English User's Manual

User Guide
1Φ/3Φ 1000 Amp True RMS Power Clamp-On
Model 380976
Introduction
Congratulations on your purchase of the Extech 380976 Power Clamp-On Meter. This device
measures 1Φ/3Φ Power (True, Apparent, and Reactive), Horsepower, Phase Angle, True RMS
Current/Voltage, Resistance, Capacitance, Frequency, & Temperature. Power measurements can
be achieved on 3- or 4-wire configurations. Please read the entire manual to get the most from the
meter’s wide array of capabilities. This meter is shipped fully tested and calibrated and, with
proper use, will provide years of reliable service.
Table of Contents
Warranty .................................................................................................................................. 3
Safety Information .................................................................................................................. 3
Meter Description ................................................................................................................... 4
AC + DC Voltage Measurements ........................................................................................... 5
AC Current Measurements .................................................................................................... 5
1Φ KW, KVA, KVAR, Power Factor & Phase Angle Measurement ..................................... 6
3Φ 3-Wire KW, HP, KVA, KVAR, Power Factor & Phase Angle Measurement .................. 7
3Φ 4-Wire KW, HP, KVA, KVAR, Power Factor & Phase Angle Measurement ................ 10
Resistance and Audible Continuity Measurements .......................................................... 13
Capacitance Measurements ................................................................................................ 14
Diode Tests ........................................................................................................................... 14
Temperature Measurements ................................................................................................ 14
AC and DC µA Current Measurements ............................................................................... 14
Meter Control Keys ............................................................................................................... 15
Automatic Sleep Mode and Battery Replacement ............................................................. 16
Specifications ....................................................................................................................... 17
Calibration, Repair, and Technical Support Services ......... Error! Bookmark not defined.
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Warranty
EXTECH INSTRUMENTS CORPORATION warrants this instrument to be free of defects in parts
and workmanship for one year from date of shipment (a six month limited warranty applies to
sensors and cables). If it should become necessary to return the instrument for service during or
beyond the warranty period, contact the Customer Service Department at (781) 890-7440 ext. 210
for authorization or visit our website www.extech.com for contact information. A Return
Authorization (RA) number must be issued before any product is returned to Extech. The sender is
responsible for shipping charges, freight, insurance and proper packaging to prevent damage in
transit. This warranty does not apply to defects resulting from action of the user such as misuse,
improper wiring, operation outside of specification, improper maintenance or repair, or unauthorized
modification. Extech specifically disclaims any implied warranties or merchantability or fitness for a
specific purpose and will not be liable for any direct, indirect, incidental or consequential damages.
Extech's total liability is limited to repair or replacement of the product. The warranty set forth above
is inclusive and no other warranty, whether written or oral, is expressed or implied.
Safety Information

Read the following safety information carefully before attempting to operate or service the
meter.

To avoid damage to the instrument do not exceed the maximum input limits shown in the
technical specifications.

Do not use the meter or test leads if they appear damaged.

Use extreme caution when working around bare conductors or bus bars. Accidental contact
with the conductor could result in electric shock.

Use the meter only as specified in this manual; otherwise, the protection provided by the
meter may be impaired.

Read the operating instructions before use and follow all safety information.

Use caution when working with voltages above 60VDC or 30VAC RMS. Such voltages
represent a shock hazard.

Before taking resistance measurements or testing continuity, disconnect the circuit under test
from the main power supply and remove all loads from the circuit.
Safety symbols
Caution! Refer to this manual before using the meter.
Dangerous voltages.
Meter is protected throughout by double insulation or
reinforced insulation.
When servicing, use only specified replacement parts.
Complies with EN-61010-1, IEC 1010-2-32
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Meter Description
1.
Transformer Jaws
2.
Jaw opening trigger
3.
Data Hold & MX/MN button
4.
Function Selector
5.
Range button
6.
Temperature input jack
7.
LCD Display
8.
‘COM’ input jack
9.
‘V’ input jack
10.
Ω
µA input jack
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Measurements
AC + DC Voltage Measurements
WARNING
The maximum input is 600V. Do no attempt voltage measurements above this limit. Exceeding
this limit could cause electrical shock and damage to the meter.
1. Set the rotary switch to the ‘
V’ position.
2. Insert the test leads into the meter’s input jacks. (Black to
‘COM’ and Red to ‘V’)
3. Connect the test leads to the measured circuit.
4. The meter will automatically detect and display AC or DC
voltage. The meter will also automatically select the
appropriate range.
5. Read the voltage (main display) and frequency (upper,
smaller display digits) on the LCD.
NOTE: The sensitivity for Automatic AC/DC Voltage detection is 1V. Voltage below 1V may
indicate DC.
NOTE: The sensitivity for voltage measurements is 1.2V and the frequency range is 40Hz to 1
KHz. If the frequency is less than 40Hz the LCD may display ‘Hz’.
AC Current Measurements
1. Set the rotary switch to the "~A" position.
2. Press the Trigger to open the jaw.
3. Fully enclose the conductor that is being measured in the jaw. No gap should exist between the
two jaw halves. The conductor under test must be a single wire; if there are multiple wires in a
cable the conductor must first be isolated (see diagram below).
4. The meter selects the range automatically.
5. Read the measured current (main display) and frequency (upper display) on the LCD.
NOTE: The sensitivity for current measurements is 6A and the frequency range is 40Hz to
400Hz. If the frequency is less than 40Hz the LCD may display ‘Hz’.
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AC Power Measurements
1Φ KW, KVA, KVAR, Power Factor & Phase Angle Measurement
1. Set the rotary switch to the ‘KW/KVA’
position.
2. Insert the test leads to the meter as
follows: Black to ‘COM’ and Red to ‘V’.
3. Connect the black lead to the neutral line.
4. Connect the red lead to the power line
and clamp onto the same lead to which
the red lead is connected.
5. The meter selects
automatically.
the
best
range
6. Select the desired display combination
using the RANGE key. Press RANGE to
scroll through the following combination displays:

kW and HP (horsepower)

kW and PF (power factor)

kW and KVAR (reactive power)

KVA and phase angle (θ)

V and A
Note that LEAD and LAG icons are also displayed on the LCD to inform the user that the voltage is
leading or lagging the current with regard to phase.
Note: Allow 2 seconds after each RANGE key press for the meter to update the display.
1 HP = 746 Watts
PF 
KW = cosθ
KVA
KVA (Apparent Power) = (V*A) / 1000
KVAR (Reactive Power) = (KVA)2  (KW)2 = KVA sinθ
*
NOTES
1. The ‘+’ sign printed on the meter must face the power source for best accuracy.
2. If the device under test is a switching mode power supply, the KW, PF, and Phase angle
measurements may not be accurate.
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3Φ 3-Wire KW, HP, KVA, KVAR, Power Factor & Phase Angle Measurement
1. First, measure WRS(L1L2) (refer to the diagram below).
a.
Set the rotary switch to the “
b.
Press and hold the “HOLD” key while setting the rotary switch to “KW/KVA”, the 33W and
WL12 symbols will appear.
c.
Insert the test leads into the jacks.
d.
Select a phase (e.g. S or L2) as COM and connect the test probe of the COM (black)
terminal to that phase (e.g. S or L2).
e.
Connect the test probe of V (red) terminal to the second phase (e.g. R or L1).
f.
Clamp the same phase as step e. (e.g. R or L1).
V ”.
g.
The power clamp will automatically select the proper range.
h.
Wait until the reading is stable (about 6 seconds). Press the “HOLD” key to store the
measured value. The WL23 symbol will appear.
2. Second, measure WTS(L3L2) (refer to the diagram that follows the steps below).
a.
Disconnect the test probe from the phase where the jaw clamp was set in the previous
measurement.
b.
Connect the test probe to the third phase (e.g. T or L3).
c.
Clamp the third phase where test probe is connected to (e.g. T or L3)
d.
The power clamp will automatically select the proper range.
e.
Wait until the reading is stable (about 6 seconds) and then press the “HOLD” key to store
the measured value.
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3. The power clamp will process these two sets of data (WL12 , WL23), and show the result on the
LCD. The WL123 symbol will be shown to indicate 33W power. The 33W power (in watts) is
stored in the meter memory.
4. To read a single data record, press the “HOLD” key to select desired WL12 , WL23 or WL123
display then press the “RANGE” key to select KW+HP (Horse Power), KW+PF (Power
Factor), KW+KVAR, KVA+θ(Phase Angle) or A+V.
5. W33W = WRS(L1L2) + WTS(L3L2)
KVA3 3W  K W 2 3 3W  KVAR 2 3 3W
PF 3 3W 
KW 3 3W
KVA 3 3W
6. Set the rotary switch to another position to exit this mode and clear the stored data.
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NOTE
Once a phase is selected as COM, users can not change this selection in the
subsequent measurement. For example, if S (or L2) phase is selected, S (or L2)
phase is always connected to the COM during measurement of WRS (or WL1L2) and
WTS (or WL3L2) in 3 3W unbalanced power.
NOTE
1. The "+" sign printed on Panel must face the power source for accurate
measurement.
2. If the device under test is a switching power supply, the meter KW, PF and θ
reading maybe incorrect.
NOTE
For 33W unbalanced power measurements, WRS or WTS could be negative.
Ensure that all connections are correct before accepting a reading as valid.
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3Φ 4-Wire KW, HP, KVA, KVAR, Power Factor & Phase Angle Measurement
1. First, measure WR(L1) (refer to the diagram below).
a.
Set the rotary switch to the “
b.
Press and hold the “RANGE” key while setting the rotary switch to the “KW/KVA” position,
the 34W and WL1 symbols should appear.
c.
Insert the test leads into the input jacks.
d.
Connect the neutral line to the COM (black) terminal.
e.
Connect the test probe of the V (red) terminal to the first phase (e.g. R or L1).
f.
Clamp on to the same phase (e.g. R or L1).
g.
The power clamp meter will automatically select the proper range.
h.
Wait until the reading is stable (about 6 seconds) and then press the “HOLD” key; the WL1
symbol will clear and the WL2 symbol will appear in order to instruct users to take the WS(L2)
measurement.
V ” position.
2. Second, measure WS(L2) (refer to the diagram that follows the steps below)
a.
Disconnect the test probe from the phase where the jaw was clamped in the previous
measurement.
b.
Connect the test probe of the V (red) terminal to the second phase (e.g. S or L2).
c.
Clamp on to the phase where the test probe is connected (e.g. S or L2 phase)
d.
The power clamp will automatically select proper range.
e.
Wait until the reading is stable (about 6 seconds) and then press the “HOLD” key; the WL2
symbol will disappear. The WL3 symbol will appear to instruct users to take the WT(L3)
measurement.
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3. Third, measure WT(L3) (refer to the diagram that follows the steps below)
a.
Disconnect the test probe from the phase where the jaws were clamped in the previous
measurement.
b.
Connect the test probe of the V (red) terminal to the third phase (e.g. T or L3 phase).
c.
Clamp the phase where the test probe is connected to (e.g. T or L3).
d.
The power clamp will automatically select the proper range.
e.
Wait until the reading is stable (about 6 seconds), and then press the “HOLD” key; The WL3
symbol will disappear.
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4. The power clamp will process these three sets of data (WL1, WL2 WL3) and show the result on the LCD.
The WL123 symbol will be shown to indicate the 34W power (refer to diagram).
The 34W power value in watts is now stored in the meter’s memory.
5. To read a single data record, use the “HOLD” key to select WL1, WL2, WL3 or WL123
display then press the “RANGE” key to select KW+HP (Horse Power), KW+PF (Power Factor),
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KW+KVAR, KVA+θ(Phase Angle) or A+V displays.
6. W34W = WR(L1) + WS(L2) WT(L3)
KVA 3 4W  K W 2 3 4W  KVAR
PF 3 4W 
2
3 4W
KW 3 4W
KVA 3 4W
7. Set the rotary switch to another position to exit this mode and clear the stored data.
NOTE
1. The "+" sign printed on meter must face the power source for accurate
measurement.
2. If the device under test is switching power supply, the KW, PF and θ readings
may not be correct.
NOTE
For 34W power measurements, WR or WS and WT must be positive. If one shows
negative power, check the connections.
Resistance and Audible Continuity Measurements
WARNING
Before taking any in-circuit resistance measurements remove power from the circuit under test
and discharge all capacitors.
1. Set the rotary switch to the ‘Ω, ’
’ or ‘MΩ’ position.
2. Insert the test leads into the input jacks. (Black to ‘COM’ and
Red to ‘Ω’)
3. Connect the test leads to the circuit or component under test.
4. Read the resistance value on the LCD.
5. For measurements < 40Ω, the continuity beeper will sound.
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Capacitance Measurements
1. Fully discharge the capacitor under test before proceeding.
2. Insert the test leads into the input jacks. (Black to ‘COM’ and
Red to ‘
’).
3. Set the rotary switch to the ‘
’ position.
4. Connect the red and black test leads to the capacitor. For
Electrolytic (polarized) capacitors, connect the red test lead to
the positive side and the black lead to the negative side.
5. Read the capacitance value displayed on the LCD.
Note: Large valued capacitors will take a long period of time to charge and to auto-range to the
correct range. (up to 60 seconds in the worst case). For improved resolution and shortest test
time, manually pre-selecting the proper range is recommended.
Diode Tests
1. Set the rotary switch to the "
" position.
2. Insert the test leads into the input jacks. (Black to ‘COM’ and Red to ‘
’)
3. Touch the test probe tips to the diode or semiconductor junction under test. Note the meter
reading.
4. Reverse the test lead polarity by reversing the red and black leads. Note this reading.
5. The diode or junction can be evaluated as follows:
a. If one reading shows a value and the other reading shows ‘OL’ (overload), the diode is
good.
b. If both readings show ‘OL’, the device is open.
c. If both readings are very small or zero, the device is shorted.
d. Note that the audible continuity function is operational in this mode (<40mV).
Temperature Measurements
1. Set the rotary switch to the "TEMP" position.
2. Press the RANGE button to select the desired unit of measure (C or
F).
3. Insert the Type K Thermocouple into the subminiature input jacks
located to the lower left of the rotary selector switch.
4. Touch the thermocouple sensor to the object under test.
5. Read the temperature value on the LCD.
AC and DC µA Measurements
1. Set the rotary switch to the "
µ A"
position.
2. Insert the test leads into the input jacks. (Black to ‘COM’ and
Red to ‘µA’)
3. Connect the test leads in series with the circuit or device
under test.
4. The meter will automatically select AC or DC and the
appropriate range.
5. Read the current value on the LCD.
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Meter Control Keys
HOLD - MX/MN Key
Data Hold Function
Press this key momentarily to put the meter into Data Hold mode (HOLD will appear on the LCD).
In this mode, the meter freezes the displayed reading. To exit the Data Hold mode, press the key
again (the HOLD icon will switch off). Note that the Data Hold mode is not available for
Capacitance measurements.
MX/MN (Maximum and Minimum reading mode)
The MX/MN mode permits the user to record and recall the highest and lowest readings. The
MX/MN feature is available for ACA, ACV, DCV, TEMP, and µA functions only. The following
steps outline the MX/MN feature:
1. Take an ACA, ACV, DCV, TEMP, or µA measurement as described earlier.
2.
Press and hold the MX/MN key for 2 seconds.
3.
The Elapsed Timer (top display) and the MX/MN & ® indicators will appear on the LCD.
4.
The Elapsed Timer shows the duration of the measurement session in Minutes and Seconds
(the Elapsed Timer switches to Hours and Minutes after 60 minutes). The maximum
recording time is 100 hours.
5.
The ® indicator informs the user that the measurement range is being held. Note that the
AUTO POWER OFF feature is disabled in the MX/MN mode.
6.
Press the MX/MN key again to view the highest reading and the time (shown on the Elapsed
Timer) that the reading was taken. The ‘MX’ icon will appear on the LCD.
7.
Press the MX/MN key again to view the lowest reading and the time (shown on the Elapsed
Timer) that the reading was taken. The ‘MN’ icon will appear on the LCD.
8.
Press again to view the current elapsed time and measurement.
9.
To exit this mode, press and hold the MX/MN key until MX/MN indicators switch off.
Using the HOLD button for Power Measurements
Refer to the power measurement section of this manual for details.
RANGE Key
The RANGE Key operation varies from mode to mode. Refer to the information below:
In ACA, ACV, DCV, µA, Capacitance, and Resistance modes:
1.
Press RANGE to enter the Manual Range mode (the ® indicator will appear).
2.
Press RANGE again to select the desired range manually.
3.
Press and hold the RANGE key to exit this mode (the ® indicator switches off).
In KW/kVA mode:
As described earlier, use the RANGE key to select the desired display combination: KW & PF,
KW & KVAR, KVA & Phase angle, or Current / Voltage.
In TEMP mode:
o
o
Use the RANGE key to select the desired unit of measure ( C or F).
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Automatic Sleep Mode and Battery Replacement
The Meter is powered by a 9V battery. An AUTO SLEEP feature is included to preserve battery life.
Note: The Auto Power OFF feature is disabled when the meter is in the MIN/MAX mode
Note: In the sleep mode the meter continues to draw a small amount of battery current. Always turn
the function switch to the OFF position when storing the meter.
Note: To restore operation after the sleep mode has engaged, turn the function switch to the OFF
position and then back to the function desired.
Auto Sleep Disable
The meter automatically goes to sleep mode after 30 minutes to conserve battery energy. To defeat
this feature:
1. Turn the meter OFF.
2. Press and hold the HOLD key while turning the selector switch to the AC Amps position.
3. Release HOLD when the clock icon appears on the LCD.
Battery Replacement
WARNING
To prevent electrical hazard or shock, turn off the meter and disconnect test
leads before removing the back cover.
When the battery power falls low, the LCD will display the battery icon
To replace the 9V battery:
+
.
1. Set the Range switch to the OFF position.
2. Remove the back cover by first removing the rear screws and then prying open the housing.
3. Replace the 9V battery.
4. Reassemble the meter housing.
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Specifications
General Specifications
Display
Jaw Opening
Max. Input limit
Sampling rate
Dual Display; 4-digit, 10,000 count (0 to 9999) LCD
1.6” (42mm)
Max. voltage between any terminal and ground: 600Vrms
2.5 times per second (Digital Display); Once every 6 seconds (KW,
KVA, and KVAR)
Auto Sleep
After approx. 30 minutes (feature can be defeated)
Low battery indication
Battery symbol appears on the LCD
Power supply
9V Battery
Battery life
Approx. 32 hours with alkaline battery
o
o
Operating Temperature
32 to 122 F (0 to 50 C)
Operating Humidity
< 80% RH
Operating Altitude
7000 ft. (2000 meters) maximum.
o
o
Storage Temperature
14 to 140 F (-10 to 60 C)
Storage Humidity
< 70% RH
o
o
o
o
o
Temperature coefficient
0.1 x (specified accuracy) / C at < 64 F (18 C), > 82 F (28 C)
Dimensions
9.0 x 3.0 x 1.5" (228 x 76 x 39mm)
Weight
Approx. 1.0 lb. (465g)
Approvals
CE, UL
Safety
This meter is intended for indoor use and protected, against the
users, by double insulation per EN61010-1 and IEC61010-1 2nd
Edition (2001) to CAT III 600V; Pollution Degree 2. The meter also
meets UL 61010A-1, First Edition
UL Listed
The UL mark does not indicate that this product has been evaluated
for the accuracy of its readings.
PER IEC1010 OVERVOLTAGE INSTALLATION CATEGORY
OVERVOLTAGE CATEGORY I
Equipment of OVERVOLTAGE CATEGORY I is equipment for connection to circuits in which
measures are taken to limit the transient overvoltages to an appropriate low level. Note –
Examples include protected electronic circuits.
OVERVOLTAGE CATEGORY II
Equipment of OVERVOLTAGE CATEGORY II is energy-consuming equipment to be supplied from
the fixed installation.
Note – Examples include household, office, and laboratory appliances.
OVERVOLTAGE CATEGORY III
Equipment of OVERVOLTAGE CATEGORY III is equipment in fixed installations.
Note – Examples include switches in the fixed installation and some equipment for industrial use
with permanent connection to the fixed installation.
OVERVOLTAGE CATEGORY IV
Equipment of OVERVOLTAGE CATEGORY IV is for use at the origin of the installation.
Note – Examples include electricity meters and primary over-current protection equipment
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Measurement Specifications
o
o
o
o
Accuracy: ± (% of rdg + number of digits) from 18 C to 28 C (64 F to 82 F) R.H. < 80%
AC Current (50Hz to 400Hz) True RMS
Range Resolution
Accuracy (% reading)
Sensitivity
99.99A
10mA
± (2% + 20d) (50, 60Hz)
0.10A
999.9A
100mA
± (4% + 20d) (40~400Hz)
1.0A
Overload Protection
1000A
A True RMS (AC+DC)
Range
Resolution
99.99A
10nA
999.9A
100nA
Accuracy
Sensitivity
Overload Protection
0.20µA
±(1% + 20d)
600V
2.0µA
Burden Voltage: 5mV/µA
AC Voltage (50Hz to 400Hz) True RMS
Range
Resolution
Accuracy
Sensitivity
999.9mV
0.1mV
±(1% + 20d) (50, 60Hz)
2.0mV
9.999V
1mV
99.99V
10mV
±(1% + 20d) (50, 60Hz)
0.20V
600.0V
100mV
±(2% + 20d) (40~400Hz)
2V
Overload Protection
±(2% + 20d) (40~100Hz)
600V
0.020V
Input impedance: 3MΩ
DC Voltage
Range
Resolution
999.9mV
0.1mV
Accuracy
Sensitivity
Overload Protection
2.0mV
9.999V
1mV
99.99V
10mV
600.0V
100mV
0.020V
±(1.0% + 20d)
600V
0.20V
2V
Input resistance: 3MΩ
Resistance (Audible Continuity for readings <40on the 999.9 range)
Range
Resolution
999.9Ω
100mΩ
9.999KΩ
1Ω
99.99KΩ
10Ω
999.9KΩ
100Ω
Accuracy
Overload Protection
± (1% + 10d)
600V
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M(Resistance)
Range
Resolution
9.999MΩ
1KΩ
99.99MΩ
10KΩ
Accuracy
Overload Protection
±(5% + 10d)
600V
Accuracy
Overload Protection
Capacitance
Range
Resolution
10.000F
1nF
100.00F
10nF
1000.0F
100nF
7000F
1F
±(1.5% + 5d)
600V
±(4.5% + 15d)
Diode (Continuity <40mV)
Range
Resolution
Accuracy
Overload Protection
2.000V
1mV
±(2% + 1d)
600V
Accuracy
Overload Protection
Temperature (K-Type thermocouple)
Range
o
Resolution
o
-50 C to 900 C
o
o
-58 F to 1000 F
o
o
±(1% + 1 C)
o
±(1% + 2 F)
0.1 C
o
0.1 F
30VAC or 60VDC
o
1Φ/3Φ TRUE Power (PF > 0.5 or  < 60 ) (50/60Hz)
Range
Resolution
Accuracy
Overload Protection
60.00KW (<100A)
10W
±(5% + 20d)
600.0KW (>100A)
100W
±(5% + 20d)
600VAC/
1000AAC
o
1Φ/3Φ Horse Power (HP) (PF > 0.5 or  < 60 ) (50/60Hz)
Range
Resolution
Accuracy
80.00HP (<100A)
0.01 HP
±(5% + 20d)
800.0 HP (>100A)
0.1 HP
±(5% + 20d)
Overload Protection
600VAC/1000AAC
o
1Φ/3Φ Reactive Power (KVAR) (PF > 0.5 or  < 60 ) (50/60Hz) 
Range
Resolution
Accuracy
Overload Protection
60.00KVAR (<100A)
600.0KVAR (>100A)
10VAR
100VAR
±(5% + 20d)
±(5% + 20d)
600VAC/
1000AAC
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1Φ/3Φ Apparent Power (KVA)
Range
Resolution
60.00KVA (<100A)
10VA
600.0KVA (>100A)
100VA
Accuracy
Overload Protection
±(2.5% + 20d)
600VAC/1000AAC
Phase Angle (50/60Hz)
Range
Resolution
Accuracy
Sensitivity
-60° ~ 0° ~ +60°
0.1º
±6.0º
ACV>100V, ACA>10A
Range
Resolution
Accuracy
Sensitivity
40Hz/1KHz
0.1Hz
±(0.5% + 2d)
ACV>5V, ACA>6A
Frequency
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