, if the parameter W is selected in the setup (PAR), all the energy parameters VAh, VARh, will be accumulated, along with the Wh in the integrator.? All the values stored in INTG are direct readings and have high resolution.
? The ELF3200 series power meter displays integrator values up to four digits both before and after the decimal point. ? The power meter has the following labeling for integrator parameters. If W is selected in the setup: ? W.H = First four digits of the energy value.
? W.h = Last/next four digits of the energy value.
? For example, if W.H = 01.00 and W.h = 0987, then the energy value is 1.000987.
1. Press from RMS page. The display shows INTG. 2. Press . The display shows W.H for one second and then the energy value’s first four digits 01.00.3. Press . The display shows W.h for one second and then the energy value’s last/next four digits 0987.
This section is applicable only for ELF3234 and ELF3234-3 power meters.
Enter PROG Menu Setup in View mode
Enter PROG Menu Setup in Edit mode
1. Press from RMS page continuously until the display shows PROG. 2. Press . The display flashes CODE and then shows blinking y. Code entry is required to enter PROG menu setup in Edit mode.3. Press . The display shows 0000 with blinking 0 (last digit). 4. Press for three times. The display shows 2000 with blinking 2. The factory set CODE is 1000.5. Press . The display shows 1000 with blinking 1. 6. Press . The display flashes PASS and then RUN. 7. Press continuously until the display shows SET. 6. Press . The display shows the setup parameter SYS. This indicates that you have successfully entered the PROG menu setup in edit mode and you can edit the set parameters.
1. Press from RMS page continuously until the display shows PROG. 2. Press . The display flashes CODE and then shows blinking y. Code entry is not required to enter PROG menu setup in View mode.3. Press . The display shows blinking n. 4. Press . The display flashes FAIL and then RUN. 5. Press continuously until the display shows SET. 6. Press . The display shows the setup parameter SYS. This indicates that you have successfully entered the PROG menu setup in view mode.
means blinking.
y means blinking y.
Press continuously until
Press continuously until
Press continuously until
Setup Parameters in View and Edit modes
NOTE:The parameters VA.FN, PAR are available only for ELF3234 and ELF3234-3 power meters.The parameters F.S%, POLE are available only for ELF3259 meter.
1
1
SYS = System configuration; Select from STAR, DELTA; Default value is STAR.
V.PRI = Voltage primary winding (PT); Input range 100 V to 999 kV; Default value is 415.0.
V.SEC = Voltage secondary winding (PT); Input range 80 to 500 V; Default value is 415.0.
A.PRI = Current primary winding (CT); 1 A to 99 kA; Default valueis 100.0.
A.SEC = Current secondary winding (CT); 1 A to 7.5 A; Default value is 5.000.
LABL = Phase labeling; Select from 123, RYB, RST, PQR, ABC;Default value 123.
VA.FN = VA function selection; Set VA function to 3D, ARTH; Default is 3D.
F.S% = Full scale percentage; Set between 1 to 100; Default value is 100.0.
POLE = Number of poles for RPM; Choose from 2, 4, 6, 8, 10, 12, 14, 16; Default value is 4.
PAR = Energy parameter selection; Choose from W, VA, VAR, PF; Default value is W.
Edit Set Parameters
Edit and Accept Setup
The following example explains, how to edit the set parameter SYS to DELTA from STAR.
means blinking.
y means blinking y.
Save New Value to Setup
1. After you have successfully entered into the PROG menu setup in edit mode, (Refer to “Enter PROG menu setup in Edit mode” for more information) press . The display shows blinking STAr.2. Press . The display shows blinking dLtA.3. Press . The new value is accepted. 4. To edit the next parameter, press and follow the above mentioned steps.
1. After you edit the parameter as explained above, press . The display shows SYS. 2. Press . The display flashes SAVE and then blinking y. 3. Press . The display flashes PASS and then SET. The new value is saved.
NOTE: If you do not want to save the new value, press to change the blinking y to n in step 2. Press . The display flashes FAIL and then SET.
means blinking.
y means blinking y.
Press continuously until
Press continuously until
80 to 270v ac
Cl 1.0
Conzerv
80 to 270 50/60 Hz <3 VA
Acc Cl: X.X
80 to 500 VLL
50mA to 6A
0.25 A
Figure 10: Single-phase connection
0.25 A0.25 A
Clear INTG
1. After you have successfully entered the PROG menu setup in Edit mode PROG menu setup in Edit mode” for more information), press from The display shows CLR.2. Press . The display shows INTG.3. Press to clear INTG. The display shows blinking y. 4. Press . The display flashes PASS and then INTG.5. Press . The display shows CLR.
NOTE: If you do not want to clear INTG, press to change blinking y to n in step 3. Press . The display flashes FAIL and then INTG. Then proceed to step 5.
(Refer to “Enter RUN.
This section is applicable only for ELF3234 and ELF 3234-3 power meters. The ELF3200 series power meter (ELF3234 and ELF3234-3) is equipped with energyintegrator, where the energy parameters are accumulated. This section explains you how to clear the integrator in the power meter.
means blinking.
y means blinking y.
Press continuously until
Press continuously until
Displays first four digits
Displays next four digits
80 to 270v ac
Cl 1.0
Conzerv
80 to 270 50/60 Hz <3 VA
Acc Cl: X.X
80 to 500 VLL
50mA to 6A
Menu Hierarchies Menu Hierarchy: ELF3259
SET
PROG
DIAG
RUN
RMS VLL V 12
V 1
A 1
A 2
A 3
L%1
L%2
L%3
UNB
RPM
V 23
V 2
V 31
V 3
VLN
A
F
MDL
VER1
VER2
D 13
1
1
2
2
3
3
4
4
Set = Has complete list of user-programmable parameters
Run = Has all display pages. You can scroll through the display pages through front panel keys.
RMS = RMS value display pages are in sub level
DIAG = Represents diagnostic pages. The values contained in these pages are for factory testing only.
VLL = Phase to phase voltage average
VLN = Phase to neutral voltage average
A = Current average
F = Frequency in Hz
MDL = Model number
VER1, VER 2 = Version number
D1 = Display scanning
D2, D3, D4, D6, D7 = Internal data for factory
D5 = Check sum
D11 = System type selected in PROG menu
D13 = Label selected in PROG menu
V12 = RMS voltage phase 1 to 2
V1 = RMS voltage phase 1 to neutral
A1 = RMS current phase 1
V23 = RMS voltage phase 2 to 3
V2 = RMS voltage phase 2 to neutral
A2 = RMS current phase 2
V31 = RMS voltage phase 3 to 1
V3 = RMS voltage phase 3 to neutral
A3 = RMS current phase 3
L%1 = % of load, phase 1
L%2 = % of load, phase 2
L%3 = % of load, phase 3
UNB = % of unbalanced load
RPM = Source RPM
Menu Hierarchy: ELF3234
SET
CLR
PROG
DIAG
RUN
RMS
INTG
OLD
W W1
W2
W3
W.H
W.H
W.h
W.h
MDL
VER1
VER2
D 13
1
2
1
2
3
3
Set = Has complete list of user-programmable parameters
Run = Has all display pages. You can scroll through the display pages through front panel keys.
RMS = RMS value display pages are in sub level
INTG = Energy Integrator
OLD = OLD data register
DIAG = Represents diagnostic pages. The values contained in these pages are for factory testing only.
W = Watts total
W.H = First four digits of energy value Wh
W.H = First four digits of energy value Wh
W.h = Last four digits of energy value Wh
W.h = Last four digits of energy value Wh
MDL = Model number
VER1, VER 2 = Version number
D1 = Display scanning
D2, D3, D4, D6, D7 = Internal data for factory
D5 = Check sum
D11 = System type selected in PROG menu
D13 = Label selected in PROG menu
W1 = Watts phase 1
W2 = Watts phase 2
W3 = Watts phase 3
Menu Hierarchy: ELF3234-3
SET
CLR
PROG
DIAG
RUN
RMS
INTG
OLD
W
PF
W1
PF1
PF2
PF3
W2
W3
W.H
W.H
W.h
W.h
MDL
VER1
VER2
D 13
1
2
1
2
3
3
Set = Has complete list of user-programmable parameters
Run = Has all display pages. You can scroll through the display pages through front panel keys.
RMS = RMS value display pages are in sub level
INTG = Energy Integrator
OLD = OLD data register
DIAG = Represents diagnostic pages. The values contained in these pages are for factory testing only.
W = Watts total
PF = Power factor total
W.H = First four digits of energy value Wh
W.H = First four digits of energy value Wh
W.h = Last four digits of energy value Wh
W.h = Last four digits of energy value Wh
MDL = Model number
VER1, VER 2 = Version number
D1 = Display scanning
D2, D3, D4, D6, D7 = Internal data for factory
D5 = Check sum
D11 = System type selected in PROG menu
D13 = Label selected in PROG menu
W1 = Watts phase 1
W2 = Watts phase 2
W3 = Watts phase 3
PF1 = Power factor, phase 1
PF2 = Power factor, phase 2
PF3 = Power factor, phase 3
Features Auto-scroll
Indicators
Table 8: Indicators
? Auto-scroll feature enables you, to view a group of display pages sequentially every five seconds without any manual key operation.? During auto-scroll, the power meter displays parameter name for one second and the value for four seconds.The following table explains the auto-scroll feature.
NOTE: The following example explains the auto-scroll through the RMS sub-parameter pages of ELF3259 meter.
Step Perform Output
1. Press , from the RMS page. The display shows VLL (RMS sub-parameter page of ELF3259).
2. Press continuously for three seconds The display flashes AUTO and starts and then release. auto-scroll down the sub-parameter pages.
Table 7: Auto-scroll
NOTE:Press any key to revert to manual scrolling. Auto-scroll feature is not possible in the setup parameters.
Kilo: When lit, indicates that the reading is in Kilo (10^3). For example, 32.00 with K LED lit indicates that the value is 32,000.Mega: When lit, indicates that the reading is in Mega (10^6). For example, 32.00 with M LED lit indicates that the value is 32,000 K.
GIGA: When both Kilo and Mega are lit, indicates that the reading is in Giga (10^9). For example, 32.00 with K, M LEDs lit indicates that the value is 32,000 M.
Negative: When lit indicates that the value is negative as per IEEE 100 and any industry standard.For forward flow of Watts and capacitive (leading) load, the VAR,PF values will be negative. For reverse flow of Watts and Inductive (lagging) load, the W, PF, and VAR values will be negative.
OLD Data Register
Table 6: Integrator overflow
PT ratio x CT ratio Time taken for overflow (months)Maximum reading(Wh/VAh)
Min Max
1 to 1.999
2 to 1000.999
> 1001
9999 M
9999 M
3.85
3.85 3857.63
1928.81
9999 G
1.92 3.85
? When the integrator is cleared (manually or due to overflow), the energy values stored in the integrator will be transferred to the OLD register.? Thus the old energy values are not lost, even after the integrator is cleared, and can be viewed with the OLD parameter.
NOTE: For energy studies clear the integrator at the end of each observation. This transfers all the stored energy values to the OLD register, where they are held, while the integrator begins accumulating data for the next observation. Remember that the next time when the integrator is cleared, the OLD values will be overwritten.
INTG Overflow
? The energy values stored in the integrator are based on the PT ratio x CT ratio set for the application.? All the integrator values VAH/VAh, WH/Wh, VARH/VARh, -VARH/VARh reset together whenever any one of the values overflow. This enables easy energy management calculations.? The maximum number, the power meter can handle is 9999 giga for RMS and energy values.? During INTG overflow, the values stored in the integrator are transferred to OLD register.
ELF3234
^
ELF3234
^
ELF3234
^
ELF3234
^
Technical Specifications
Description Specification
Sensing/measurement True RMS, one second update time, four quadrant power and two quadrant energy
Auxiliary supply (control power) 80 to 270 VAC, 45 to 65 Hz
Input voltage Four voltage inputs (V1, V2, V3, VN)110 or 415 VACLL nominal (80 to 500 VACLL)
Input current(energy measurement)
Current inputs (A1, A2, A3)Field configurable 1 A or 5 A; Range 50 mA to 6 A
Frequency 45 to 65 Hz
Burden Voltage and current input < 0.2 VA per phaseAuxiliary supply (control power) < 3 VA
Overload 10 A max continuous 50 A max for three seconds
Display and resolution Four digits, seven segment LED display; RMS four digits, INTG eight digits (four per page)
Environmental Operating temperature: -10 °C to 60 Storage temperature: -25 °C to 70 °C (-13 °F to 158 °F)Humidity 5 % to 95 % non-condensing
°C (14 °F to 140 °F)
Weight 225 gms approximately
Protection against dust and water Front panel: IP 51Rear panel: IP 40
Accuracy Class 1 .0 as per IEC 62052-11 and IEC 62053-21; Class 0.5 as per IEC 62052-11, 62053-22
Table 9: Technical specifications
Schneider Electric India Pvt Ltd44 P, Electronics City East Phase,Hosur Road,Bangalore - 560 100 , IndiaE:in-care@in.schneider-electric.com Toll Free Help desk Numbers:1800 180 1707, 1800 103 0011www.schneider-electric.co.in
Electrical equipment should be installed, operated, serviced, and maintained only by qualified personnel. No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material.
SEI/ELF3200/0111/V01.d18© 2011 Schneider Electric All Rights Reserved
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