Data Sheet
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Technical data subject to change
© B&K Precision Corp. 2018
The PVS10005, PVS60085, and PVS60085MR
programmable DC power supplies offer clean
output power up to 5.1 kW, excellent regulation,
and fast transient response time characteristics in
an industry leading 2U package.
These power supplies provide many useful
features such as high programming resolution,
multiple remote interfaces for test systems, and a
built-in SAS (solar array simulator) function to
generate PV (photovoltaic) I-V curves. The
optional SAS software allows users to consistently
reproduce various I-V curves to test a PV
inverter’s MPPT efficiency.
For benchtop applications, this series provides an
intuitive user interface with full keypad and rotary
knob. System integrators benefit from the standard
USB (virtual COM), RS232, GPIB, and LAN
interfaces supporting SCPI commands. Free
application software and a complete set of
LabVIEW drivers are available to reduce
Features & Benefits
Compact, high power density, 2U package
Output up to 1000 V / 5 A (PVS10005) and
600 V / 8.5 A (PVS60085 & PVS60085MR)
Convenient single-phase AC input
configuration
Bright VFD display
High voltage and current resolution of 0.1 V,
0.1 mA (PVS10005) or 10 mV, 0.2 mA
(PVS60085 & PVS60085MR)
Fast transient response time of 0.5 ms
Adjustable voltage and current slope (rise and
fall times)
List mode: 9 user-defined programs with up to
100 programmable steps each
Built-in SAS function for storage of up to 16
I-V curves with Voc, Isc, Vmp, and Imp
parameters and 1024-point table
Store up to 100 different instrument settings
to internal memory
Control up to 30 power supplies from one PC
via the RS485 interface
Timer-controlled output (1 s to 1000 hrs)
Standard USB (virtual COM), RS232, RS485,
GPIB and LAN interfaces
External analog programming and monitoring
interface
Extensive protection features: OVP, OCP, OPP,
OTP, foldback protection mode, and key-lock
function
Front to rear airflow allows for efficient cooling
in high rack density environments
Master/slave mode for parallel operation
LabVIEW™ driver and softpanel for remote
control, test sequence generation, and
datalogging available
programming time and increase productivity. The
application software allows users to control the
power supply, execute test sequences, or log
measurements. It also integrates with Data
Dashboard for LabVIEW apps, enabling users to
remotely monitor select measurement indicators
with iOS, Android, or Windows 8 compatible
tablets or smart phones.
These power supplies are well suited for both
bench use and ATE systems integration, R&D,
design verification, production test, and high
voltage testing.
High Power Programmable DC Power Supplies
PVS Series
Model PVS10005 PVS60085 PVS60085MR**
Max Output Voltage 1000 V 600 V 600 V
Max Output Current 5 A 8.5 A 8.5 A
Max Output Power 5000 W 5100 W 3000 W
**Model PVS60085MR is a multi-ranging supply allowing any combination of the rated voltage and
current up to the maximum output power of 3000 W.
In particular, the low-noise characteristic of the
PVS Series makes these instruments ideal for
motor inverter testing. When operated with the
optional SAS software, these power supplies
can be used for solar array testing applications
such as validating a solar inverter’s MPPT
algorithm and testing to EN50530 and Sandia
Labs standards.
Special Applications
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High Power Programmable DC Power Supplies
PVS Series
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Front panel
Bright VFD display Protection LED indicators Function keys Numeric keypad Rotary knob
Cursor keys
Rear panel
Output and
remote sense
terminal
USB interface RS-485
interface
External analog
control interface
RS-232 interface LAN interface GPIB interface Ground chassis
The numeric keys and rotary knob provide a convenient interface for setting output levels quickly and precisely. Both measured output values and setting
values are concurrently displayed on the screen. Additionally, the power supplies provide internal memory for storage of up to 10 different instrument
settings that can be set and recalled via both the front panel and remote interfaces.
Unlike other 5 kW power supplies that need a
3-phase mains connection, this series only
requires a single-phase connection, which is
easier to wire and much more commonly
available than 3-phase AC outlets.
Single-phase AC line input
Intuitive user interface
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High Power Programmable DC Power Supplies
PVS Series
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Remote control and programming
These power supplies offer standard USB, RS-232, GPIB, and LAN interfaces
to facilitate test system development and integration. The PVS Series supports
SCPI-compliant protocols and come with LabVIEW™ drivers.
Test system integration
The list mode feature allows users to program a list of steps to the power
supply’s internal memory and execute them. A total of 100 steps
can be allocated to each internal memory location, up to a maximum of 9
locations. The test sequence can be programmed remotely via the USB,
RS-232, GPIB, or LAN interfaces using SCPI commands or with the included
application software. Test sequences can be configured for single or repeated
execution. Each steps’ settings include voltage, current, duration, and output
status.
Test sequence execution in list mode
The PVS Series models provide a built-in web server that allows users to
configure, control, or monitor the basic settings of the power supply from a
remote computer using a web browser.
Web server interface
In addition to front panel and remote interface control, voltage and current
values can also be programmed with an analog control signal. The power
supplies can be externally controlled from zero to full scale by either voltage
source (0-5 V/0-10 V selectable) or resistance ( 0-5 k/0-10 kselectable
for high voltage models). The analog interface also offers the ability to
monitor the output voltage and current, regulation mode (CV or CC), or
to indicate the occurrence of a fault condition.
Analog programming and monitoring interface
Remote monitoring on iOS, Android, or Windows 8 compatible tablets or
smart phones via NI Data Dashboard for LabVIEW apps. Quickly develop a
custom dashboard consisting of one (smart phone) or several (tablet)
indicators, charts, or gauges to monitor your power supply.
Log voltage, current, and power values as well as time stamp, CV/CC,
and output status.
Save and load list files to/from the power supply’s internal memory.
Create an unlimited number of external list files to be executed from PC
memory. Save and recall list files to/from the PC.
Application software
PC software is provided for front panel emulation, generating and executing test sequences or logging measurement data without the need to write source code.
The power supply can be controlled with SCPI commands using a socket or
Telnet connection via the Ethernet interface.
Socket and Telnet interface
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High Power Programmable DC Power Supplies
PVS Series
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Extensive device protection
To protect your DUT, the PVS Series provides several safety features: over-
voltage (OVP), overcurrent (OCP), overpower (OPP), and overtemperature
(OTP) protection. When a fault occurs, the power supply will turn off the
output, sound an alarm, and display an error message. Similarly, with constant
voltage-to-constant current (CV-to-CC) or constant current-to-constant
voltage (CC-to-CV) foldback protection mode activated, the supply will shut
down if load changes force the supply to transition between the two operating
modes. The power supply is also able to detect abnormally low or high AC
input power and turn the output off when this condition occurs.
Master/Slave operation
Models with the same rating can be connected in parallel and operate in
master/slave mode. The RS-485 interface is used for communication between
the master and slave(s). Once configured, the master will automatically search
for and detect slave units, and display the voltage and current of the complete
system.
In multi-unit control mode, multiple units can be daisy chained via RS485 and
controlled from one master unit through the USB, GPIB, or LAN interface.
Multi-unit control
Flexible configuration
Using a 5 ½ digit multimeter, voltage and current parameters can be
conveniently calibrated from the front panel via the calibration menu.
Convenient front panel guided calibration
AC input power cord (Standard) Rackmount kit (Optional)
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High Power Programmable DC Power Supplies
PVS Series
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Solar Array Simulation (SAS) Software Option
Solar inverter designers need to verify their inverter is capable of delivering the maximum power available from solar modules. The I-V curve of solar cells can be
influenced by various weather conditions such as a cloudy day. Combined with the SAS application software, PVS users can easily simulate the I-V curve of different
arrays under various irradiance conditions while measuring and validating the effectiveness of the inverter’s MPPT algorithm.
Features
Variety of input parameters
(Voc/Isc/Vmp/Imp/FF/FFv/FFi)
Monitors and logs real-time voltage,
current, power, MPPT efficiency, and average
MPPT efficiency
Simulate I-V curve under different weather
conditions during a day
User-definable irradiance profile
Generate a custom I-V curve with up to
1,024 data points
Test to EN50530 and Sandia Labs standards
PV Simulation
Solar arrays consist of multiple solar cells characterized by a complex voltage and current profile that is represented in an I-V curve.
Generate an I-V curve
manually via a 1,024-point
voltage and current table
with Notepad or MS Excel
and load it in the software.
Automatically generate the I-V curve
of a solar array in the software by
specifying open circuit voltage (Voc),
short circuit current (Isc), maximum
power voltage (Vmp), and maximum
power current (Imp) along with fill
factor parameters.
PV simulation curve
The PVS power supply outputs points on the I-V curve in 1 ms
intervals to test the inverter’s MPPT efficiency. Use any of the software’s built-in
irradiance profiles or generate your
own point-by-point irradiance
profile.
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High Power Programmable DC Power Supplies
PVS Series
Model PVS60085 PVS60085MR PVS10005
Output Rating
Output Voltage (1) 0 - 600 V 0 - 1000 V
Output Current (2) 0 - 8.5 A 0 - 5 A
Max. Output Power 5100 W 3000 W 5000 W
Line Regulation
Voltage 60 mV 100 mV
Current 4.25 mA 2.5 mA
Load Regulation
Voltage 60 mV 100 mV
Current 8.5 mA 5 mA
Ripple and Noise (20 Hz - 20 MHz)
Voltage 100 mVrms / 500 mVpp 100 mVrms / 600 mVpp
Current 15 mA 10 mA
Resolution
Programming 10 mV/0.2 mA 0.1 V/0.1 mA
Readback 10 mV/0.2 mA 0.1 V/0.1 mA
Programming Accuracy
Voltage 400 mV 700 mV
Current (3) ± (%output + offset) 0.03% + 3.5 mA 0.03% + 2 mA
Readback Accuracy ± (%output + offset)
Voltage 0.05% + 300 mV 0.05% + 500 mV
Current (3) 0.1% + 8.5 mA 0.1% + 5 mA
General
Transient Response Time (4) 0.5 ms 0.5 ms
OVP adjustment Range 5 - 660 V 5 - 1100 V
OVP Accuracy 6 V 10 V
OCP Accuracy 85 mA 50 mA
Command Response Time 20 ms 20 ms
Efficiency (5) 90% 90%
Power Factor 0.99 0.99
Remote Sense Compensation 6 V 10 V
Rising Time at Full Load 100 ms 250 ms
Rising Time at No Load 100 ms 250 ms
Falling Time at Full Load 100 mS 150 ms 250 ms
Falling Time at No Load 3000 ms 5000 ms
Standard Interfaces Analog Programming, USB, RS485, RS232, GPIB, and Ethernet
AC Input (6) 170 - 265 VAC single phase
Rated Frequency 47 - 63 Hz
Maximum Rated Input Power 5800 VA 3500 VA 5800 VA
Temperature Ratings Operation (0 °C~40 °C)
Storage (-40 °C~85 °C)
Dimensions ( W× H× D ) 16.53” x 3.46” x 20.94” (420 x 88 x 532 mm)
Weight 32.18 lbs (14.6 kg)
Three-Year Warranty
Standard Accessories Power cord, test report & certificate of calibration
Optional Accessories SASPVS (SAS software), RKPVS (rackmount kit)
(1) Minimum voltage is guaranteed to 5V.
(2) Minimum current is guaranteed to maximum 0.4% of rated output current.
(3) Current accuracy is applied when output power > 0.1% of full power.
(4) Time for output voltage to recover within 0.5% of its rated output for a load change 50 – 100% of rated output current.
(5) 90% typical at nominal line and max load.
(6) 10% of output de-rated when operating below 190 VAC.
Specifications