Micsig tBook Series Tablet Oscilloscope

MICSIG
    tBook Series Digital Oscilloscopes are dual or four channel handheld digital oscilloscope with 100 to 500 MHz bandwidth, 1 to 5 GSa/s real time sampling rate, 18M to 360M memory depth. Operation control is conducted with the help of 10.1 inch TFT capacitive touch screen.
    • Control mode: touch screen
    • 18M/9M memory depth
    • 1024*600 screen resolution
    • 31 auto measurements
    • Cursor measurements
    • Android OS
    • Interfaces: USB, Wi-Fi

    tBook Series

    Model

    Bandwidth

    Real time sampling rate

    Rise time

    Memory depth

    Channel

    Touch operation

    Max waveform capture rate

    Serial bus decode

    TO102 100MHz 1GS/s ≤3.5ns 18M(90M Optional) 2CH YES 250,000wfms/s(Optional) Optional
    TO104 100MHz 1GS/s ≤3.5ns 18M(90M Optional) 4CH YES 250,000wfms/s(Optional) Optional
    TO152 150MHz 1GS/s ≤2.33ns 18M(90M Optional) 2CH YES 250,000wfms/s(Optional) Optional
    TO154 150MHz 1GS/s ≤2.33ns 18M(90M Optional) 4CH YES 250,000wfms/s(Optional) Optional
    TO102A 100MHz 2GS/s ≤3.5ns 18M(90M Optional) 2CH YES 500,000wfms/s(Optional) Optional
    TO104A 100MHz 2GS/s ≤3.5ns 18M(90M Optional) 4CH YES 500,000wfms/s(Optional) Optional
    TO152A 150MHz 2GS/s ≤2.33ns 18M(90M Optional) 2CH YES 500,000wfms/s(Optional) Optional
    TO154A 150MHz 2GS/s ≤2.33ns 18M(90M Optional) 4CH YES 500,000wfms/s(Optional) Optional
    TO202A 200MHz 2GS/s ≤1.75ns 18M(90M Optional) 2CH YES 500,000wfms/s(Optional) Optional
    TO204A 200MHz 2GS/s ≤1.75ns 18M(90M Optional) 4CH YES 500,000wfms/s(Optional) Optional
    TO302A 300MHz 2GS/s ≤1.17ns 18M(90M Optional) 2CH YES 500,000wfms/s(Optional) Optional
    TO304A 300MHz 2GS/s ≤1.17ns 18M(90M Optional) 4CH YES 500,000wfms/s(Optional) Optional
    TO352A 350MHz 5GS/s ≤1ns 36M(360M Optional) 2CH YES 500,000wfms/s(Optional) Optional
    TO354A 350MHz 5GS/s ≤1ns 36M(360M Optional) 4CH YES 500,000wfms/s(Optional) Optional
    TO502A 500MHz 5GS/s ≤700ps 36M(360M Optional) 2CH YES 500,000wfms/s(Optional) Optional
    TO504A 500MHz 5GS/s ≤700ps 36M(360M Optional) 4CH YES 500,000wfms/s(Optional) Optional

    Tablet Oscilloscope tBook Series Specification

    Item

    Descrption

    Bandwidth(BW) 100MHz,150MHz,200MHz,300MHz,350MHz,500MHz
    Real time sampling rate 1GSa/s~5GSa/s
    Memory depth single channel:18Mpts~360Mpts
    Max waveform capture rate 250,000wfms/s(Optional)   500,000wfms/s(Optional)
    Channels 2 or 4
    Rise time ≤5ns~≤350ps

    Vertical system

    Limited bandwidth 200MHz,20MHz
    Input coupling DC ,AC ,GND
    Input impedance 1MΩ±1%≈15pF±3 pF
    Vertical scale 2mV/div~5V/div
    Vertical resolution 8 bit
    Probe loading 1mX~1kX,1~2~5 step by step
    Maximum input voltage 300V CAT II
    Isolated channel voltage 1000V CAT II 600V CAT III
    DC vertical offset accuracy 2mV/div~10V/div,±2.0%

    Trigger system

    Trigger types edge,pulse,short pulse,logic,serial data (UART,LIN,CAN,SPI,I2C,1553B, 429)
    Video trigger software options PAL,NTSC,SECAM,720P,1080I,1080P
    Coupling modes DC,AC,HF Rej,LF Rej,Noise Rej
    Trigger modes auto,normal,single
    Trigger source CH1,CH2,CH3,CH4
    Inhibition range 200ns~10s

    Display

    Screen 10.1 inchesTFT LCD capacitive touch screen
    resolution 1024*600
    Backlight 500(250)
    Diagram 18*10
    Grayscale 128
    Persistence auto,100ms~10s or ∞
    Language Simplified Chinese,English

    I/O port

    Mini USB2.0 connect to PC
    USB2.0 flash disk,mouse,button,wireless mouse
    WiFi support 802.11b/g/n,up to 150Mbps

    Record

    Display ways full screen,roll
    Record time base 10us/div~2min/div
    File size ≤4G

    Dimension

    Size 275*210*60mm
    Weight main unit: 1770g,accessories: 420g,battery:276g
    Automatic measurements 31 measurements include:Period, Frequency,Delay,Rise Time,Fall Time,Positive Duty Cycle, Negative Duty Cycle, Positive Pulse Width,Negative Pulse Width,Burst Width,Phase, Positive Overshoot,Negative Overshoot, Peak to Peak,Amplitude,High,Low,Max,Min,Mean,Cycle Mean,RMS,Cycle,RMS
    Cusors vertical cursor,horizontal cursor,cross cursor

    Horizontal system

    Time base range 200ps/div~1000s/div
    Time base delay time range - 12div~12ks
    Time base accuracy normal, average, peak , envelop
    Display mode 20ppm
    Formart XY, YT, Roll
    Acquisition Modes 2 simultaneous

    Math functions

    Operator +, -, *, /
    FFT Rectangular,Hamming,Hanning, Blackman-Harris

    Storage

    Storage tablet oscilloscope,USB device, PC
    Storage format CSV?waveform?jpg
    Refernce waveform ≤4
    Waveform setting 4 sets
    Dynamic record time ≤2H

    Power

    Power adapter Input:100-240V,50-60Hz,2A;Output:12VDC,5A
    Battery 7.4V/15000mAh,life length 8h
    Charging time <5h
    Power consumption ≤15W

    Environment

    Operating temperature -20°C ~+50°C
    Operating humidity <95%RH
    Operating altitude <3000m
    Storage altitude <12000m

    Probe

    Operating voltage CAT III 300V,CAT II 600V
    Attenuation ratio 10X
    Input capacitance 13pF
    Matched oscilloscope scale 10pF~30pF
    Input impedance 10MΩ±1%
    Frequency scale DC~250MHz
    Rise time 1ns
    Cable length 1200mm
     

Owon ODP Series DC Power Supply

Owon, DC Power Supply

    ODP3032 : two independent controllable channels
    ODP3031 : one controllable channel
    Max output resolution : 1mV / 1mA
    Low ripples / low noise : <300 μVrms / 2 mVpp
    Up to 100 group timers
    Up to 10 group preset system configurations
    Over-voltage / Over-current protection
    Auto-cooling system
    3.9 inch high resolution (480 × 320 pixels) TFT LCD display
    Multiple communication interface : USB, and RS232

    Application

    general detection in R&D laboratory
    QC test
    industrial production automation test
    automobile and electronic circuit test power-supplying
    education / teaching experimentation
    electronic components test, aging test
    to monitor the real-time status of power system via remote control     

    to monitor battery charging curve

    The specifications based upon the instrument having run for at least 30 minutes continuously, under the specified operating environment.

    Model ODP3031        ODP3032
    Channel One controllable  channel Fixed 3.3V / 5V Two controllable channels Fixed 5V
    DC Output Rating Voltage 0 - 30V 3.3V / 5V 0- 30V (Independent / Parallel)
    0 - 60V (Series)
    -30V - 30V (Plus-minus)
    5V
    Current 0 - 3A 3A 0 - 3A (Independent / Series / Plus-minus)
    0 - 6A (Parallel)
    3A
    Line Regulation CV ≤0.01%+3mV ≤3mV ≤0.01%+3mV ≤3mV
    CC ≤0.1%+3mA   ≤0.1%+3mA  
    Load Regulation CV ≤0.01%+3mV ≤0.1% + 3mV ≤0.01%+3mV ≤0.1% + 3mV
    CC ≤0.2%+3mA   ≤0.2%+3mA  
    Noise and Ripple
    (20Hz~7MHz)
    CV ≤300μVrms/2mVpp
    CC ≤3mArms   ≤3mArms  
    Settings Resolution Voltage 1mV None 1mV None
    Current 1mA None 1mA None
    Settings Accuracy
    (25?±5?)
    Voltage ≤0.05%+3mV None ≤0.05%+3mV None
    Current ≤0.1%+3mA None ≤0.1%+3mA None
    Read Back Resolution Voltage 1mV (<10V), 10mV (≥10V) None 1mV (<10V), 10mV (≥10V) None
    Current 1mA None 1mA None
    Read Back Accuracy
    (25?±5?)
    Voltage ≤0.05%+3 digit None ≤0.05%+3 digit None
    Current ≤0.1%+3 digit None ≤0.1%+3 digit None

    Display

     Display Type 3.9 inch colored LCD (Liquid Crystal Display)
     Display Resolution 480 × 320  pixels
     Display Color 65536 colors, TFT screen

    Mechanical Specifications

    Model ODP3031        ODP3032
     Dimension (W×H×D)  298 × 202 × 450 (mm)
     Weight (without package)  7 kg  9.80 kg

Picotest P9610A Programmable Autoranging Power Supply (36V/7A 108W)

PICOTEST

    The P961xA Series of programmable DC power supplies gives you the performance of the top-of-the-line power supplies at an outstanding price. All models provide clean power, excellent regulation and a fast transient response. The P961xA Series is designed to meet the requirements of the most demanding applications in circuit design and verification, production testing, and quality assurance with the superior quality and reliability that you have come to expect from Picotest.
    Single-Output Autoranging Power Supplies
    These single output power supplies offer continuous autoranging, eliminating the need to manually select the optimum range. All of the power supplies power is available to you across the voltage and current ranges giving you the ultimate in flexibility. Output load is protected against overvoltage and overcurrent, which are easily monitored and adjusted from the front panel and remote interface. Remote sense is available to eliminate the errors due to voltage drops on the load leads. 
    Low Noise and Excellent Regulation
    LESS than 0.01% load and line regulation keep the outputs steady and stable. Low noise assures clean power for precision circuitry while the low common mode current (< 1.5uArms) provides isolation from power line current injection. 
    Front Panel Operation
    The intuitive interface allows you to monitor both voltage and current simultaneously for any one output from the front panel on an easy to read display. A optical knob doesn’t get dirty and allows you to quickly adjust the output at the resolution you need for precise and reliable results. You can program voltage or current sequences. 
    Remote Interface
    All models come standard with USB and GPIB interfaces. You can program both voltage and current. In addition, you can monitor the output terminals for voltage and current, while a query command lets you read the programmed voltage and current. And programming is done in easy to use SCPI.

    More Features:

    • Single output - Two Models
    • P9610A 108W (36V/7A), P9611A 150W (60V/6A)
    • Excellent Load and Line Regulation
      • < 0.01% + 2mV Voltage change for any load change
      • < 0.01% + 250uA Current change load for any load change 
    • Very fast transient response times (<30us - P9610A/<50ms P9611A)
    • Very fast settling times (<40ms - P9610A/<50ms P9611A)
    • Constant voltage, constant current, programmed sequencing
    • High accuracy and resolution
      • Voltage 0.05% + 10mV (Output + offset)
      • Current 0.2% + 10mA (Output + offset) 
    • Low ripple & noise
    • GPIB and USB Connections optional
    • Programming Compatible with the Keysight E3632A 
    • No Shorting Bar Necessary
    • Remote sense, Master -Slave Operation (P9610A only)
    Output Ratings (@ 0°C ~ 40°C) (P9610A/P9611A)
    Voltage: 0 to 36 V / 0 to 60 V³ (P9611A)
    Current: 0 to 7 A / 0 to 6 A (P9611A)
    Programming Accuracy¹ 1 Year (@ 25°C ±5°C), (% of Output + Offset)
    Voltage: 0.05% + 10 mV
    Current: 0.2% + 10 mA
    Read-Back Accuracy¹ 1 Year (over USB or front panel with respect to actual output (@ 25°C ±5°C),
    (% of Output + Offset)
    Voltage: 0.05% + 5 mV
    Current: 0.15% + 5 mA
    Ripple and Noise (with outputs ungrounded, or either output terminal grounded, 20 Hz to 20 MHz
    Voltage: < 0.35 mVrms / < 0.5 mVrms (P9611A)
    < 2 mV p-p / < 3 mV p-p (P9611A)
    Current: < 2 mArms
    Common Mode Current: < 1.5 μArms
    Load Regulation ±(% of Output + Offset)
    Change in output voltage or current for any load change within ratings.
    Voltage: < 0.01 % + 2 mV
    Current: < 0.01 % + 250 μA
    Line Regulation ±(% of Output + Offset)
    Change in output voltage or current for any load change within ratings.
    Voltage: 0.01 % + 2 mV
    Current: 0.01% + 250μA
    Programming Resolution
    Voltage: 1 mV
    Current: 0.21 mA / 1 mA (P9611A)
    Read-Back Resolution
    Voltage: 1 mV
    Current: 0.1 mA / 0.21 mA (P9611A)
    Meter Resolution
    Voltage: 1 mV / 10 mV (P9611A)
    Current: 0.1 mA / 1 mA (P9611A)
    Transient Response Time
    Less than 30/50 usec for output recover to within 15 mV following a change in output current from full load to half load or vice versa.
    Command Processing Time via GPIB
    Read-Back Commands: Maximum time to read-back output by MEASure? commands < 20 ms
    Output Programming Range (maximum programmable values)
    Voltage: 0 to 37.8 V / 0 to 60 V (P9611A)
    Current: 0 to 7.35 A / 0 to 6 A (P9611A)
    Temperature Coeffiecient ±(% of Output + Offset)
    Maximum change in output / read-back per °C after a 30-minute warm-up.
    Voltage: 0.01 % + 3 mV / 0.01 % + 10 mV (P9611A)
    Current: 0.02 % + 3 mA
    Stability (% of Output + Offset)
    Maximum change in output / read-back per °C after a 30-minute warm-up.
    Voltage: 0.02 % + 1 mV / 0.05 % + 10 mV (P9611A)
    Current: 0.1 % + 1 mA / 0.15 % + 2 mA (P9611A)
    Voltage Programming Speed
    Maximum time required for output voltage to settle within 1 % of its total excursion (for resistive load). Excludes command processing time.
    Full Load Up (0V ~ 36V): < 40 ms / (0V~60V): < 100 ms (P9611A)
    Full Load Down (36V ~ 0V): < 40 ms / (60V~0V): < 50 ms (P9611A)
    No Load Up (0V ~ 36V): < 20 ms / (0V~60V): < 35 ms (P9611A)
    No Load Down (36V ~ 0V): < 400 ms / (60V~0V): < 500 ms (P9611A)
     
    General Specifications²
    Item   <td bgcolor="#b0d5ff" "="">Limitation & Description
    Power Supply: 100V ~ 120V (115V Range)
    220V ~ 240V (230V Range)
    Power Line (Hz): 47Hz ~ 63Hz
    Interfaces: USB & GPIB
    Power Consumption: 400VA Maximum
    Size & Weight for Rack (WxHxD): 214.6 x 88.6 x 280 mm, < 2500 g (5.5 Lbs)

    1. The accuracy specifications are gained under 1-hour warm-up condition and the calibration at 25°C.
    2. For more information, please check the user's manual.
    3. The red supplements are the P9611A's specifications. If there is no red, the specs. are the same as the P9610A's.

    The specifications are subject to change without notice due to design improvements.

Picotest P9611A Programmable Autoranging Power Supply (60V/6A 150W)

picotest

    The P961xA Series of programmable DC power supplies gives you the performance of the top-of-the-line power supplies at an outstanding price. All models provide clean power, excellent regulation and a fast transient response. The P961xA Series is designed to meet the requirements of the most demanding applications in circuit design and verification, production testing, and quality assurance with the superior quality and reliability that you have come to expect from Picotest.
    Single-Output Autoranging Power Supplies
    These single output power supplies offer continuous autoranging, eliminating the need to manually select the optimum range. All of the power supplies power is available to you across the voltage and current ranges giving you the ultimate in flexibility. Output load is protected against overvoltage and overcurrent, which are easily monitored and adjusted from the front panel and remote interface. Remote sense is available to eliminate the errors due to voltage drops on the load leads. 
    Low Noise and Excellent Regulation
    LESS than 0.01% load and line regulation keep the outputs steady and stable. Low noise assures clean power for precision circuitry while the low common mode current (< 1.5uArms) provides isolation from power line current injection. 
    Front Panel Operation
    The intuitive interface allows you to monitor both voltage and current simultaneously for any one output from the front panel on an easy to read display. A optical knob doesn’t get dirty and allows you to quickly adjust the output at the resolution you need for precise and reliable results. You can program voltage or current sequences. 
    Remote Interface
    All models come standard with USB and GPIB interfaces. You can program both voltage and current. In addition, you can monitor the output terminals for voltage and current, while a query command lets you read the programmed voltage and current. And programming is done in easy to use SCPI.

    More Features:

    • Single output - Two Models
    • P9610A 108W (36V/7A), P9611A 150W (60V/6A)
    • Excellent Load and Line Regulation
      • < 0.01% + 2mV Voltage change for any load change
      • < 0.01% + 250uA Current change load for any load change 
    • Very fast transient response times (<30us - P9610A/<50ms P9611A)
    • Very fast settling times (<40ms - P9610A/<50ms P9611A)
    • Constant voltage, constant current, programmed sequencing
    • High accuracy and resolution
      • Voltage 0.05% + 10mV (Output + offset)
      • Current 0.2% + 10mA (Output + offset) 
    • Low ripple & noise
    • GPIB and USB Connections optional
    • Programming Compatible with the Keysight E3632A 
    • No Shorting Bar Necessary
    • Remote sense, Master -Slave Operation (P9610A only)
    Output Ratings (@ 0°C ~ 40°C) (P9610A/P9611A)
    Voltage: 0 to 36 V / 0 to 60 V³ (P9611A)
    Current: 0 to 7 A / 0 to 6 A (P9611A)
    Programming Accuracy¹ 1 Year (@ 25°C ±5°C), (% of Output + Offset)
    Voltage: 0.05% + 10 mV
    Current: 0.2% + 10 mA
    Read-Back Accuracy¹ 1 Year (over USB or front panel with respect to actual output (@ 25°C ±5°C),
    (% of Output + Offset)
    Voltage: 0.05% + 5 mV
    Current: 0.15% + 5 mA
    Ripple and Noise (with outputs ungrounded, or either output terminal grounded, 20 Hz to 20 MHz
    Voltage: < 0.35 mVrms / < 0.5 mVrms (P9611A)
    < 2 mV p-p / < 3 mV p-p (P9611A)
    Current: < 2 mArms
    Common Mode Current: < 1.5 μArms
    Load Regulation ±(% of Output + Offset)
    Change in output voltage or current for any load change within ratings.
    Voltage: < 0.01 % + 2 mV
    Current: < 0.01 % + 250 μA
    Line Regulation ±(% of Output + Offset)
    Change in output voltage or current for any load change within ratings.
    Voltage: 0.01 % + 2 mV
    Current: 0.01% + 250μA
    Programming Resolution
    Voltage: 1 mV
    Current: 0.21 mA / 1 mA (P9611A)
    Read-Back Resolution
    Voltage: 1 mV
    Current: 0.1 mA / 0.21 mA (P9611A)
    Meter Resolution
    Voltage: 1 mV / 10 mV (P9611A)
    Current: 0.1 mA / 1 mA (P9611A)
    Transient Response Time
    Less than 30/50 usec for output recover to within 15 mV following a change in output current from full load to half load or vice versa.
    Command Processing Time via GPIB
    Read-Back Commands: Maximum time to read-back output by MEASure? commands < 20 ms
    Output Programming Range (maximum programmable values)
    Voltage: 0 to 37.8 V / 0 to 60 V (P9611A)
    Current: 0 to 7.35 A / 0 to 6 A (P9611A)
    Temperature Coeffiecient ±(% of Output + Offset)
    Maximum change in output / read-back per °C after a 30-minute warm-up.
    Voltage: 0.01 % + 3 mV / 0.01 % + 10 mV (P9611A)
    Current: 0.02 % + 3 mA
    Stability (% of Output + Offset)
    Maximum change in output / read-back per °C after a 30-minute warm-up.
    Voltage: 0.02 % + 1 mV / 0.05 % + 10 mV (P9611A)
    Current: 0.1 % + 1 mA / 0.15 % + 2 mA (P9611A)
    Voltage Programming Speed
    Maximum time required for output voltage to settle within 1 % of its total excursion (for resistive load). Excludes command processing time.
    Full Load Up (0V ~ 36V): < 40 ms / (0V~60V): < 100 ms (P9611A)
    Full Load Down (36V ~ 0V): < 40 ms / (60V~0V): < 50 ms (P9611A)
    No Load Up (0V ~ 36V): < 20 ms / (0V~60V): < 35 ms (P9611A)
    No Load Down (36V ~ 0V): < 400 ms / (60V~0V): < 500 ms (P9611A)
     
    General Specifications²
    Item     <td bgcolor="#b0d5ff" "="">Limitation & Description
    Power Supply: 100V ~ 120V (115V Range)
    220V ~ 240V (230V Range)
    Power Line (Hz): 47Hz ~ 63Hz
    Interfaces: USB & GPIB
    Power Consumption: 400VA Maximum
    Size & Weight for Rack (WxHxD): 214.6 x 88.6 x 280 mm, < 2500 g (5.5 Lbs)

    1. The accuracy specifications are gained under 1-hour warm-up condition and the calibration at 25°C.
    2. For more information, please check the user's manual.
    3. The red supplements are the P9611A's specifications. If there is no red, the specs. are the same as the P9610A's.

    The specifications are subject to change without notice due to design improvements.

Magna Power XR IV Series DC Programable Power Supply

Magna Power, DC Power Supply
    • 2 kW to 10 kW in a 2U package
    • Models from 0-5 VDC to 0-10,000 VDC
    • Optically isolated user I/O circuitry standard
    • High efficiency operation: Up to 88% efficiency on select models
    • RS-232 interface standard with SCPI Commands
    • Optional GPIB, USB, Ethernet (LXI-C), RS-485 interfaces
    • Over Voltage and Over Current shutdown standard
    • Certified LabWindows/CVI, LabVIEW, and IVI Drivers
    • Programmable Output Modulation: Emulates user-defined power profiles
    • Automatic Voltage/Current Crossover
    • Front Panel Calibration 
    • Made in USA
    • Two Year Warranty

    Magna-Power Electronics XR Series IV was designed from the ground up for high reliability and industry leading 2U (3.5" height) rack-mount power density, with output isolation up to 1000 Vdc for models rated for 1000 Vdc and below. This product series utilizes Magna-Power Electronics signature current-fed power processing, delivering robust power conversion with a high power factor—greater than 0.92 for 3Φ units. Soft-start circuitry on the input minimizes in-rush current to levels below the rated input current. High accuracy programming and monitoring levels allow confi - dence in power supply measurements, eliminating the need for external power meters.

    All XR Series IV power supplies come standard with isolated 37-pin external I/O, RS-232, Remote Interface Software, IVI drivers for integration into a variety of programming environments, and modulation capabilities for non-linear output profile emulation. Two front panel types are available for different application requirements. The standard XR Version front panel (pictured in the image above) provides front panel control knobs and calibration, start and stop buttons, and a digital display for voltage and current. The C Version front panel provides a blank display panel, allowing control only from the computer or isolated 37-pin I/O connection.

    Electronic Output Stage
    The new and novel XR Series output stage utilizes constant power loading under all conditions via an electronic bleed resistance. This electronic bleeder means stability under all operating conditions and faster fall times, without affecting the overall system efficiency.

    Fully Configurable
    XR Series power supplies can be configured through the front panel for different applications. The power supply can be programmed to have its control functions accessible from the front panel, rear connector, RS-232, optional GPIB, optional USB, or optional LXI-certified Ethernet communications. Sensing can be established at the output terminal of the power supply or through a rear terminal block for sensing at the load. An external interlock can be set to enable operation only when an external connection is made. Even calibration has been simplified with front panel access to calibration digital potentiometers.

    Isolated External I/O for Automation
    Using the rear 37-pin I/O connector, the XR Series power supplies can be completely controlled and monitored using external signals. The voltage, current, over voltage trip, and over current trip set points are set by applying a 0-10 Vdc signal. Each diagnostic condition is given a designated pin, which reads 5 Vdc when high. In addition, reference 5 Vdc and 10 Vdc signals are provided, eliminating the need for external voltage signals and allowing the use of dry contacts. Also, the power supply features an external interlock, which when enabled, allows the power supply to be tied in with other emergency stop equipment. All these pins are isolated to earth-ground as standard--no additional isolation equipment or options necessary.

    Designed for Safety
    The XR Series power supplies have extensive diagnostic functions—all of which, when activated, take command to shut down the system. Diagnostic functions include phase loss, excessive thermal conditions, over voltage trip, over current trip, fuse clearing, and program line. Program line monitors externally applied analog set point signals to insure they are within the specified range. Upon a diagnostic fault condition, main power is disconnected and the diagnostic condition is latched into memory. Pressing the clear key clears the memory. All diagnostic functions can be monitored through a rear connector. Furthermore, control functions can also be set through the rear connector to allow simultaneous control of one or more XR Series units. XR Series supplies have three levels of over voltage/current protection: shutdown of controlling insulated gate bipolar transistors (IGBTs), disconnect of main power, and input fuses. After an over voltage/current trip condition, the supply must be reset.

    XR Version Standard Front Panel
    XR models provide stepless analog control from front panel potentiometers. With a simple configuration change, the power supply can be programmed from the rear I/O connector or through software on one of the communications bus. The XR Series has 100 memory states available to program voltage, current, over voltage trip, over current trip, and time period in software. More Info >> 

    XRC Version Front Panel
    XRC models only allow control from the rear connector or by RS-232/GPIB/Ethernet communications. These models are intended for process control applications where front panel controls and displays are not required or desired. More Info >

     

    Magna-Power SoftwareRemote Interface Software
    The Remote Interface Software (RIS Panel) ships with all XR Series power supplies. The software provides the user with a quick method to operate a Magna-Power Electronics' power supply under computer control. The Remote Interface Software has six windows: the Virtual Control Panel, Command Panel, Register Panel, Calibration Panel, Firmware Panel, and Modulation Panel. The Virtual Control Panel emulates the front panel of the XR Series power supply, the Command panel programs and reads SCPI commands with user friendly buttons, the Register Panel programs and reads registers, the Calibration Panel enables calibration of the digital potentiometers, the Firmware Panel enables the program stored internal to the power supply to be upgraded, and the Modulation Panel eases programming of modulation parameters.

    Models Ordering Guide

    XR Ordering Guide

    Models Chart

    The following chart details the available standard XR Series models. The Current Maximum (Adc) column is separated by the available power levels. To determine the appropriate model, first select your output Voltage Maximum (Vdc) to find appropriate row. Next, select one desired Current Maximum from the row that contains your desired Voltage Maximum. Then, construct your model number according to the model ordering guide above.

      2 kW 4 kW 6 kW 8 kW 10 kW  
    Voltage
    Maximum
    Current Maximum Ripple*
    (mVrms)
    Efficiency (%)
    5 375 600 N/A N/A N/A 50 86
    10 200 375 600 N/A N/A 50 86
    16 125 250 375 500 600 50 86
    20 100 200 300 375 500 45 86
    32 62 124 186 250 310 40 86
    40 50 100 150 200 250 40 87
    50 40 80 120 160 200 50 87
    80 25 50 75 100 125 60 87
    100 20 40 60 80 100 60 87
    125 16 32 48 64 80 100 87
    160 12 24 36 50 60 120 87
    200 10 20 30 40 50 125 87
    250 8 16 24 32 40 130 88
    375 5.3 10.6 15.9 21.3 26.5 170 88
    400 5.0 10.0 15.0 20.0 25 180 88
    500 4.0 8.0 12.0 16.0 20 220 88
    600 3.3 6.6 9.9 13.3 16.5 250 88
    800 2.5 5.0 7.5 10.0 12.5 300 88
    1000 2.0 4.0 6.0 8.0 10 350 88
    2000 1.00 2.00 3.00 4.00 N/A 5500 88
    4000 0.50 1.00 1.50 2.00 N/A 6500 88
    6000 0.30 0.66 1.00 1.33 N/A 7500 88
    8000 0.25 0.50 0.75 1.00 N/A 8500 88
    10000 0.20 0.40 0.60 0.80 N/A 9500 88

    16 Aac input current for 208/240 Vac, 1Φ input (optional for 2 kW models only). 
    Models above 1000 Vdc have high slew rate output. 
    For models 1000 Vdc and below with the High Slew Rate Output Option (+HS), ripple will be higher.

    * Outputs over 1000 Vdc are not isolated. At time of order, must specify positive (POS) of negative (NEG) output terminal grounded. Example: XR10000-0.60/480NEG+LXI.

    Input Voltage (Must be specified at time of order) 

    1 phase, 2 wire + ground (for 2 kW models only) 
    208 VAC, 1φ (operating range 187 - 229 VAC)
    240 VAC, 1φ (operating range 216 - 264 VAC)

    3 phase, 3 wire + ground (all models) 
    208 VAC, 3φ (operating range 187 - 229 VAC)
    240 VAC, 3φ (operating range 216 - 264 VAC)
    380 VAC, 3φ (operating range 342 - 418 VAC)
    415 VAC, 3φ (operating range 373 - 456 VAC)
    440 VAC, 3φ (operating range 396 - 484 VAC)
    480 VAC, 3φ (operating range 432 - 528 VAC)

    NOTE: 

    • GPIB and Ethernet are optional and must be specified at time of order.
    • Power cords are not included.

Magna Power TS IV Series DC Programmable Power Supply

Magna Power, DC Power Supply,
    • 5 kW in a 3U package to 45 kW in a 9U package
    • Models from 0-5 VDC to 0-4000 VDC
    • Optically isolated user I/O circuitry standard
    • High efficiency operation: Up to 88% efficiency on select models
    • RS-232 interface standard with SCPI Commands
    • Optional GPIB, USB, Ethernet (LXI), RS-485 interfaces
    • Over Voltage and Over Current shutdown standard
    • Certified LabWindows/CVI, LabView, and IVI Drivers
    • Programmable Output Modulation: Emulates user-defined power profiles (D Panel units only) 
    • Automatic Voltage/Current Crossover 
    • Front Panel Calibration 
    • CE Mark on all Series IV Models
    • Made in USA
    • Two Year Warranty

    Magna-Power Electronics TS Series combines the best of DC power processing with microprocessor embedded control. Magna-Power Electronics' innovative power processing technology improves response, shrinks package size, and reduces cost. TS Series power supplies are current-fed and are more tolerant to abusive loads than conventional switching power supplies (more about current-fed technology here). This technology allows the power supply to operate under short-circuit conditions, open-circuit conditions, and everything in between.

    TS Series power supplies offer both master/slave parallel and series operation. This enables two or more power supplies to be placed in parallel for increased output current or in series for increased output voltage. With master/slave operation, power supplies operate at near equal voltage and current.

    TS Series power supplies can operate as a voltage source or current source depending on the control settings and load conditions. If the power supply is operating as a voltage source and the load increases to a point beyond the current command setting, the power supply automatically crosses over to current mode control and operates as a current source at that setting.

    Electronic Output Bleeder Stage - New for TS Series IV
    Standard output bleeder resistance was replaced with near constant power electronic loading. The new output stage enables faster fall times, and improved performance under light loading without affecting overall efficiency. 

    High Accuracy Programming and Monitoring - New for TS Series IV
    Enhancements to the product controls and calibration procedures enabled an over five-fold improvement in accuracy. Accuracy specifications are now ±0.075% of full-scale voltage/current programming and ±0.2% of full-scale voltage/current monitoring. Higher accuracy enables measurements to be taken directly from Magna-Power Electronics power supplies, eliminating the need for external power meters and lowering overall system costs and complexity. All power supplies still maintain ease of front panel calibration.

    TSA Version Front Panel
    TSA models provide stepless analog control from front panel knobs. With a simple configuration change, the power supply can be programmed from the rear I/O connector or through software on one of the communication buses. 

    TSD Version Front Panel
    TSD models provide all of the features of the TSA Version plus these models can be configured for keypad entries and up/down presses for voltage, current, over voltage trip, and over current trip. Key strokes are kept to a minimum by a repeat last command feature. TSD Series power supplies are well suited for laboratory applications requiring enhanced control.

    TSD Series models have one-hundred memory states available to program voltage, current, over voltage trip, over current trip, and time period. Set points can be auto sequenced with time or external triggering. Special programming codes allow repeating to create a power function generator. The first 10 memory states are displayed on the front panel to simplify programming tasks. TSD Series power supplies offer an analog input to modulate the voltage or current setting using piecewise linear approximation. This feature enables the voltage or current setting to be adjusted by a sensor input, such as a thermistor, or by monitoring its own voltage or current. Modulation allows the output to be tailored for advanced process control applications, battery charging, and source emulation.

    TSC Version Front Panel
    TSC models hava a blank front panel and only allows control from the rear I/O connector or by RS-232/GPIB/USB/Ethernet communications. These models are intended for process control applications where front panel controls and displays are not required nor desired.

    Optional Water Cooling (must be specified at time of order)
    Optional water cooled models contain integrated semiconductor chillers and air to water heat exchangers to manage cooling of heat producing components. This option allows the power supply to be sealed from the environment enabling placement in harsh environments. These units provide long life in plating facilities, electrodionization treatment plants, shipboard, and other corrosive environments. Water cooling also permits power supplies to be stacked in high density equipment racks where air cooling is not possible or desirable.

    Flexible Operation and Programming 
    The power supply can be programmed to have its control functions accessible from the front panel (except TSC Models), rear connector, or through RS-232, optional GPIB, or optional LAN (LXI-C) communications with built-in webserver. USB and RS-485 converters are also available. TS Series power supplies incorporate an optically isolated feedback system. The result is that all user interface circuitry is referenced to earth ground -- not the negative terminal of the power supply. This enables users to connect external circuitry without concern of ground loops or voltage breakdown.

    Magna-Power SoftwareRemote Interface Software
    The Remote Interface Software is shipped with all TS SERIES power supplies. The software provides the user with a quick method to operate a Magna-Power Electronics' power supply under computer control. The Remote Interface Software has six windows: the Virtual Control Panel, Command Panel, Register Panel, Calibration Panel, Firmware Panel, and Modulation Panel. The Virtual Control Panel emulates the front panel of the TS SERIES power supply, the Command panel programs and reads SCPI commands with user friendly buttons, the Register Panel programs and reads registers, the Calibration Panel enables calibration of the digital potentiometers, the Firmware Panel enables the program stored internal to the power supply to be upgraded, and the Modulation Panel eases programming of modulation parameters.

    Standard Voltage and Current Ratings 

    Voltage (V) Current (A)
    5 kW Models  10 kW Models  15 kW Models  20 kW Models  25 kW Models  30 kW Models  45 kW Models 
    0-5 900 n/a n/a n/a n/a n/a n/a
    0-8 600 n/a n/a n/a n/a n/a n/a
    0-10 500 900 n/a n/a n/a n/a n/a
    0-16 300 600 900 1200 1500 1800 2700
    0-20 250 500 750 1000 1250 1500 2250
    0-32 150 300 450 600 750 900 1350
    0-40 125 250 375 500 625 750 1125
    0-50 100 200 300 400 500 600 900
    0-80 62 125 186 248 310 372 558
    0-100 50 100 150 200 250 300 450
    0-125 40 80 120 160 200 240 360
    0-160 31 62 93 124 155 186 279
    0-200 25 50 75 100 125 150 225
    0-250 20 40 60 80 100 120 180
    0-375 13 26 39 52 65 78 117
    0-400 12 24 36 48 60 72 108
    0-500 10 20 30 40 50 60 90
    0-600 8 16 24 32 40 48 72
    0-800 6 12 18 24 30 36 54
    0-1000 5 10 15 20 25 30 45
    0-1250 4 8 12 16 20 24 36
    0-1500 3.3 6.6 9.9 13.2 16.5 19.8 27.7
    0-2000 2.5 5 7.5 10 12.5 15 22.5
    0-3000 1.6 3.2 4.8 6.4 8 9.6 14.4
    0-4000 1.2 2.4 3.6 4.8 6 7.2 10.8

    Low Voltage, High Current Models

    Model Voltage (V) Current (A) Power
    TSA5-1800 0-5 1800 9 kW 
    TSA5-2700 0-5 2700 13.5 kW 
    TSA8-1200 0-8 1200 9.6 kW 
    TSA10-1800 0-10 1800 18 kW 
    TSA10-2700 0-10 2700 27 kW 

    Input Voltage (Must be specified at time of order)

    1 phase, 2 wire + ground (5 kW, 10 kW, and 15 kW models only)
    208 VAC, 1 φ (operating range 187 - 229 VAC)
    240 VAC, 1 φ (operating range 216 - 264 VAC)

    3 phase, 3 wire + ground (all models) 
    208 VAC, 3φ (operating range 187 - 229 VAC)
    240 VAC, 3φ (operating range 216 - 264 VAC)
    380 VAC, 3φ (operating range 342 - 418 VAC)
    415 VAC, 3φ (operating range 373 - 456 VAC)
    440 VAC, 3φ (operating range 396 - 484 VAC)
    480 VAC, 3φ (operating range 432 - 528 VAC)

    Model Number Example: 
    TS Series, A Version front panel, 40 Volts, 375 Amps, 480 VAC 3φ input      TSA40-375/480 

    TS Series, A Version front panel, 40 Volts, 375 Amps, 240 VAC 1 φ input     TSA40-375/240SP 

    NOTE: 

    • Models over 15 kW are intended for rack mount installations only. They are not designed for benchtop use due to exposed input and output terminals. 
    • GPIB and Ethernet are optional and must be specified at time of order.
    • Power cords are not included.

Magna Power SL Series DC Programmable Power Supply

MAGNA POWER DC POWER SUPPLY
    • 54 Models: 1.5 kW, 2.6 kW, and 4.0 kW in a 1U package
    • Models from 0-5 VDC to 0-1000 VDC
    • Optically isolated user I/O circuitry standard
    • High efficiency operation: Up to 88% efficiency on select models
    • RS-232 interface standard with SCPI Commands
    • Optional GPIB, USB, Ethernet (LXI-C), RS-485 interfaces
    • Over Voltage and Over Current shutdown standard
    • Certified LabWindows/CVI, LabVIEW, and IVI Drivers
    • Programmable Output Modulation: Emulates user-defined power profiles
    • Automatic Voltage/Current Crossover
    • Front Panel Calibration 
    • Made in USA
    • Two Year Warranty

    High Frequency IGBT-based Switch-Mode Design 
    The SL Series utilizes the latest IGBT devices to drive down size and increase performance. The high frequency design delivers fast transient response and low output ripple. This performance coupled with Magna-Power's rugged current-fed power processing, enables confidence in even the most demanding applications.

    Fully Programmable Power 
    All SL Series functions and features of are available and programmable from a variety of control methods, including: 

    • Stepless front panel knobs 
    • 37-pin isolated analog-digital I/O 
    • Computer interface with software and drivers 

    Various programming interfaces are available, such as LXI TCP/IP Ethernet (+LXI), IEEE-488 GPIB (+GPIB), Edgeport USB, Accessory (+USB), RS485 Accessory (+RS485). 

    Industry Leading 1U Power Density, Many Input AC Options 
    The SL Series builds on over 30 years of power supply innovation at Magna-Power, designed from the ground up to meet the highly reliable power dense demands of ATE system integrators with models at 1.5 kW, 2.6 kW and 4 kW all within a 1U (1.75” height) package. All models are available with 3-phase input at 208 Vac, 240 Vac, 380 Vac, 415 Vac, 440 Vac or 480 Vac, which dramatically lowers input current draw. 1.5 kW models are additional available with a power factor corrected (PFC) universal single phase AC input (85 - 265 Vac). 

    Designed for Safety 
    SL Series power supplies have extensive diagnostic functions, including: phase loss, excessive thermal conditions, over voltage trip (programmable), over current trip (programmable), cleared fuse, and excessive program line voltage. When in standby or diagnostic fault, the AC mains are mechanically disconnected via an embedded AC contactor, providing confidence that the unit is only processing power when desired. 

    Scalable Master-Slave Operation 
    For maximum flexibility, all SL Series power supplies can be scaled in a master-slave configuration for higher voltage or current output. Using the plug and play Universal Interface Device (+UID47), units are tied together in via their 37-pin I/O, allowing an increase in system current when configured in parallel or increase in system voltage when configured in series—up to the power supply's output isolation rating. 

    Extensive Programming Support and Included Software 
    All SL Series power supplies come standard with a National Instruments LabVIEW™ and LabWindows™/CVI drivers. In addition, an IVI driver is included supporting Visual C++, Visual C#, Visual Basic .NET, MATLAB, Measure Foundry, PAWS, Visual Basic 6.0, and Keysight VEE Pro. A Standard Commands for Programmable Instrumentation (SCPI) command set is also supported, allowing programming using raw ASCII commands. Finally, Magna-Power's RIS Panel software is provided allowing for a virtual control panel controlling the power supply via any of the available communication interfaces. 

    1.5 kW Models (bold=fast delivery) 
    Model Voltage (V) Current (A)
    SL5-250 0-5 0-250
    SL10-150 0-10 0-150
    SL16-93 0-16 0-93
    SL20-75 0-20 0-75
    SL32-46 0-32 0-46
    SL40-37 0-40 0-37
    SL50-30 0-50 0-30
    SL80-18 0-80 0-18
    SL100-15 0-100 0-15
    SL125-12 0-125 0-12
    SL160-9 0-160 0-9
    SL200-7 0-200 0-7
    SL250-6 0-250 0-6
    SL375-4 0-375 0-4
    SL400-3.7 0-400 0-3.7
    SL500-3 0-500 0-3
    SL600-2.5 0-600 0-2.5
    SL800-1.8 0-800 0-1.8
    SL1000-1.5 0-1000 0-1.5
    2.6 kW Models
    Model Voltage (V) Current (A)
    SL10-250 0-10 0-250
    SL16-162 0-16 0-162
    SL20-130 0-20 0-130
    SL32-81 0-32 0-81
    SL40-65 0-40 0-65
    SL50-52 0-50 0-52
    SL80-32 0-80 0-32
    SL100-26 0-100 0-26
    SL125-20 0-125 0-20
    SL160-16 0-160 0-16
    SL200-13 0-200 0-13
    SL250-10.4 0-250 0-10.4
    SL375-6.9 0-375 0-6.9
    SL400-6.5 0-400 0-6.5
    SL500-5.2 0-500 0-5.2
    SL600-4.3 0-600 0-4.3
    SL800-3.2 0-800 0-3.2
    SL1000-2.6 0-1000 0-2.6
    4 kW Models
    Model Voltage (V) Current (A)
    SL16-250 0-16 0-250
    SL20-200 0-20 0-200
    SL32-125 0-32 0-125
    SL40-100 0-40 0-100
    SL50-80 0-50 0-80
    SL80-50 0-80 0-50
    SL100-40 0-100 0-40
    SL125-32 0-125 0-32
    SL160-25 0-160 0-25
    SL200-20 0-200 0-20
    SL250-16 0-250 0-16
    SL375-10.4 0-375 0-10.4
    SL400-10 0-400 0-10
    SL500-8 0-500 0-8
    SL600-6.4 0-600 0-6.4
    SL800-4.8 0-800 0-4.8
    SL1000-4 0-1000 0-4

    Input Voltage (Must be specified at time of order)

    UI (85 - 265 1Φ, 1.5 kW Models Only);
    208 Vac 3Φ; 240 Vac 3Φ; 380 Vac 3Φ;
    415 Vac 3Φ; 440 Vac 3Φ; 480 Vac 3Φ

    Model Ordering System
    Series Front Panel Voltage (Vdc) - Current (Adc) / Input Voltage + Interface Option 
    SL Blank: Standard Panel 
    C: Computer (Blank) Panel 
    See Tables - See Tables / UI 
    208
    240
    380
    415
    440
    480
    + GPIB
    LXI
    PPPE
    RS-485
    UID
    USB

     

    Example: SL1000-4.0/208+HS+LXI

    Included: isolated 37-pin external I/O, RS232, Remote Interface Software, IVI drivers for integration into a variety of programming environments, and modulation capabilities for non-linear output profile emulation. Two front panel types are available for different application requirements. The standard SL Version front panel (pictured in the image above) provides front panel control and calibration, start and stop buttons, and a digital display for voltage and current. The C Version front panel provides a blank display panel, allowing control only from the computer or isolated 37-pin I/O connection.

Magna Power MS IV Series DC Programmable Power Supply

Magna Power DC Power Supply
    • Floor standing models from 30 kW to 75 kW
    • 84 Models: 0-16 to 0-4000 Vdc and 0-7.2 to 0-4500 Adc 
    • Wide range of input voltage options: From 208 Vac to 480 Vac, at 50 Hz, 60 Hz, and 400 Hz
    • Optically isolated user I/O circuitry standard
    • High efficiency operation: Up to 88% efficiency on select models
    • RS-232 interface standard with SCPI Commands
    • Optional GPIB, USB, Ethernet (LXI), RS-485 interfaces
    • Over Voltage and Over Current shutdown standard
    • Certified LabWindows/CVI, LabView, and IVI Drivers
    • Programmable Output Modulation: Emulates user-defined power profiles (D Panel units only) 
    • Automatic Voltage/Current Crossover 
    • Front Panel Calibration 
    • CE Mark on all Series IV Models
    • Made in USA
    • Two Year Warranty

    Innovative
    Magna-Power Electronics MS Series combines the best of dc power processing with multiprocessor embedded control. A combination of high and medium frequency power processing technologies improves response, shrinks package size, and reduces cost. MS Series power supplies are current fed and are more tolerant to abusive loads than conventional switching power supplies.

    Scalable Power
    MS Series power supplies offer both master/slave parallel and series operation. This enables two or more power supplies to be placed in parallel for increased output current or in series for increased output voltage. With master/slave operation, power supplies operate at near equal voltage and current.

    Electronic Output Bleeder Stage - New for MS Series IV
    Standard output bleeder resistance was replaced with near constant power electronic loading. The new output stage enables faster fall times, and improved performance under light loading without affecting overall efficiency. 

    High Accuracy Programming and Monitoring - New for MS Series IV
    Enhancements to the product controls and calibration procedures enabled an over five-fold improvement in accuracy. Accuracy specifications are now ±0.075% of full-scale voltage/current programming and ±0.2% of full-scale voltage/current monitoring. Higher accuracy enables measurements to be taken directly from Magna-Power Electronics power supplies, eliminating the need for external power meters and lowering overall system costs and complexity. All power supplies still maintain ease of front panel calibration.

    Unparalelled Control
    MS Series power supplies can be configured through the front panel for different applications. The power supply can be programmed to have its control functions accessible from the front panel, rear connector, or through RS-232, optional GPIB, or optional LXI TCP/IP Ethernet communications. Sensing can be established at the output terminal of the power supply or through a rear terminal block for sensing at the load. An external interlock can be set to enable operation only when an external connection is made. Even calibration has been simplified with front panel access to calibration digital potentiometers. MS Series power supplies incorporate an optically isolated feedback system. The result is that all user interface circuitry is referenced to earth ground -- not the negative terminal of the power supply. This enables users to connect external circuitry without concern of ground loops or voltage breakdown.

    Load Dependent Air or Optional Water Cooling
    MS Series power supplies are designed to operate at rated load 24 hours per day. Standard air cooled units are equipped with variable speed, load dependent blowers to maintain comfortable margins for removing heat from sensitive power semiconductors. Variable speed operation maximizes fan life and a minimizes external environmental hazards. Optional water cooled models contain integrated semiconductor chillers and air to water heat exchangers to manage cooling of heat producing components. This option allows the power supply to be sealed from the environment enabling placement in harsh environments. These units provide long life in plating facilities, electrodionization treatment plants, shipboard, and other corrosive environments. Water cooling also permits power supplies to be stacked in high density equipment racks where air cooling is not possible or desireable.

    Designed for Safety
    MS Series power supplies have extensive diagnostic functions -- all of which, when activated, take command to shut down the system. Diagnostic functions include phase loss, excessive thermal conditions, over voltage trip, over current trip, fuse clearing, and program line. Program line monitors externally applied analog set point signals to insure they are within the specified range. Upon a diagnostic fault condition, main power is disconnected and the diagnostic condition is latched into memory. Pressing the clear key clears the memory. All diagnostic functions can be monitored through a rear connector. Furthermore, control functions can also be set through the rear connector to allow simultaneous control of one or more MS Series units. MS Series supplies have three levels of over voltage/current protection: shutdown of controlling insulated gate bipolar transistors (IGBT’s), disconnect of main power, and input fuses. After an over voltage/current trip condition, the supply must be reset.

    MSA Version Front Panel
    MSA models provide stepless analog control from front panel knobs. With a simple configuration change, the power supply can be programmed from the rear I/O connector or through software on one of the communication buses. 

    MSD Version Front Panel
    MSD models provide all of the features of the MSA Version plus these models can be configured for keypad entries and up/down presses for voltage, current, over voltage trip, and over current trip. Key strokes are kept to a minimum by a repeat last command feature. MSD Series power supplies are well suited for laboratory applications requiring enhanced control.

    MSD Series models have one-hundred memory states available to program voltage, current, over voltage trip, over current trip, and time period. Set points can be auto sequenced with time or external triggering. Special programming codes allow repeating to create a power function generator. The first 10 memory states are displayed on the front panel to simplify programming tasks. MSD Series power supplies offer an analog input to modulate the voltage or current setting using piecewise linear approximation. This feature enables the voltage or current setting to be adjusted by a sensor input, such as a thermistor, or by monitoring its own voltage or current. Modulation allows the output to be tailored for advanced process control applications, battery charging, and source emulation.

    MSC Version Front Panel
    MSC models hava a blank front panel and only allows control from the rear I/O connector or by RS-232/GPIB/USB/Ethernet communications. These models are intended for process control applications where front panel controls and displays are not required nor desired.

    Magna-Power SoftwareRemote Interface Software
    The Remote Interface Software is shipped with all MS Series power supplies. The software provides the user with a quick method to operate a Magna-Power Electronics' power supply under computer control. The Remote Interface Software has six windows: the Virtual Control Panel, Command Panel, Register Panel, Calibration Panel, Firmware Panel, and Modulation Panel. The Virtual Control Panel emulates the front panel of the MS Series power supply, the Command panel programs and reads SCPI commands with user friendly buttons, the Register Panel programs and reads registers, the Calibration Panel enables calibration of the digital potentiometers, the Firmware Panel enables the program stored internal to the power supply to be upgraded, and the Modulation Panel eases programming of modulation parameters.
    30 kW Models
    Model Voltage (V) Current (A)
    MSA16-1800 0-16 0-1800
    MSA20-1500 0-20 0-1500
    MSA32-900 0-32 0-900
    MSA40-750 0-40 0-750
    MSA50-600 0-50 0-600
    MSA80-372 0-80 0-372
    MSA100-300 0-100 0-300
    MSA125-240 0-125 0-240
    MSA160-186 0-160 0-186
    MSA200-150 0-200 0-150
    MSA250-120 0-250 0-120
    MSA375-78 0-375 0-78
    MSA400-72 0-400 0-72
    MSA500-60 0-500 0-60
    MSA600-48 0-600 0-48
    MSA800-36 0-800 0-36
    MSA1000-30 0-1000 0-30
    MSA1500-19.8 0-1500 0-19.8
    MSA2000-15.0 0-2000 0-15.0
    MSA3000-9.6 0-3000 0-9.6
    MSA4000-7.2 0-4000 0-7.2
     
    45 kW Models
    Model Voltage (V) Current (A)
    MSA16-2700 0-16 0-2700
    MSA20-2250 0-20 0-2250
    MSA32-1350 0-32 0-1350
    MSA40-1125 0-40 0-1125
    MSA50-900 0-50 0-900
    MSA80-558 0-80 0-558
    MSA100-450 0-100 0-450
    MSA125-360 0-125 0-360
    MSA160-279 0-160 0-279
    MSA200-225 0-200 0-225
    MSA250-180 0-250 0-180
    MSA375-117 0-375 0-117
    MSA400-108 0-400 0-108
    MSA500-90 0-500 0-90
    MSA600-72 0-600 0-72
    MSA800-54 0-800 0-54
    MSA1000-45 0-1000 0-45
    MSA1500-27.7 0-1500 0-27.7
    MSA2000-22.5 0-2000 0-22.5
    MSA3000-14.4 0-3000 0-14.4
    MSA4000-10.8 0-4000 0-10.8
    60 kW Models
    Model Voltage (V) Current (A)
    MSA16-3600 0-16 0-3600
    MSA20-3000 0-20 0-3000
    MSA32-1800 0-32 0-1800
    MSA40-1500 0-40 0-1500
    MSA50-1200 0-50 0-1200
    MSA80-744 0-80 0-744
    MSA100-600 0-100 0-600
    MSA125-480 0-125 0-480
    MSA160-372 0-160 0-372
    MSA200-300 0-200 0-300
    MSA250-240 0-250 0-240
    MSA375-156 0-375 0-156
    MSA400-144 0-400 0-144
    MSA500-120 0-500 0-120
    MSA600-96 0-600 0-96
    MSA800-72 0-800 0-72
    MSA1000-60 0-1000 0-60
    MSA1500-39.6 0-1500 0-39.6
    MSA2000-30.0 0-2000 0-30.0
    MSA3000-19.2 0-3000 0-19.2
    MSA4000-14.4 0-4000 0-14.4
     
    75 kW Models
    Model Voltage (V) Current (A)
    MSA16-4500 0-16 0-4500
    MSA20-3750 0-20 0-3750
    MSA32-2250 0-32 0-2250
    MSA40-1875 0-40 0-1875
    MSA50-1500 0-50 0-1500
    MSA80-930 0-80 0-930
    MSA100-750 0-100 0-750
    MSA125-600 0-125 0-600
    MSA160-465 0-160 0-465
    MSA200-375 0-200 0-375
    MSA250-300 0-250 0-300
    MSA375-195 0-375 0-195
    MSA400-180 0-400 0-180
    MSA500-150 0-500 0-150
    MSA600-120 0-600 0-120
    MSA800-90 0-800 0-90
    MSA1000-75 0-1000 0-75
    MSA1500-49.5 0-1500 0-49.5
    MSA2000-37.5 0-2000 0-37.5
    MSA3000-24.0 0-3000 0-24.0
    MSA4000-18.0 0-4000 0-18.0
       

    Low Voltage, High Current Models

    Model Voltage (V) Current (A) Power
    MSA5-2700 0-5 2700 14 kW 
    MSA5-3600 0-5 3600 18 kW 
    MSA10-2700 0-10 2700 27 kW 
    MSA10-3600 0-10 3600 36 kW 
    MSA10-4500 0-10 4500 45 kW 

Magna Power PPPE2 Photovoltaic Power Profile Emulation Software

Photovoltaic Power Profile Emulation Software, DC Power Supply, Magna Power

    Introduction

    The Photovoltaic Power Profile Emulation (PPPE) software automatically calculates solar array voltage and current profiles based on user-defined parameters. These profiles can be sequentially sent to a Magna-Power Electronics power supply, which will emulate defined characteristics. The user can define a limitless number of profiles to be emulated and sequenced over a given time period.

    Design and production validation for photovoltaic connected electronics requires a photovoltaic emulating power source with flexible output characteristics. Inverters and specialized DC-DC converters employ maximum power point tracking (MPPT) control algorithms to maximize utilization of nonlinear energy sources, such as solar panels and wind turbines. For development and manufacturing, using photovoltaic arrays for validation is costly with uncontrolled source characteristics. By utilizing a power supply with user-programmable output characteristics, the user can evaluate the full range of power conditions.

    After the profile is defined, it can be transferred to the power supply for either static or dynamic emulation. A time dependent parameter defines how long the power supply should emulate that profile before loading the next profile in the sequence.

    Modeling and Operation

    A profile is a voltage/current curve that the power supply’s output should emulate. There are three methods to generate a power profile in the PPPE software:

    Automatic, based on solar array parameters
    The user selects the desired solar panel technology, nominal temperture, irradiance, voltage and current values. Each V-I profile is then defined only by new temperature and irradiance values. The rest of the parameters: maximum power point (Vmp, Imp), open circuit voltage (Voc), and short circuit current (Isc); are all calculated automatically in accordance with the EN50530 standard.
    Automatic, based on 4-parameters
    The user defines the maximum power point (Vmp, Imp), open circuit voltage (Voc), and short circuit current (Isc). The profile is then generated based on these parameters.
    Manual
    The user defines up to 50 current and voltage points for the power supply to emulate. The power supply performs a piecewise linear approximation between points to provide a smooth output curve.

    Advanced Feature Set

    Magna-Power Electronics worked closely with solar inverter manufacturers to refine the PPPE feature-set. Some of the key advanced PPPE features are as follows:

    EN50530 Modeling
    The European EN50530 standard provides a new algorithm for proper solar array modeling. PPPE 2.0 incorporates this model, furthermore allowing the selection of thin film or polycrystalline silicon parameters. Defining a curve is as simple as specifying desired open-circuit voltage, short-circuit current, and maximum power point. Alternatively, manual parameters can be entered for more customized modeling or profile importing from an external file.

    Live Output Viewer
    A new live output viewer provides six graphs of instantaneous output parameters versus time. This data allows the user to visualize fluctuations in voltage, current, and power over time.

    Curve Interpolation
    An interpolation function was added to automatically generate transitional curves. This functionality enables smooth transitions from one curve to another over a user-defined period of time.

    Data Logging
    Customizable data logging functionality was added, allowing for report generation and data analysis using external tools. Data is exported to a comma-delimited (.csv) file.

    Command Export
    Leverage the ease of profile generation in PPPE and export the generated SCPI commands for integration into a separate programming environment, such as LabVIEW/LabWindows.

    Specifications

    General Specifications
    Cutoff Frequency (-3dB) With High-Slew Rate option: 15 Hz
    Standard models: 2 Hz
    Communication Protocols Supported RS-232, LXI TCP/IP Ethernet, GPIB, USB
    Minimum Time Between Profiles 2 sec
    Number of Profiles Per Sequence Unlimited
    Minimum Voc and Isc 10% of power supply's rated voltage and current
    Maximum Profile Slope (ΔI/ΔV) × (Imax /Vmax) ≤ -0.05
    Instantaneous Load Change to Short-circuit With High-Slew Rate option only

    Solar Emulation Performance Characteristics

    High Slew Rate: Equivalent Output Impedance During Solar Emulation:

    High-Slew Rate: Voltage Error During Solar Emulation:

    High-Slew Rate: Frequency Response During Solar Emulation

     

Magna Power MT VI Series DC Programmable Power Supply

Magna Power DC Power Supply

    High Frequency IGBT-based Switch-Mode Design

    The MT Series utilizes the latest IGBT devices to drive down size and increase performance. The high frequency design delivers fast transient response and low output ripple. This performance coupled with Magna-Power's rugged current-fed power processing, enables confidence in even the most demanding applications.

    Fully Programmable Power

    All MT Series functions and features of are available and programmable from a variety of control methods, including:

    • Stepless front panel knobs
    • 37-pin isolated analog-digital I/O
    • Computer interface with software and drivers

    Various programming interfaces are available, such as LXI TCP/IP Ethernet (+LXI), IEEE-488 GPIB (+GPIB), Edgeport USB, Accessory (+USB), RS485 Accessory (+RS485).

    Large 100 kW, 150 kW and 250 kW for High Power DC Demands

    Magna-Power's MT Series consists of large high-power IGBT-based modules: individual 100 kW, 150 kW and 250 kW power supplies. As an added safety measure, all MT Series VI units include an input AC breaker rated for full power. The independent IGBT-based MT Series units are among the largest standard switch-mode power supplies on the market, minimizing the number of switching components, making it more economical and simpler to integrate than smaller module sizes.

    Designed for Safety

    MT Series power supplies have extensive diagnostic functions, including: phase loss, excessive thermal conditions, over voltage trip (programmable), over current trip (programmable), cleared fuse, and excessive program line voltage. When in standby or diagnostic fault, the AC mains are mechanically disconnected via an embedded AC contactor, providing confidence that the unit is only processing power when desired.

    Scalable Master-Slave Operation

    For maximum flexibility, all MT Series power supplies can be scaled a in master-slave configuration for higher voltage or current output. Using the plug and play Universal Interface Device (+UID47), units are tied together in via their 37-pin I/O, allowing an increase in system current when configured in parallel or increase in system voltage when configured in series—up to the power supply's output isolation rating.

    Extensive Programming Support and Included Software

    All MT Series power supplies come standard with a National Instruments LabVIEW™ and LabWindows™/CVI drivers. In addition, an IVI driver is included supporting Visual C++, Visual C#, Visual Basic .NET, MATLAB, Measure Foundry, PAWS, Visual Basic 6.0, and Agilent VEE Pro. A Standard Commands for Programmable Instrumentation (SCPI) command set is also supported, allowing programming using raw ASCII commands. Finally, Magna-Power's RIS Panel software is provided allowing for a virtual control panel controlling the power supply via any of the available communication interfaces.

    MT Series Harmonic Neutralization

    Magna-Power's Harmonic Neutralizers eliminate families of harmonic components by multiplying the number of input phases with specially wound magnetic components, reducing the total harmonic distortion (THD). These magnetic components, in combination with equally loaded, high-power DC power supplies, offer a cost-effective solution to maintaining power quality at acceptable levels, enabling applications to benefit from Magna-Power's reliable high-frequency switch-mode power supplies, extended into multi-megawatts. A 12-pulse Harmonic Neutralizer is embedded in all 250 kW models and its installation is transparent to the end user. For applications demanding an even better THD level than that provided by a 12-pulse waveform, external 24-pulse and 48-pulse harmonic neutralizers are available from Magna-Power. Contact you local sales partner for more information.

    Understanding AC Harmonic Waveforms

    The following figures are representative of expected AC current waveforms for the various pulses available from Magna-Power Electronics power supplies. Standard models 1.5 kW through 150 kW produce 6-pulse waveforms, while 250 kW models produce 12-pulse waveforms. Magna-Power Electronics Harmonic Neutralizers suppress families of harmonics by increasing the number of power phases. It can be used when multiple power supplies are used in series or parallel and are equally loaded. Harmonic Neutralizers can produce 12-pulse, 18-pulse, 24-pulse, or 48-pulse waveforms which have harmonic current components on the order of 12n±1, 18n±1, 24n±1, or 48n±1, respectively. The following figures show the theoretical difference for waveforms with a different number of pulses. Harmonic Neutralizers are protected with appropriate sized primary-side circuit breakers.

    Why Neutralize Harmonics?

    Input current harmonics are a by-product of nearly all power supplies. Power can only be delivered to the load if the frequency and phase of the voltage and current match. For a three phase power supply using a three phase input rectifier, the input current has a theoretical spectrum of 6n±1 where n is an integer incrementing from 1; this is known as a 6-pulse waveform. This means that a power supply with a three phase input rectifier will produce input currents at 1, 5, 7, 11, 13, 17, 19 ... times the fundamental frequency. The theoretical magnitude decays as the reciprocal of the harmonic component. The 5th and 7th harmonic components have magnitudes of 20% and 14% of the fundamental component, respectively.

    Harmonics currents in power systems can find unusual paths and can cause problems if the magnitude is significant and there are loads sensitive to harmonic frequencies. For example, lighting ballasts have series connected capacitors and inductors which can be excited by harmonic currents. IEEE has introduced standard, IEEE 519, which defines recommended limits. Implementing this standard requires a knowledge of the power system and other loads producing harmonics. Unfortunately, the standard can allow the same power supply to possibly exceed limits in one application and not in another. In the same respect, a power supply may or may not can cause a harmonic related problem with or without meeting IEEE 519. The best solution to minimize the risk of a harmonic problem is to eliminate the harmonic current at the source.

    Models

    There are hundreds of possible configurations for the MT Series product. Using the following ordering guide and models chart to define the best model for your application. Need lesspower? Visit our MS Series product line.

    Model Ordering Guide

    Models Chart

    The following chart details the available standard MT Series models. The Current Maximum (Adc) column is separated by the available power levels. To determine the appropriate model, first select your output Voltage Maximum (Vdc) to find appropriate row. Next, select one desired Current Maximum from the row that contains your desired Voltage Maximum. Then, construct your model number according to the model ordering guide, above. Non-standard voltage and current configurations are available. Configurations above 1000 kW are also available. Please contact your local sales partner for more information.

      100 kW 150 kW 250 kW 500 kW* 750 kW* 1000 kW*    
    Voltage Maximum Current Maximum Ripple (mVrms) Eff. (%)
    16 6000 N/A N/A N/A N/A N/A 35 90
    20 5000 N/A N/A N/A N/A N/A 40 90
    25 N/A 6000 N/A N/A N/A N/A 40 90
    32 3000 4500 N/A N/A N/A N/A 40 90
    40 2500 3750 6000 12000 18000 24000 40 91
    50 2000 3000 5000 10000 15000 20000 50 91
    80 1250 1850 3000 6000 9000 12000 60 91
    100 1000 1500 2500 5000 7500 10000 60 91
    125 800 1200 2000 4000 6000 8000 100 91
    160 620 900 1500 3000 4500 6000 120 91
    200 500 750 1250 2500 3750 5000 125 91
    250 400 600 1000 2000 3000 4000 130 92
    375 270 400 660 1320 1980 2640 170 92
    400 250 375 625 1250 1875 2500 180 92
    500 200 300 500 1000 1500 2000 220 92
    600 160 240 400 800 1200 1600 250 92
    800 120 180 300 600 900 1200 300 92
    1000 100 150 250 500 750 1000 400 92
    1250 80 120 200 400 600 800 500 92
    1600 62 90 150 300 450 600 600 92
    2000 50 75 125 250 375 500 800 92
    2500 40 60 100 200 300 400 900 92
    3000 32 48 80 160 240 320 1000 92
    4000 24 36 60 120 180 240 1100 92
      Input Current Per Phase (Aac)    
    380/415 Vac, 3Φ 191 287 478 956 1434 1912    
    440/480 Vac, 3Φ 165 248 413 826 1239 1652    

    For models with the High Slew Rate Output Option (+HS), ripple will be higher. Power levels marked with an asterisk (*) are formed by master-slaving multiple 250 kW modules in master-slave parallel using the UID47 device.

    Specifications

    Input
    Nominal Voltage
    3 phase, 3 wire + ground
    380 VAC (operating range 342 - 418 VAC)
    415 VAC (operating range 373 - 456 VAC)
    440 VAC (operating range 396 - 484 VAC)
    480 VAC (operating range 432 - 528 VAC)
    Frequency 50-60 Hz (operating range 45 Hz to 66 Hz)
    Power Factor > 92% at maximum power 100 kW and 150 kW modules
    > 96% at maximum power 250 kW modules
    Output Specifications
    Ripple See Model Charts
    Line Regulation Voltage Mode: ± 0.004% of full scale
    Current Mode: ± 0.02% of full scale
    Load Regulation Voltage Mode: ± 0.01% of full scale
    Current Mode: ± 0.04% of full scale
    Load Transient Response 2 ms to recover within ±1% of regulated output with a 50% to 100% or 100% to 50% step load change
    Efficiency ≥ 90% (See Model Charts)
    Stability ± 0.10% for 8 hrs. after 30 min. warmup
    Isolation User inputs and outputs: referenced to Earth ground
    Maximum input voltage to ground: ±2500 Vac
    Maximum output voltage to ground:
    ±1000 Vdc for models less than or equal to 1000 Vdc,
    ±4000 Vdc for models greater than 1000 Vdc.
    Maximum Slew Rate Standard Models:
    100 ms for an output voltage change from 0 to 63%,
    100 ms for an output current change from 0 to 63%.
    With High Slew Rate Option (+HS):
    4 ms for an output voltage change from 0 to 63%,
    8 ms for an output current change from 0 to 63%.
    Bandwidth Standard Models:
    3 Hz with remote analog voltage programming,
    2 Hz with remote analog current programming.
    With High Slew Rate Option (+HS):
    60 Hz with remote analog voltage programming,
    45 Hz with remote analog current programming.
    Physical Specifications
    Power Size (H" x W" x D") Weight
    100 kW 62.5 x 48 x 31.5 in (158.8 x 121.9 x 80.0 cm) 1600 lbs (725.8 kg)
    150 kW 62.5 x 48 x 31.5 in (158.8 x 121.9 x 80.0 cm) 2100 lbs (952.5 kg)
    250 kW 62.5 x 72 x 31.5 in (158.8 x 182.9 x 80.0 cm) 3300 lbs (1496.9 kg)
    500 kW 62.5 x 144 x 31.5 in (158.8 x 365.8 x 80.0 cm) 6600 lbs (2993.7 kg)
    750 kW 62.5 x 216 x 31.5 in (158.8 x 548.7 x 80.0 cm) 9900 lbs (4490.6 kg)
    1000 kW 62.5 x 288 x 31.5 in (158.8 x 731.6 x 80.0 cm) 13200 lbs (5987.4 kg)
    Control Specifications
    Voltage Programming Accuracy ± 0.075% of full scale voltage
    OVT Programming Accuracy ± 0.075% of full scale voltage
    Current Programming Accuracy ± 0.075% of full scale current
    OCT Programming Accuracy ± 0.075% of full scale current
    Voltage Readback Accuracy ± 0.2% of full scale voltage
    Current Readback Accuracy ± 0.2% of full scale current
    External Analog Programming and Monitoring Levels 0 - 10 Vdc
    External Analog Output Impedances Voltage output monitoring: 100 O
    Current output monitoring: 100 O
    +10 Vdc reference: 1 O
    External Digital Programming and Monitoring Limits Input: 0 to 5 Vdc, 10 kO input impedance
    Output: 0 to 5 Vdc, 5 mA drive capacity
    Remote Sense Limits 3% maximum voltage drop from output to load
    Environmental
    Operating Temperature 0°C to 50°C
    Storage Temperature -25°C to +85°C
    Ambient Temperature 0 to 50°C
    Temperature Coefficient 0.04%/°C of maximum output voltage,
    0.06%/°C of maximum output current.
    Air Cooling Front and rear intake, top exhaust

    Diagrams

    For maximum flexibility, all front panel function and controls have equivalent programming and monitoring functions on the included rear 37-pin analog-digital I/O connector and on the computer programming interface.

    A Version Front Panel (MTA)

    The A Version front panel provides a digital display with rotary front panel input, isolated 37-pin analog-digital I/O, and a RS232 computer interface.

    D Version Front Panel (MTD)

    In addition to the features of the A Version front panel, the D Version front panel provides digital 10-key entry, auto-sequencing with memory capability, and modulation for non-linear power profile emulation.

    C Version Front Panel (MTC)

    The C Version front panel is blank, providing only a switch to enable control power. All control must be performed by the provided isolated 37-pin analog-digital I/O or through a computer interface.

    A

    • Engages and disengages main power

    B

    Meters display output voltage, output current, voltage set point, current set point, over voltage trip, and over current trip

    C

    Over voltage trip and over current trip setting potentiometers

    D

    Mode
    • POWER: Indicates power output
    • STANDBY: Indicates control power only

    E

    Configuration
    • REM SEN: Remote sense enabled
    • INT CTL: Front panel start/stop/clear enabled
    • EXT CTL: External start/stop/clear enabled
    • ROTARY: Front panel rotary knob input
    • KEYPAD: 10-digit numeric keypad control
    • EXT PGM: External analog voltage-current control
    • REMOTE: Computer control

    F

    Diagnostic Alarms
    • LOCK: Interlock
    • PGM LN: External input voltage beyond limits
    • OVT: Over voltage protection has tripped
    • OCT: Over current protection has tripped
    • THERM: Over temperature condition
    • PHASE: Under voltage AC input
    • FSE: Warns that a fuse has cleared
    • ARM: Indicates power supply is ready for or operating in auto-sequencing

    G

    Power switch energizes control circuits without engaging main power Diagnostic Alarms

    H

    Stepless rotary knob to set voltage-current

    I

    Function Keys
    • MENU: Selects function
    • ITEM: Selects item within function
    • V/I DIS: Displays voltage-current settings
    • TRIP DIS: Displays OVT and OCT setting
    • CLEAR: Clears settings or resets fault
    • ENTER: Select item

    J

    Memory location indicator, used for auto-sequencing applications

    K

    Digital input keypad


    Front Side Dimensions 100 kW and 150 kW Models

    Front Side Dimensions 250 kW Models

    Rear Side Dimensions 100 kW and 150 kW Models

    Rear Side Dimensions 250 kW Models

    High Voltage Output Bus 
    Models Above 1000 Vdc

    Medium Voltage Output Bus 
    Models 80 Vdc to 1000 Vdc

    Low Voltage Output Bus 
    Models below 80 Vdc

    1

    Front Panel Controller

    2

    Air Exhaust Fans

    3

    Front and Rear Air Intake

    4

    Computer and External Control Connections

    5

    DC Output Bus (See Details Below)

    6

    Input AC Breaker

    7

    Input AC Power Entry 
    Qty (4) 3/8-16 1.5” Studs

    Note: 150 kW model pictured in diagrams titled "100 kW and 150 kW Models." 100 kW models will have the front panel on the left side as opposed to the right.