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Power Amplifier for
Real Time Digital Simulation
PONOVO POWER CO., LTD.
PONOVO POWER CO., LTD.
No.139 Jinghai Third Road, BDA, Beijing, China. 100176Tel : +86 (10) 59089666Fax : +86 (10) [email protected]@relaytest.com
About usThroughout the last decade, PONOVO POWER CO., LTD (previously known as
Power Advanced Co., LTD) has been focusing on providing professional solutions to
over 5000 clients in the fields of intelligent testing and power quality control.
www.relaytest.comwww.relaytest.com 0201
PA series amplifiers are specially designed for power
network real time simulation applications,which requires large power output,high accuracy even at high current output for all kinds of load.It can be used together with RTDS to compose a complete power network real time dynamic simulation system.
Power Amplifier for
Real Time Digital Simulator
2001:
2001: Launch of PWA, the relay test system with in-built output monitoring and
recording function
2002: Launch of PW466A, the relay test system with 6 currents and 6 voltages
2003: Launch of PH01, the testing system for Traveling Wave Fault Locater
2004: Launch of PWS, the relay test system for subway used protective relays
2005: Launch of PWF, the relay test system for digital substation with IEC61850
protocol
2005: Launch of e40, the software for automatic test and management
2006: Launch of the relay test system for serial compensation system used relays
2007: Launch of PM605A, the universal calibrator and test system
2008: Launch of T200A, the single phase universal tester which can provide 120s
output time at 250A
2008: Launch of MR1200, the portable disturbance recorder with in-built
oscilloscope function
2008: Launch of PowerTest relay test software
2009: Launch of the relay test system for 500KV DC converting station test
application
2009: Launch of L336i, the compact relay test system with 6 currents and 4
voltages and has a weight of 8.8kg
2009: Launch of PCT100i, the CT/PT tester with a weight of 11kg
2009: Launch of HB-6000, the online DGA (dissolved gas analyzer) system for
transformer
2009: Launch of PF3000, the test system for automatic test of power filters
2009: Launch of T1000/T2000, the primary injection kit which can provide 120s
output time at 1000A
2009: Launch of TD4000A, which can continuously supply 4000A DC current for
testing DC type CT
2010: Launch of PCT200i, new generation of CT\PT Tester
2010: Launch of PNS series portable digital signal analyzer for intelligent
substation maintenance
2010: Launch of new generation NF801 portable Fiber Digital relay tester with 8
fiber optical ports
2010: Launch of SSCS, the solid state composite switch for improving the
performance of capacitor bank control
2010: Launch of LVRT (Low voltage ride through)
2011: Launch of APF (Active Power Filter)
Launch of PMU600 phasor measurement unit
Launch of PNS610 new generation of network analyzer
Launch of PNA1000 online network monitoring and analyzing system
Launch of PNI302i the merging unit tester
Launch of PW4361D new optic-analog relay tester
Launch of PNS630 new generation of network analyzer
Launch of PNA702 electrical switchboard network test set
Launch of PMUT600 PMU(Phasor Measurement Unit - IEC61850) test set
Foundation of PONOVO POWER CO., LTD
2012:
2012:
2013:
2015:
2015:
2015:
2015:
2015:
About usThroughout the last decade, PONOVO POWER CO., LTD (previously known as
Power Advanced Co., LTD) has been focusing on providing professional solutions to
over 5000 clients in the fields of intelligent testing and power quality control.
www.relaytest.comwww.relaytest.com 0201
PA series amplifiers are specially designed for power
network real time simulation applications,which requires large power output,high accuracy even at high current output for all kinds of load.It can be used together with RTDS to compose a complete power network real time dynamic simulation system.
Power Amplifier for
Real Time Digital Simulator
2001:
2001: Launch of PWA, the relay test system with in-built output monitoring and
recording function
2002: Launch of PW466A, the relay test system with 6 currents and 6 voltages
2003: Launch of PH01, the testing system for Traveling Wave Fault Locater
2004: Launch of PWS, the relay test system for subway used protective relays
2005: Launch of PWF, the relay test system for digital substation with IEC61850
protocol
2005: Launch of e40, the software for automatic test and management
2006: Launch of the relay test system for serial compensation system used relays
2007: Launch of PM605A, the universal calibrator and test system
2008: Launch of T200A, the single phase universal tester which can provide 120s
output time at 250A
2008: Launch of MR1200, the portable disturbance recorder with in-built
oscilloscope function
2008: Launch of PowerTest relay test software
2009: Launch of the relay test system for 500KV DC converting station test
application
2009: Launch of L336i, the compact relay test system with 6 currents and 4
voltages and has a weight of 8.8kg
2009: Launch of PCT100i, the CT/PT tester with a weight of 11kg
2009: Launch of HB-6000, the online DGA (dissolved gas analyzer) system for
transformer
2009: Launch of PF3000, the test system for automatic test of power filters
2009: Launch of T1000/T2000, the primary injection kit which can provide 120s
output time at 1000A
2009: Launch of TD4000A, which can continuously supply 4000A DC current for
testing DC type CT
2010: Launch of PCT200i, new generation of CT\PT Tester
2010: Launch of PNS series portable digital signal analyzer for intelligent
substation maintenance
2010: Launch of new generation NF801 portable Fiber Digital relay tester with 8
fiber optical ports
2010: Launch of SSCS, the solid state composite switch for improving the
performance of capacitor bank control
2010: Launch of LVRT (Low voltage ride through)
2011: Launch of APF (Active Power Filter)
Launch of PMU600 phasor measurement unit
Launch of PNS610 new generation of network analyzer
Launch of PNA1000 online network monitoring and analyzing system
Launch of PNI302i the merging unit tester
Launch of PW4361D new optic-analog relay tester
Launch of PNS630 new generation of network analyzer
Launch of PNA702 electrical switchboard network test set
Launch of PMUT600 PMU(Phasor Measurement Unit - IEC61850) test set
Foundation of PONOVO POWER CO., LTD
2012:
2012:
2013:
2015:
2015:
2015:
2015:
2015:
0403
Panel mount type
Model Output Type Notes
1×200A RMS, 2400VA/phasePAC2000B
6 x 250v RMS 75VA/phase
6 x 120v RMS 60VA/phase
,
,
220V AC
Optional Accessories
PAD24
PAP01
PAP02
PSS01B
PSS02B
PSS05B
PAT01
3×60A RMS, 800VA/phase, 4×120v RMS ,60VA/phase,
6×30A RMS 210VA/phase,
Portable Type
3×30A RMS 210VA/phase 4×120 RMS 60VA/phase , ; v ,
6 x 120 RMS 60VA/phase v ,
3×30A RMS 210VA/phase; 4×250v RMS 75VA/phase, ,
Specifications and typical configurations
110V or 220V AC
110V or 220V AC
110V or 220V AC
110V or 220V AC
110V or 220V AC
110V or 220V AC
6 x 250v RMS 75VA/phase,
PAC60Cip
PA60Bip
PA30Bip
PAV120Bip
PAV250Bip
PA30Bip-H
6×30A RMS, 450VA/phase
3×30A RMS, 450VA/phase ,4×120v RMS ,60VA/phase,
3×60A RMS, 800VA/phase, 4×120v RMS ,60VA/phase,
3×30A RMS 450VA/phase,4×250v RMS 75VA/phase
4
4U
4U
4U
4U
U
4U
3U
3U
4U
4U
4U
4U
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
220V AC
220V AC
220V AC
220V AC
2U
3U
3U
3U
2U
Cabinet
Cabinet
Binary input & output converterNumber: 12; type: NC (300V,0.5A)
Three phase main power supply for PAC2000
Three phase main power supply forPA series amplifiers
Circuit Breaker Simulator(single tripping coil)
Circuit Breaker Simulator(two tripping coils, 2.5A)
Circuit Breaker Simulator(two tripping coils, 5A)
Control unit(limit high current output, protect relay under test,reference base signal for calibrating amplifier source)
Requires PAP-01 power unit
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
PA60Bi
PAC60Ci
PA30Bi
PA30Bi-H
PAV250Bi
PAV120Bi 4U
www.relaytest.comwww.relaytest.com
Single phase current amplifiers(200A)Model
Technical Data
Output Current
I/A
Out
put
Pow
er
P/VA
60 120 200
720
1440
2400
Current amplifiers (200A) Power
PAC2000B
PAC2000B rear view
PAC2000B
PAC2000B front view
Current output
Max. output power
0~200A RMS
> 2400VA(200A output)
Panel mount type
Input signal-Analog/Digital
(optional)
0~7V RMS (±10Vpek)/Optional digital interface
support Aurora protocol communication
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
DC power supply
Power supply
Chassis
0.2%(0.5A-200A)
< 0.1%
20k
2A/V 4A/V 30A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
PAP01
3 phase 380V AC 50/60 Hz
4U 19 inches
0403
Panel mount type
Model Output Type Notes
1×200A RMS, 2400VA/phasePAC2000B
6 x 250v RMS 75VA/phase
6 x 120v RMS 60VA/phase
,
,
220V AC
Optional Accessories
PAD24
PAP01
PAP02
PSS01B
PSS02B
PSS05B
PAT01
3×60A RMS, 800VA/phase, 4×120v RMS ,60VA/phase,
6×30A RMS 210VA/phase,
Portable Type
3×30A RMS 210VA/phase 4×120 RMS 60VA/phase , ; v ,
6 x 120 RMS 60VA/phase v ,
3×30A RMS 210VA/phase; 4×250v RMS 75VA/phase, ,
Specifications and typical configurations
110V or 220V AC
110V or 220V AC
110V or 220V AC
110V or 220V AC
110V or 220V AC
110V or 220V AC
6 x 250v RMS 75VA/phase,
PAC60Cip
PA60Bip
PA30Bip
PAV120Bip
PAV250Bip
PA30Bip-H
6×30A RMS, 450VA/phase
3×30A RMS, 450VA/phase ,4×120v RMS ,60VA/phase,
3×60A RMS, 800VA/phase, 4×120v RMS ,60VA/phase,
3×30A RMS 450VA/phase,4×250v RMS 75VA/phase
4
4U
4U
4U
4U
U
4U
3U
3U
4U
4U
4U
4U
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
220V AC
220V AC
220V AC
220V AC
2U
3U
3U
3U
2U
Cabinet
Cabinet
Binary input & output converterNumber: 12; type: NC (300V,0.5A)
Three phase main power supply for PAC2000
Three phase main power supply forPA series amplifiers
Circuit Breaker Simulator(single tripping coil)
Circuit Breaker Simulator(two tripping coils, 2.5A)
Circuit Breaker Simulator(two tripping coils, 5A)
Control unit(limit high current output, protect relay under test,reference base signal for calibrating amplifier source)
Requires PAP-01 power unit
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
3 phase 380VAC±10%,47-63Hz
PA60Bi
PAC60Ci
PA30Bi
PA30Bi-H
PAV250Bi
PAV120Bi 4U
www.relaytest.comwww.relaytest.com
Single phase current amplifiers(200A)Model
Technical Data
Output Current
I/A
Out
put
Pow
er
P/VA
60 120 200
720
1440
2400
Current amplifiers (200A) Power
PAC2000B
PAC2000B rear view
PAC2000B
PAC2000B front view
Current output
Max. output power
0~200A RMS
> 2400VA(200A output)
Panel mount type
Input signal-Analog/Digital
(optional)
0~7V RMS (±10Vpek)/Optional digital interface
support Aurora protocol communication
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
DC power supply
Power supply
Chassis
0.2%(0.5A-200A)
< 0.1%
20k
2A/V 4A/V 30A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
PAP01
3 phase 380V AC 50/60 Hz
4U 19 inches
0605
PAC60Ci
PA 60Ci C front view PA 60 i C C rear view
ModelCurrent output
Max. output power
6 X 0~30A RMS
>450VA(30A output)
PAC60Ci
Technical Data
Output Current I/A
Out
put
Pow
er
P/VA
5 10 20
70
140
210
30
35
6 Phase Current Amplifiers(6X30A)
www.relaytest.comwww.relaytest.com
PA30Bi, PA30Bi-H,PA60Bi
Front View Rear View
4 phase voltage Amplifier
Technical Data
Model PA30Bi PA30Bi-H
3 X 0~30A RMS
>450VA(30A output)
Current output
Max. output power
3 X 0~30A RMS
>450VA(30A output)
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage Amplifiers (120V) Power Voltage Amplifiers (250V) Power
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
Output Current I/A
Out
put
Pow
er
P/VA
5 10 20
70
140
210
30
35
6 Phase Voltage Amplifier
PA60Bi
3*0-60A RMS
>800VA (60A output)
Output CurrentI/A
Out
put
Pow
er
P/VA
12 24 36
320
480
640
48
160
60
800
Input signal-Analog/Digital(optional)
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora protocol communication
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
0.2%(0.5-30A)
<0.1%
20k
4A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
3 phase 380V AC 50/60 Hz
4U 19 inches
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Voltage output
Max. output power
Input signal
Voltage accuracy
<0.05%
20k
20V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
< 20us
< 20us
3 phase 380V AC 50/60 Hz
4U 19 inches
0.2%(0.5-30A)
<0.1%
20k
4A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~7V RMS(±10Vpek)
<0.1%(5V-120V)
<0.1%
20k
36V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
< 80us
< 80us
3 phase 380V AC 50/60 Hz
4U 19 inches
0.2%(0.5-30A)
<0.1%
20k
4A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~250V RMS
>75VA(250V output)
0~7V RMS(±10Vpek)
<0.2%(5V-250V)
8A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~7V RMS(±10Vpek)
<0.1%(5V-120V)
<0.05%
20k
20V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
< 20us
< 20us
3 phase 380V AC 50/60 Hz
4U 19 inches
0.2%(0.5A-60A)
<0.1%
20k
Input signal-Analog/Digital(optional)
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora
protocol communication
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora
protocol communication
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora
protocol communication
0605
PAC60Ci
PA 60Ci C front view PA 60 i C C rear view
ModelCurrent output
Max. output power
6 X 0~30A RMS
>450VA(30A output)
PAC60Ci
Technical Data
Output Current I/A
Out
put
Pow
er
P/VA
5 10 20
70
140
210
30
35
6 Phase Current Amplifiers(6X30A)
www.relaytest.comwww.relaytest.com
PA30Bi, PA30Bi-H,PA60Bi
Front View Rear View
4 phase voltage Amplifier
Technical Data
Model PA30Bi PA30Bi-H
3 X 0~30A RMS
>450VA(30A output)
Current output
Max. output power
3 X 0~30A RMS
>450VA(30A output)
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage Amplifiers (120V) Power Voltage Amplifiers (250V) Power
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
Output Current I/A
Out
put
Pow
er
P/VA
5 10 20
70
140
210
30
35
6 Phase Voltage Amplifier
PA60Bi
3*0-60A RMS
>800VA (60A output)
Output CurrentI/A
Out
put
Pow
er
P/VA
12 24 36
320
480
640
48
160
60
800
Input signal-Analog/Digital(optional)
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora protocol communication
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
0.2%(0.5-30A)
<0.1%
20k
4A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
3 phase 380V AC 50/60 Hz
4U 19 inches
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Voltage output
Max. output power
Input signal
Voltage accuracy
<0.05%
20k
20V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
< 20us
< 20us
3 phase 380V AC 50/60 Hz
4U 19 inches
0.2%(0.5-30A)
<0.1%
20k
4A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~7V RMS(±10Vpek)
<0.1%(5V-120V)
<0.1%
20k
36V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
< 80us
< 80us
3 phase 380V AC 50/60 Hz
4U 19 inches
0.2%(0.5-30A)
<0.1%
20k
4A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~250V RMS
>75VA(250V output)
0~7V RMS(±10Vpek)
<0.2%(5V-250V)
8A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~7V RMS(±10Vpek)
<0.1%(5V-120V)
<0.05%
20k
20V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
< 20us
< 20us
3 phase 380V AC 50/60 Hz
4U 19 inches
0.2%(0.5A-60A)
<0.1%
20k
Input signal-Analog/Digital(optional)
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora
protocol communication
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora
protocol communication
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora
protocol communication
0807
PAV250Bi, PAV120Bi
Model PAV250Bi PAV120Bi
Technical Data
PAV250Bi rear view
PAV250Bi front view PAV120Bi front view
PAV120 i B rear view
6 Phase Voltage Amplifier(6 X 250V)
Voltage output
Max. output power
6 X 0~250V RMS
>75VA(250V output)
<0.2%(5V-250V)
<0.1%
20k
36V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
<80us
<80us
3 phase 380V AC
4U 19 inches
6 X 0~120V RMS
>60VA(120V output)
<0.1%(5V-120V)
<0.05%
20k
20V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
3 phase 380V AC
4U 19 inches
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
Voltage amplifiers (250V) Power:
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage amplifiers (120V) Power:
6 Phase Voltage Amplifier(6 X 120V)
www.relaytest.comwww.relaytest.com
PAC60Cip
Portable
ModelCurrent output
Max. output power
Input signal
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
PAC60Cip
Technical Data
6 X 0~30A RMS
>210VA 30A output
0.2%(0.5-30A)
<0.1%
20k
6A/V
0.2%
0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
Single phase 220V AC 50/60 Hz
4U
( )
0~5 V RMS(±7.07Vpek)
≤
≤
Output Current I/A
Out
put
Pow
er
P/VA
5 10 20
70
140
210
30
35
PAC60Cip
6 Phase Amplifier(6 X 30A)
Current
Voltage accuracy
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
Input signal-Analog/Digital(optional)
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora protocol communication
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora protocol communication
0807
PAV250Bi, PAV120Bi
Model PAV250Bi PAV120Bi
Technical Data
PAV250Bi rear view
PAV250Bi front view PAV120Bi front view
PAV120 i B rear view
6 Phase Voltage Amplifier(6 X 250V)
Voltage output
Max. output power
6 X 0~250V RMS
>75VA(250V output)
<0.2%(5V-250V)
<0.1%
20k
36V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
<80us
<80us
3 phase 380V AC
4U 19 inches
6 X 0~120V RMS
>60VA(120V output)
<0.1%(5V-120V)
<0.05%
20k
20V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
3 phase 380V AC
4U 19 inches
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
Voltage amplifiers (250V) Power:
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage amplifiers (120V) Power:
6 Phase Voltage Amplifier(6 X 120V)
www.relaytest.comwww.relaytest.com
PAC60Cip
Portable
ModelCurrent output
Max. output power
Input signal
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
PAC60Cip
Technical Data
6 X 0~30A RMS
>210VA 30A output
0.2%(0.5-30A)
<0.1%
20k
6A/V
0.2%
0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
Single phase 220V AC 50/60 Hz
4U
( )
0~5 V RMS(±7.07Vpek)
≤
≤
Output Current I/A
Out
put
Pow
er
P/VA
5 10 20
70
140
210
30
35
PAC60Cip
6 Phase Amplifier(6 X 30A)
Current
Voltage accuracy
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
Input signal-Analog/Digital(optional)
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora protocol communication
0~7 V RMS (±10Vpek)/Optional digital interface support Aurora protocol communication
1009 www.relaytest.comwww.relaytest.com
3 Phase Current Amplifiers 4 Phase Voltage Amplifier
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage amplifiers (120V) PowerVoltage amplifiers (250V) Power
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
Model PA30Bip PA30Bip-H
3 X 0~ 30A RMS
>210VA(30A output)
0~5 V RMS(±7.07Vpek)
0.2%(0.5-30A)
<0.1%
20k
6A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~250V RMS
>75VA(250V output)
0~5V RMS(±7.07Vpek)
<0.2%(5V-250V)
<0.1%
20k
50V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
<80us
<80us
3 X 0~ 30A RMS
>210VA(30A output)
0~5 V RMS(±7.07Vpek)
0.2%(0.5-30A)
<0.1%
20k
6A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~5V RMS(±7.07Vpek)
<0.1%(5V-120V)
<0.05%
20k
25V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
Current output
Max. output power
Input signal
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Voltage output
Max. output power
Input signal
Voltage accuracy
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
Output Current I/A
Ou
tpu
tP
ow
er
P/VA
5 10 20
70
140
210
30
35
PA30Bip, PA30Bip-H PA60Bip,
PA60Bip
3*0-60A RMS
>800VA (60A output)
0~5 V RMS(±7.07Vpek)
0.2%(0.5-60A)
<0.1%
20k
12A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~5V RMS(±7.07Vpek)
<0.1%(5V-120V)
<0.05%
20k
25V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
Single phase 220V AC 50/60 Hz
4U
Single phase 220V AC 50/60 Hz
4U
Single phase 220V AC 50/60 Hz
4U
Output CurrentI/A
Out
put
Pow
er
P/VA
12 24 36
160
240
320
48
80
60
400
PAV250Bip, PAV120Bip
Model PAV250Bip PAV120Bip
Technical Data
Voltage output
Max. output power
Input signal
Voltage accuracy
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chasis
6 X 0~250V RMS
>75VA(250V output)
0~5V RMS(±7.07Vpek)
<0.2%(5V-250V)
<0.1%
20k
50V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
<80us
<80us
Single phase110or 220V AC
3U
6 X 0~120V RMS
>60VA(120V output)
0~5V RMS(±7.07Vpek)
<0.1%(5V-120V)
<0.05%
20k
25V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
Single phase110or 220V AC
3U
6 Phase Voltage Amplifier(6 X 250V)
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage amplifiers (120V) Power:Voltage amplifiers (250V) Power:
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
6 Phase Voltage Amplifier(6 X 120V)
Technical Data
1009 www.relaytest.comwww.relaytest.com
3 Phase Current Amplifiers 4 Phase Voltage Amplifier
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage amplifiers (120V) PowerVoltage amplifiers (250V) Power
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
Model PA30Bip PA30Bip-H
3 X 0~ 30A RMS
>210VA(30A output)
0~5 V RMS(±7.07Vpek)
0.2%(0.5-30A)
<0.1%
20k
6A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~250V RMS
>75VA(250V output)
0~5V RMS(±7.07Vpek)
<0.2%(5V-250V)
<0.1%
20k
50V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
<80us
<80us
3 X 0~ 30A RMS
>210VA(30A output)
0~5 V RMS(±7.07Vpek)
0.2%(0.5-30A)
<0.1%
20k
6A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~5V RMS(±7.07Vpek)
<0.1%(5V-120V)
<0.05%
20k
25V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
Current output
Max. output power
Input signal
Current accuracy
Current typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Voltage output
Max. output power
Input signal
Voltage accuracy
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chassis
Output Current I/A
Ou
tpu
tP
ow
er
P/VA
5 10 20
70
140
210
30
35
PA30Bip, PA30Bip-H PA60Bip,
PA60Bip
3*0-60A RMS
>800VA (60A output)
0~5 V RMS(±7.07Vpek)
0.2%(0.5-60A)
<0.1%
20k
12A/V
≤0.2%
≤0.2%
0.2°
DC-5kHz±1dB
< 20us
< 20us
4 X 0~120V RMS
>60VA(120V output)
0~5V RMS(±7.07Vpek)
<0.1%(5V-120V)
<0.05%
20k
25V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
Single phase 220V AC 50/60 Hz
4U
Single phase 220V AC 50/60 Hz
4U
Single phase 220V AC 50/60 Hz
4U
Output CurrentI/A
Out
put
Pow
er
P/VA
12 24 36
160
240
320
48
80
60
400
PAV250Bip, PAV120Bip
Model PAV250Bip PAV120Bip
Technical Data
Voltage output
Max. output power
Input signal
Voltage accuracy
Voltage typical accuracy
Differential input impedance
Gain
Harmonic distortion ratio
Linearity
Phase accuracy
Frequency range
Step response
Input/output delay
Power supply
Chasis
6 X 0~250V RMS
>75VA(250V output)
0~5V RMS(±7.07Vpek)
<0.2%(5V-250V)
<0.1%
20k
50V/V
≤0.1%
≤0.2%
0.2°
DC-3kHz±1dB
<80us
<80us
Single phase110or 220V AC
3U
6 X 0~120V RMS
>60VA(120V output)
0~5V RMS(±7.07Vpek)
<0.1%(5V-120V)
<0.05%
20k
25V/V
≤0.1%
≤0.1%
0.2°
DC-5kHz±1dB
<20us
<20us
Single phase110or 220V AC
3U
6 Phase Voltage Amplifier(6 X 250V)
Output voltage
V/V
Out
put
Pow
er
P/VA
50 100 120
25
50
60
Voltage amplifiers (120V) Power:Voltage amplifiers (250V) Power:
Output voltage
V/V
Out
put
Pow
er
P/VA
100 200 250
30
60
75
6 Phase Voltage Amplifier(6 X 120V)
Technical Data
1211
Panel Configuration for panel mount
type amplifier
Amplifier output display
The in-built sampling unit in the amplifier is
designed to sample the real time output signal
and the output value for each current/voltage
channel will be displayed in the display area.
LED indicator for amplifier working status
a) Power On display
b) Operation display
c) Overheat display
d) Current open circuit display
e) Voltage short circuit display
Amplifier outputs
Three phase powersupply switch
Panel control buttona) High power output buttonb) Output pause button
Amplifier protection
The following protection is designed for current/voltage amplifier
a) Current open-circuit
b) Voltage short-circuit
c) Overload
d) Overhead
Main power supply
Three phase power supply will be used to drive the amplifier andcan be designed according to customer requirement, such as240Vac, 380Vac, 400Vac, etc.
www.relaytest.comwww.relaytest.com
Why large output power is required?
1. The length of cable connecting amplifier and RTDS system
2. Quantity of relays which need to be connected together
Relations between cable type/length and output power can be better explained
with the following able.
Calculation condition:
1. Relay impedance : 0.1-0.2 ohm
2. Cable type: 4 sq mm at 25 °C
Relations between the voltage across current output and cable length
OutputPower(VA)
Voltage across
current output(V)
Max Load(ohm)
Max cable length (M)
PONOVO 30Bi/60Bi
7.5A(L-N)
22.5A(L-N)
30A(L-N)
50A(3L-N)
180A(3L-N)6 X 30A
7.5A(L-N)
22.5A(3L-N)
30A(3L-N)
50A(3L-N)
120
342
458
600
1260
70
210
200
160
Others
16
15.2
15
12
7
9.3
9.3
6.66
3.2
2.13
0.68
0.5
0.24
0.26
1.24
0.41
0.22
0.06
10…20
4…8
2..4
1..2
1..2
6…12
2..4
1...2
0
Why three phase power supply is considered?
Power supply and distribution
PAC30Bi
PAC30Bi
Main supply:three phase 380Vac
PAC30Bi
PAC30Bi
PAC30Bi
POWER
POWER
POWER
POWER
POWER
Once a number of amplifiers and generate the
maximum power at the same time, the power
consumption of the main power supply may become
huge. If there is single power supply it may cause
the unbalance for the three phase power supply
system.
In the following example 5 PAC30Bi amplifier units
(6*30A) are mounted on the panel. The maximum of
main supply power for each unit is about 2.5-3.0kVA
and the total power supply requirement is12.5-
15kVA. If 15kVA power is supplied by single phase
power supply sourceunbalance will be caused..
This is the reason why we design three phase main
supply on the panel.
1211
Panel Configuration for panel mount
type amplifier
Amplifier output display
The in-built sampling unit in the amplifier is
designed to sample the real time output signal
and the output value for each current/voltage
channel will be displayed in the display area.
LED indicator for amplifier working status
a) Power On display
b) Operation display
c) Overheat display
d) Current open circuit display
e) Voltage short circuit display
Amplifier outputs
Three phase powersupply switch
Panel control buttona) High power output buttonb) Output pause button
Amplifier protection
The following protection is designed for current/voltage amplifier
a) Current open-circuit
b) Voltage short-circuit
c) Overload
d) Overhead
Main power supply
Three phase power supply will be used to drive the amplifier andcan be designed according to customer requirement, such as240Vac, 380Vac, 400Vac, etc.
www.relaytest.comwww.relaytest.com
Why large output power is required?
1. The length of cable connecting amplifier and RTDS system
2. Quantity of relays which need to be connected together
Relations between cable type/length and output power can be better explained
with the following able.
Calculation condition:
1. Relay impedance : 0.1-0.2 ohm
2. Cable type: 4 sq mm at 25 °C
Relations between the voltage across current output and cable length
OutputPower(VA)
Voltage across
current output(V)
Max Load(ohm)
Max cable length (M)
PONOVO 30Bi/60Bi
7.5A(L-N)
22.5A(L-N)
30A(L-N)
50A(3L-N)
180A(3L-N)6 X 30A
7.5A(L-N)
22.5A(3L-N)
30A(3L-N)
50A(3L-N)
120
342
458
600
1260
70
210
200
160
Others
16
15.2
15
12
7
9.3
9.3
6.66
3.2
2.13
0.68
0.5
0.24
0.26
1.24
0.41
0.22
0.06
10…20
4…8
2..4
1..2
1..2
6…12
2..4
1...2
0
Why three phase power supply is considered?
Power supply and distribution
PAC30Bi
PAC30Bi
Main supply:three phase 380Vac
PAC30Bi
PAC30Bi
PAC30Bi
POWER
POWER
POWER
POWER
POWER
Once a number of amplifiers and generate the
maximum power at the same time, the power
consumption of the main power supply may become
huge. If there is single power supply it may cause
the unbalance for the three phase power supply
system.
In the following example 5 PAC30Bi amplifier units
(6*30A) are mounted on the panel. The maximum of
main supply power for each unit is about 2.5-3.0kVA
and the total power supply requirement is12.5-
15kVA. If 15kVA power is supplied by single phase
power supply sourceunbalance will be caused..
This is the reason why we design three phase main
supply on the panel.
Optional accessories
PDA24/PDA36 : the binary input & output converter
It is used to create isolation between protective relay and RTDS system
Inputs : 24 or 36 binary inputs, dry or wet (15-250Vdc)
Outputs : compatible to TTL, CMOS , Opto-coupler
galvanic
To relay
COM1
T1
H1
T2
H2
T3
H3
T4
H4
Ga
lva
nic
iso
lato
r
COM1
T1
H1
T2
H2
T3
H3
T4
H4
Lo
gic
ou
tpu
ts
To RTDS
PSS series Circuit Breaker Simulator
Application: simulate circuit breaker operation
Features:
�������
Can select 3 pole or 1 pole trippingSeparate coil for single closing and single trippingCan simulate circuit breaker failureSeparate settings for tripping and closing timeSeparate settings for tripping and closing currentProvide circuit breaker auxiliary contacts for complex test applicationsCan select single tripping coil and two tripping coils
Trip
Reclosing
Relay Relay trippingscheme
CircuitBreaker
Simulator
Trip
Close
Auxiliary tripping contact
Auxiliary closing contact
1413 www.relaytest.comwww.relaytest.com
Relay Test Simulation – with PAD24
RTDSPA
Amplifier
RELAY 1
RELAY 2Signal
I
U
I
U PAD24
Trip Signal
Trip Signal
Tripping and closing signal
RELAY N
I
U
Trip Signal
Control signal
Control
Control
Control
Relay Scheme
Simulation - with Circuit Breaker Simulator
RTDSPA
Amplifier
RELAY 1
RELAY 2Signa
l
I
U
I
UCircuit
Breaker
Simulator
Trip Signal
Trip Signal
Circuit Breaker Position Signal
RELAY N
I
U
Trip Signal
CB signal
CB signal
CB signal
Typical Application Example
Optional accessories
PDA24/PDA36 : the binary input & output converter
It is used to create isolation between protective relay and RTDS system
Inputs : 24 or 36 binary inputs, dry or wet (15-250Vdc)
Outputs : compatible to TTL, CMOS , Opto-coupler
galvanic
To relay
COM1
T1
H1
T2
H2
T3
H3
T4
H4
Ga
lva
nic
iso
lato
r
COM1
T1
H1
T2
H2
T3
H3
T4
H4
Lo
gic
ou
tpu
ts
To RTDS
PSS series Circuit Breaker Simulator
Application: simulate circuit breaker operation
Features:
�������
Can select 3 pole or 1 pole trippingSeparate coil for single closing and single trippingCan simulate circuit breaker failureSeparate settings for tripping and closing timeSeparate settings for tripping and closing currentProvide circuit breaker auxiliary contacts for complex test applicationsCan select single tripping coil and two tripping coils
Trip
Reclosing
Relay Relay trippingscheme
CircuitBreaker
Simulator
Trip
Close
Auxiliary tripping contact
Auxiliary closing contact
1413 www.relaytest.comwww.relaytest.com
Relay Test Simulation – with PAD24
RTDSPA
Amplifier
RELAY 1
RELAY 2Signal
I
U
I
U PAD24
Trip Signal
Trip Signal
Tripping and closing signal
RELAY N
I
U
Trip Signal
Control signal
Control
Control
Control
Relay Scheme
Simulation - with Circuit Breaker Simulator
RTDSPA
Amplifier
RELAY 1
RELAY 2Signa
l
I
U
I
UCircuit
Breaker
Simulator
Trip Signal
Trip Signal
Circuit Breaker Position Signal
RELAY N
I
U
Trip Signal
CB signal
CB signal
CB signal
Typical Application Example
Project Examples
1615
State Grid Consrtuction Company Limited
www.relaytest.comwww.relaytest.com
State Grid Nanjing Automation Research Institute
North China EPRI
Beijing Sifang Automation Co.,LtdEast China ElectricPower Test & Research Institute
Project Examples
1615
State Grid Consrtuction Company Limited
www.relaytest.comwww.relaytest.com
State Grid Nanjing Automation Research Institute
North China EPRI
Beijing Sifang Automation Co.,LtdEast China ElectricPower Test & Research Institute
1817
PONOVO Amplifier Reference List
www.relaytest.comwww.relaytest.com
Customer Name Country
2002
2003Shandong Electrical Power Research Institute East China Electric Power Test & Research Institute NARI Group CorporationXJ Group CO.,LTD State Grid Nanjing Automation CO.,LTD State Grid Nanjing Automation Research Institute Beijing Yiqun Engineering Consultant Co., LTD State Grid Consrtuction Company Limited North China Electrical Power Research Institute
2004
Sichuan Electrical Power Research Institute
Xi'an Jiaotong UniversityBeijing Sifang Automation Co., LTDFujian Electrical Power Research InstituteJiangsu Electrical Power Research InstituteBeijing Sifang Automation Co.,LTD
Tianjin UniversityEast China Electric Power Test & Research InstituteXJ Group CO.,LTDBeijing Sifang Automation Co., LTDNR Electric CO.,LTDChina Southern Power Grid CO.,LTDChina Electrical Power Research Institute
NR Electric CO.,LTDChina Electrical Power Research InstituteSouth China University of Technology
2007NR Electric CO.,LTDChina Electrical Power Research InstituteXJ Group CO.,LTDNARI Group CorporationBeijing Yiqun Engineering Consultant Co., LTDState Grid Consrtuction Company LimitedState Grid Nanjing Automation CO.,LTDState Grid Nanjing Automation Research InstituteHebei Electrical Power Research InstituteShanxi Electric Power Research InstituteShanghai Electric Power Transmission & Distribution Group
2008NR Electric CO.,LTDVNIIR,JSCChina Electrical Power Research InstituteBeijing Yiqun Engineering Consultant Co., LTDState Grid Consrtuction Company LimitedTsinghua UniversityZhejiang UniversityJiangxi Electrical Power Research InstituteInner Mongolia Electrical Power Research InstituteChongqing Electrical Power Research InstituteAnhui Power Electric Test & Research Institute
2009Beijing Jiaotong UniversityChina Electrical Power Research InstituteXJ Group CO.,LTDChina Agricultural UniversityNorth China Electric Power UniversityShanxi North West Grid Technology Center
2010NR Electric CO.,LTDExperiment & Verification Center of State Grid Electric Power Research InstituteChina Electrical Power Research InstituteNARI Group CorporationShandong Electric Power CollegeState Grid of Electrical Power Research Institute
China
ChinaChinaChinaChinaChinaChinaChinaChinaChina
ChinaChinaChinaChinaChina
ChinaChinaChinaChinaChinaChinaChina
ChinaChinaChina
ChinaChinaChinaChinaChinaChinaChinaChinaChinaChinaChina
ChinaRussiaChinaChinaChinaChinaChinaChinaChinaChinaChina
ChinaChinaChinaChinaChinaChina
ChinaChina
China
ChinaChinaChina
Voltage Source
12 120V*24 120V*
196 120V*146 120V*60 120V*
196 120V*12 120V*60 120V*36 120V*
18 120V*
18 120V*56 120V*14 120V*20 120V*56*120V
16 120V*24 120V*
146 120V*56 120V*
152 120V*108 120V*242*120V
152 120V*242 120V*12 120V*
152 120V*242 120V*146 120V*196 120V*12 120V*60 120V*60*120V
196 120V*24 120V*6 120V*
14 120V*
152 120V*12 120V*
242 120V*12 120V*60 120V*6 120V*
24 120V*16 120V*24 120V*12 120V*16 120V*
14 120V*242 120V*146 120V*18 120V*18*120V10 120V*
152 120V*200 120V*
242 120V*
196 120V*12 120V*
200 120V*
Current Source
9 60A/3 200A* *
9 60A*9 60A/6 200A* *
42 60A/210 30A/12 200A* * *138 60A/3*200A*27 60A/12 200A* *27 60A/56 30A* *
63 30A*66 30A/30 60A* *
12 60A/18 30A/6 200A* * *
6 60A/3 200A* *42 60A/9 200A/30 30A* * *
6 30A/3 200A* *9 60A/6 200A* *
42 60A/6 200A* *
12 60A*9 60A/6 200A* *
138 60A/3 200A* *42 60A/9 200A/30 30A* * *
78 60A/24 30A/24 10A/3 200A* * * *54 60A/30 30A/6 200A* * *
78 60A/87 30A/15 200A* * *
78 60A/24 30A/24 10A/3 200A* * * *78 60A/87 30A/15 200A* * *
9 60A*
78 60A/24 30A/24 10A/3*200A* * *78 60A/87 30A/15 200A* * *
138 60A/3 200A* *42 60A/210 30A/12 200A* * *
63 30A*66 30A/30 60A* *
27 60A/12 200A* *27 60A/56 30A* *
12 60A/6 30A/3 200A* * *6 200A*
6 60A/3 200A* *
78 60A/24 30A/24 10A/3*200A* * *9 200A*
78 60A/87 30A/15 200A* * *63 30A*
66 30A/30 60A* *3 30A/3 30A/6 200A* * *
18 30A*24 60A*
8 60A/12 30A* *24 60A/6 200A* *12 60A/9 30A* *
9 60A/6 30A* *78 60A/87 30A/15 200A* * *
138 60A/3 200A* *9 60A/6 30A/3 200A* * *
12 60A/6 200A* *6 60A/3 200A* *
78 60A/24 30A/24 10A/3 200A* * * *27 60A/123 30A* *
78 60A/87 30A/15 200A* * *
42 60A/210 30A/12 200A* * *9 30A*
27 60A/123 30A* *
2005
2006
Customer Name Voltage SourceCountry
2011
Washingtong State UniversityNational Research University "Moscow Power Engineering Institute" (MPEI)State Grid of China Technology CollegeXJ Group CO.,LTDChina Electrical Power Research InstituteBeijing Sifang Automation Co., LTDNR Electric CO.,LTDWuhan UniversityXi'an High Voltage Apparatus Research Insitute Co., LtdZhejiang Electrical Power Research Institute
2012“NTC EES”XJ Group CO.,LTDNARI Group CorporationSouthwest Jiaotong UniveristyShanghai University of Electric Power
USA
Russia
ChinaChinaChinaChinaChinaChinaChinaChina
RussiaChinaChinaChinaChina
Current Source
2013Kazan National Research Technical UniversityZhejiang Electrical Power Research InstituteNTC EESShanghai EletricInner Mongolia University of TechnologyNARI Group CorporationNR Electric CO.,LTDSouth China University of TechnologyCLP Power Engineering Co., LTD PurellShanghai Electric Group Co., LtdXian XD Power Systems Co., LtdThe 704 Research Institute of China ShipbuildingIndustry Corporation
RussiaChinaRussiaChinaChinaChinaChinaChinaChinaChinaChina
China
2014TeconTomsk Polytechnic University (TPU)CJSC ELAB"RTDS Technologies IncRTDS Technologies IncCONECTACONECTAXJ Group CO.,LTDSouth China University of TechnologyLiao Ning Electrical Power Research InstituteShandong Electrical Power Research InstituteJiang Su Electrical Power Research InstituteExperiment & Verification Center of State Grid ElectricPower Research InstituteNARI Group CorporationNR Electric CO.,LTDChina Southern Power Grid
RussiaRussiaRussiaRussiaRussiaChileChileChinaChinaChinaChinaChina
China
ChinaChinaChina
2015Xi'an Jiao Tong UniversityHua Dian Electric Power Research InsituteSouth China University of TechnologyChina Southern Power GridNR Electric CO.,LTDTaiyuan University of Technology
2016Taiyuan University of TechnologySi Chuan Electrical Power Research InstituteChina Southern Power GridNR Electric CO.,LTDNARI Group CorporationXJ Group CO.,LTDBeijing Sifang Automation Co., LTDZhe Jiang Electrical Power Research InstituteUniversity of ManchesterOpal-RT Technologies Inc.
2017Liao Ning EPRINR Electric CO.,LTDRussian Telecom Equipment Company (RTEC)Electrical Energy Research Center (CEPEL)
ChinaChinaChinaChinaChinaChina
ChinaChinaChinaChinaChinaChinaChinaChinaUKCanada
ChinaChinaRussiaBrazil
6 250V*
12 120V*
48 120V*146 120V*242 120V*56 120V*
152 120V*4 120V*
18 120V*20 120V*
6 30A*
6 30A/6 60A* *
15 60A/21 30A* *138 60A/3 200A* *
78 60A/87 30A/15 200A* * *42 60A/9 200A/30 30A* * *
78 60A/24 30A/24 10A/3 200A* * * *9 30A*
6 60A/3 200A* *27 30A*
12 250V*146 120V*196 120V*
8 120V*12 120V*
6 30A/ 3 60A* *138 60A/3 200A* *
42 60A/210 30A/12 200A* * *18 30A*
12 60A/3 200A* *
6 120V*20 120V*6 250V*
24 120V*16 120V*
196*120V152 120V*20 120V*
120 120V*24 120V*16 120V*
8 120V*
6 30A*27 30A*6 30A*
18 30A*6 60A/12 30A* *
42 60A/210 30A/12 200A* * *78 60A/24 30A/24 10A/3 200A* * * *
15 30A*90 30A*18 30A*12 60A*
6 30A*
6 120V*6 120V*6 120V*
/6 120V 2* *
/6 120V*
146 120V*24 120V*32 120V*12 120V*44 120V*
200 120V*
196 120V*152 120V*184 120V*
6 30A*6 30A*6 30A*
6 30A 2* */
6 30A*/
138 60A/3 200A* *18 30A*
6 200A/18 30A/6 60A* * *9 60A/3 200A* *
15 60A/18 30A/6 200A* * *
27 60A/123 30A* *
42 60A/210 30A/12 200A* * *78 60A/24 30A/24 10A/3 200A* * * *
54 60A/60 30A/6 200A* * *
20 120Vv*36 120V*24 120V*
184 120V*152 120V*
8 120V*
18 30A*12 60A/24 30A/6 200A* * *
18 30A*54 60A/60 30A/6 200A* * *
78 60A/24 30A/24 10A/3 200A* * * *6 30A*
8 120V*64 120V*
184 120V*152 120V*196 120V*146 120V*56 120V*20 120V*
3 30A*3*30A
6 30A*9 60A/3 200A/48 30A* * *
54 60A/60 30A/6 200A* * *78 60A/24 30A/24 10A/3 200A* * * *
42 60A/210 30A/12 200A* * *138 60A/3 200A* *
42 60A/9 200A/30 30A* * *27 30A/3 200A* *
6 30A*/
32 120V*152 120V*12 120V*12 30A*
6 200A/18 30A/6 60A* * *78 60A/24 30A/24 10A/3 200A* * * *
30 30A*/
1817
PONOVO Amplifier Reference List
www.relaytest.comwww.relaytest.com
Customer Name Country
2002
2003Shandong Electrical Power Research Institute East China Electric Power Test & Research Institute NARI Group CorporationXJ Group CO.,LTD State Grid Nanjing Automation CO.,LTD State Grid Nanjing Automation Research Institute Beijing Yiqun Engineering Consultant Co., LTD State Grid Consrtuction Company Limited North China Electrical Power Research Institute
2004
Sichuan Electrical Power Research Institute
Xi'an Jiaotong UniversityBeijing Sifang Automation Co., LTDFujian Electrical Power Research InstituteJiangsu Electrical Power Research InstituteBeijing Sifang Automation Co.,LTD
Tianjin UniversityEast China Electric Power Test & Research InstituteXJ Group CO.,LTDBeijing Sifang Automation Co., LTDNR Electric CO.,LTDChina Southern Power Grid CO.,LTDChina Electrical Power Research Institute
NR Electric CO.,LTDChina Electrical Power Research InstituteSouth China University of Technology
2007NR Electric CO.,LTDChina Electrical Power Research InstituteXJ Group CO.,LTDNARI Group CorporationBeijing Yiqun Engineering Consultant Co., LTDState Grid Consrtuction Company LimitedState Grid Nanjing Automation CO.,LTDState Grid Nanjing Automation Research InstituteHebei Electrical Power Research InstituteShanxi Electric Power Research InstituteShanghai Electric Power Transmission & Distribution Group
2008NR Electric CO.,LTDVNIIR,JSCChina Electrical Power Research InstituteBeijing Yiqun Engineering Consultant Co., LTDState Grid Consrtuction Company LimitedTsinghua UniversityZhejiang UniversityJiangxi Electrical Power Research InstituteInner Mongolia Electrical Power Research InstituteChongqing Electrical Power Research InstituteAnhui Power Electric Test & Research Institute
2009Beijing Jiaotong UniversityChina Electrical Power Research InstituteXJ Group CO.,LTDChina Agricultural UniversityNorth China Electric Power UniversityShanxi North West Grid Technology Center
2010NR Electric CO.,LTDExperiment & Verification Center of State Grid Electric Power Research InstituteChina Electrical Power Research InstituteNARI Group CorporationShandong Electric Power CollegeState Grid of Electrical Power Research Institute
China
ChinaChinaChinaChinaChinaChinaChinaChinaChina
ChinaChinaChinaChinaChina
ChinaChinaChinaChinaChinaChinaChina
ChinaChinaChina
ChinaChinaChinaChinaChinaChinaChinaChinaChinaChinaChina
ChinaRussiaChinaChinaChinaChinaChinaChinaChinaChinaChina
ChinaChinaChinaChinaChinaChina
ChinaChina
China
ChinaChinaChina
Voltage Source
12 120V*24 120V*
196 120V*146 120V*60 120V*
196 120V*12 120V*60 120V*36 120V*
18 120V*
18 120V*56 120V*14 120V*20 120V*56*120V
16 120V*24 120V*
146 120V*56 120V*
152 120V*108 120V*242*120V
152 120V*242 120V*12 120V*
152 120V*242 120V*146 120V*196 120V*12 120V*60 120V*60*120V
196 120V*24 120V*6 120V*
14 120V*
152 120V*12 120V*
242 120V*12 120V*60 120V*6 120V*
24 120V*16 120V*24 120V*12 120V*16 120V*
14 120V*242 120V*146 120V*18 120V*18*120V10 120V*
152 120V*200 120V*
242 120V*
196 120V*12 120V*
200 120V*
Current Source
9 60A/3 200A* *
9 60A*9 60A/6 200A* *
42 60A/210 30A/12 200A* * *138 60A/3*200A*27 60A/12 200A* *27 60A/56 30A* *
63 30A*66 30A/30 60A* *
12 60A/18 30A/6 200A* * *
6 60A/3 200A* *42 60A/9 200A/30 30A* * *
6 30A/3 200A* *9 60A/6 200A* *
42 60A/6 200A* *
12 60A*9 60A/6 200A* *
138 60A/3 200A* *42 60A/9 200A/30 30A* * *
78 60A/24 30A/24 10A/3 200A* * * *54 60A/30 30A/6 200A* * *
78 60A/87 30A/15 200A* * *
78 60A/24 30A/24 10A/3 200A* * * *78 60A/87 30A/15 200A* * *
9 60A*
78 60A/24 30A/24 10A/3*200A* * *78 60A/87 30A/15 200A* * *
138 60A/3 200A* *42 60A/210 30A/12 200A* * *
63 30A*66 30A/30 60A* *
27 60A/12 200A* *27 60A/56 30A* *
12 60A/6 30A/3 200A* * *6 200A*
6 60A/3 200A* *
78 60A/24 30A/24 10A/3*200A* * *9 200A*
78 60A/87 30A/15 200A* * *63 30A*
66 30A/30 60A* *3 30A/3 30A/6 200A* * *
18 30A*24 60A*
8 60A/12 30A* *24 60A/6 200A* *12 60A/9 30A* *
9 60A/6 30A* *78 60A/87 30A/15 200A* * *
138 60A/3 200A* *9 60A/6 30A/3 200A* * *
12 60A/6 200A* *6 60A/3 200A* *
78 60A/24 30A/24 10A/3 200A* * * *27 60A/123 30A* *
78 60A/87 30A/15 200A* * *
42 60A/210 30A/12 200A* * *9 30A*
27 60A/123 30A* *
2005
2006
Customer Name Voltage SourceCountry
2011
Washingtong State UniversityNational Research University "Moscow Power Engineering Institute" (MPEI)State Grid of China Technology CollegeXJ Group CO.,LTDChina Electrical Power Research InstituteBeijing Sifang Automation Co., LTDNR Electric CO.,LTDWuhan UniversityXi'an High Voltage Apparatus Research Insitute Co., LtdZhejiang Electrical Power Research Institute
2012“NTC EES”XJ Group CO.,LTDNARI Group CorporationSouthwest Jiaotong UniveristyShanghai University of Electric Power
USA
Russia
ChinaChinaChinaChinaChinaChinaChinaChina
RussiaChinaChinaChinaChina
Current Source
2013Kazan National Research Technical UniversityZhejiang Electrical Power Research InstituteNTC EESShanghai EletricInner Mongolia University of TechnologyNARI Group CorporationNR Electric CO.,LTDSouth China University of TechnologyCLP Power Engineering Co., LTD PurellShanghai Electric Group Co., LtdXian XD Power Systems Co., LtdThe 704 Research Institute of China ShipbuildingIndustry Corporation
RussiaChinaRussiaChinaChinaChinaChinaChinaChinaChinaChina
China
2014TeconTomsk Polytechnic University (TPU)CJSC ELAB"RTDS Technologies IncRTDS Technologies IncCONECTACONECTAXJ Group CO.,LTDSouth China University of TechnologyLiao Ning Electrical Power Research InstituteShandong Electrical Power Research InstituteJiang Su Electrical Power Research InstituteExperiment & Verification Center of State Grid ElectricPower Research InstituteNARI Group CorporationNR Electric CO.,LTDChina Southern Power Grid
RussiaRussiaRussiaRussiaRussiaChileChileChinaChinaChinaChinaChina
China
ChinaChinaChina
2015Xi'an Jiao Tong UniversityHua Dian Electric Power Research InsituteSouth China University of TechnologyChina Southern Power GridNR Electric CO.,LTDTaiyuan University of Technology
2016Taiyuan University of TechnologySi Chuan Electrical Power Research InstituteChina Southern Power GridNR Electric CO.,LTDNARI Group CorporationXJ Group CO.,LTDBeijing Sifang Automation Co., LTDZhe Jiang Electrical Power Research InstituteUniversity of ManchesterOpal-RT Technologies Inc.
2017Liao Ning EPRINR Electric CO.,LTDRussian Telecom Equipment Company (RTEC)Electrical Energy Research Center (CEPEL)
ChinaChinaChinaChinaChinaChina
ChinaChinaChinaChinaChinaChinaChinaChinaUKCanada
ChinaChinaRussiaBrazil
6 250V*
12 120V*
48 120V*146 120V*242 120V*56 120V*
152 120V*4 120V*
18 120V*20 120V*
6 30A*
6 30A/6 60A* *
15 60A/21 30A* *138 60A/3 200A* *
78 60A/87 30A/15 200A* * *42 60A/9 200A/30 30A* * *
78 60A/24 30A/24 10A/3 200A* * * *9 30A*
6 60A/3 200A* *27 30A*
12 250V*146 120V*196 120V*
8 120V*12 120V*
6 30A/ 3 60A* *138 60A/3 200A* *
42 60A/210 30A/12 200A* * *18 30A*
12 60A/3 200A* *
6 120V*20 120V*6 250V*
24 120V*16 120V*
196*120V152 120V*20 120V*
120 120V*24 120V*16 120V*
8 120V*
6 30A*27 30A*6 30A*
18 30A*6 60A/12 30A* *
42 60A/210 30A/12 200A* * *78 60A/24 30A/24 10A/3 200A* * * *
15 30A*90 30A*18 30A*12 60A*
6 30A*
6 120V*6 120V*6 120V*
/6 120V 2* *
/6 120V*
146 120V*24 120V*32 120V*12 120V*44 120V*
200 120V*
196 120V*152 120V*184 120V*
6 30A*6 30A*6 30A*
6 30A 2* */
6 30A*/
138 60A/3 200A* *18 30A*
6 200A/18 30A/6 60A* * *9 60A/3 200A* *
15 60A/18 30A/6 200A* * *
27 60A/123 30A* *
42 60A/210 30A/12 200A* * *78 60A/24 30A/24 10A/3 200A* * * *
54 60A/60 30A/6 200A* * *
20 120Vv*36 120V*24 120V*
184 120V*152 120V*
8 120V*
18 30A*12 60A/24 30A/6 200A* * *
18 30A*54 60A/60 30A/6 200A* * *
78 60A/24 30A/24 10A/3 200A* * * *6 30A*
8 120V*64 120V*
184 120V*152 120V*196 120V*146 120V*56 120V*20 120V*
3 30A*3*30A
6 30A*9 60A/3 200A/48 30A* * *
54 60A/60 30A/6 200A* * *78 60A/24 30A/24 10A/3 200A* * * *
42 60A/210 30A/12 200A* * *138 60A/3 200A* *
42 60A/9 200A/30 30A* * *27 30A/3 200A* *
6 30A*/
32 120V*152 120V*12 120V*12 30A*
6 200A/18 30A/6 60A* * *78 60A/24 30A/24 10A/3 200A* * * *
30 30A*/
Power Amplifier for
Real Time Digital Simulation
PONOVO POWER CO., LTD.
PONOVO POWER CO., LTD.
No.139 Jinghai Third Road, BDA, Beijing, China. 100176Tel : +86 (10) 59089666Fax : +86 (10) [email protected]@relaytest.com