HIGH POWER LOW-PROFILE PROGRAMMABLE DC POWER SUPPLY
- Voltage range: 6V to 650V
- Current: 1.2A to 600A
- Power: 0.75kW to 15kW
- High Power
- Standard Interface
LAN, USBTMC, RS-485 
Compact CVCC Programmable and Variable DC Power Supply
The PVCE/PVCEJ series is a low-profile DC power supply offering high performance and high power, with a strong emphasis on a broad product lineup and high reliability. Achieving high-efficiency noise reduction with our unique low-noise switching method, the PVCE/PVCEJ is suitable for high-density rack mounting. With a wide variety of applications, we assure you that the PVCE/PVCEJ series is perfect for fully supporting your research and development.
(All models are CE marking. Some models are UL60950-1 recognized products.)
The product is designed to be installed in the customer's system so as to meet the requirements of CE marking regarding chassis mounting, noise control, proper protection, and isolated devices. It is not designed to perform alone.
FEATURES AND BENEFITS
- Compact and high power up to 15 kW
- Ideal for research and development with a low-noise switching method.
- Power Factor Correction (PFC) circuit and universal input allows for operation regardless of location.
- Various operations, such as master/slave configurations, are possible by connecting multiple power supplies.
- PVCE/PVCEJ adopts a large four-digit monitor display for both voltage and current, which contributes to precise monitoring with better recognition.
- Operability and safety are enhanced by new features such as a key-lock function and an acceleration rotary encoder, where the increment step size varies with the rotation speed.
APPLICATIONS
-
Test and measurement
Test and measurement for electronic parts, devices, modules, and Printed Circuit Boards (PCB)
-
Automated Test Equipment (ATE)
Automated Test Equipment (ATE) for automotive instruments, various electronic components, etc.
-
Semiconductor processing
Semiconductor manufacturing equipment such as Photolithography, Deposition, Ion implantation DC power supplies for RF, Electromagnets, Beam steering, and Heaters
-
Burn-in testing
Burn-in testing for semiconductor devices and Electronic components
-
Renewable energy
Development of Hydrogen and Ammonia production equipment, Fuel cells, Solar cells, Secondary cells, Wind turbine, Power inverters, DC-DC converters
-
Scientific research, Medical equipment, etc
The PVCE/PVCEJ series has been designed to suit a wide variety of DC power supply needs.
Models
The PVCEJ series is compatible with half-rack widths, and the PVCE series is compatible with 19-inch racks.
Half: half-rack width
| Model | Maximum Output | Safety Standards | ||
|---|---|---|---|---|
| Voltage | Current | Power | ||
| HalfPVCEJ6-130 | 6 V | 130 A | 0.78 kW |   |
| PVCE6-130 | 130 A | 0.78 kW | |
|
| PVCE6-220 | 220 A | 1.3 kW | |
|
| PVCE6-310 | 310 A | 1.8 kW | |
|
| PVCE6-530 | 530 A | 3.2 kW | |
|
| HalfPVCEJ8-100 | 8 V | 100 A | 0.8 kW | |
| PVCE8-100 | 100 A | 0.8 kW | |
|
| PVCE8-180 | 180 A | 1.4 kW | |
|
| PVCE8-300 | 300 A | 2.4 kW | |
|
| PVCE8-400 | 400 A | 3.2 kW | |
|
| PVCE8-600 | 600 A | 4.8 kW | |
|
| HalfPVCEJ10-80 | 10 V | 80 A | 0.8 kW | |
| PVCE10-80 | 80 A | 0.8 kW | |
|
| PVCE10-150 | 150 A | 1.5 kW | |
|
| PVCE10-240 | 240 A | 2.4 kW | |
|
| PVCE10-340 | 340 A | 3.4 kW | |
|
| PVCE10-510 | 510 A | 5.1 kW | |
|
| HalfPVCEJ12.5-64 | 12.5 V | 64 A | 0.8 kW | |
| PVCE12.5-64 | 64 A | 0.8 kW | |
|
| PVCE12.5-120 | 120 A | 1.5 kW | |
|
| PVCE12.5-190 | 190 A | 2.4 kW | |
|
| HalfPVCEJ15-54 | 15 V | 54 A | 0.81 kW | |
| PVCE15-54 | 54 A | 0.81 kW | |
|
| PVCE15-100 | 100 A | 1.5 kW | |
|
| PVCE15-160 | 160 A | 2.4 kW | |
|
| PVCE15-227 | 227 A | 3.4 kW | |
|
| PVCE15-340 | 340 A | 5.1 kW | |
|
| HalfPVCEJ16-50 | 16 V | 50 A | 0.8 kW | |
| PVCE16-50 | 50 A | 0.8 kW | |
|
| PVCE16-95 | 95 A | 1.5 kW | |
|
| PVCE16-150 | 150 A | 2.4 kW | |
|
| PVCE16-220 | 220 A | 3.5 kW | |
|
| PVCE16-320 | 320 A | 5.1 kW | |
|
| HalfPVCEJ20-40 | 20 V | 40 A | 0.8 kW | |
| PVCE20-40 | 40 A | 0.8 kW | |
|
| PVCE20-80 | 80 A | 1.6 kW | |
|
| PVCE20-125 | 125 A | 2.5 kW | |
|
| PVCE20-170 | 170 A | 3.4 kW | |
|
| PVCE20-260 | 260 A | 5.2 kW | |
|
| HalfPVCEJ30-27 | 30 V | 27 A | 0.81 kW | |
| PVCE30-27 | 27 A | 0.81 kW | |
|
| PVCE30-53 | 53 A | 1.6 kW | |
|
| PVCE30-84 | 84 A | 2.5 kW | |
|
| PVCE30-115 | 115 A | 3.5 kW | |
|
| PVCE30-180 | 180 A | 5.4 kW | |
|
| PVCE35-45 | 35 V | 45 A | 1.6 kW | |
| PVCE35-72 | 72 A | 2.5 kW | |
|
| HalfPVCEJ40-20 | 40 V | 20 A | 0.8 kW | |
| PVCE40-20 | 20 A | 0.8 kW | |
|
| PVCE40-40 | 40 A | 1.6 kW | |
|
| PVCE40-62 | 62 A | 2.4 kW | |
|
| PVCE40-85 | 85 A | 3.4 kW | |
|
| PVCE40-130 | 130 A | 5.2 kW | |
|
| PVCE40-250 Coming soon | 250 A | 10 kW | |
|
| HalfPVCEJ45-18 | 45 V | 18 A | 0.81 kW | |
| PVCE45-18 | 18 A | 0.81 kW | |
|
| PVCE45-35 | 35 A | 1.5 kW | |
|
| PVCE45-55 | 55 A | 2.4 kW | |
|
| PVCE45-78 | 78 A | 3.5 kW | |
|
| PVCE45-120 | 120 A | 5.4 kW | |
|
| PVCE50-31 | 50 V | 31 A | 1.5 kW | |
| HalfPVCEJ60-13.5 | 60 V | 13.5 A | 0.81 kW | |
| PVCE60-13.5 | 13.5 A | 0.81 kW | |
|
| PVCE60-26 | 26 A | 1.5 kW | |
|
| PVCE60-42 | 42 A | 2.5 kW | |
|
| PVCE60-60 | 60 A | 3.6 kW | |
|
| PVCE60-90 | 90 A | 5.4 kW | |
|
| HalfPVCEJ80-10 | 80 V | 10 A | 0.8 kW | |
| PVCE80-10 | 10 A | 0.8 kW | |
|
| PVCE80-20 | 20 A | 1.6 kW | |
|
| PVCE80-31 | 31 A | 2.4 kW | |
|
| PVCE80-45 | 45 A | 3.6 kW | |
|
| PVCE80-68 | 68 A | 5.4 kW | |
|
| HalfPVCEJ100-8 | 100 V | 8 A | 0.8 kW | |
| PVCE100-8 | 8 A | 0.8 kW | |
|
| PVCE100-16 | 16 A | 1.6 kW | |
|
| PVCE100-25 | 25 A | 2.5 kW | |
|
| PVCE100-36 | 36 A | 3.6 kW | |
|
| PVCE100-55 | 55 A | 5.5 kW | |
|
| HalfPVCEJ120-6.6 | 120 V | 6.6 A | 0.79 kW | |
| PVCE120-6.6 | 6.6 A | 0.79 kW | |
|
| HalfPVCEJ150-5 | 150 V | 5 A | 0.75 kW | |
| PVCE150-5 | 5 A | 0.75 kW | |
|
| PVCE150-10 | 10 A | 1.5 kW | |
|
| PVCE150-16.6 | 16.6 A | 2.5 kW | |
|
| PVCE150-24 | 24 A | 3.6 kW | |
|
| PVCE150-36 | 36 A | 5.4 kW | |
|
| HalfPVCEJ160-5 | 160 V | 5 A | 0.8 kW | |
| PVCE160-5 | 5 A | 0.8 kW | |
|
| HalfPVCEJ200-4 | 200 V | 4 A | 0.8 kW | |
| PVCE200-4 | 4 A | 0.8 kW | |
|
| PVCE200-8 | 8 A | 1.6 kW | |
|
| PVCE200-12.5 | 12.5 A | 2.5 kW | |
|
| PVCE200-18 | 18 A | 3.6 kW | |
|
| PVCE200-27 | 27 A | 5.4 kW | |
|
| HalfPVCEJ250-3.2 | 250 V | 3.2 A | 0.8 kW | |
| PVCE250-3.2 | 3.2 A | 0.8 kW | |
|
| HalfPVCEJ300-2.5 | 300 V | 2.5 A | 0.75 kW | |
| PVCE300-2.5 | 2.5 A | 0.75 kW | |
|
| PVCE300-5.3 | 5.3 A | 1.6 kW | |
|
| PVCE300-8.3 | 8.3 A | 2.5 kW | |
|
| PVCE300-12 | 12 A | 3.6 kW | |
|
| PVCE300-18 | 18 A | 5.4 kW | |
|
| HalfPVCEJ350-2.2 | 350 V | 2.2 A | 0.77 kW | |
| PVCE350-2.2 | 2.2 A | 0.77 kW | |
|
| PVCE400-13 | 400 V | 13 A | 5.2 kW | |
| HalfPVCEJ500-1.6 | 500 V | 1.6 A | 0.8 kW | |
| PVCE500-1.6 | 1.6 A | 0.8 kW | |
|
| PVCE500-3.2 | 3.2 A | 1.5 kW | |
|
| PVCE500-5 | 5 A | 2.5 kW | |
|
| PVCE500-7 | 7 A | 3.5 kW | |
|
| PVCE500-11 | 11 A | 5.5 kW | |
|
| HalfPVCEJ600-1.3 | 600 V | 1.3 A | 0.78 kW | |
| PVCE600-1.3 | 1.3 A | 0.78 kW | |
|
| PVCE600-2.7 | 2.7 A | 1.6 kW | |
|
| PVCE600-4.1 | 4.1 A | 2.4 kW | |
|
| PVCE600-6 | 6 A | 3.6 kW | |
|
| PVCE600-9 | 9 A | 5.4 kW | |
|
| HalfPVCEJ650-1.2 | 650 V | 1.2 A | 0.78 kW | |
| PVCE650-1.2 | 1.2 A | 0.78 kW | |
|
| PVCE650-2.5 | 2.5 A | 1.6 kW | |
|
| PVCE650-3.8 | 3.8 A | 2.5 kW | |
|
| PVCE650-5.5 | 5.5 A | 3.6 kW | |
|
| PVCE650-8.5 | 8.5 A | 5.5 kW | |
|
| PVCE650-23 Coming soon | 23 A | 15 kW | |
|
Functions
Pulse or Ramp sequence, Master following
The series meets a wider range of applications through the following output control functions.
A. Pulse (Step) Sequence Function
The Sequence function lets you generate complex voltage and current patterns by automatically cycling through settings stored in memories a, b, and c. You can run the sequence continuously or for a specified number of cycles. By setting the duration of any step (a, b, c, or off) to 0.0, you can easily skip steps to create custom test patterns. This flexibility is ideal for product evaluation and reliability testing.
The parameters ta, tb, tc, and toff can be set to 0.0 s, or from 1.0 s to 9999 h 59 m 59.9 s.
B. Ramp Function
The Ramp function provides linear control to gradually increase the output to a set voltage/current, or decrease it to zero. This feature is useful for applications that require a slow power-up or power-down.
* The ramp operation can be applied to: Voltage and Current, Voltage Only, or Current Only.
The t1 and t2 parameters can be set to 0.0 s, or from 1.0 s to 9999 h 59 m 59.9 s.
C. Combined Sequence and Ramp
For advanced control, the Sequence and Ramp functions can be used together. This allows you to create complex profiles by smoothly ramping the voltage and/or current between the discrete steps defined in memories a, b, and c. The entire waveform can be run continuously or for a pre-set number of cycles, making it a powerful tool for various testing scenarios.
t1 to t4, ta to tc and toff can be set to 0.0 s, or from 1.0 s to 9999 h 59 m 59.9 s.
D. Master follow (Tracking)
Master-follow (Tracking) is a function where a slave unit follows the output status of the master unit in a master/slave connection. The output status of the master equipment is transmitted to the slave equipment to enable interlocked operation. The master and slave can be set to different modes of operation, allowing for complex testing.
Dual tracking, Multi output
Dual tracking control, generating both positive and negative outputs, is available by configuring units in a master/slave setup. In addition, using the slave local mode, the dual tracking operation can consist of multiple outputs. The positive (+V) and negative (-V) outputs in a dual output configuration will synchronize when the master unit's power is turned on.
- Download brochre for detailed connection.
- With the output voltage exceeding 250 V, dual tracking is not available.
Dual tracking
Multiple output
Multiple digital interface
This product comes standard with LAN, USB*, and RS-485 port, providing flexible connectivity for various communication environments. (Simultaneous use of interfaces is not supported.) Furthermore, an SCPI-compliant IVI driver is available for download from our website. This driver simplifies the development of control programs using a wide variety of languages such as LabVIEW, MATLAB, Python, C#, and Visual Basic.
*The USB port conforms to the USB Test and Measurement Class (USBTMC) protocol. If your application requires compatibility with the USB Communications Device Class (USB CDC), the RS-485 port can be used as a virtual COM port by using a third-party USB to RS-485 adapter.
Sink current suppression
When supplying power to capacitive loads such as batteries or large capacitors, the sink current suppression function reduces reverse current flow from the load back to the power supply. This prevents a voltage drop on the load when the output is turned OFF or the set voltage is lowered.
NOTE:
This function does not actively regulate or control back current to stabilize the output. For loads that can generate an inverse voltage or a voltage exceeding the power supply's rating (e.g., inductive loads or regenerative motors), protect the power supply by adding an external dummy resistor or diode to prevent back current.
Multiple setting
This series includes a function to store up to three sets of voltage and current values, in addition to the standard preset function.
This eliminates the need to readjust settings each time, which is particularly effective for repetitive experimental data collection or manufacturing inspection processes.
Master/Slave control
The collective control function is available for connecting up to 15 slave units to a master unit.
- (A) Modular cable (CO-M cable)
- Products equipped with dedicated digital communication ports are supplied with one 2-meter cable per unit. 0.15 meters or 0.5 meters in length is also available as an option. If you need more than 2 meters or use it in a noisy environment, we recommend the optical interface (-LGob option)
Key locking
The operation on the front panel can be locked to ensure no operational errors.
(Emergency stop operation using the POWER ON/OFF switch is possible in either mode.)
Since all front panel switches (except for the LOCK release mechanism) are locked, this feature is highly effective in preventing accidental operation or erroneous adjustments, especially during remote control.
- Please note that each of the power supplies connected in parallel has no function for equally keeping the current output of the power supply. If you need a power supply with equal current output, please consult with our sales representatives.
- In master/slave control, the connection must be made between the same models.
External analog remote control
-
External Output ON/OFF
Output can be turned ON/OFF by relay or TTL signal. The logic of the ON/OFF signal can be reversed. -
Remote Sensing
The function ensures the prevention of stability deterioration which could be caused by the voltage drop (Vo-VL) due to resistance (R) of the output wire or contact resistance. -
Remote/Local Switching
As for the output voltage control, output current control, overvoltage protection, and overcurrent protection, the remote/local mode can be individually switched by relay or TTL signal. - Output Monitor (Voltage, Current)
- Output Control (Voltage, Current)
- Status Output
When you connect an electrical load that gives out high energy pulse output, have the Analog remote control terminal (TB1) isolated to prevent damage to the power supply unit or install -LGob/-LIs/-LRcp option.
Digital Control
The minimum value of each model is the same as the smallest digit displayed on the front panel
| Digital Controlling |
|
|
|---|---|---|
| Writing |
|
|
| Reading |
|
|
Example of Connection and Operation
Using the same multiple units of PVCE/PVCEJ series, the output voltage and output current can be increased by connecting the outputs in series or parallel.
As to the control, the use of local control or digital master/slave control is recommended.
Analog remote control terminal (TB1) is connected to the negative output, so do not share the common with more than two units.
Series connection
The total output voltage is up to 250 V.
The output voltage exceeding 250 V is unavailable in a series connection.
The output current will be the smallest value.
Parallel connection
Use the same value for the voltage setting in a parallel connection.
The output current is the sum of each current. In order to prevent damage, set the OVP level of all the power supplies to the maximum.
Split connection
+output and –output are available.
With the output voltage exceeding 250V, a split operation is not available.
Specifications
- Input voltage
-
100 to 240 Vac, 50/60 Hz, Single-phase
200 to 240 Vac, 50/60 Hz, Single-phase
200 to 230 Vac, 50/60 Hz, Three-phase
200 to 240 Vac, 50/60 Hz, Three-phase
400 Vac ±10%, 50/60 Hz, Three-phase (Option) - Output voltage control
-
[Local] Rotary encoder on front panel
[Analog remote] External control voltage 0 to 10 Vdc/0 to 5 Vdc or external 10kΩ/5kΩ potentiometer (selectable)
[Digital remote] Command - Output current control
-
[Local] Rotary encoder on front panel
[Analog remote] External control voltage 0 to 10 Vdc/0 to 5 Vdc or external 10kΩ/5kΩ potentiometer (selectable)
[Digital remote] Command
For details, download the datasheet below.
FAQs
- How should I choose a circuit breaker for a high-power DC power supply?
- Can we use multiple thin wires to connect the power supply to the load instead of thick wires?
- We are concerned that the output terminal is equipped with a metal cover. Is it safe to use it as it is?
- What precautions should be taken for parallel connection of the power supplies?
- Do you have any tips for extending the service life of power supplies?
Options
- -LGob **1 *2
-
Optical Interface port
With optical communication, isolation control is performed. As complete isolation is performed by means of optical fiber, this enables advanced prevention of erroneous operations involved with transient phenomena caused by surges, inductive lightning, external noise, etc.- -LGob: Optical Interface port + optical cable 2 meters
- -LGob(Fc5): Optical Interface port + optical cable 5 meters
- -LGob(Fc10): Optical Interface port + optical cable 10 meters
- -LGob(Fc20): Optical Interface port + optical cable 20 meters
- -LGob(Fc40): Optical Interface port + optical cable 40 meters
Select the optional optical interface port (-LGob) when using this DC power supply under the following conditions.
- Noisy environments such as factories
(example: when motors or coils are used nearloads or power sources). - If this power supply and your controller (PC or PLC) cannot be installed within 2 meters.
- When there is a possibility of arcing or output short-circuit.
The optical communication adapter on the control side should be purchased separately.
For details, click here.
- -LIs *1 *2
-
Galvanic isolation and external analog remote control
The output control signal in the external analog remote control is galvanically isolated from common (–output terminal).
Floating the control signal in negative output or in a series connection is not required. (Withstand voltage from –output is up to 650 V.)
Galvanic Isolation from common (–output terminal) is also applied to the following signals and switches.Output control Constant voltage: External control voltage 0 to 5 V or 0 to 10 V
Constant current: External control voltage 0 to 5 V or 0 to 10 VOutput monitor Constant voltage: 0 to 5 V or 0 to 10 V
Constant current: 0 to 5 V or 0 to 10 VOther functions External output ON/OFF
Interlock (This function does not satisfy UL and CE safety interlocks.)
Voltage mode switching of Local/Remote
Current mode switching of Local/Remote
- -LRcp *1 *2
-
Galvanic isolation and external analog remote control of current The external analog signal is galvanically isolated. The control of current is provided instead of voltage.
The -LRcp option has a stronger feature against noise involving the control signals.Output control Constant voltage: External control current 4mA to 20 mA
Constant current: External control current 4mA to 20 mAOutput monitor Constant voltage: 4mA to 20 mA
Constant current: 4mA to 20 mAOther functions External output ON/OFF
Interlock (This function does not satisfy UL and CE safety interlocks.)
Voltage mode switching of Local/Remote
Current mode switching of Local/Remote
- -L(Mc0.5), -L(Mc0.15)
-
Change of communications cable
The CO-M cable length can be selected from 0.5 meters or 0.15 meters. (Please choose one of the two cables described above.)
- -L(3P), -L(1P)
-
Change of phase number in AC input
To see for details, please download the datasheet.
- -L(400V)
-
Input voltage 400 Vac ±10%
(Soon to be available for 3.2 kW to 5.5 kW models)
Contact our sales representatives for details.
- These options cannot be selected simultaneously. Only a single option can be selected.
- When selecting these options, Multiple Digital Interface function is not available.
How to Order
When placing an order, please add the option code(s) after the model name. If adding two or more options, omit the “-L” from the second and subsequent option codes, and list them in alphabetical order, with the parentheses option placed at the end.
Example:
PVCE6-310-LGob(Fc40)(3P)
PVCE10-80-LIs(Mc0.5)
PVCEJ350-2.2-LRcp(Mc0.15)
Additional Products
- AC input cable
-
Select an appropriate AC input cable according to your operating environment and region.
Please note that other than AC input cables that correspond to the following are to be prepared by customers.Standard
(0.75 kW to 0.81 kW models)CABLE TYPE8 
125 V/15 A
(For Japan or North America)2.5 meters Fixed length
Sold separately
(0.75 kW to 0.81 kW models)CABLE TYPE3 
250 V/10 A
(For Europe)2.5 meters Fixed length
Sold separately
(1.3kW to 2.5 kW models)CABLE TYPE5 
300 V/25 A
(For Japan or North America)2.5 meters Sold separately
(2.5kW to 5.5 kW models)CABLE TYPE6
(For Japan)
600 V/25 A 2.5 meters Sold separately
(10 kW to 15 kW models)CABLE TYPE7 
600 V / 75 A
(For Japan)10 meters
- Digital interface port
-
This is Matsusada Precision's proprietary digital communication port. This interface has modular type IN and OUT ports to allow daisy-chain connection. Combined with an adapter (sold separately). Multiple power supplies can be controlled at once. Adapters for LAN, USB, RS-232C, RS-485, and GPIB are available so that you can choose a suitable communication interface. One-control operation by master/slave connection is also possible.
To use the digital interface, you need to prepare a digital interface adapter separately. The following interface adapters are available according to your controller port.
- CO-E32m: LAN Adapter
- CO-U32m: USB Adapter
- CO-MET2-9: RS-232C (9 pin) Adapter
- CO-MET2-25: RS-232C (25 pin) Adapter
- CO-MET4-25: RS-485 (25 pin) Adapter
(CO-MET2-9/CO-MET2-25/CO-MET4-25: The connector is D-sub type.) - CO-G32m: GPIB Adapter (Scheduled for discontinuation in December 2028)
Example of communication with a digital adapter 
For details, refer to CO/USB series
- Optical isolation adapter
-
To use the optical interface, you need to prepare an optical interface adapter separately. The following interface adapters are available according to your controller port.
- CO-E32: LAN to optical interface adapter
- USB-OPT: USB to optical interface adapter
- CO-OPT2-9: RS-232C (9 pin) to optical interface adapter
- CO-OPT2-25: RS-232C (25 pin) to optical interface adapter
- CO-OPT4-25: RS-485 (25 pin) to optical interface adapter
- CO-G32: GPIB to optical interface adapter (Scheduled for discontinuation in December 2028)
Example of communication with optical fiber 
For details, refer to CO/USB series
- Application software
-
PSS2en series: Remote control, Test workflow design, and Data logging
Click here for the PSS2en seriesPSS2en is the dedicated software that can actuate various power supplies, electronic loads, and digital controllers for power supplies manufactured by Matsusada Precision Inc. with a simple setup.
It is perfect for the aging test, the burn-in test, and the withstand voltage test for electronic parts, as well as for the endurance test, intermittent/continuous operation test, or various simulation tests for automobile electric components.
Dimensions
Download
If you are unable to download a file
Please try the following solution.
- Please press Ctrl+F5 to clear the cache of your web browser and try again.
- Please restart your web browser and log in again to try again.
- Please change your web browser to another browser and try again.
- Restart the computer and try again.
- Please try again on a different computer.
-
PVCE series Datasheet
Date: 2025-10-24 rev 18
PDF (3,589 KB)
-
DC POWER SUPPLIES SELECTION GUIDE
Date: 2025-06-27 rev.02
PDF (5,265 KB)
-
How to Use DC Power Supplies
Date: 2025-11-11 rev 09
PDF (1,281 KB)
-
PVCE/PVCEJ series Basic Instruction Manual (Both Japanese and English)
Date: 2020-09-10 rev 1.0
PDF (1,034 KB)
-
PVCE/PVCEJ series Instruction Manual
Date: 2020-09-01 rev0.0
PDF (4,029 KB)
-
PVCE/PVCEJ series Interface Manual
Date: 2024-8-6 rev 0.1
PDF (2,044 KB)
-
PVCE/PVCEJ series IVI Driver
Date: 2020-12-22 rev. 00
ZIP (8,556 KB)
-
PVCE series Outline Drawing (DXF, PDF)
Date: 2020-06-01
zip (14,784 KB)
-
PVCE series (3.2kW to 5.5kW) (Terminal board type) 3D MODELS (STEP, IGES)
Date: 2025-10-29
ZIP (13,174 KB)
Login Required
-
PVCE series Datasheet
Date: 2025-10-24 rev 18
PDF (3,589 KB)
-
DC POWER SUPPLIES SELECTION GUIDE
Date: 2025-06-27 rev.02
PDF (5,265 KB)
-
How to Use DC Power Supplies
Date: 2025-11-11 rev 09
PDF (1,281 KB)
-
PVCE/PVCEJ series Basic Instruction Manual (Both Japanese and English)
Date: 2020-09-10 rev 1.0
PDF (1,034 KB)
-
PVCE/PVCEJ series Instruction Manual
Date: 2020-09-01 rev0.0
PDF (4,029 KB)
-
PVCE/PVCEJ series Interface Manual
Date: 2024-8-6 rev 0.1
PDF (2,044 KB)
-
PVCE/PVCEJ series IVI Driver
Date: 2020-12-22 rev. 00
ZIP (8,556 KB)
-
PVCE series Outline Drawing (DXF, PDF)
Date: 2020-06-01
zip (14,784 KB)
-
PVCE series (3.2kW to 5.5kW) (Terminal board type) 3D MODELS (STEP, IGES)
Date: 2025-10-29
ZIP (13,174 KB)
On this website, we provide only the latest versions of information and instruction manuals for our products. Therefore, the newest versions of manuals on the website may differ from those that came with products you purchased in the past.
