Micsig tBook Series Tablet Oscilloscope

- 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
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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 TDS Series Touch Screen Digital Oscilloscope

- Max 200MHz bandwidth, up to 2GS/s realtime sample rate
- 7.6M record length
- 50,000 wfms/s waveform capture rate
- waveform zooming (horizontal / vertical), and saving
- FFT points (length, and resolution variable)
- multi-window extension
- user-friendly voice warning
- 8 inch 800 x 600 pixels high def LCD
- multi- communication interface : USB, VGA, LAN
Application
electronic circuit debugging
circuit testing
design and manufacture
education and training
automobile maintenance and testing
Model | TDS7104 | TDS8104 | TDS8204 | |
Bandwidth | 100MHz | 200MHz | ||
Channel | 4 | |||
Sample Rate | 1GS/s | 2GS/s | ||
Waveform Capture Rate | 50,000 wfms/s | |||
Display | 8" touch screen color LCD | |||
Input Coupling | DC, AC, and GND | |||
Input Impedance | 1MΩ ± 2%, in parallel with 10pF ± 5pF ; 50Ω ± 1% | |||
Probe Attenuation Factor | 1X, 10X, 100X, 1000X | |||
Max Input Voltage | 1MΩ input impedance : 400V (PK - PK) (DC + AC, PK - PK) ; 50Ω input impedance : 5V (PK - PK) (DC + AC, PK - PK) | |||
Channel Isolation | 50Hz:100:1 ; 10MHz:40:1 | |||
Interpolation | sin(x)/x | |||
Record Length | 7.6M | |||
Horizontal Scale (s/div) | 2ns/div - 100s/div, step by 1 - 2 - 5 | |||
Interval (Delta T) Accuracy (full bandwidth) | Single : ±(1 interval time + 100ppm × reading + 0.6ns), Average>16 : ±(1 interval time + 100ppm × reading + 0.4ns) | |||
Vertical Resolution (A/D) | 8 bits resolution (4 channels simultaneously) | |||
Vertical Sensitivity | 2mV/div - 10V/div (at input) | |||
Analog Bandwidth | 100MHz | 200MHz | ||
LF Respond (AC, -3dB) | ≥10Hz (at input, AC coupling, -3dB) | |||
Rise Time | ≤3.5ns | ≤1.7n | ||
DC Accuracy | ±3% | |||
Trigger Type | Edge, Pulse, Video, Slope | |||
Trigger Mode | Auto, Normal, Single | |||
Trigger Level Range | ±6 div from the screen center | |||
Trigger level Accuracy (typical) | ±0.3 div | |||
Line / Field Frequency (video) | NTSC, PAL, and SECAM standard | |||
Automatic Measurement | Vpp, Vavg, Vamp, Vrms, Freq, Period, Vmax, Vmin, Vtop, Vbase, Overshoot, Preshoot, Rise Time, Fall Time, Delay A→B↑, Delay A→B↓, +Width, -Width, +Duty, -Duty |
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Waveform Math | +, -, ×, ÷, FFT | |||
Waveform Storage | 4 reference waveforms | |||
Lissajous Figure | Bandwidth | full Bandwidth | ||
Phase Difference | ±3 degrees | |||
Cursor Measurement | Delta V, and Delta T between cursors | |||
Communication Port | USB host, USB device, VGA, LAN, AUX | |||
Power Supply | 100 - 240 V AC, 50/60Hz, CAT II | |||
Dimension (W×H×D) | 380 × 180 × 115 (mm) | |||
Weight (without package) | 1.5 kg |
Owon SDS E Series Digital Oscilloscope

Bandwidth : 30MHz - 125MHz
Sample rate : 250MS/s - 1GS/s
100K record length (10M optional, SDS5032E excluded)
Ultra-thin body
8 inch high def TFT display
Pass / Fail function
Add / Remove measure function,
User-defined measurement menu
Application
electronic circuit debugging
circuit testing
design and manufacture
education and training
automobile maintenance and testing
Model | SDS5032E | SDS6062E | SDS7072E | SDS7102E | SDS7122E | |
Bandwidth | 30MHz | 60MHz | 70MHz | 100MHz | 125MHz | |
Sample Rate (real time) | 250MS/s | 500MS/s | 1GS/s | |||
Horizontal Scale (s/div) | 4ns/div~100s/div, step by 1~2~4 | 5ns/div - 100s/div, step by 1 - 2 - 5 | 2ns/div - 100s/div, step by 1 - 2 - 5 | |||
Rise Time (at input, typical) | ≤11ns | |||||
Channel | 2 + 1 (external) | |||||
Display | 8" color LCD, TFT display , 800 × 600 pixels, 65535 colors | |||||
Input Impedance | 1MΩ ± 2%, in parallel with 15pF±5pF | |||||
Channel Isolation | 50Hz : 100 : 1, 10MHz : 40 : 1 | |||||
Max Input Voltage | 400V (PK - PK) (DC+AC, PK - PK) | |||||
DC Gain Accuracy | ±3% | |||||
Record Length | 10K | 100K (optional 10M) | ||||
DC Accuracy (average) | Average≥16:±(3% reading + 0.05 div) for ?V | |||||
Probe Attenuation Factor | 1X, 10X, 100X, 1000X | |||||
LF Respond (AC, -3dB) | ≥10Hz (at input, AC coupling, -3dB) | |||||
Sample Rate / Relay Time Accuracy | ±100ppm | |||||
Interpolation | sin (x) / x | |||||
Interval (Delta T) Accuracy (full bandwidth) | Single : ±(1 interval time + 100ppm × reading + 0.6ns), Average>16 : ±(1 interval time + 100ppm × reading + 0.4ns) | |||||
Input Coupling | DC, AC , and GND | |||||
Vertical Resolution (A/D) | 8 bits resolution (2 Channels simultaneously) | |||||
Vertical Sensitivity | 5mV/div~10V/div (at input) | 2mV/div~10V/div (at input) | ||||
Trigger Type | Edge, Pulse, Video, Slope | Edge, Pulse, Video, Slope, Alternate | ||||
Trigger Mode | Auto, Normal, Single | |||||
Trigger Level | ±6 divisions from screen center | |||||
Line / Field Frequency (video) | NTSC, PAL, and SECAM standard | |||||
Cursor Measurement | ?V, and ?T between cursors | |||||
Automatic Measurement | Vpp, Vavg, Vamp, Vrms, Freq, Period, Vmax, Vmin, Vtop, Vbase, Overshoot, Preshoot, Rise Time, Fall Time, Delay A→B↑, Delay A→B↓, +Width, -Width, +Duty, -Duty |
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Waveform Math | +, -, ×, ÷, FFT | |||||
Waveform Storage | 15 waveforms | |||||
Lissajous Figure | Bandwidth | Full bandwidth | ||||
Phase Difference | ±3 degrees | |||||
Communication Interface | USB, USB flash disk storage, Pass / Fail, LAN, VGA (optional) | |||||
Cymometer | available | |||||
Power Supply | 100V - 240V AC, 50/60Hz, CAT II | |||||
Power Consumption | <18W | |||||
Fuse | 2A, T class, 250V | |||||
Battery | not supported | |||||
Dimension (W×H×D) | 348 × 170 × 78 (mm) | |||||
Weight (without package) | 1.50 kg |
Owon MSO Series LA + Digital Oscilloscope

- 2 in 1 (DSO + LA)
- 8 inch color LCD
- USB data transmission supported
- 20 group automatic measurement options
Digital Storage Oscilloscope
- Bandwidth : 60MHz - 200MHz
- Sample rate : up to 2GS/s
- Auto-scale function
- FFT
Logic Analyzer
- Bandwidth : 100MHz - 200MHz
- Sample rate : 20S/s - 2GS/s
- 16 digital channels
Application
design and debug
circuit function test
identified signals logic information
education and training
mixed signal circuit test
Model | MSO5022S | MSO7062TD | MSO7102TD | MSO8102T | MSO8202T | |
Bandwidth | 25MHz | 60MHz | 100MHz | 100MHz | 200MHz | |
Sample Rate (real time) | 100MS/s | 1GS/s | 1GS/s | 2GS/s | ||
Rise Time | ≤14ns | ≤5.8ns | ≤3.5ns | ≤1.7ns | ||
Display | 7.8'' color LCD | 8.0'' color LCD , TFT screen, 640 × 480 pixels | ||||
Channel | dual + external trigger | |||||
Horizontal Scale (s/div) | 5ns/div - 5s/div, step by 1 - 2.5 - 5 | 2ns/div - 100s/div, step by 1 - 2 - 5 | 1ns/div - 100s/div, step by 1 - 2 - 5 | |||
DC Accuracy (average) | average>16 : ±(3% reading + 0.05div) for ?V | |||||
Vertical Sensitivity | 5mV/div - 5V/div | 2mV/div - 10V/div | ||||
DC Gain Accuracy | ±3% | |||||
Vertical Resolution (A/D) | 8 bits (2 channels simultaneously) | |||||
Interpolation | sin (x) / x | |||||
Max Input Voltage | 300V (DC + AC, PK - PK) | 400V (DC + AC, PK - PK ) | ||||
Probe Attenuation Factor | 1X,10X,100X,1000X | |||||
Trigger Mode | Edge, Video, Alternate, Pulse, Slope | |||||
Acquisition Mode | Normal, Peak Detect, and Average | |||||
Record Length | max 6K points | max 2M points | ||||
Waveform Storage | 4 waveforms | |||||
Automatic Measurement | Vpp, Vavg, Vamp, Vrms, Freq, Period, Vmax, Vmin, Vtop, Vbase, Overshoot, Preshoot, Rise Time, Fall Time, Delay A→B↑, Delay A→B↓, +Width, -Width, +Duty, -Duty |
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Waveform Math | +, -, ×, ÷, FFT | |||||
Power Supply | 100 - 240V AC, 50Hz / 60Hz, CAT? | |||||
Lissajou’s Figure | Bandwidth | 25MHz | 60MHz | 100MHz | 200MHz | |
Phase Difference | ±3 degrees | |||||
Communication Interface | USB1.1, and RS232 | USB2.0, USB host, and RS232 / VGA (optional) | ||||
Fuse | 1A, T class, 250V | |||||
Dimensions (W × H × D) | 370 × 180 × 120 (mm) | |||||
Weight (without package) | 2.20 kg |
Logic Analyzer - Performance Specifications
Model | MSO5022S | MSO7062TD | MSO7102TD | MSO8102T | MSO8202T |
Sample Rate (real time) | 20S/s - 200MS/s | 20S/s - 2GS/s | |||
Bandwidth | 40MHz | 100MHz | 200MHz | ||
Channel | 16 | ||||
Record Length | Max 4M each channel | ||||
Input Impedance | 660KΩ ± 5%, in parallel with 15 ± 5pF | ||||
Trigger Mode | Edge, Bus, State, Data Alignment, Data Width, Distributed Queue | ||||
Trigger Position Setting | Pre-trigger, Mid-trigger, and Re-trigger | ||||
Threshold Voltage | ±6V (4 settings) | ||||
Input Signal Range | ±30V | ||||
Data Search | available | ||||
Data System | binary, decimal, hex | ||||
Digital Filter | 0, 1, 2 optional | ||||
Setting Storage | 10 settings | ||||
USB Flash Disk Storage | available |
Owon AG Series Waveform Signal Generator

- Advanced DDS technology, max 60MHz frequency output
- Up to 250MS/s sample rate, and 1μHz frequency resolution
- Vertical Resolution : 14 bits, up to 1M arb waveform length
- Comprehensive waveform output : 5 basic waveforms, and 45 built-in arbitrary waveforms
- Comprehensive modulation functions : AM, FM, PM, FSK, PWM, Sweep, and Burst
- High-accuracy frequency counter integrated, supported range 100mHz - 200MHz
- Supported SCPI
- 4 inch high resolution (480 × 320 pixels) TFT LCD display
Application
design and debug
circuit function test
education and training
Model | AG1012 | AG1012F | AG1022 | AG1022F | AG2052F | AG2062F |
Channel | dual | |||||
Frequency Output | 10MHz | 25MHz | 50MHz | 60MHz | ||
Sample Rate | 125MS/s | 250MS/s | ||||
Vertical Resolution | 14 bits | |||||
Waveform | ||||||
Standard Waveform | Sine, Square, Pulse, Ramp, and Noise | |||||
Arbitrary Waveform | Exponential Rise, Exponential Fall, Sin(x)/x, Step Wave, and others, total 45 built-in waveforms, and user-defined arbitrary waveform |
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Frequency (resolution 1μHz) | ||||||
Sine | 1μHz - 10MHz | 1μHz - 25MHz | 1μHz - 50MHz | 1μHz - 60MHz | ||
Square | 1μHz - 5MHz | 1μHz - 25MHz | 1μHz - 30MHz | |||
Pulse | 1μHz - 5MHz | 1μHz - 10MHz | ||||
Ramp | 1μHz - 1MHz | |||||
Noise | 25MHz (-3dB) (typical) | 50MHz (-3dB) (typical) | ||||
Arbitrary Waveform | 1μHz - 10MHz | |||||
Amplitude | ||||||
Amplitude | 1m Vpp - 10 Vpp (50Ω), 1m Vpp - 20 Vpp (high impedance) | |||||
Resolution | 1mVpp or 14 bits | |||||
DC Offset Range (AD+DC) |
±5V (50Ω), ±10V (high impedance) | |||||
DC Offset Range Resolution | 1mV | |||||
Load Impedance | 50Ω (typical) | |||||
Arbitrary Waveform | ||||||
Wave Length | 2 pts to 8K pts | 2 pts to 1M pts | ||||
Sample Rate | 125MS/s | 250MS/s | ||||
Vertical Resolution | 14 bits | |||||
Non-volatile Memory | 26 waveforms | |||||
Modulation | ||||||
Modulation Waveform | / | AM, FM, PM, FSK, Linear / Logarithm Sweep, and Burst |
/ | AM, FM, PM, FSK, Linear / Logarithm Sweep, and Burst |
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Modulation Frequency | / | 2mHz to 20.00KHz (FSK 1μHz - 100KHz) |
/ | 2mHz to 20.00KHz (FSK 1μHz - 100KHz) |
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Counter | ||||||
Function | / | Frequency Period, +Width, -Width +Duty, and -Duty |
/ | Frequency Period, +Width, -Width +Duty, and -Duty |
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Frequency Range | / | 100mHz ~ 200MHz | / | 100mHz ~ 200MHz | ||
Frequency Resolution | / | 6 digits | / | 6 digits | ||
Input / Output | ||||||
Display | 4 inch (480 × 320 pixels) TFT LCD | |||||
Type | external reference clock input / output |
counter, external modulation input / output, external trigger input / output, external reference clock input / output |
external reference clock input / output |
counter, external modulation input / output, external trigger input / output, external reference clock input / output |
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Communication Interface | USB host, USB device, RS232 | |||||
Mechanical | ||||||
Dimension (W×H×D) | 235 × 110 × 295 (mm) | |||||
Weight (without package) | 3.00 kg |
Picotest M3500A Digital Multimeter, 6 1/2 Digit

- Support USBTMC
- Stability, Speed and Accuracy
- High Performance: 2000 readings/sec
- Multi-Point Scan
- 19 Full-Featured Functions
- Temperature Measurements
- Dual Displays with 3-color Annunciators
- Noise Immunity.
- Built-in USB, GPIB (optional) and RS232 (optional) Interfaces.
- Easy & Free PC applications
The 6 1/2 digit Picotest M3500A Digital Multimeter is designed with 71/2 digit techniques to provide user a stable, faster and accurate measurement. Built with High Performance and accuracy in mind, the M3500-A can perform a the data transfer rate up to 2000 readings per second and take the sampling rate.
The Picotest M3500A DMM can perform 11 measurements and 8 math functions : DCI, DCV, ACI, ACV, 2WΩ, 4WΩ, Frequency, Period, Diode Test, Continuity, Temperature, Limits, Ratio, MX+B, %, dB, dBm, Min/Max, and Null. In addition, Trigger and Memory functions can be involved when testing. With all of these functions, measuring applications can be done more efficiently and significantly better.
With it's thermal measurement functions, this DMM can support two types of measurements: Thermocouples and RTDs. For thermocouples, we support up to seven types of sensors: J, K, T, E, N, S and R, using a NIST Monograph 175 reference table. Moreover, for the RTDs temperature conversions, it adopts three types of standards: ITS-90, IEC751 and Callendar-Van Dusen standard in our thermal measurement functions
The M3500A supports up to 10 channels (2-pole) multi-point scan. For using this option, user needs to have an additional multi-point scanner card (M3500-opt01) The installation of the multi-point scanner card is very easy - just turn the power off and plug in the multi-point scanner card, and it is done!
This model comes with a unique 5x7 dot matrix, VFD dual displays with three-color annunciators. The user can easily distinguish each symbols by their colors.
The core of this DMM is a powerful multi-slope analog to digital converter (A/D converter). This special A/D converter (p.s. patent is pending) helps the DMM to reach high-speed sampling rate, filters out most noise, and still keeps a good measurement linearity. In addition, to reduce the environmental background noise, Picotest has added four sets of earth ground on the meter's front panel and the copper conductors inside the meter to contribute in reducing thermal EMFs.
The M3500A is equipped with a standard USB interface. This easy-to-use plug-in USB interface has a high data-transfer rate over 2000 readings per second. It allows your DMM to reach a truly impressive high speed measurements, both internal sampling rate and I/O data rate.
Additionally, Picotest includes a Remote-Control Software, PT-TOOL & PT-LINK; A free and easy for user’s application. PT-TOOL is a stand-alone software which can imitate virtual M3500A operations on the PC, and allow users to transmit data in Excel format. In addition, PT-LINK under the Microsoft Word & Excel application provides users a simple function of getting values and diagrams.
Specifications DC Characteristics Function Range Resolution Input
Resistance1 Year accuracy ± (% of reading of Range)
(23°C ± 5°C)DC Voltage 100.0mV 0.1 µV >10GO 0.005 + 0.0035 1.0V 1.0 µV >10GO 0.004 + 0.0007 10.0V 10.0 µV >10GO 0.0035 + 0.0005 100.0V 100.0 µV 10MO 0.0045 + 0.0006 1000.0V 1 µV 10MO 0.0045 + 0.001 Function Range Resolution Shunt
Resistance1 Year accuracy ± (% of reading of Range)
(23°C ± 5°C)DCI
(DC Current)10.0m 10nA 5.1O 0.05 + 0.02 100.0m 10.0µV >10GO 0.05 + 0.005 1.0A 100.0µV 10MO 0.1 + 0.01 3.0A 1µV 10MO 0.12 + 0.02 Function Range Resolution Test Current 1 Year accuracy ± (% of reading of Range)
(23°C ± 5°C)Resistance 100.0O 100 uO 1mA 0.01 + 0.004 1.0KO 1mO 1mA 0.01 + 0.001 10.0KO 10mO 100µA 0.01 + 0.001 100.0KO 100 mO 10µA 0.01 + 0.001 1.0 1O 5µA 0.01 + 0.001 10.0MO 10O 500nA 0.040 + 0.001 100.0MO 100O 500nA/10MO 0.8 + 0.01 Diode Test 1.0V 10µV 1mA 0.01 + 0.02 Continuity 1000.0KO 10 mO 1mA 0.01 + 0.03 AC Characteristics Function Range Resolution Frequency
(Hz)1 Year accuracy ± (% of reading of Range)
(23°C ± 5°C)ACV
(AC True
RMS Voltage)100.0mV 0.1µV 3 - 5K 1.00 + 0.04 5 - 10K 0.35 + 0.04 10 - 20K 0.06 + 0.04 20 - 50K 0.12 + 0.05 50 - 100K 0.60 + 0.08 100 - 300K 4.00 + 0.50 1.0V to 750.0V 1.0µV to 1mV 3 - 5K 1.00 + 0.03 5 - 10K 0.35 + 0.03 10 - 20K 0.06 + 0.03 20 - 50K 0.12 + 0.05 50 - 100K 0.60 + 0.08 100 - 300K 4.00 + 0.08 ACI
(AC True RMS
Current)1.0A 1.0µV 3 - 5K 1.00 + 0.04 5 - 10K 0.30 + 0.04 10 - 5K 0.10 + 0.04 100.0m 10.0 uV 3 - 5K 1.10 + 0.06 5 - 10K 0.35 + 0.06 10 - 5K 0.15 + 0.06 Frequency and Period Characteristics Function Range Frequency
(Hz)1 Year accuracy ± (% of reading of Range)
(23°C ± 5°C)Frequency
& Period100mV to 750V 3 - 5K 0.10 5 - 10K 0.05 10 - 40K 0.03 40 - 300K 0.01
Yokogawa GS200 Series Source Measure Unit

- Voltage source up to ±32 V and current source up to ±200 mA
- 51/2-digit, 120000-count output resolution
- Voltage and current simple monitoring feature (optional)
- Programmable output up to 10,000 points
- Built-in USB mass storage device
- Channel expansion through synchronous operation
The GS200 is a low voltage/current DC source with high accuracy, high stability, and high resolution. With its excellent traceability, stability, and 5 1/2-digit resolution, the GS200 generates extremely low-noise DC voltage and current signals that are required for many applications. Additionally, the optional monitoring feature turns the GS200 into a voltage and current measuring instrument.
General Specifications
Voltage Source Section
Range | Source Range | Resolution | 24-Hour Stability ±(% of setting +μV) |
90-Day Stability ±(% of setting +μV) |
90-Day Accuracy ±(% of setting +μV) |
1-Year Accuracy ±(% of setting +μV) |
Temperature Coefficient ±(% of setting +μV) / oC |
10mV | ±12.0000mV | 100nV | 0.002 + 3 | 0.014 + 4 | 0.018 + 4 | 0.025 + 5 | 0.0018 + 0.7 |
100mV | ±120.000mV | 1μV | 0.003 + 3 | 0.014 + 5 | 0.018 + 10 | 0.025 + 10 | 0.0018 + 0.7 |
1V | ±1.20000V | 10μV | 0.001 + 10 | 0.008 + 50 | 0.010 + 100 | 0.016 + 120 | 0.0009 + 7 |
10V | ±12.0000V | 100μV | 0.001 + 20 | 0.008 + 100 | 0.010 + 200 | 0.016 + 240 | 0.0008 + 10 |
30V | ± 32.000V | 1mV | 0.001 + 50 | 0.008 + 200 | 0.010 + 500 | 0.016 + 600 | 0.0008 + 30 |
24-hour stability values are for 23°C ± 1°C and power fluctuation within ±5%. 90-day stability and 90-day and 1-year accuracy values are for 23°C ± 5°C. Add the temperature coefficient for 90-day and 1-year accuracy values for 5°C to 18°C and for 28°C to 40°C.
Range | Maximum Output Current | Output Resistance | Output Noise | CMRR (50/60 Hz) | |
DC to 10 Hz | DC to 10 kHz (Reference) | ||||
10mV | ---- | App. 2 Ω | 3μVp-p | 30μVp-p | ≥ 120dB |
100mV | ---- | App. 2 Ω | 5μVp-p | 30μVp-p | |
1V | ±200mA | ≤ 2 mΩ | 15μVp-p | 60μVp-p | |
10 V | ±200mA | ≤ 2 mΩ | 50μVp-p | 100μVp-p | |
30 V | ±200mA | ≤ 2 mΩ | 150μVp-p | 200μVp-p | ≥ 100dB |
Current Source Section
Range | Source Range | Resolution | 24-Hour Stability ±(% of setting +μA) |
90-Day Stability ±(% of setting +μA) |
90-Day Accuracy ±(% of setting +μA) |
1-Year Accuracy ±(% of setting +μA) |
Temperature Coefficient ±(% of setting +μA) / oC |
1mA | ±1.20000mA | 10nA | 0.0015+0.03 | 0.016+0.1 | 0.02+0.1 | 0.03 + 0.1 | 0.0015 + 0.01 |
10mA | ±12.0000mA | 100nA | 0.0015+ 0.3 | 0.016+0.5 | 0.02+0.5 | 0.03 + 0.5 | 0.0015 + 0.1 |
100mA | ±120.000mA | 1μA | 0.004+ 3 | 0.016+ 5 | 0.02+ 5 | 0.03 + 5 | 0.002 + 1 |
200mA | ±200.000mA | 1μA | 0.004+ 20 | 0.016+ 30 | 0.02+ 30 | 0.03 + 30 | 0.002 + 5 |
24-hour stability values are for 23°C ±1°C and power fluctuation within ±5%. 90-day stability and 90-day and 1-year accuracy values are for 23°C ± 5°C. Add the temperature coefficient for 90-day and 1-year accuracy values for 5°C to 18°C and for 28°C to 40°C.
|
Limiter Section |Setti
|Setting| |
Range |
Resolution |
Current limiter (only during voltage generation) |
1 mA to 200 mA |
1mA |
Voltage limiter (only during current generation) |
1 V to 30 V |
1V |
Response Time (Typical)
10 ms or less for all voltage source and current source ranges.
(Response time is the time from the point when the source begins to change until it reaches within 0.1% of the final value at maximum output, maximum load (pure resistive load), and with no limiter operation.)
Maximum Capacitive and Inductive Loads
Capacitive load: 10 μF
Inductive load: 1 mH
Voltage and Current Monitoring Feature (Optional)
Voltage monitoring feature (only during current generation) n
Range |
Measurement Range |
Resolution |
Input Resistance |
1-Year Accuracy (1 PLC) |
Temperature Coefficient |
30 V |
± 30.000 V |
1mV |
≥ 10MΩ |
0.02+2 |
0.002+0.1 |
Current monitoring feature (only during voltage generation)
Range |
Measurement Range |
Resolution |
Input Resistance |
1-Year Accuracy (1 PLC) |
Temperature Coefficient |
200mA |
± 200.00mA |
10μA |
≤ 2mΩ |
0.03+300 |
0.003+30 |
Picotest M3510A Digital Multimeter, 6 1/2 Digit

6 1/2 Digits High-Performance DMM
High Speed: 50K RDGS/S
Dual Measurements & Displays
Temperature Measurements
Multi-Measurement & Math Functions
True RMS
Easy-to-Use MENU
Built-in USB Interface & USBTMC Conformance
Quality Assurance
Free Application Software
The M3510A and M3511A 6 1/2 Digits Multimeters are the newest generation of DMMs from Picotest. These new DMMs offer compact size, light weight, fast measurement speed & throughput, expanded measurement functions, systematization capability and highly usable interfaces including a standard USB interface and an optional GPIB/RS-232 interface. The M3510A and M3511A DMMs are suitable for both production and research/development use.
M3510A and M3511A adopt the latest A/D technology and achieve 50,000 readings per second at 4 1/2 digits. When sending data to your computer, M3510A and M3511A can achieve high precision and stability compared to other DMMs with slow data transmission rate. With M3510A and M3511A, your work efficiency will be greatly improved, and the operational cost will also be greatly reduced.
The dual measurement display feature of M3510A and M3511A offers two measurement results displayed at the same time and it is easy to set up and configure. For example, when measuring DCV, you may also conduct Thermocouple measurement on M3510A. This allows you to observe temperature change while making other measurements. M3510A can function as a multimeter and a thermometer in one.
The M3510A and M3511A DMMs support the RTD temperature measurement and support the standards such as ITS-90, IEC751 and Callendar-Van Dusen. The RTD function is recommended for more precise measurement. M3510A also provides the Thermocouple (TC) function. It has a built-in cold junction compensator for improved TC accuracy. Without additional plug-in's and reference temperature settings, you can measure temperature directly via Thermocouples of K, J, R, S, T, E, N, C and B types.
The M3510A and M3511A DMMs adopt an analog conversion technique to provide true RMS value for ACV/ACI measurements regardless of the waveform shape. Only the “heating value” of the AC components of the input waveform is measured. For non-symmetrical waveforms, such as pulse trains, the DC components will be rejected by the RMS measurement.
The M3510A and M3511A DMMs offer the capacitance measurement and dual measurement display, in addition to standard measurements, such as DCV, DCI, ACV, ACI, 2WΩ, 4WΩ, Frequency, Period, Thermocouple & RTD, and the math functions, such as Limits, Ratio, MX+B, %, dBm, dB, Min/Max & Null. Measurement ranges have also been expanded. For instance, DC and AC Current Ranges now go up to 10 A.
The M3510A and M3511A DMMs adopt an analog conversion technique to provide true RMS value for ACV/ACI measurements regardless of the waveform shape. Only the “heating value” of the AC components of the input waveform is measured. For non-symmetrical waveforms, such as pulse trains, the DC components will be rejected by the RMS measurement.
A high-speed USB interface is built into both M3510A and M3511A. An optional GPIB/RS-232 interface is also available. The included USB interface conforms to the USBTMC protocol. Both M3510A and M3511A can be operated through USBTMC compliant software. So get M3510A and M3511A now to replace your old DMMs while keep your existing USBTMC compliant software.
DC CHARACTERISTICS | |||
Function | Range | Resolution | 1 Year Accuracy2 |
DC Voltage | 100.0000 mV | 0.1 µV | 0.0080+0.0045 |
1.000000 V | 1.0 µV | 0.0090+0.0010 | |
10.00000 V | 10.0 µV | 0.0120+0.0020 | |
100.0000 V | 100.0 µV | 0.0120+0.0020 | |
1000.000 V | 1 mV | 0.0130+0.0030 | |
DCI | 10.00000 mA | 10 nA | 0.050+0.020 |
100.0000 mA | 100 nA | 0.050+0.010 | |
1.000000 A | 1 µA | 0.150+0.020 | |
3.00000 A | 10 µA | 0.20+0.030 | |
10.00000 A | 10 µA | 0.250+0.050 | |
2WΩ3/4WΩ | 100.0000 Ω | 100 µΩ | 0.020+0.005 |
1.000000 KΩ | 1 mΩ | 0.020+0.002 | |
10.00000 KΩ | 10 mΩ | 0.020+0.002 | |
100.0000 KΩ | 100 mΩ | 0.020+0.002 | |
1.000000 MΩ | 1 Ω | 0.020+0.004 | |
10.00000 MΩ | 10 Ω | 0.100+0.004 | |
100.0000 MΩ | 100 Ω | 1.500+0.005 | |
DIODE | 1.00000 V | 10 µV | 0.020+0.020 |
CONTINUITY (for 2WΩ) | 1000.00 Ω | 10 mΩ | 0.020+0.030 |
FREQUENCY & PERIOD | |||
Function | Range | Frequency (Hz) | 1 Year Accuracy2 |
Frequency & Period | 100 mV to 750 V4 | 01/10/40 | 0.03 |
40–300K | 0.02 |
AC CHARACTERISTICS | ||||
Function | Range | Resolution | Frequency (Hz) | 1 Year Accuracy2 |
ACV (TRMS) | 100.0000 mV | 0.1 µV | 10–20K | 0.1200 +0.050 |
1.000000 V to 750.0000V4 | 1.0 µV to 1 mV | 20K–50K | 0.2500+0.050 | |
50K–100K | 0.6500+0.080 | |||
100K-300K | 4.5000+0.500 | |||
10–20K | 0.1200+0.040 | |||
20K–50K | 0.2500+0.050 | |||
50K–100K | 0.6500 +0.080 | |||
100K-300K | 4.5000+0.500 | |||
ACI (TRMS) | 1.000000 A | 1 µA | 10-1K | 0.20+0.04 |
1K-5K | 1.00+0.10 | |||
3.00000 A | 10 µA | 10-1K | 0.30 +0.060 | |
1K-5K | 1.50+0.15 | |||
10.00000 A | 10 µA | 10-1K | 0.50+0.10 | |
1K-5K | 2.00+0.20 |
CAPACITANCE CHARACTERISTICS | |||
Function | Range | Test Current | 1 Year Accuracy2 |
CAPACITANCE5 | 1 nF 10 nF 100 nF 1 µF 10 µF 100 µF 1000 µF 10000 µF |
10 µA 10 µA 100 µA 100 µA 100 µA 1 mA 1 mA 1 mA |
2.0+0.80 1.0+0.50 1.0+0.50 1.0+0.50 1.0+0.50 1.0+0.50 1.0+0.50 2.0+0.50 |
TEMPERATURE CHARACTERISTICS | |||
Function | Type | Range | 1 Year Accuracy2 |
THERMOCOUPLE6 | B C E J K N R S T |
600°C~1820°C 0°C~2316°C -250°C~1000°C -210°C~1200°C -200°C~1372°C -200°C~1300°C 0°C~1767°C 0°C~1767°C -250°C~400°C |
1.5°C 1.5°C 1.5°C 1.0°C 1.0°C 1.0°C 1.5°C 1.5°C 1.5°C |
General Specifications | |
Item | Limitation & description |
Power Supply | 100V/120V/220V/240V ± 10% |
Power Line Frequency | 50/60 Hz ± 10% |
Power Consumption | 25 VA peak (5 W AVERAGE) |
Operating Temperature | 0 °C to 50 °C |
Operating Humidity | Maximum relative humidity 80% for temperature up to 31°C |
Storage Temperature | - 40 °C to 70°C |
Operating Altitude | Up to 2000 M |
Bench Dimensions | 214.6x88.6x280.7mm |
Weight | 2.23 KG |
Safety7 | IEC61010-1:2001/EN61010-1:2001 (2nd Edition) Measurement CAT II 600V, CAT I 1000V Pollution Degree 2 |
EMC | EN61326-1:2006, EN61326-2-1:2006 |
VIBRATION | MIL-PRF-28800F, 3.8.4.2 VIBRATION, SINUSOIDAL CLASS 1,2 |
SHOCK | MIL-PFR-28800F, 4.5.5.4 MECHANICAL |
Picotest M3511A Digital Multimeter, 6 1/2 Digit

6 1/2 Digits High-Performance DMM
High Speed: 50K RDGS/S
Dual Measurements & Displays
Temperature Measurements
Multi-Measurement & Math Functions
True RMS
Easy-to-Use MENU
Built-in USB Interface & USBTMC Conformance
Quality Assurance
Free Application Software
The M3510A and M3511A 6 1/2 Digits Multimeters are the newest generation of DMMs from Picotest. These new DMMs offer compact size, light weight, fast measurement speed & throughput, expanded measurement functions, systematization capability and highly usable interfaces including a standard USB interface and an optional GPIB/RS-232 interface. The M3510A and M3511A DMMs are suitable for both production and research/development use.
M3510A and M3511A adopt the latest A/D technology and achieve 50,000 readings per second at 4 1/2 digits. When sending data to your computer, M3510A and M3511A can achieve high precision and stability compared to other DMMs with slow data transmission rate. With M3510A and M3511A, your work efficiency will be greatly improved, and the operational cost will also be greatly reduced.
The dual measurement display feature of M3510A and M3511A offers two measurement results displayed at the same time and it is easy to set up and configure. For example, when measuring DCV, you may also conduct Thermocouple measurement on M3510A. This allows you to observe temperature change while making other measurements. M3510A can function as a multimeter and a thermometer in one.
The M3510A and M3511A DMMs support the RTD temperature measurement and support the standards such as ITS-90, IEC751 and Callendar-Van Dusen.
The RTD function is recommended for more precise measurement.
The M3510A and M3511A DMMs adopt an analog conversion technique to provide true RMS value for ACV/ACI measurements regardless of the waveform shape. Only the “heating value” of the AC components of the input waveform is measured. For non-symmetrical waveforms, such as pulse trains, the DC components will be rejected by the RMS measurement.
The M3510A and M3511A DMMs offer the capacitance measurement and dual measurement display, in addition to standard measurements, such as DCV, DCI, ACV, ACI, 2WΩ, 4WΩ, Frequency, Period, Thermocouple & RTD, and the math functions, such as Limits, Ratio, MX+B, %, dBm, dB, Min/Max & Null. Measurement ranges have also been expanded. For instance, DC and AC Current Ranges now go up to 10 A.
The M3510A and M3511A DMMs adopt an analog conversion technique to provide true RMS value for ACV/ACI measurements regardless of the waveform shape. Only the “heating value” of the AC components of the input waveform is measured. For non-symmetrical waveforms, such as pulse trains, the DC components will be rejected by the RMS measurement.
A high-speed USB interface is built into both M3510A and M3511A. An optional GPIB/RS-232 interface is also available. The included USB interface conforms to the USBTMC protocol. Both M3510A and M3511A can be operated through USBTMC compliant software. So get M3510A and M3511A now to replace your old DMMs while keep your existing USBTMC compliant software.
DC CHARACTERISTICS | |||
Function | Range | Resolution | 1 Year Accuracy2 |
DC Voltage | 100.0000 mV | 0.1 µV | 0.0080+0.0045 |
1.000000 V | 1.0 µV | 0.0090+0.0010 | |
10.00000 V | 10.0 µV | 0.0120+0.0020 | |
100.0000 V | 100.0 µV | 0.0120+0.0020 | |
1000.000 V | 1 mV | 0.0130+0.0030 | |
DCI | 10.00000 mA | 10 nA | 0.050+0.020 |
100.0000 mA | 100 nA | 0.050+0.010 | |
1.000000 A | 1 µA | 0.150+0.020 | |
3.00000 A | 10 µA | 0.20+0.030 | |
10.00000 A | 10 µA | 0.250+0.050 | |
2WΩ3/4WΩ | 100.0000 Ω | 100 µΩ | 0.020+0.005 |
1.000000 KΩ | 1 mΩ | 0.020+0.002 | |
10.00000 KΩ | 10 mΩ | 0.020+0.002 | |
100.0000 KΩ | 100 mΩ | 0.020+0.002 | |
1.000000 MΩ | 1 Ω | 0.020+0.004 | |
10.00000 MΩ | 10 Ω | 0.100+0.004 | |
100.0000 MΩ | 100 Ω | 1.500+0.005 | |
DIODE | 1.00000 V | 10 µV | 0.020+0.020 |
CONTINUITY (for 2WΩ) | 1000.00 Ω | 10 mΩ | 0.020+0.030 |
FREQUENCY & PERIOD | |||
Function | Range | Frequency (Hz) | 1 Year Accuracy2 |
Frequency & Period | 100 mV to 750 V4 | 01/10/40 | 0.03 |
40–300K | 0.02 |
AC CHARACTERISTICS | ||||
Function | Range | Resolution | Frequency (Hz) | 1 Year Accuracy2 |
ACV (TRMS) | 100.0000 mV | 0.1 µV | 10–20K | 0.1200 +0.050 |
1.000000 V to 750.0000V4 | 1.0 µV to 1 mV | 20K–50K | 0.2500+0.050 | |
50K–100K | 0.6500+0.080 | |||
100K-300K | 4.5000+0.500 | |||
10–20K | 0.1200+0.040 | |||
20K–50K | 0.2500+0.050 | |||
50K–100K | 0.6500 +0.080 | |||
100K-300K | 4.5000+0.500 | |||
ACI (TRMS) | 1.000000 A | 1 µA | 10-1K | 0.20+0.04 |
1K-5K | 1.00+0.10 | |||
3.00000 A | 10 µA | 10-1K | 0.30 +0.060 | |
1K-5K | 1.50+0.15 | |||
10.00000 A | 10 µA | 10-1K | 0.50+0.10 | |
1K-5K | 2.00+0.20 |
CAPACITANCE CHARACTERISTICS | |||
Function | Range | Test Current | 1 Year Accuracy2 |
CAPACITANCE5 | 1 nF 10 nF 100 nF 1 µF 10 µF 100 µF 1000 µF 10000 µF |
10 µA 10 µA 100 µA 100 µA 100 µA 1 mA 1 mA 1 mA |
2.0+0.80 1.0+0.50 1.0+0.50 1.0+0.50 1.0+0.50 1.0+0.50 1.0+0.50 2.0+0.50 |
General Specifications | |
Item | Limitation & description |
Power Supply | 100V/120V/220V/240V ± 10% |
Power Line Frequency | 50/60 Hz ± 10% |
Power Consumption | 25 VA peak (5 W AVERAGE) |
Operating Temperature | 0 °C to 50 °C |
Operating Humidity | Maximum relative humidity 80% for temperature up to 31°C |
Storage Temperature | - 40 °C to 70°C |
Operating Altitude | Up to 2000 M |
Bench Dimensions | 214.6x88.6x280.7mm |
Weight | 2.23 KG |
Safety7 | IEC61010-1:2001/EN61010-1:2001 (2nd Edition) Measurement CAT II 600V, CAT I 1000V Pollution Degree 2 |
EMC | EN61326-1:2006, EN61326-2-1:2006 |
VIBRATION | MIL-PRF-28800F, 3.8.4.2 VIBRATION, SINUSOIDAL CLASS 1,2 |
SHOCK | MIL-PFR-28800F, 4.5.5.4 MECHANICAL |
Micsig MS300 Series Isolated Channel Scopemeter

MS300 series handheld multi-function oscilloscope,whose bandwidth ups to 100~200MHz, sampling rate is 1GS/s, Memory depth is 240k. With the 5.7 inch large LCD screen, the instrument possesses the performance which desktop oscilloscope can not match at the same time without the complex operation panel of desktop ones. It provides the functions of fully featured Oscilloscope, Multimeter and Data Logger. It is widely uses for Equipment maintenance, aviation, R&D, automated industry, process controlling.
Model |
Bandwidth |
Real time Sample Rate |
Rise Time |
Memory Depth |
Channel |
Touch operation |
Serial bus trigger |
Max waveform capture |
MS310IT | 100MHz | 1GSa/s | ≤3.5ns | 240Kpts | 2CH | YES | YES |
-(can be upgraded to 50K wfms/s) |
MS320IT | 200MHz | 1GSa/s | ≤1.75ns | 240Kpts | 2CH | YES | YES |
-(can be upgraded to 50K wfms/s) |
Model |
MS310IT |
MS320IT |
Bandwidth (BW) | 100MHz | 200MHz |
Rise time | ≤3.5ns | ≤1.75ns |
Real time sampling rate | single channel :1GSa/s,dual-channels:500MSa/s |
|
Memory depth | single channel :240Kpts,dual-channels:120Kpts |
|
Isolated channel | support | |
Max waveform capture rate | -(can be upgraded to 50K wfms/s) | |
Serial bus decode | Optional | |
Vertical system |
||
Channels | 2 oscilloscope channels,1 multimeter channel | |
Limited bandwidth | 20MHz | |
Coupling modes | DC,AC,GND | |
Inputs impedance | parallel 1MΩ±1% with 15pF±3pF | |
Vertical sensitivity | 5mV/div~50V/div | |
Vertical resolution | 8bits | |
Max voltage input | 600V CAT ? 300V CAT ? | |
Floating voltage from CHs to GND | 1000V CAT ? 600V CAT ? | |
DC vertical gain accuracy | 5mV/div~50V/div,2.0% | |
Horizontal system |
||
Timebase | 4ns/div~10s/div | |
Timebase delay range | -12divs~50s | |
Timebase accuracy | 20ppm | |
Sample mode | normal,average, pk-pk,envelope | |
Dynamic record | - (can be upgraded) | |
Store waveform | 4 ref waveforms (can be upgraded to flash disk storage) | |
Trigger system |
||
Trigger types | edge, pulse, logic, serial bus(UART,LIN,CAN,SPI,I2C) | |
Trigger coupling | DC,AC,High-frequency suppression,Low-frequency suppression, Noise suppression | |
Trigger modes | auto, normal, single | |
Trigger source | CH1,CH2 | |
Inhibition range | 200ns~10s | |
Measurement |
||
Automatic measurements | 31 types | |
Cursor types | horizontal cursor, vertical cursor, cross cursor | |
Math |
||
Operator | + , - , * , / | |
FFT window settings | Rectangular, Hamming, Blackman-Harris, Hanning | |
Display Features |
||
Screen | 5.7 inch TFT LCD touch screen | |
Resolution | 640*480 | |
3D waveform display | not support | |
Grid of waveform display zone | horizontal 12 divs *vertical 8 divs | |
Form | YT form (can be upgraded to XY form) | |
Persist | auto, 100ms~10s or ∞ | |
I/O Port |
||
Mini USB2.0 | connect to PC | |
USB2.0 | connect to flash disk | |
WIFI | not support | |
Multimeter |
||
Measurement types | 10 physical measurements ,such as voltage, current, resistance, capacitance, diode , etc | |
Measurement accuracy | 4 bits | |
Measurement display | max, average, min, values with time stamp,relative measurement | |
Data Logger |
||
Logger content | multimeter measurements, oscilloscope waveform, oscilloscope measurements | |
Logger timebase | multimeter measurements,10s/div ~ 20min/div; oscilloscope measurements 10s/div ~ 20min/div oscilloscope waveform 100us/div ~ 2min/div |
|
Logger time length | max 17 days (can be upgraded to flash disk record) | |
Power |
||
Power adapter | input:100-240VAC,50-60Hz,2A; output:12VDC,5A | |
Battery | capacity:7.4V/6000mAh, work time:4~5 hours | |
Work environment |
||
Temperature | -20? ~ +50? | |
Humidity | < 85%RH | |
Dimension |
||
Size | 254mm*160mm*60mm | |
Weight | main unit: 1380g (no battery), accessories(standard): 691g,battery(standard): 276g. |
Owon AG-S Series Arbitrary Waveform Generator

- Advanced DDS technology, max 150MHz frequency output
- Up to 400MS/s sample rate, and 1μHz frequency resolution
- Vertical Resolution : 14 bits, up to 1M arb waveform length
- Comprehensive waveform output : 5 basic waveforms, and 45 built-in arbitrary waveforms
- Comprehensive modulation functions : AM, FM, PM, FSK, PWM, Sweep, and Burst
- Supported SCPI
- 4 inch high resolution (480 × 320 pixels) TFT LCD display
Application
design and debug
circuit function test
education and training
Model | AG4081 | AG4101 | AG4121 | AG4151 |
Channel | single | |||
Frequency Output | 80MHz | 100MHz | 120MHz | 150MHz |
Sample Rate | 400MS/s | |||
Vertical Resolution | 14 bits | |||
Waveform | ||||
Standard Waveform | Sine, Square, Pulse, Ramp, and Noise | |||
Arbitrary Waveform | Exponential Rise, Exponential Fall, Sin(x)/x, Step Wave, and others, total 45 built-in waveforms, and user-defined arbitrary waveform |
|||
Frequency (resolution 1μHz) | ||||
Sine | 1μHz - 80MHz | 1μHz - 100MHz | 1μHz - 120MHz | 1μHz - 150MHz |
Square | 1μHz - 40MHz | 1μHz - 50MHz | ||
Pulse | 1μHz - 20MHz | 1μHz - 25MHz | ||
Ramp | 1μHz - 1MHz | |||
Noise | 50MHz (-3dB) (typical) | |||
Arbitrary Waveform | 1μHz - 10MHz | |||
Amplitude | ||||
Amplitude | 10m Vpp - 10 Vpp (50Ω), 20m Vpp - 20 Vpp (high impedance) | |||
Resolution | 1mVpp or 14 bits | |||
DC Offset Range (AD+DC) |
±5V (50Ω), ±10V (high impedance) | |||
DC Offset Range Resolution | 1mV | |||
Load Impedance | 50Ω (typical) | |||
Arbitrary Waveform | ||||
Wave Length | 2 pts to 1M pts | |||
Sample Rate | 200MS/s | |||
Vertical Resolution | 14 bits | |||
Non-volatile Memory | 26 waveforms | |||
Modulation | ||||
Modulation Waveform | AM, FM, PM, FSK, Linear / Logarithm Sweep, and Burst | |||
Modulation Frequency | 2mHz to 20.00KHz (FSK 1μHz - 100KHz) |
|||
Input / Output | ||||
Display | 4 inch (480 × 320 pixels) TFT LCD | |||
Type | external modulation input / output, external trigger input / output, external reference clock input / output |
|||
Communication Interface | USB host, USB device, RS232 | |||
Mechanical | ||||
Dimension (W×H×D) | 235 × 110 × 295 (mm) | |||
Weight (without package) | 3.00 kg |
Mywave MFG-3000CH Series Arbitrary Waveform Generator
Features
Direct Digital Synthesis(DDS) technology, 2 independent output channels
3.5-inch TFT display, English/Chinese menu
32 kinds of built-in pre-stored Waveform
Minimum stable output waveform: 1mV(50Ω)
Multiple modulation functions: FM, FSK, ASK, PSK
Frequency sweep, amplitude sweep and burst functions
Over voltage, over current, output short-circuit and reverse voltage protections
Optional parts: RS232 interface, frequency counter, power amplifier





Micsig MS200 Series Scopemeter

Micsig MS200 Series allows moving the waveform and zooming in and out in three ways: using the buttons, using the scroll wheel or using touch screen.The Micsig software, ScopeSuite, has functions including updating, real time control, measurement, storage, dynamic display, record and data analysis. The MS200 Series has a 5.7" TFT LCD touch screen with 640×480 resolution.
FEATURES
3 control modes: touch, button, scroll wheel
?240Kpts memory depth
640*480 screen resolution
31 auto measurements
Cursor measurements
3 record modes: multimeter, oscilloscope, and oscilloscope waveform
multimeter is capable of conducting 10 measurements and tests such as AC/DC voltage, current, resistance, etc.
ScopeSuite software
Model |
Bandwidth |
Real time sample rate |
Rise time |
Memory depth |
Channel |
Touch operation |
Series bus trigger |
MS207T | 70MHz | 1GSa/s | ≤5ns | 240Kpts | 2CH | YES | YES |
MS210T | 100MHz | 1GSa/s | ≤3.5ns | 240Kpts | 2CH | YES | YES |
MS215T | 150MHz | 1GSa/s | ≤2.33ns | 240Kpts | 2CH | YES | YES |
MS220T | 200MHz | 1GSa/s | ≤1.75ns | 240Kpts | 2CH | YES | YES |
|
|
Three operation modes for moving waveform, zooming in and out, and using menu by touch,button and scroll wheel.
|
|
A perfect eye pattern contains an immense amount of parametric information about a signal, it gives you a visual indication of overall signal quality, noise level and signal jitter without looking at the data content. it finds errors like improper cable connections, bad contacts,incorrect grounding and missing or superfluous terminators. Serial bus trigger can be set to a variety of trigge conditions, users can find the wanted frame directly, reducing lots of their working loads.
|
|
|
240Kpts memory depth | The ScopeSuite of Micsig's software functions include updating, real time control, measurement, storage, dynamic display, record and data analysis. |
|
|
|
640 * 480 high resolution | Persistance function keeps the abnormal signal stay longer and easy for analysis |
|
|
|
Indoor mode | Outdoor mode |
|
|
|
31 auto measurements | Horizontal cursor, vertical cursor, cross cursor |
|
|
|
3 types of record modes: multimeter record,oscilloscope measurement record and oscilloscope waveform record. |
10 physical measurements such as AC/DC voltage, current, resistance etc. |
Model |
MS207T |
MS210T |
MS215T |
MS220T |
Bandwidth (BW) | 70MHz | 100MHz | 150MHz | 200MHz |
Rise time | ≤5ns | ≤3.5ns | ≤2.33ns | ≤1.75ns |
Real time sampling rate | single channel :1GSa/s,dual-channels:500MSa/s | |||
Memory depth | single channel :240Kpts,dual-channels:120Kpts | |||
Isolated channel | not support | |||
Max waveform capture rate | -(can be upgraded to 50K wfms/s) | |||
Serial bus trigger | support | |||
Vertical system |
||||
Channels | 2 oscilloscope channels,1 multimeter channel | |||
Limited bandwidth | 20MHz | |||
Coupling modes | DC,AC,GND | |||
Input impedance | parallel 1MΩ±1% with 15pF±3pF | |||
Vertical scale | 5mV/div~50V/div | |||
Vertical resolution | 8bits | |||
Max voltage input | 600V CAT II 300V CAT III | |||
DC vertical gain accuracy | 5mV/div~50V/div, 2.0% | |||
Horizontal system |
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Timebase | 4ns/div~10s/div | |||
Timebase delay range | -12divs~50s | |||
Timebase accuracy | 20ppm | |||
Sample mode | normal,average, pk-pk,envelope | |||
Dynamic record | - (can be upgraded) | |||
Store waveform | 4 ref waveforms (can be upgraded to flash disk storage) | |||
Trigger system |
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Trigger types | edge, pulse, logic, serial bus(UART,LIN,CAN,SPI,I2C) | |||
Trigger coupling | DC,AC,High-frequency suppression,Low-frequency suppression, Noise suppression | |||
Trigger modes | auto, normal, single | |||
Trigger scource | CH1,CH2 | |||
Inhibition range | 200ns~10s | |||
Measurement |
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Automatic measurements | 31 types | |||
Cursor types | horizontal cursor, vertical cursor, cross cursor | |||
Math |
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Operator | + , - , * , / | |||
FFT window settings | Rectangular, Hamming, Blackman-Harris, Hanning | |||
Display Features |
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Screen | 5.7 inch TFT LCD touch screen | |||
Resolution | 640*480 | |||
3D waveform display | not support | |||
Grid of waveform display zone | horizontal 12 divs *vertical 8 divs | |||
Form | YT form (can be upgraded to XY form) | |||
Persist | auto, 100ms~10s or ∞ | |||
I/O Port |
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Mini USB2.0 | connect to PC | |||
USB2.0 | connect to flash disk | |||
WiFi | not support | |||
Multimeter |
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Measurement types | 10 physical measurements ,such as voltage, current, resistance, capacitance, diode , etc | |||
Measuremet accuracy | 4 bits | |||
Measurement display | max, average, min, values with time stamp,relative measurement | |||
Data Logger |
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Logger content | multimeter measurements, oscilloscope waveform, oscilloscope measurements | |||
Logger timebase | multimeter measurements,10s/div ~ 20min/div; oscilloscope measurements 10s/div ~ 20min/div oscilloscope waveform 100us/div ~ 2min/div |
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Logger time length | max 17 days (can be upgraded to flash disk record) | |||
Power |
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Power adapter | input:100-240VAC,50-60Hz,2A; output:12VDC,5A | |||
Battery | capacity:7.4V/6000mAh, work time:4~5 hours | |||
Work environment |
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Temperature | -20°C ~ +50°C | |||
Humidity | < 85%RH | |||
Dimension |
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Size | 254mm*160mm*60mm | |||
Weight | main unit: 1380g (no battery), accessories(standard): 691g,battery(standard): 276g. |
Mywave MFG-3000 Series Arbitrary Waveform Generator

Features
Direct Digital Synthesis(DDS) technology, 2 independent output channels
3.5-inch TFT display, English/Chinese menu
32 kinds of built-in pre-stored waveforms in Channel B
Minimum stable output waveform: 1mV(50Ω)
Multiple modulation functions: FM, AM, FSK, ASK, PSK
Frequency sweep, amplitude sweep, burst and CHA&CHB add functions
Over oltage, over current, output short-circuit and reverse voltage protections
Optional parts: RS232, USB interface, frequency counter, power amplifier
Yokogawa FG400 Series Arbitrary Function Generator

- FG410: 1 channel. FG420: 2 channel
- Output waveforms: Sine, Square, Pulse, Ramp, Parameter-variable waveform, noise, DC, and Arbitrary waveforms
- Frequency range: Sine wave 0.01 µHz to 30 MHz
- Output: 0 Vp-p to 20 Vp-p/open
- Synchronize up to 6 units to provide up to 12 output channels
- GPIB and USB Interface
- Generate waveforms acquired by Yokogawa's ScopeCorder and DL Series Oscilloscopes with XviewerLITE software
- Warranty period for this instrument is 3-years
The FG400 easily generated basic, application specigic, and arbitrary waveforms. The FG400 Series Arbitrary/Function Generator provides a wide variety of waveforms as standard and generates signals simply and easily. There are one channel (FG410) and two channel (FG420) models. As the output channels are isolated, an FG400 can also be used in the development of floating circuits. (up to 42 V)
Owon ODP Series 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 |
Micsig MS500 Series Isolated Channel Scopemeter

MS500 Series Handheld Multi-function Oscilloscopes provide the bandwidth of 100MHz or 200MHz, real-time sampling rate of 1GS/s and memory depth of 240k. The oscilloscopes come with 190k wfrms/s waveform refresh rate. Not only do the instruments have the function of Oscilloscope, but also functions of Multimeter, Data Logger and Serial Bus Analyzer. They can substitute for desktop oscilloscope with the same bandwidth completely, and have performance and benefits which desktop oscilloscope can not match. The instruments are the ideal choice for electric power, electron, auto, aviation, science, military industry, education and mining establishments. They will provide you service of more quality and more convenient.
Model |
Bandwidth |
Real time sampling rate |
Rise time |
Memory depth |
Max capture rate |
Channel |
Touch operation |
Serial bus trigger |
Serial bus decode |
MS510IT | 100MHz | 1GSa/s | ≤3.5ns | 240Kpts | 190,000wfms/s | 2CH | YES | YES | NO |
MS510S | 100MHz | 1GSa/s | ≤3.5ns | 240Kpts | 190,000wfms/s | 2CH | YES | YES | YES |
MS520IT | 200MHz | 1GSa/s | ≤1.75ns | 240Kpts | 190,000wfms/s | 2CH | YES | YES | NO |
MS520S | 200MHz | 1GSa/s | ≤1.75ns | 240Kpts | 190,000wfms/s | 2CH | YES | YES | YES |
Three isolated inputs include two oscilloscope inputs and one multimeter input, and all isolated inputs allow independent floating measurements with each input. |
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Three operation modes for moving waveform, zooming in and out, and using menu by touch, button and scroll wheel. |
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I2C serial bus decoding graphic mode | I2C serial bus decoding text mode |
Waveform capture rate offers how many waveforms display in a minute, "Dead zone" of oscilloscope is the time of processing and displaying the waveform which have been captured, during the time oscilloscope sacrifices any waveforms. the time of "Dead zone" is far more than "Display zone" for common oscilloscope, which results to signals can not be displayed in most time, so abnormal signals escaped. High capture rate oscilloscope reduces the "Dead zone" time and abnormal signals can be caught fast and accurately.
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High capture rate oscilloscope can catch occasional signal | Common capture rate oscilloscope easy to miss the occasional signal |
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Support various video triggers such as PAL,NTSC,SECAM,720P,1080I,1080P |
Connect to flask disk for dynamic recording |
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240Kpts memory depth | The ScopeSuite of Micsig's software functions include updating, real time control, measurement, storage, dynamic display, record and data analysis. |
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640 *480 high resolution | Indoor /outdoor display mode |
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31 auto measurements | Horizontal cursor,vertical cursor,cross cursor |
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3 types of record modes: multimeter record, oscilloscope measurement record and oscilloscope waveform record. | 13 physical measurements such as AC/DC voltage, current,resistance etc. |
Model |
MS510IT/MS510S |
MS520IT/MS520S |
Bandwidth(BW) | 100MHz | 200MHz |
Rise time | ≤3.5ns | ≤1.75ns |
Real time sampling rate | single channel :1GSa/s,dual-channels:500MSa/s | |
Memory depth | single channel :240Kpts,dual-channels:120Kpts | |
Isolated channel | support | |
Max waveform capture rate | 190,000 wfms/s | |
Vertical system |
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Channels | 2 oscilloscope channels,1 multimeter channel | |
Limited bandwidth | 20MHz | |
Coupling modes | DC,AC,GND | |
Input impedance | parallel 1MΩ±1% with 15pF±3pF | |
Vertical sensitivity range | 5mV/div~50V/div | |
Vertical resolution | 8bits | |
Max voltage input | 600V CAT II 300V CAT III | |
Floating voltage from CHs to GND | 1000V CAT II 600V CAT III | |
DC vertical gain accuracy | 5mV/div~50V/div, 2.0% | |
Horizontal system |
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Timebase | 2ns/divs~10s/divs | |
Timebase delay range | -12divs~50s | |
Timebase accuracy | 20ppm | |
Sample mode | normal average, pk-pk envelope | |
Dynamic record | max 2 hours | |
Store waveform |
support internal waveform storage and flash disk storage
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Trigger system |
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Trigger types | edge, pulse, logic, vedio (PAL,NTSC,SECAM,720P,1080I,1080P)serial bus(UART,LIN,CAN,SPI,I2C) | |
Trigger coupling | DC,AC,High-frequency suppression,Low-frequency suppression, Noise suppression | |
Trigger modes | auto, normal, single | |
Trigger source | CH1,CH2,external | |
Trigger inhibition range | 200ns~10s | |
Measurement |
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Automatic measurements | 31 types | |
Cursor types | horizontal cursor, vertical cursor, cross cursor | |
Math |
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Operator | + , - , * , / | |
FFT window settings | Rectangular, Hamming, Blackman-Harris, Hanning | |
Display features |
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Display screen | 5.7 inch TFT LCD touch screen | |
Resolution | 640*480 | |
3D waveform display | not support | |
Grid of waveform display zone | horizontal 12 divs * vertical 8 divs | |
Form | YT mode or XY mode | |
Interpolation method | sin(x)/x | |
Persist | auto, 100ms~10s or ∞ | |
I/O port |
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Mini USB2.0 | connect to PC | |
USB2.0 | connect to Flash disk | |
Multimeter |
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Multimeter type | 10 physical measurements ,such as voltage, current, resistance, capacitance, diode , etc | |
Multimeter accuracy | 4 bits | |
Multimeter display | max, average, min, values with time stamp; relative measurement | |
Data Logger |
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Logger content |
multimeter measurements, oscilloscope measurements, oscilloscope waveforms |
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Logger timebase | multimeter measurements,10s/div ~ 20min/div oscilloscope measurements 10s/div ~ 20min/div oscilloscope waveform 100us/div ~ 2min/div |
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Logger time length | 49s~ ∞ | |
Power |
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Power adapter | input:100-240VAC,50-60HZ,2A; output:12VDC,5A | |
Battery | capacity:7.4V/6000mAh, Work time:4~5 hours | |
Work environment |
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Temperature | -20°C ~ +50°C | |
Humidity | < 85%RH | |
Dimension |
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Size | 254mm*160mm*60mm | |
Weight | main unit: 1380g (no battery), accessories(standard): 691g,battery(standard): 276g |
Picotest G5100A Function/Arbitrary Waveform Generators 50Mhz

- 50 MHz Sine, 25 MHz Square & 10 MHz arbitrary Waveforms
- 14-bit, 125 MSa/s, 256 K-point Arbitrary Waveform
- Pulse, Ramp, Triangle, Noise & DC Waveforms
- Linear & Logarithmic Sweeps & Burst Operation
- AM, FM, PM (PSK), FSK & PWM Modulation Types
- Amplitude Range, 20 mVpp to 20 Vpp into Open Circuit
- Remote Control via USB, LAN
- GPIB Interface (GS5100AGC Only)
- Graph Mode for Visual Verification of Signal Settings
- 16-bit Data Output via Pattern Out
- Free Waveform Editor Software Wavepatt®
- User Friendly Operation
- Internal modulations of AM, FM, PM (PSK), FSK & PWM for waveform adjustment.
- Built-in linear and logarithmic sweeps from 1ms to 500 s.
- The burst mode has a selectable number of cycles per period of time.
- Using remote control via USB, LAN or Opt. GPIB interface.
- The programmability by SCPI commands under the remote control connection.
- Precise phase adjustments and calibrations can be done from the front panel or via a PC.
The Picotest G5100A 50 MHz Function / Arbitrary Waveform Generator can create stable, precise, clean and low distortion sine waves by using DDS (Direct Digital Synthesis) Technology. With fast rise and fall times up to 25 MHz for square waves and 200 KHz for linear ramp waves , the G5100A also can reach users demand on waveforms. It can also can generate variable-edge-time pulses up to 10 MHz. With variable period, pulse width and amplitude the G5100A is perfectly suited to applications requiring a flexible pulse signal. If an unique Waveform is needed, the G5100-A can generate variable-edge-time pulses up to 10 MHz. With variable period, pulse width and amplitude the G5100A is perfectly suited to applications requiring a flexible pulse signal.
Included in the purchase, Picotest Waveform Editor Software Wavepatt allows users to create, edit and download complex waveforms. In addition, users can retrieve waveforms from Agilent Oscilloscope MSO 8104 by using the Wavepatt Software. A User can use Wavepatt to create and store 16-bit data in G5100A. The data can be transmitted via Pattern Out from G5100A rear panel as source for control. The front-panel operation of G5100A is simple and user friendly. Users can enter all functions with a single key or two, and use knob or numeric keypad to adjust frequency, amplitude, offset and other parameters. Otherwise, users can also directly input voltage values in Vpp, Vrms, dBm or high & low levels. Timing parameters can be entered in Hertz (Hz) or second.
Users can easily use the following functions.
The G5100A external frequency reference allows users synchronizing to an external 10 MHz clock, to another G5100A, or any other unit which can support 10-MHz-frequency-input function
Specifications | |||
Display | Graph mode for visual verification of signal settings | ||
Capability | Standard waveforms | Sine, Square, Ramp, Triangle, Pulse, Noise, DC | |
Built-in Arbitrary | Exponential Rise and Fall, Negative Ramp, Sin(x)/x, Cardiac | ||
Waveform Characteristics | |||
Sine | Frequency | 1 µHz to 50 MHz | |
Amplitude Flatness (Relative to 1 KHz) |
0.1dB(<100 KHz) | ||
0.15dB(<5 MHz) | |||
0.3dB(<20 MHz) | |||
0.5dB(<50 MHz) | |||
Harmonic Distortion: (Unit: dBc) |
DC to 20 KHz | -70 (< 1Vpp) -70 (≥ 1Vpp) | |
20 KHz to 100 KHz | -65 (< 1Vpp) -60 (≥ 1Vpp) | ||
100 KHz to 1 MHz | -50 (< 1Vpp) -45 (≥ 1Vpp) | ||
1 MHz to 20 MHz | -40 (< 1Vpp) -35(≥ 1Vpp) | ||
20 MHz to 50 MHz | -35 (< 1Vpp) -30(≥ 1Vpp) | ||
Total Harmonic Distortion | DC to 20 KHz, Output ≥ 0.5 Vpp | THD+N ≤ 0.06% | |
Spurious (non-harmonic) |
DC to 1 MHz | -70 dBc | |
1 MHz to 50 MHz | |||
-70 dBc + 6 dB/Octave | |||
Phase Noise (10K Offset) |
-115/dBC/Hz, Typical | When F ≥ 1 MHz, V ≥ 0.1 Vpp | |
Square | Frequency | 1 µHz to 25 MHz | |
Rise/Fall Time | < 10ns | ||
Overshoot | < 2% | ||
Variable Duty Cycle | 20% to 80% (to 10 MHz) | ||
40% to 60% (to 25 MHz) | |||
Asymmetry | 1% of period + 5ns (@ 50% duty) | ||
Jitter (RMS) | 200 ps | When F ≥ 1MHz, V ≥ 0.1 Vpp | |
Ramp, Triangle | Frequency | 1 µHz to 200 KHz | |
Linearity | < 0.1% of peak output | ||
Symmetry | 0.0% ~ 100.0% | ||
Pulse | Frequency | 500 µHz to 10 MHz | |
Pulse width | < 10ns | ||
10 ns res. (Period ≤ 10s) | |||
Variable Duty Cycle | < 10 ns res. (period | ||
Overshoot | 20% to 80% (to 10 MHz) | ||
Asymmetry | 1% of period + 5ns (@ 50% duty) | ||
Jitter (RMS) | 200 ps | When F ≥ 1 MHz, V ≥ 0.1 Vpp | |
Noise | Bandwidth | 20 MHz Typical | |
Arbitrary | Frequency | 1 µHz to 10 MHz | |
Length | 2 to 256K | ||
Resolution | 14 bits (including sign) | ||
Sample Rate | 125 MSa/s | ||
Min Rise/Fall Time |
30ns typical | ||
Linearity | <0.1% of peak output | ||
Settling Time | <250ns to 0.5% of final value | ||
Jitter (RMS) | 6ns + 30ppm | ||
Non-Volatile Memory | 4 waveforms * 256K Points |
Picotest G5110A Function/Arbitrary Waveform Generator 15 MHz

This model, G5110A, has G5100A's features of providing Sine, Square, Arbitrary, Ramp, Pulse, DC, Exponential Rise & Fall, Negative Ramp, Sin(x)/x, and Cardiac waveforms, supporting vital modulations, such as AM, FM, PM, PWM, FSK, Sweep, and Burst, and enabling the amplitude range from 20mVpp to 20Vpp into Open circuit.
in addition, Picotest developed a special software function “High Flexible Sequencing Arbitrary Waveform Mode” for G5110A. When executing this mode, through outputting different segments in different sampling intervals, you can connect any complex waves you want, adjusting their lengths in need, transferring them without distortion concern, and output them in a high speed. It's easy to operate. First of all, dismantle a complex waveform into pieces of basic waves under the sequencing mode. Recompile them to a desired waveform via Wavepatt, and send it to your G5110A. Any complex waveforms can be generated according to your applications.
the front/rear panel operation of G5110A is simple and user friendly. You can enter all functions with a single key or two, and use knob or numeric keypad on the front panel to adjust frequency, amplitude, offset and other parameters. Via a standard USB or an optional GPIB interface on the rear panel, it is not a problem controlling G5110A remotely
Picotest P9610A Programmable Autoranging Power Supply (36V/7A 108W)

- 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)
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:
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) |
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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) |
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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)

- 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)
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:
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) |
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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) |
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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.
Yokogawa PX8000 Precision Power Scope

Traditional power measurement instruments cannot provide accurate time measurements; oscilloscopes are not designed to measure power. The PX8000 is the world's first precision power scope, bringing oscilloscope-style time-based measurement to the world of power measurement. It can capture voltage and current waveforms precisely, opening up applications and solutions for a huge variety of emerging power measurement problems.
The PX8000 has a number of innovative features that support the crucial measurement and analysis of transient power profiles.
Simultaneous power calculation |
Provides simultaneous voltage and current multiplication to give real-time power sampling. |
Cycle-by-cycle power trend measurement |
Trend measurements between waveforms can be calculated by mathematical functions (up to four million points). |
Specific time-period measurement New |
Supports the capture of power parameters over specific periods of time through the definition of start and stop "cursors". |
Specified time-period waveform measurement |
Supports the capture of waveform parameters over specific periods of time through the definition of start and stop "cursors". |
X-Y display and phase analysis |
Supports X-Y axis displays as standard. It can also display lissajous waveforms of input and output for phase analysis. |
Capturing sudden or irregular phenomena |
An always-active History function automatically records up to 1,000 historical waveforms. |
Long-period data capture and analysis |
An accompanying PC application called PowerViewerPlus can be used to capture waveform data for further analysis. |
FFT analysis |
Features arithmetical, time-shift, FFT and other computations that enable users to display waveforms with offsets and skew corrections. |
Simultaneous harmonic measurement |
Makes it possible to simultaneously measure the harmonic components of voltage and current waves as well as the harmonic distortion factor. |
Multifunction snapshots |
Up to 16 different waveforms- including voltage, current and power, can be displayed side-by-side, giving engineers instant snapshots of performance. |
Detailed transient analysis |
Supports the measurement of all power waveform parameters between precisely defined start and stop cursors. |
Trend calculation |
Built-in functions for the direct calculation of variables, such as root mean square (RMS) and mean power values, to enable the identification of cycle-by-cycle trends. |
De-skew compensation |
Automatic de-skewing function eliminates offsets between current and voltage signals that may be caused by sensor or input characteristics. |
Powered by isoPRO technology |
Offers industry-leading isolation performance at the highest speeds. Delivers the performance needed to develop high-efficiency inverters that operate at high voltages, large currents, and high frequency. |
The PX8000 is an immensely versatile instrument, unlocking precision power measurement capabilities for researchers working on everything from renewable power to advanced robotics.
Inverter and motor testing
Electric and hybrid vehicles have many electrical and mechanical components, and overall performance evaluation requires measuring the efficiency of both. The PX8000's flexibility, accuracy and wide bandwidth make it ideal for drawing together the range of power readings needed to optimize the efficiency of boost circuits and inverters- two key elements in overall electric vehicle performance.
Wide bandwidth | With a 12-bit resolution, 100 MS/s sampling, and 20MH bandwidth, the PX8000 can be used for accurate measurement of inverter pulse shaped, which can then be used to fine-tune inverter efficiency. |
Transient measurement by cycle-by-cycle trend | The ability to analyze cycle-by-cycle trends makes it ideal for the measurement of transient effects. When the load changes rapidly, engineers can gain insights that will enable them to improve the control of the inverter. |
Harmonic and FFT analysis | With both harmonic and FFT measurement capabilities, the PX8000 can measure fundamental waveforms from 20Hz to 6.4kHz. This is particularly useful for analyzing higher harmonic component and causes of noise in electromechanical systems. |
Offset cancels by individual NULL function | A common problem when testing inverter motors is the presence of ambient noise that can mean test values are nonzero even before testing begins. The PX8000's offset capabilities mean such effects can be nullified and specific inputs can be isolated for testing and analysis. |
Reactor loss measurement of inverter boost circuits
A reactor is used to filter out noise and boost voltage levels prior to the use of an inverter. It consists of an electromagnetic material core and a coil. A main focus for electrical engineers is to reduce power loss across the total inverter system, and reactor performance is of particular interest. There are two potential evaluation methods: direct loss measurement of the reactor and iron loss measurement. The PX8000 supports either methodology because it can accommodate both high frequency measurement and low-power-factor conditions.
Low-power-factor measurement | Higher sampling rates and broad bandwidth make the PX8000 particularly useful for testing devices, such as transformers and reactors that have lower power factors. It is particularly important to measure the precise power consumption of such devices at high frequency. |
De-skew functionality | To analyze power consumption in low-power-factor devices it is particularly important to minimize any time differences between voltage and current caused by sensor input characteristics. The PX8000 provides precise de-skew adjustment to compensate for this time difference. |
Core loss measurement under high frequency | Analyzing reactor core loss is an example of how the PX8000's user-defined functions can be utilized to provide an instant analysis of system performance. In the example below, core loss is calculated based on primary coil current and secondary coil voltage, while magnetic flux density (B) and magnetic field (H) are calculated by factoring in input frequency, cross-sectional area and other parameters. All values can be displayed directly by the PX8000. |
Wireless charger efficiency measurement
The development of wireless charging technology for mobile devices like smartphones and tablet devices is a focus for research. Automotive manufacturers are looking into the possibility of charging electric vehicles wirelessly. Wireless charging depends on two electromagnetic coils being configured to support particular frequency profiles. Efficient power transfer and the prevention of power loss are naturally particularly important. The PX8000 is ideally suited for measuring such systems because of its ability to operate at high frequencies and low power factors.
Wireless charger efficiency evaluation | To evaluate the efficiency of wireless transfer, at least three power measurement elements are required. The PX8000, with its four input channels, can analyze the performance of the whole system simultaneously. |
Low-power-factor device measurement | Higher sampling rates and broad bandwidth make it ideally suited for wireless power transfer systems. The PX8000 supports 12-bit resolution, sample rates of up to 100MS/s and a 20MHz bandwidth. The PX8000 supports the measurement of low-power-factor systems operating at very high frequencies. |
De-skew functionality | Because the PX8000 provides a de-skew function, differences between voltage and current that are introduced by sensor and input characteristics can be compensated for and eliminated from the analysis of low-power-factor systems. |
Power distribution
Power distribution systems have to maintain constant voltage and constant power during load switching or in the case of a short circuit. Distribution protectors or circuit breakers for three-phase electrical systems must therefore be tested at transient voltage and power levels. The PX8000 can capture fluctuation voltage and current waveform, calculate power parameters (including voltage and current values), determine an average over a specified period and display all values.
Simultaneous three-phase data capture | To evaluate three-phase electrical systems, at least three power measurement inputs are required. The PX8000 has up to four inputs and enables the simultaneous capture and display of voltage and current across all three phases. |
Specific time-period measurement | For a true evaluation of distribution protection, it is necessary to measure a full cycle of voltage current and power values half a cycle after the recovery from a short circuit. The PX8000 can easily be set up to focus on such a specific period. |
Harmonic and FFT analysis | The PX8000 has capabilities for both harmonic measurement and FFT for frequency analysis. The harmonic function can measure fundamental frequencies from 20Hz to 6.4kHz, and FFT has 1k to 100k points calculation across two channels. Such measurements are vital for identifying harmonic currents and identifying sources of noises. |
Transient responses of industrial robots
To evaluate motor-driven robots, power consumption of all motors and controllers are measured throughout all operational speeds and action patterns. Design engineers need to measure inrush voltage, current and power over the pattern of repeated actions. Efficiency is calculated by comparing mechanical output with input power. During actual operating conditions, the time to accelerate and decelerate such motors can range from several hundred milliseconds to several seconds. As a PWM-driven motor rotates from the reset position to the top speed, the drive frequency from the rest position to the top speed, the drive frequency changes from DC to several hundred Hz. The PX8000 gives design engineers insight into power consumption and efficiency throughout a robot's operational performance.
Specific time-period analysis | Supports the measurement of waveform data between specific Start/Stop cursors. Combined with its multi-channel capabilities and its Long memory and History functions, this makes the PX8000 particularly useful in rating a robot's operational power consumption. |
Efficiency measurement of boosters, inverters and motors | A single PX8000 unit can measure both the input/output power of inverters and the mechanical output of a motor. By installing three power units and one AUX module, the PX8000 can be configured to provide an instantaneous measure of component efficiency. |
Transient measurement by trend computation | With its instantaneous power calculations, the PX8000 is ideal for evaluation and optimizing transient effects. Its cycle-by-cycle trend analysis provides further insights into this crucial area of robotics engineering. |
Longer time-period measurement | To analyze some robotic operations, it may be necessary to perform cycle-by-cycle trend analysis over a long period of time. The PowerViewerPlus software extends this mathematical capability to enable deep insights to be obtained from the data. |
Long phenomena capture
The large internal memory of up to 100M Points enable long term measurements to be made at high and appropriate sample rates.
1 | Video Out | Video signal output for enhanced display on analog RGB displays |
2 | GP-IB | General purpose interface bus |
3 | IRIG | Synchronize multiple instruments via an external time source (optional) |
4 | EXT I/O | The PX8000 can be used to send a GO/NO-GO signal based on set conditions; equally external signals can be used to trigger measurement and analysis |
5 | SD card slot | SD- and SDHC-compliant |
6 | USB-PC | Enables control from a PC |
7 | USB | For connection to a range of peripherals including storage, keyboard and mouse |
8 | Ethernet | 1000BASE-T comes as standard |
9 | TRIGGER IN | External trigger input |
10 | TRIGGER OUT | External trigger output |
11 | EXT CLK IN | Sampling can be timed to an external signal (up to 9.5 MHz) |
Yokogawa WT1800 Series Power Analyzer

This new addition to Yokogawa's highly recognized digital power analyzer product line offers innovative measurement functions which benefit the engineer with electrical power measurements. It is the ideal measurement solution for testing Product Efficiency, and the design of Inverters, Motor Drives, Lighting Systems, Uninterruptible Power Supplies, Aircraft Power Systems, Transformer Testing and other power conversion devices.
Many features are available that are a first in the power measurement industry *1
Measurement - High-precision, wide range, fast-sampling, simultaneous harmonic measurement
Voltage and current frequency bandwidth 5 MHz (-3 dB, typical)
Faster switching frequencies increasingly require measurements in a wider range. The WT1800 provides a voltage and current frequency bandwidth (5MHz) 5-fold wider than the previous measurement range and is capable of more correctly capturing fast switching signals.
Reduction of low power-factor error to 0.1% of apparent power (2/3 of previous model)
A power-factor error is one of the important elements to ensure high-accuracy measurements even at a low power factor. The WT1800 has achieved a power-factor error (0.1%) that is 2/3 of the previous model, in addition to a high basic power accuracy of ±0.1%.
Wide voltage and current range allowing direct input
Direct input of measurement signals makes it possible to measure very small current that can hardly be measured with a current sensor. The WT1800 provides a direct input voltage range from 1.5 V to 1000 V (12 ranges) and a direct input current range from 10 mA to 5 A (9 ranges) or from 1 A to 50 A (6 ranges).
0.1 Hz low-speed signal power measurement and max. 50 ms high-speed data collection
The frequency lower limit has been reduced to 0.1 Hz from the previous 0.5 Hz (5-fold lower than the previous model) to meet the requirement for power measurements at a low speed. Furthermore, high-speed data collection at a data update rate of up to 50 ms has been inherited. In addition to normal measurement data, up to the 500th order harmonic data can be measured and saved simultaneously. The data update rate can be selected from nine options from 50 ms to 20 s.
* Harmonic measurement at the 50 ms data update rate is possible up to the 100th order.
Particular voltage and current range selectable
Wide voltage and current input ranges have the advantage of extending the measurement application range. However, the downside is that the response time of the auto range tends to slow down. A range configuration function solves this problem. Since only the selected range (effective measurement range) can be used, the range can be changed up or down more quickly.
* Comparison with Yokogawa's previous model WT1600
*1: Applicable to a general-purpose high-precision three-phase power analyzer as of February 2011 (according to Yokogawa's survey).
Support for Energy Conservation Technologies and Sustainable Energy Development
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Dual Harmonic Measurement The perspective of the efficient use of energy is boosting demand for inverters to convert 50Hz or 60 Hz AC power to DC power, grid connection controllers to control reverse power flow occurring due to excess power, and battery chargers/dischargers. The WT1800 is capable of simultaneously measuring the harmonic distortion of the input and output current of these devices. Challenging the common wisdom that "harmonic measurement is limited to a single line," the WT1800 is capable of performing two-line simultaneous harmonic measurements. The WT1800 is also capable of measuring up to the 500th order harmonic even at high fundamental frequencies such as a 400 Hz frequency. |
Dual harmonic measurement (option)
The industry's first two-line simultaneous harmonic measurement is available, in addition to simultaneous measurement of harmonic and standard measurement items such as voltage, current, and power values. Previously, harmonic measurements of input and output signals
had to be performed separately. With the WT1800, harmonic measurements of input and output can be performed simultaneously.
Two-channel external signal input is available for power measurement and analog signal data measurement
(option available in combination with the motor evaluation function) Power measurements can be performed together with physical quantity data such as solar irradiance or wind power in wind generation.
Electrical angle measurement is also supported.
Motor evaluation function allowing A-phase, B-phase, and Z-phase inputs (option available in combination with external signal input) Pulse or analog signals can be input for rotation speed and torque signal measurements. The motor evaluation function of the WT1800 makes it possible to detect the rotation direction and measure the electrical angle, which is not possible with Yokogawa's previous model.
High Speed Data Capturing (option)
A New High Speed data capturing /HS option can measure ∑Urms, ∑Irms and ∑P from single phase (DC signal) and three phase devices every 5 ms (When external syncronisation is OFF) or, 1 ms to 100 ms when External Sync is ON (depending on the frequency of the clock signal ).
It outputs data in 1 s blocks to internal/external memory or to a PC through a communications interface.
Existing products can measure three phase power values every 50ms however, a 50ms data update rate is typically insufficient to be able to analyze motor start up transients or the turn-on behavior of devices.
High Resolution Display
All Data of 6-input, Single/Three-phase Devices can be Viewed on a Single Screen
Important Information is Displayed in a Concentrated Format on High Resolution 8.4-inch XGA Display
A high resolution display with a resolution about 2.6-fold higher than Yokogawa's previous model* is employed. More setting information and measurement data can be displayed
*Comparison with Yokogawa's previous model WT1600
Measurement data can be displayed on a single screen, along with the respective detailed setting information of 6 inputs, such as a voltage range, current range, synchronization source, wiring system, and filter. You do not need to switch display screens frequently to confirm the settings. | |
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With the WT1800, the data update rate can be selected from 9 options from the fastest data update rate of 50 ms to an update rate of 20 s for low-speed measurements. For example, if you want to save the average data at a 1-minute interval and inappropriately set the update rate of 50 ms, measurement results may be not correct because data can be saved only at a 1-minute interval (once every 20 times).Such a risk can be avoided by setting the update rate that is suited to the interval at which you want to save data. |
Computation Range Display
Direct display of primary current values | |
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The setting ranges of voltage and current are usually displayed with voltage and current signal levels that are input to the power analyzer. The WT1800 provides not only this direct display but also added a new computation range display function to the external current sensor range. This function allows you to display the primary current range for the voltage output type current sensor. It allows you to intuitively set a range that is suited to the primary measurement signal level. |
User-defined event function
Capture only a particular event | |
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The data saving function of the WT Series is capable of continuously saving data for a long period of time. However, to check an irregular event, data must be retrieved using spreadsheet software. The event trigger function allows you to set the high and low limits and only trigger data that falls into or out of that range to be saved. |
Individual Null Function
Function to reset only a particular input signal to zero | |
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A null function allows you to reset the offset value to zero in the connected state. Previously, all inputs could only be collectively set to ON or OFF. With the WT1800, the null value for each input can be set to ON, HOLD, or OFF. In a motor evaluation test, the offset value for only a particular input can be reset to zero. This makes it possible to perform a more accurate motor evaluation test. |
Help Function
Display the manual on the screen | |
![]() English help menu supports measurement |
Display the manual on the screen Frequently used functions (keys) can be performed without the instruction manual. You may, however, want to use a new function during evaluation. The WT1800 includes a built-in instruction manual on the functions, so if a new operation is required, you can read the explanation of the function on the screen. |
Line Filter
Capture an original signal masked by high frequency component
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In power evaluation such as an inverter waveform and distorted waveform, measurement values are affected by high frequency component. A new digital filter function makes it possible toremove unnecessary high frequency components superimposed on signals. A filter can be independently set for each input element. An analog filter for 1 MHz/300 kHz, and digital filter that can be set from 100 Hz to 100 kHz in increments of 100 Hz are available as standard.
Range configuration function
High-speed range setting suited to input signals
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A new range configuration function is available. It allows you to choose a particular voltage and current input range (effective measurement range). Eliminating unnecessary ranges has made it possible to achieve optimal range setting that is faster than Yokogawa's previous model*. This allows more quicker tracking of signal changes. If the peak goes over the limit, you can switch to a preset range. This is effective in reducing the production time for a repeat test, such as setting to OFF, 100 V, OFF and so on, which is performed frequently on the production line. |
Numerical and harmonic bar graphs
Dual Harmonic Measurement
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A harmonic measurement option (/G5) makes it possible to display both numerical data and bar graphs to help understand measurement data visually. In addition, a dual harmonic measurement function (/G6) makes it possible to measure and display two-line harmonic bar graphs (dual harmonic) simultaneously. |
Waveform
Support for 6 split screen displays
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A high resolution display makes is possible to split the waveform display into up to 6 split screens. This makes it possible to split the display of signals between the input and output of a three-phase inverter and display them simultaneously. Waveform display allows you to display waveforms for the voltage alone or the current alone, or arbitrarily set the display position, so you can also display only the signals you want to compare one above the other. |
Dual Vector
Simultaneous two vector displays
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Fundamental harmonic voltage and current signal phase vectors can be displayed. With Yokogawa's previous model, vector display is limited to a single line. With the WT1800, Dual vectors can be displayed. In addition, combination display of vectors and numerical values is also possible. This allows you to view the numerical parameters and voltage and current phase status visually. |
Trend
Capture efficiency changes visually
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When evaluating inverter efficiency, sometimes small efficiency changes can hardly be recognized with just numerical values. Trend display makes it possible to display measurement values and measurement efficiency as trend data in time series to help capture even small changes visually. Trend data over several minutes or several days can be displayed. |
Setting Information
Combination display of information and numerical screens
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The screen can be split into two, with one above the other, and two types of screens can be displayed simultaneously. Screen can be selected from Numerical, Waveform, Trend, Bar Graph, and Vector displays. Another new function allows you to press the NFO button on the Numerical screen to display the setting information in the upper row and automatically scale down the numerical nformation displayed in the lower row. |
Custom
Customize display screen
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Image data can be loaded onto the screen and the position and size of the numerical data can be specified. The display screen can be customized so that the corporate logo of your company is displayed on the screen, or only the measurement items you want to view, such as input and output efficiency or frequency, are displayed one above the other. *The data for the created screen needs to be loaded from a USB storage device. |
Yokogawa WT500 Series Power Analyzer

- Cursor Keys
Cursor keys can be used to move the on-screen cursor in four different directions. The cursor keys and SET key can also be used for making selections in soft menus. The WT500's menu structure is even more user-friendly than other models. - RANGE Keys
The RANGE keys can be used to set the voltage and current ranges. Quick intuitive range control is available by using direct keys. - DISPLAY Keys
DISPLAY keys can be used to switch between numerical values, waveforms, and other displays. The display format can easily be changed. - SETUP Key
The SETUP key can be used to enter various settings required for power measurement such as the wiring method and filters. - FILE, IMAGE, and STORE Keys
The keys related to data storage are located in the same area. Data can be easily stored to USB memory. - Simultaneous measurement of DC and AC signals
Evaluation of DC/AC signal conversion technology is critical in the renewable energy market. With input from 2 or more elements, the WT500 can measure DC and AC signals simultaneously and calculate input-to-output efficiency. - Separate integration functions for charge/discharge and bought/sold power
The WT500 is equipped with integration functions that can not only evaluate charge and discharge current such as from secondary cells, but also bought and sold power in photovoltaic power generation systems. - Saving measured data directly to USB memory
Measured data can be saved in CSV format directly to USB memory. - Easy setup with cursor keys
Menu-type screen offers intuitive setting. - Simultaneous measurement of normal data and harmonic data with the harmonic measurement, /G5 option
RMS voltage, RMS current, power values, and harmonic components up to the 50 order can be measured simultaneously. - WT series for power evaluation of energy-saving equipment
The WT series have been used as powermeters for Green IT, Energy Star, CO2 reduction and other energy-saving equipment. The WT series-Including the WT500--supports your power evaluation needs. - Voltage input terminals
- Current input terminals
- USB communication interface
- External trigger Signal, External clock input Connector
Optional feature - External Current Sensor Input Terminals (/EX option)
- GP-IB communication Interface (/C1 option)
- Ethernet Port (/C7 option)
- VGA Output (/V1 option)
The WT500 Power Analyzer is a Mid Range product for single-phase and three-phase power measurements. It is designed into a compact half-rack size chassis which can also be double rack mounted. Standard features include a color TFT display and USB interface for communications and memory. The instrument has a basic accuracy of 0.1%, maximum inputs of 1000 Vrms, 40 Arms and a measurement bandwidth of DC to 100 kHz.
- | Simultaneous measurement of voltage, current, power, and harmonics |
- | High-speed data updating (100 ms) |
- | Display of numerical values, waveforms and trends |
- | Measurement of bought and sold watt hours |
- | Easy setup and operation |
Current range: 0.5 to 40 A
Voltage range: 15 to 1000 V
Basic Power Accuracy: 0.1%
frequency range: DC 0.5 Hz to 100 kHz
Key layout offers intuitive control
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Features
Newly Designed Architecture
Intuitive control by using cursor keys in four different directions.
To reduce setting errors, menus display settings in order of relative importance in order.
Measured Value Direct Save Function
Two USB ports for peripherals are installed for direct data saving (up to 1 G byte) in USB memory at shortest intervals. The saved data can be opened in applications such as Excel.
* Excel is a registered trademark of Microsoft Corporation in the U.S.A.
A Variety of Display Formats
In addition to numerical data, the WT500 can display input signal waveforms and trends (time variation of numerical data). Bar graph display and vector display are also available with the harmonic measurement (/G5) option.
*1 Waveforms of up to approximately 5 kHz can be displayed.
*2 Excludes single-phase models.
Split screen display for numerical values and waveforms is not available.
Simple Setting and Display of Efficiency
Two efficiency calculations can be set by selecting input elements or output elements from a list. | Example: η1 = PΣ/P1 x 100% η2 = PΣ/P2 x 100% |
USB Memory Storage Function
Only necessary items within the measured data like voltage, current, and power can be saved
in USB memory in binary or CSV format (up to 1 GB).
Files saved in CSV format can be opened in general-purpose applications such as Excel to allow
displaying of data in graphs.
Variety of Integration Functions
In addition to integration functions of active power (WP), current (q), reactive power (WQ), and apparent power (WS), a new feature provides measurement of bought and sold watt hours. Also, average active power can be calculated over an integration interval.
This feature is useful for evaluating the power consumed by intermittent-control instruments in which the power value fluctuates. Average active power is calculated by using user-defined settings.
GP-IB Communication (/C1)
GP-IB communication enables you to control the WT500 or transfer data from a PC.
Ethernet Communication (/C7)
Data can be transferred via Ethernet*communication.
It enables file transfers using an FTP server.
* 100BASE-TX
External Current Sensor Input (/EX1, /EX2, /EX3)
Current can be measured by using current clamps without disconnecting power supply wiring (voltage output type). By setting an external current sensor conversion ratio, it can support various types of current clamp-on probes.
VGA Output (/V1)
By connecting to a monitor, you can create large displays of numerical values and waveforms. This function is convenient for simultaneously confirming data on multiple monitors, or to check data remotely.
Harmonic Measurement (/G5)
This function enables simultaneous measurement of normal and harmonic data. Harmonic components of up to the 50th order can be measured. With the WT500 you can simultaneously confirm voltage, current, and the distortion factor (THD) as well as measure the distortion factor without switching modes.
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Harmonic Dual List | THD measurement |
Delta Computation (/DT)
This function allows you to calculate individual phase voltages and phase currents from the line voltages and phase currents measured in a three-phase, three-wire (3P3W) system. The phase voltage can be calculated from the line voltage measured with the three-phase, three-wire (3V3A) method. This is useful when you want to determine the phase voltage in a DUT with no neutral line by using the three-phase, three-wire (3V3A) method.
Note: This function cannot be installed on products with only one element.
Added Frequency Measurement (/FQ)
In addition to the standard two channels of frequency measurement, an option is available for frequency measurement on all channels. This option provides frequency measurement of voltage and current on all channels with input elements 1 through 3 installed.This is necessary when you want to measure voltage and current frequency from the instrument's I/O as well as voltage and current frequencies of multiple items under test at the same time.
Note: This function cannot be installed on products with only one input element.
Rear Panel
Standard feature
Characteristics
Example of basic characteristics showing the WT500's high precision




Yokogawa WT3000 Series Power Analyzer

- Basic accuracy: 0.01% of reading
- Basic power accuracy: 0.02% of reading
- 2A current input element
- Good readability: The large, 8.4-inch LCD and the range indicator LEDs
- Simultaneous measurement with 2 units (8 power input elements)
- Store function: 50 ms data storing interval
- Interface: GP-IB, Ethernet, RS-232 and USB
- Advanced computation function: Waveform computation, FFT analysis, waveform sampling data saving.
- IEC61000-3-2 and IEC61000-3-12: Harmonic measurement
- IEC61000-3-3 and IEC61000-3-11: Voltage fluctuation / flicker measurement
- IEC61000-4-15 Ed2.0 (Support Flicker meter standard)
- The WT3000 is a truly innovative measurement solution, combining top-level measurement accuracy with special functions.*
- The large, 8.4-inch liquid crystal display and the range indicator LEDs ensure good readability and make the system easy to use.
- When working with efficiency-improvement evaluation data for a high-efficiency motor, improvements cannot be seen unless measurements are taken with very high precision.
- Measurement efficiency is poor during power measurements and power supply quality measurements.
- You measure voltage using mean values out of habit, and are wondering if that is really the best approach.
-
High accuracy and wide frequency range
Basic power accuracy
±(0.02% of reading + 0.04% of range)
frequency range
DC, 0.1 Hz to 1 MHz -
Low power factor error
Power factor error when cosø=0
0.03% of S
S is reading value of apparent power
ø is phase angle between voltage and current -
Current range
Direct input
0.5/1/2/5/10/20/30 [A] or 5/10/20/50/100/200/500 [mA], 1/2 [A]
*Models with input elements supporting current output type current sensors are planned for release -
External input
50m/100m/200m/500m/1/2/5/10 [V]*
-
Voltage range
15/30/60/100/150/300/600/1000 [V]*
* Voltage range and current range are for crest factor 3- 1000 [Vrms] Continuous maximum common mode voltage (50/60 Hz)
- Data Update rate: 50 ms to 20 sec
- Effective input range: 1% to 130%
- Simultaneously measurement with 2 Units
- Standard PC card slot
- Calculation of motor and total efficiency
In addition to the functions of the standard version, the new models offer powerful motor/inverter evaluation functions - Voltage, current, and power measurement with torque and speed input
Measures torque meter and speed sensor output (analog or pulse output), and allows calculation of torque, revolution speed, mechanical power, synchronous speed, slip, motor efficiency, and total efficiency in a single unit. - Voltage input terminals
- Current external sensor input terminals
- Current direct input terminals
- GP-IB port
- BNC connector for two-system synchronized measurement
- Serial (RS-232) port (option/C2) or USB port (option/C12)
- Ethernet port (100BASE-TX/10BASE-T) (option/C7)
- VGA port (option/V1)
- D/A output (option/DA)
- Torque and speed input terminals (motor version)
The WT3000 is the ideal measurement solution for applications such as product efficiency testing, engineering, R&D work on inverters, motor drives, lighting systems and electronic ballasts, UPS systems, aircraft power systems, transformer testing and other power conversion devices.
Model | Description |
---|---|
760301 | WT3000 1 input element model |
760302 | WT3000 2 input element model |
760303 | WT3000 3 input element model |
760304 | WT3000 4 input element model |
With basic power accuracy of ±0.02% reading, DC and 0.1 Hz-1 MHz measurement bandwidths, and up to four input elements, the WT3000 provides higher-accuracy measurement of I/O efficiency.
More Precise. More Bandwidth. More Features.
*As compared to Yokogawas WT2000
Have you had problems or questions such as these?
Better Efficiency in Power Measurements
In developing the WT3000, Yokogawa focused on improving efficiency in two basic areas. One goal was to obtain highly precise and simultaneously measurements of the power conversion efficiency of a piece of equipment. The other objective was to improve equipment evaluation efficiency by making simultaneous power evaluations and tests easier and faster.
New Innovations to Enhance the Reliable Measurement Technology;
The Yokogawa WT2000 was very popular with users and considered highly reliable because of its high precision and excellent stability. The WT3000 is based on a measurement system which combines the measurement technology used in the WT2000 as well as other WT Series models. With the WT3000, we made further improvements to the basic performance specifications for even better functionality and reliability. We are confident users will appreciate these improvements to power and efficiency measurements thanks to the new power control technologies we have introduced.
A Variety of External Interface Choices
The WT3000 is the first model in the WT Series which is standard- equipped with a PC card slot (ATA flash card slot). This interface allows data to be saved quickly, so data processing time is reduced. The WT3000 is also standard-equipped with a GP-IB port. In addition, a serial (RS-232) port, Ethernet port, and USB port are available as options. The variety of interface choices allows customers to use the best interfaces for a wide variety of equipment, media, and network environments.
Yokogawa's highest-precision power analyzer *1 The WT3000 has the highest precision of all the Yokogawa power analyzers in the WT series. The models in the WT series are designed to meet a wide variety of user needs. The WT300 series is a high price-performance series which is very popular in production line applications. The WT1800 allows measurement data to be viewed in a variety of ways, including numerical value display, waveform display, and trend display capabilities. *2 Reading error |
Select the model most suited to your measurement needs
Standard Version
Motor Version
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Rear Panel
Standard Features | Optional Features |
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Characteristics
Example of basic characteristics showing the WT3000’s high precision and excellent stability
Supports Crest Factor 6
The crest factor is the ratio of the waveform peak value and the RMS value. ![]() |
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When checking the measurable crest factor of our power measuring instruments, please refer to the following equation.
* However, the peak value of the measured signal must be less than or equal to the continuous maximum allowed input
* The crest factor on a power meter is specified by how many times peak input value is allowed relative to rated input value. Even if some measured signals exist whose crest factors are larger than the specifications of the instrument (the crest factor standard at the rated input), you can measure signals having crest factors larger than the specifications by setting a measurement range that is large relative to the measured signal. For example, even if you set CF = 3, CF5 or higher measurements are possible as long as the measured value (RMS) is 60% or less than the measuring range. Also, for a setting of CF = 3, measurements of CF = 300 are possible with the minimum effective input (1% of measuring range).
Store Function (Comes Standard with WT3000)
Voltage, current, power, and other measured data can be stored to the unit's approximately thirty megabytes of internal memory. These data can be saved in binary or ASCII format on a PC card or USB memory*.
* The USB port (for peripherals) comes with the /C5 option.
Each measured item can be stored every data update interval. You can specify to store only the desired measured items, thus saving memory.
Files saved in ASCII format can be opened in general-purpose applications such as Excel allowing display of data in graphs. * Please note that data saved in binary format can only be manipulated using dedicated software to be made available by Yokogawa. |
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Siglent SHS800 Series Scopemeter

The SHS800 series is a portable oscilloscope with features normally found only on expensive bench-top instruments. It is ideally suited for field application circuit measurements, electrical debugging, education, scientific research, and quality control. It combines a sophisticated up to 200MHz oscilloscope, a 6000 count multimeter, and a waveform recorder in a portable unit with a bright 5.7” color TFT LCD screen. With a bandwidth of up to200MHz, sampling at 500MSa/s, with a 2Mpts or 32kpt (Model SHS820) sample memory to allow storing, replaying and zooming in on measurements.
High-performance oscilloscope
Bandwidth: 60MHz ,100MHz, 150MHz, 200MHz
Real-time sampling rate: 1GS/s
Equivalent sampling rate: 50GS/s
Memory depth: 2Mpt
Data recorder function
7M internal storage, up to 18 hours recording time
USB port, up to 3000 hours recording time
Record, replay and zoom function supported
High precision multimeter
6000 counts display
Accurate measurement of DCV, ACV, DCI, ACI
Accurate measurement of Resistance, Diode, Capacitance, Continuity
TrendPlot
32 measurement trendplot analyzer
Scope: 800k points capacity, more than 24 hours recording time
Meter: 1.2M points capacity 9320 hours recording time at 0.05S/s
Model |
SHS806 |
SHS810 |
SHS815 |
SHS820 |
Bandwidth |
60MHz |
100MHz |
150MHz |
200MHz |
Rise Time |
≤5.8ns |
≤3.5ns |
≤2.3ns |
≤1.7ns |
Input Impedance |
1MΩ±2%, 18pf±3pf |
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Real Time Sampling Rate |
Single Channel: 1GSa/s, |
500MSa/s |
||
Equivalent Sampling Rate |
50GSa/s |
|||
Memory Depth |
2Mpts |
32Kpts |
||
Time Base Range |
5 ns/ div – 50s/ div |
2.5 ns/ div – 50s/ div |
||
Scan Range |
100ms/ div ~ 50s/ div |
|||
Vertical Sensitivity |
2mV/div – 100V/div(1-2-5 step) |
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Vertical Resolution |
8 bits |
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Trigger Types |
Edge, Pulse, Video, Slope, Alternative |
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Frequency Counter |
6 bits |
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Connection |
USB Device, USB Host |
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Math |
+, -, * , /, FFT |
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Oscilloscope Trend Plot |
800K points |
Multimeter Specifications | ||
Display | 6000 | |
Item | Range | Accuracy |
DC Voltage | 60mV - 1000V | ±1%±15digit |
AC Voltage | 60mV –750V | ±1%±15digit |
DC Current | 60mV -10A | ±1%±5digit |
AC Current | 60mV -10A | ±1%±5digit |
Capacitance | 40.00nF | ±3%±10digit |
400.0nF-400.0uF | ±4%±5digit | |
Resistance | 600Ω - 60MΩ | ±1%±5digit |
Continuity buzzer | <50Ω | |
Diode | 0V~2.0V | |
Trend plot | 1.2M points | |
Recorder | 7M points | |
Measuring mode | Manual/Auto | |
General Features | ||
Display | 5.7 inch color TFT-LCD, 320*234 | |
Power Supply | Charging/Battery | |
Power mode | Lithium battery: 7.4V 5000mAh, Battery lasts 5 hours; DC adapter, 100-240V 50/60Hz input, 9V 4A output |
|
Weight | 1.5Kg | |
Dimension | 163.2mm×259.5mm×53.3mm |
Siglent SHS 1000 Series Isolated Oscilloscope

- 2-channel device
- Includes IsolatedChannel technology that isolates ground and between channels
- 5.7 inch colour LCD display
- 60 or 100MHz bandwidth
- 6000 count multimeter measures DC/AC Voltage, DC/AC current, Resistance, Diode, Capacitance and Continuity
- Includes Trendplot, Meter Trendplot and Scope recording functions
- Automatic and manual trigger modes
- Trigger types: Edge, Pulse, Video, Slope and Alternative
- 32 automatic waveform measurements, 3 cursor measure modes
- Digital filter functions: high pass, band pass, band limit
- Mathematical functions: +, -, x, ÷ and FFT
- Multiple language user interface
- USB device and USB host with PC communication
- Rechargeable battery
- Ideal for multiple applications including power electronics, industrial power systems, field testing and more
The SHS1000 series is a multifunction handheld 2-channel oscilloscope that also includes a full digital multimeter logger and a waveform recorder. Siglent’s patented Isolated Channel technology provides isolation from ground and between channels. With a signal bandwidth of 60MHz or 100MHz, this portable unit with a bright 5.7” color TFT LCD screen can measure at a real-time sample rate of 1GSa/s with a memory depth of 2Mpts, allowing storing, replaying and zooming in on measurements.
The oscilloscope features multiple trigger types (Edge, Pulse, Video, Slope and Alternative), a rise time of less than 5.8ns, vertical sensitivity of 5mV/div – 100V/div and 8 bit vertical resolution. The built-in multimeter of the SHS1000 series can also measure DC/AC voltage, DC/AC current, resistance, capacitance, diode and continuity in many ranges with a display count of 6000. The SHS1000's built in data-recorder has up to 18 hours recording time, while the Meter TrendPlot can record multimeter measurement data for as long as 6000 hours at 0.05Sa/s.
Input voltage: input voltage through BNC is up to CATII 300V and CATIII 150V Standard probe: 10X CAT II 400V Optional probe: 10X CAT II 1000V and 10X CAT III 600V Oscilloscope and multimeter safety to CAT II 600V and CAT III 300V.
The SHS1000 series offers 32 automatic measurements,3 cursor measure modes, 4 digital filters (low-pass, high-pass, band-pass, band-limit) as well as Math functions +, -, ×, ÷, and X/Y plots, as well as FFT frequency display. Multiple trigger types include video signal settings.
It features USB device for software updates, and USB host capabilities for PictBridge-compatible printers. SHS1000 connects to a PC through a USB cable for EasyScope control software and can save/recall waveforms to USB Flash drive. SHS1000 can save 2 groups of reference waveforms, 20 groups of setups and 10 groups of waveforms in its internal memory, save setup data, waveform data, waveform interface image, and CSV file to an USB flash drive.
The SHS1000 comes with a rechargeable 7.4V 5000mAh Lithium battery pack which lasts up to 5 hours of continuous use, but a 100-240V 50/60Hz 9V 4A DC adapter is also provided. Two 100MHz oscilloscope probes (1 x CAT II 1000V and 1 x CAT III 600V) are included too, as well as two test leads for multimeter measurements.
Model |
SHS1062 |
SHS1102 |
Bandwidth |
60MHz |
100MHz |
Rise Time |
≤5.8ns |
≤3.5ns |
Real Time Sampling Rate |
Single Channel: 1GSa/s, |
Single Channel: 1GSa/s, |
Equivalent Sampling Rate |
50GSa/s |
50GSa/s |
Memory Depth |
2Mpts |
2Mpts |
Time Base Range |
5 ns/ div – 50s/ div |
2.5ns/ div – 50s/ div |
Scan Range |
100ms/ div ~ 50s/ div |
100ms/ div ~ 50s/ div |
Vertical Sensitivity |
5mV/div – 100V/div(1-2-5 order) |
5mV/div – 100V/div(1-2-5 order) |
Vertical Resolution |
8 bits |
8 bits |
Trigger Types |
Edge, Pulse, Video, Slope, Alternative |
Edge, Pulse, Video, Slope, Alternative |
Frequency Counter |
6 bits |
6 bits |
Connection |
USB Device, USB Host |
USB Device, USB Host |
Math |
+, -, * , /, FFT |
+, -, * , /, FFT |
Oscilloscope Trend Plot |
800K points |
|
Meter |
||
Maximum Resolution |
6000 |
|
DC Voltage |
60mV |
(±1%±15digit) |
AC Voltage |
60mV |
(±1%±15digit) |
DC Current |
60.00mA—600mA |
(±1%±5digit) |
AC Current |
60.00mA—600mA |
(±1%±5digit) |
Resistance |
600Ω—60MΩ |
(±1%±5digit) |
Capacitance |
40nF |
(±3%±10digit) |
Diode |
0—2V |
|
Continuity |
<50Ω Buzzer sounds |
|
Multimeter Trend Plot |
1.2M points |
channels from earth ground, |
Overvoltage Category |
Maximum Voltage |
CAT I&CAT II |
1000 Vrms |
|
CAT ? |
600 Vrms |
|
between Multimeter input |
Overvoltage Category |
Maximum Voltage |
CAT I&CAT II |
600 Vrms |
|
CAT III |
300 Vrms |
|
Max. input Voltage for BNC |
Overvoltage Category |
Maximum Voltage |
1x CAT I&CAT II |
300 Vrms |
|
1X CAT III |
150 Vrms |
|
10x CAT I&CAT II |
1000 Vrms |
|
10X CAT III |
600 Vrms |
|
Max. input Voltage for |
Voltage port |
DC 1000V, AC 750V |
Current port(mA) |
AC 250V/600mA |
|
Current port(A) |
AC 250V/10A |
|
Single Channel Common |
>1000:1 50MHz |
|
Channel-to-Channel Isolation |
>35 dB |
General Feature |
|
Display |
5.7 inch color TFT-LCD, 320x234 |
Power supply |
With battery or DC adapter |
Power source |
Built-in rechargeable lithium battery: 7.4V 5000mAh, Battery persisting 4 hours With DC adapter: 100-240V 50/60Hz input 9V 4A output. |
Weight |
1.5Kg (3.3lb) |
Dimension |
163.2mm×259.5mm×53.3mm (6.5” x 10.2” x 2.1”) |
Siglent SDS2000 Series Super Phosphor Oscilloscope

The SDS2000 series super phosphor oscilloscope equipped with the maximum 300 MHz bandwidth, 2GSa/s Sampling Rate as well as the design features of memory depth, high capture rate and multi- level intensity grading waveform display, is recognized as an universally applicable digital instrument with advanced technology and high-end performance. With the innovative SPO technology, the SDS2000 series oscilloscope becomes outstanding in the same industry, and even develops a new era in domestic digital oscilloscope industry.
Bandwidth 70MHz,100MHz, 200MHz, 300MHz
Real time sampling rate, Analog channel: 2GSa/s, Digital channel: 500MSa/s (optional)
Provide 2/4 analog channels, 8 digital channels (optional)
Built-in 25MHz function/arbitrary waveform generator(optional)?
A variety of serial protocol trigger and decode functions (IIC, SPI, UART/RS232, CAN, LIN)?
A variety of smart trigger functions (Pattern, Window, Interval, DropOut, Runt)?
Support HDTV trigger?
Support history function and segmented memory (std.up to 80,000 frames)?
Hardware-based zoom function and high speed Pass/Fail function technology?
32 kinds of automatic waveform measurements, support measurement statistics function?
Advanced waveform math operations (FFT, differential, integral, square root)?
Complete connectivity: USB Host, USB Device (USBTMC, PictBridge), LAN(VXI-11), EXT TRIG,? PASS/FAIL,TRIG OUT?
Support SCPI remote control commands?
Multi-language user interface and built-in online help system?
8 inches TFT-LCD(800*480)
Model |
SDS2072 |
SDS2102 |
SDS2202 |
SDS2302 |
SDS2074 |
SDS2104 |
SDS2204 |
SDS2304 |
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Bandwidth |
70MHz |
100MHz |
200MHz |
300MHz |
Channels |
2/4CH + 1 EXT |
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Max. real time sampling rate |
2Gsa/s |
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Memory depth |
28Mpts |
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Max. capture rate |
110,000wfms/s |
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Input impedance |
1MΩ||20pF,50Ω |
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Time base range |
1.0ns/div~50s/div |
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ROLL:100ms~50s/div |
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Vertical sensitivity |
2mV/div~10V/div |
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Trigger types |
Edge, Pulse, Video, Slope, Interval, Runt, Window, Pattern, DropOut, Series Protocol trigger |
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Decode types |
IIC, SPI, UART/RS232, CAN, LIN |
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MATH operation |
A+B, A-B, A×B, A/B, FFT, Diff, Intg, Sqrt |
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Automatic Measurement |
Vpp, Vmax, Vmin, Vamp, Vtop, Vbase, Vavg, Mean, Crms, Vrms, ROV, FOV, RPRE, FPRE, Rise time, Fall time, Freq, Period, + Wid, - Wid, + Dut, - Dut, BWid, Phase, FRR, FRF, FFR, FFF, LRR, LRF, LFR, LFF |
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External storage |
Bitmap save, CSV save, Waveform save, Setup save |
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Interface |
USB Host(support USB-GPIB), USB Device, LAN, EXT TRIG, Aux(TRIG OUT/Pass/Fail) |
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Display |
8 inches TFT-LCD(800*480) |
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Max. input voltage |
±400V(DC+VppAC), CATI, CATII |
|||
Power supply |
AC 100-240V, 45-440Hz, 50VA Max |
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Dimensions |
352mm*112mm*224mm |
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Weight |
3.4kg(2CH), 3.5kg(4CH) |
Yokogawa DLM4000 Series Mixed Signal Digital Oscilloscopes

- Built-in user friendly Graphical help. No need to consult the user's manual.
- Multiple language support: English, Japanese, Chinese, Korean, Italian, French, German, Spanish, Russian.
- Multi-Color LED display.
- Statistical Analysis.
- Trend and Histogram of waveform parameters.
- Waveform monitoring on a PC.
- Data transfer to a PC.
- GO/NO-GO judgement using polygon zoning or waveform parameters is possible without programming.
- 29 different parameters such as Min, Max, Mean and Standard deviation from multiple acquisitions.
- Power supply analysis function.
- Extra Deep Memory (125 Mega-Points). Super long record lengths with ease.
Overview
The DLM4000 Series Oscilloscope is unique to the industry, providing eight channel mixed signal suitable to test and debug applications in embedded systems, power electronics, mechatronics and automotive sectors. Available in both 350MHz and 500MHz models, the 2.5 GSa/sec DLM4000 features eight analog input channels.
Features
The eight input channels features Flex MSO which converts to an 8-bit logic analyzer at the push of a button, with sixteen additional logic analyzer inputs as an option, making it into a 24-bit logic analysis system.
Advanced measurement and analysis features such as power analysis and serial-bus analysis, digital filtering, user-defined math, and super long record lengths (up to 125 Mega Points) make the DLM4000 a super powerful engineering tool. High-resolution 12.1 inch LCD display, compact landscape format, ergonomic and friendly user-interface makes this series easy to use.
Model
DLM4038 350Mhz Standard 8 analog channels or 7 analog channels + 8-bit logic
DLM40538 500Mhz 8 analog channels + 16-bit logic or 7 analog channels + 24-bit logic
Download
DLM4000 Specifications (PDF)
(documents are in PDF format and will open in a new window) 3.92MB
Yokogawa DL850 Series ScopeCorder

- Voltage & Currents
- Sensor Outputs
- Temperature, Vibration/Acceleration, Strain, Frequency
- Logic Signals & CAN / LIN
- Standard memory 250MPoint
- Expanded memory 1GPoint (/M1 Option)
- Expanded memory 2GPoint (/M2 Option)
- DC power (10 - 18V)
- AC power (100 - 120V / 200 - 240V)
Measure and analyze a wealth of signals in real-time and speed up development and fault finding.
The DL850E ScopeCorder is a powerful portable data acquisition recorder and oscilloscope that can capture and analyze both transient events and trends up to 200 days. Using flexible modular inputs it combines measurements of electrical signals, physical (sensors) and CAN / LIN serial buses and is able to trigger on electrical power related and other calculations in real-time.
Flexible and Swappable Input Modules With Built-in Signal Conditioning
Choose from 17 types of input module and install up to 8 in a ScopeCorder at a time to configure a ScopeCorder up to 128 channels.
Precise Measurement of Fast Switching Signals Even in the Harshest Environments
Real-Time Evaluation of Dynamic Behavior within Power Applications

A Trustworthy Measurement Platform for Durability Testing

Fast and Large Acquisition Memory

Giga Zoom Engine II
Zoom into 2 Billion samples in just a blink of the eye. Each ScopeCorder is equipped with the revolutionary Giga Zoom Engine II, a powerful processor designed for optimizing access to data seamlessly. It is possible to activate 2 zoom windows while displaying the entire original signal.
A ScopeCorder provides a wide variety of unique acquisition features to handle small or large amounts of data. Therefore it can perform multi-channel measurements for longer measurement periods while still being able to precisely capture transient events with the highest detail.
Reduce time spend on fault finding or transient analysis - simple & enhanced triggers
Having the possibility to set individual triggers on multiple channels provides the power to investigate what causes a particular transient event. Moreover, the availability of a large acquisition memory, and thus longer measurement time, helps the analysis of the effect of such an event on other parts of the application.
Wave Window Trigger
The ideal trigger for AC power line monitoring. Easily capture voltage sags, interfering impulses, phase shifts or drop outs.

Action on trigger
Leave a ScopeCorder unattended and automatically save the waveform to a file or send an email for notification of a trigger event.
Capture High-Speed Transients During Long Term Recording - Dual capture
To visualize long term trends for durability testing, data is typically acquired at lower speed sample rates. On the other hand, suddenly-occurring transitional phenomena have to be captured at high-speed sample rates and detail to be able to investigate the event. The "Dual Capture" function uniquely resolves these conflicting requirements by recording at two different sampling rates.

Set waveform triggers and capture 5,000 high-speed transient events at sample rates up to 100 MS/s, while at the same time continuously record trend measurements at up to 100kS/s.
Recall waveform events - History Memory
When an abnormal phenomenon is spotted during a repetitive high speed measurement, the anomaly has often already disappeared from the screen by the time the measurement is stopped. With a ScopeCorder the "History" function is always active and automatically divides the available acquisition memory in up to 5,000 "history waveforms".

These history records are easily accessible and can be displayed simultaneously after measurement is stopped. Using condition-based searches inside the history memory, users can quickly isolate individual waveforms records. Once the required waveforms have been identified they can be used for further analysis.
Cursor Measurement
Using cursors is a quick and easy method to measure waveform parameters on the screen. Available cursors are horizontal, vertical, marker, degree or combined horizontal & vertical.
Automatic Waveform Parameter Measurement
The parameter measure function is the most precise method for automatically calculating any or all of the 28 different waveform parameters such as, amplitude, peak to peak values, RMS, rise time, frequency and more.The internal time clock (date and time) can be synchronized and adjusted across multiple units. Applications are likely to include synchronizing the ScopeCorder at a windmill farm, finding faults in power grids, and more.
Cycle Statistics
With this powerful analysis function, the ScopeCorder measures selected parameters individually for each waveform cycle and provides statistical information which can easily be saved to a file. By selecting maximum or minimum values from the results, the instrument can automatically zoom into the selected waveform cycle for further analysis, potentially saving additional data analysis time.
Real-time hard disk recording
Use a ScopeCorder as a measurement platform for simple durability testing up to 200 days. Realtime hard disk recording enables measurement data to be streamed directly to either a built-in hard drive (/HD0 option) or via the eSATA interface (/HD1 option) to an external hard drive.
Continuous PC based data acquisition - ScopeCorder Acquisition Software
Especially for longer duration or surveillance testing the ScopeCorder comes with an easy to setup acquisition software. The software enables continuous data recording to a PC hard drive. When using the software in free run mode there are virtually no restrictions in recording time and/or file size. Just click the start button to immediately start measurements!

The Setup Wizard Makes It Easy
Guided by four screens, the Setup Wizard easily guides you through the necessary settings for configuring the acquisition system such as measurement settings, data save and display options.
GPS Time Synchronisation
The ScopeCorders internal clock and the sampling clock can be time synchronized with a GPS clock reference using the /C20 or /C30 option. This allows multiple units to be synchronised in order to combine measurements from different remote locations with most accurate timing. Applications are likely to include synchronising the ScopeCorder measurements at a windmill farm, finding faults in power grids and railway applications. Measurement files from multiple ScopeCorder units can be merged into one measurment overview using Xviewer software.
GPS Interface (/C30 option)
A GPS antenna (included with the option) can be directly connected to the ScopeCorder side panel.
The instruments time clock and the sampling clock will be synchronized to the GPS clock with ±200ns accuracy.
IRIG interface (/C20 option)
An IRIG time code signal generated by an external GPS clock device (not included) can be offered to the ScopeCorder.
Powerful Real-Time Calculations and Analysis Functions
By default the ScopeCorder is equipped with a set of basic arithmetic mathematical functions such as addition, subtraction, division, multiplication, fast Fourier transformation and other computations. Furthermore to really enrich the measurement and analysis capabilities of a ScopeCorder, several real-time options are available.
Real-Time Measurement of Electrical Power - /G5 option
Trend calculations such as active power, power factor, integrated power and harmonics, using a dedicated Digital Signal Processor (DSP) that is able to calculate and display up to 126-types of electrical power related parameters in real-time. This enables the user to display raw waveform signals such as voltages and currents along with power calculated parameters and even the capability to trigger on all of them. Data updating rate up to 100kS/s. Trend waveforms of each order of harmonics, bar-graphs and vector displays can be displayed. Both RMS and Power analysis modes are available. Besides the powerful power calculations, the /G5 option also contains all the functionality of the /G3 option.

Real-Time Mathematical Computations and Digital Filtering - /G3 option
Armed with a dedicated digital signal processor the ScopeCorder can perform mathematical calculations such as arithmetic operators with coefficients, integrals and differentials, and higher order equations on acquired measurement data. The results of these calculations are displayed during waveform capture in real-time. In addition to mathematical operators, steep digital filters can also be selected to isolate or trigger on the amplitude of certain frequency components.
User defined computations - /G2 option
With user defined computations it is possible to create equations using a combination of differentials and integrals, digital filters, and a wealth of other functions. Moreover it is possible to perform various types of FFT analysis using two FFT windows. In applications such as vibration and shock tests, you can easily evaluate abnormal vibrations while simultaneously measuring other signals.

Application Example | With FFT

CAN and LIN Bus Monitoring
Use a ScopeCorder to decode the CAN or LIN-Bus signals and display information on physical data like engine temperature, vehicle speed and brake-pedal position as analog waveforms and compare this with the data coming from real sensors.

Symbol Editor

Battery Powered Operation - /DC option
In addition to AC power, it is also possible to take the ScopeCorder Vehicle Edition in a vehicle and power the unit from the vehicle's DC battery. The DC power option allows AC and DC power supplies to be used together to ensure a highly reliable power source. If the AC power goes down, the DL850EV instantly switches to the DC supply without interrupting the measurement.
Flexible operation and a variety of connection interfaces
A ScopeCorder has been designed to grant users access to functionality in the field quickly and easily using the front panel menu buttons. For users that prefer workbench operation it is possible to connect a USB mouse or keyboard.
Front View

Left Side View

Right Side View

Magna Power XR IV Series DC Programable 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
- GPIB and Ethernet are optional and must be specified at time of order.
- Power cords are not included.
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 >
![]() 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
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 | |||
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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:
Magna Power TS IV Series DC Programmable 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
- 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 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.
Remote 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:
Magna Power SL Series DC Programmable 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
- Stepless front panel knobs
- 37-pin isolated analog-digital I/O
- Computer interface with software and drivers
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:
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.
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Input Voltage (Must be specified at time of order) UI (85 - 265 1Φ, 1.5 kW Models Only); |
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
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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

- 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.
![]() 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. |
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Low Voltage, High Current Models
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Yokogawa WT300 Series Powermeter

- Wide current input ranges: The WT300 series offers a wide range of current inputs from a few mA t
- Simultaneous measurement of all parameters: The WT300 can measure all DC and AC parameters. The WT300 series can also measure harmonics and perform integration simultaneously without changing the measurement mode.
- Fast display and data update rate: The fast display and 100 ms maximum data update rate of the WT300 series offers a short tact time in testing procedures. 0.1% of reading + 0.1% of range (50Hz/60Hz)
- MAX hold function: The maximum values of RMS/PEAK voltage & current active power, reactive power and apparent power can be held.
- Line filter and frequency filter capability: These filter functions will cut off unnecessary noise & harmonic components for fundamental waveform measurements.
- Less than lower limit value. Output: -5 V
- Greater than lower limit value and less than upper limit value. Output: 0 V
- Greater than upper limit value. Output: +5 V
The WT300 series of digital power meters are the fifth generation of Yokogawa's best-selling compact power meters: instruments that play a key part in ensuring optimum standards of energy efficiency and conservation by measuring the power consumption of electrical equipment. Combining accurate and reliable power measurement over a wide power range with flexibility, ease of use and a choice of communication interfaces, these instruments will help developers, engineers and manufacturers of electrical equipment to ensure that their products comply with emerging IEC and EN standards and increasingly complex and stringent specifications on energy efficiency. They provide ideal measurment solutions for various applications ranging from stand by power measurement to Energy star for various manufacturers such as domestic "white goods", battery chargers, lighting systems.
Model | Description |
---|---|
WT310 | Single-input element model |
WT310HC | High current single-input element model |
WT332 | 2-input element model |
WT333 | 3-input element model |
The WT300's wide range of funcations and enhanced specifications allows to handle all the measurement applications from low-frequency to high frequency inverters using a single power meter.
Accuracy with fast display and update rate:
The WT300 series with the fast display and date update rate of Max. 100ms offers the customer a short tact time in their testing procedure. The basic accuracy for all input ranges is 0.1% rdg + 0.1% rng (50/60Hz) and DC 0.1% rdg + 0.2% rng (0.2% + 0.2% for 40A).
Simultaneous Measurement:
U/I/P/Freq/Integ(+/-)/Harmonics components/ THD with max. 100ms cycle.
In addition to standard power measurements, the WT300 offer a wide range of harmonic measurement capabilities, including the ability to carry out simultaneous measurement of normal power parameters such as RMS, mean or DC power along with measurement of harmonics up to the 50th order. As a result, overall measurement times are reduced, allowing users to allocate their effort and time to other tasks.
First in Class:
Auto ranging function available in selected ranges.
The auto-range function is used to select or change the range automatically in specific ranges. This results in shorter range changing times, allowing more quick and efficient testing.
First in Industry:
Auto Ranging Function For Integration Measurement.
Typically, when power meters operate in an integration mode to measure power consumption and standby power, the measuring ranges need to be fixed. However, if the level of the input exceeds the maximum of the selected range, the test will need to be repeated. The WT300 Series has a high speed automatic ranging capability in integration mode, which removes the need to repeat any test.
Bandwidth: DC and 0.5Hz to 100 kHz (WT310HC is up to 20 kHz for 40A).
Direct Input: Maximum direct input up to 600V and 20A, or 40A (incase of WT310HC). The wide current input range gives the customer options to use the WT300 series from as low as 50 micro-Amps to 40Arms.
High-speed data update (up to 10 readings per second.)
Wide current input range
The WT300 series offers a wide range of communication interfaces such as USB, GP-IB or RS-232 (selectable) and Ethernet (Optional) |
Allows users to have the flexibility to choose according to applications needs. Using the WTViewerFreePlus software to set up all kinds of measurements. Additionally, the numeric values, waveform display, and trend graphs of the measurement data can be displayed and saved.
D/A output for measurement recording |
The D/A option is used to output Voltage, Current, Power, and other measured data for recording to data loggers (+/-5Vdc outputs).
Two new functions added to D/A output option. (Firmware Ver1.04)
Two new functions, Manual Range Mode and Comparator Mode can be used conveniently with built-in PLC and recorders in production line inspection systems.
Manual Range Mode |
The default settings will set D/A output value to rated value of measurement range. In this mode, D/A output can be zoomed in and out on each channel by arbitrarily setting the display value of measurement items when D/A output is either -5V or +5V. For example, if you measure the fluctuating current from 0.6A to 0.8A by 1A current range with D/A output range mode switched to fixed range mode, the D/A output voltage will fluctuate from 3.0V to 4.0V. The D/A zoom function is available for enlarging and observing this fluctuating value. Set the D/A output range mode to manual range mode with minimum value set to 0.6A and the maximum value to 0.8A. Then, when the current value measured is 0.6A, the output will be -5V, and when it’s 0.8A, the output will be 5V.
Comparator Mode |
This mode will compare measured, computed, and integrated values with previously set determined value by the communication command, and output (from -5V to +5V) determined results by D/A output. If you are going to use a relay contact output, please prepare the relay and the relay drive circuit.
The upper and lower limit value of Comparator Mode
The following are the D/A output during the Comparator Mode
* The above 2 modes can only be set by the communication command.
* Both modes can be set for all D/A output items.
The WT300 series power meters are easy to use, cost effective, and accurate for a wide range of applications, such as production, testing, evaluation, and research and development.
For home appliances and office equipment
Production line or QA testing of electric devices |
-Multiple communication interfaces such as USB, RS-232 or GP-IB and Ethernet capable.
-The compact half rack mount size helps users build smaller test systems with a better return on investment.
-D/A output function for data recording
Development and evaluation tool for home appliances |
-5mA range helps small current measurement (WT310)
-Range skip function provides the ability to select usable ranges in advance, while auto ranging adapts rapidly to changing input conditions. [PIC]
Testing to international standards such as IEC62301, Energy Star, and SPECpower |
-The WT310 has a high measurement resolution of Max. 100µW under the 5mA range setting.
-Simultaneous measurement of normal power parameters, harmonic components, and THD.
-Free PCM software for IEC62301 testing
Evaluation of large current equipment |
-Direct high current measurement up to 40Arms without using external sensors
-Auto ranging function for Integration mode.
For industrial equipment and transportation
Automotive- Battery or DC driven device evaluation |
-Accurate DC measurement: 0.3% total
-Direct high current measurement up to 40A without any external current sensor.
-Charge/Discharge energy measurement for batteries
Duration testing and efficiency measurement for industrial motors and rotating machinery |
The WT300 series provides reliable current integration (Ah) and Energy (Wh) measurement for up to 10,000 hours. The D/A option is used to save and monitor the measurement results. An external recorder or data logger, such as a ScopeCorder, can be used to save this D/A function data along with other parameters, such as temperatures, torque, and rotation speed.
Conformance and evaluation testing of uninterruptable power supplies (UPS) |
-Maximum order setting for THD calculations
-Efficiency measurements using a single power meter
Multiple units for parallel testing of product evaluation of electrical equipment |
New version of the WTViewerFreePlus , measurement data can be collected from multiple WT300 units
(same model maximum 4 units).
-Various communication interfaces such as USB, RS-232 or GP-IB and Ethernet are available.
-Data update rate can also be measured simultaneously as fast as 100ms.
- power parameters can be measured up to the 200 items simultaneously.
-D/A output function for data recording is available.
Comparison of WT210/230 with WT310/330
WT310/WT332/WT333 | WT310HC | WT210/WT230 | ||
DC power measurement accuracy | 0.1% of reading+0.2% of range | 0.3% of reading+0.2% of range | 0.3% of reading+0.2% of range | |
Current range (Crest factor=3)Voltage and current basic accuracy |
Direct Input | 5m/10m/20m/50m/100m/200m/ 0.5/1/2/5 /10/20[A]( WT310) 0.5/1/2/5/10/20[A](WT332/WT333 |
1/2/5/10/20/40[A] | 5m/10m/20m/50m/100m/200m/ |
External current input | EX1: 2.5/5/10[V] EX2: 50m/100m/200m/500m /1/2[V] (OP.) |
EX1: 2.5/5/10[V] EX2: 50m/100m/200m/500m /1/2[V] (OP.) |
EX1: 2.5/5/10[V] EX2: 50m/100m/200m[V] (OP.) |
|
Effective input range for voltage & current (CF=3) | 1% to 130% | 1% to 100% (40A range only) | 1% to 130% | |
Maximum displaying value for voltage & current (CF=3) | 1% to 140% | 1% to 110% (40A range only) | 1% to 140% | |
Effect of Power Factor (CF=3) | 0<PF<1 | Power reading x {power reading error + (power range / apparent power reading) + tanφ x (influence when PF = 0)} % | Power reading x {power reading error + (power range / apparent power reading) + tanφ x (influence when PF = 0)} % | Add the power reading x {tanφ x (influence when PF = 0)}%. |
Simultaneous measurement of RMS, Voltage MEAN & DC | Yes | Yes | No | |
Frequency measurement |
2 channels (voltage & current) |
2 channels (voltage & current) | selected voltage or current (one) | |
Number of display items | 4 items | 4 items | 3 items | |
Sampling rate | Approximately 100 kS/s | Approximately 100 kS/s | Approximately 50 kS/s | |
Harmonic measurement | Yes (OP, /G5) | Yes (OP, /G5) | Yes (OP, /HRM) | |
THD calculation maximum order setting | Yes (OP, 1-50th) | Yes (OP, 1-50th) | No | |
Auto ranging of integration | Yes | Yes | No | |
Communication interface | USB | Yes | Yes | NO |
GP-IB | Yes GP-IB or RS-232 | Yes GP-IB or RS-232 | Yes (OP) GP-IB or RS-232C | |
RS-232 | Yes RS-232 or GP-IB | Yes RS-232 or GP-IB | Yes RS-232 or GP-IB | |
Ethernet | Yes (OP) | Yes (OP) | NO | |
IEEE standard for GP-IB | IEEE488.2 | IEEE488.2 | IEEE488.1 and IEEE4882. | |
Comparator function | No | No | Yes | |
Viewer software | Free (included) | Free (included) | Free (download) |
Magna Power PPPE2 Photovoltaic Power Profile Emulation Software

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:
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.
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.
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

- Stepless front panel knobs
- 37-pin isolated analog-digital I/O
- Computer interface with software and drivers
- Engages and disengages main power
- POWER: Indicates power output
- STANDBY: Indicates control power only
- 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
- 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
- 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
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:
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
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
ModeE
ConfigurationF
Diagnostic AlarmsG
Power switch energizes control circuits without engaging main power Diagnostic Alarms
H
Stepless rotary knob to set voltage-current
I
Function KeysJ
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.
SA2100 Power Quality / Energy Analyzer

Safety: CAT III 1000V / CAT IV 600V
Standards: IEC61000-4-30 (2008) S class, EN50160 (2007)
Easy operation to capture the power quality problem
Single-phase 2 W/Single-phase 3 W/ 3-phase 3 W/ 3-phase 4 W
Display: Run Chart, Bar Chart, Vector Graphic, Waveform,Event List, Readings
8G Memory Card to make the long-term measuring data storage
Support USB Interface
Support LAN Interface
Specifications |
Measurement Range |
Resolution |
Accuracy |
Voltage/Current/Frequency |
|||
Channel |
3-phase line input+1neutral line input |
||
Vrms(dc+ac) |
1~1000Vrms |
0.1Vrms |
±5% |
Vpk |
1~1400Vpk |
0.1Vpk |
±5% |
V(CF) |
1.0~>2.8 |
0.01 |
±5% |
Arms |
1~3000A |
1A |
±1% ± 5digits |
1~300A |
0.1A |
±1% ± 5digits |
|
Apk |
1~4000Apk |
1A |
±1% ± 5digits |
A(CF) |
1~10 |
0.01 |
±5% |
Frequency |
42.5~57.5Hz(50Hz nominal) |
0.01Hz |
±0.01% |
51~69Hz(60Hz nominal) |
0.01Hz |
±0.01% |
|
Dips & Swells |
|||
Vrms1/2 |
0~200% of nominal voltage |
0.1Vrms |
±1% |
Arms1/2 |
1~3000A |
1A |
±1% ±5 counts |
1~300A |
0.1A |
±1% ±5 counts |
|
Threshold levels |
Programmable thresholds in percent of nominal voltage |
||
Event detection based upon ½ cycle rms voltages |
|||
Captures Dips,Swells Interruptions and Rapid Voltage Changes |
|||
Duration |
Hhh, mm, ss, mmm |
0.5cycle |
1cycle |
Harmonic |
|||
Harmonic Order |
1~50 |
|
|
Inter-Harmonic Order |
1~49 |
|
|
Voltage |
0.0~100.0% |
0.10% |
±0.1%±nx0.1% |
Current |
0.0~100.0% |
0.10% |
±0.1%±nx0.1% |
THD |
0.0~100.0% |
0.10% |
±2.5% |
DC Relative |
0.0~100.0% |
0.10% |
±2% |
Frequency |
0~3500Hz |
1Hz |
1Hz |
Phase |
-360°~0° |
1° |
± nx1.5° |
Power And Energy |
|||
Active Power/Apparent Power/Reactive Power |
1.0~20.00MW |
0.1kW |
±1.5±10counts |
Energy |
0.00kWh~200GWh |
10Wh |
±1.5±10counts |
Power Factor |
0~1 |
0.01 |
±0.03 |
Flicker |
|||
Pst(1min),Pst,Plt,PF5 |
0.00~20.00 |
0.01 |
±5% |
Unbalance |
|||
Voltage |
0.0~5.0% |
0.10% |
±0.5% |
Current |
0.0~20.0% |
0.10% |
±1% |
Voltage Phase Angle |
-360°~0° |
1° |
±2digits |
Current Phase Angle |
-360°~0° |
1° |
±5digits |
Voltage Transient |
|||
Vpk |
±6000Vpk |
1V |
±15% |
Vrms |
10~1000Vrms |
1V |
±2.5% |
Min. Tested Time |
50us |
||
Sampling Rate |
20kS/s |
||
Inrush Current |
|||
Arms(AC+DC) |
0~3000Arms |
0.1 |
±1%±5digits |
Inrush Duration |
6s~32 min selectable |
10ms |
±20ms |
Logger |
|||
Recording |
Parameter,duration time and time interval can be set by user,which can be export on PC |
||
Memory |
8G |
||
Max. recording time |
1 year |
||
System Monitor |
|||
Parameters |
Vrms, Arms, Harmonic Volts, THD Volts, Plt, Vrms1/2, Arms1/2, Vneg, Hz, dips and swells, unbalance |
||
Record Time |
2h~7days |
||
Record Event Number |
>10000 |
||
Limits |
According EN50160 or customer definable |
Owon RDS1021i Pen type Oscilloscope

- 25MHz bandwidth - 100MS/s sample rate - 5K record length - FFT function - Human engineering design - Multi- action mode via creative trackball - Multi- trigger option : edge, slope, and pulse - 5mV micro signal supported - USB bus powering, and optional USB isolated function - Easy portability, pocket accommodated
Bandwidth | 25MHz |
Sample Rate | 100MSa/s |
Horizontal Scale (s/div) | 5ns/div - 100s/div, step by 1- 2 - 5 |
Rise Time | ≤14ns |
Record Length | 5K |
Input Coupling | DC, AC , and GND |
Input Impedance | 10MΩ±2% (X 10), 1MΩ±2% (X1) |
Input Capacitance | 20pF±5pF |
Max Input Voltage | 400V ( PK - PK) (DC + AC, PK - PK) |
DC Gain Accuracy | ±3% |
DC Accuracy (average) | average≥16 : ±(3% reading + 0.05 div) for ?V |
Analog Bandwidth | 25MHz |
Probe Attenuation Factor | 1X, 10X |
LF Respond (AC, -3dB) | ≥10Hz |
Interpolation | Sin(x)/x |
Displacement | ±10 divisions |
Interval (?T) Accuracy (full bandwidth) |
Single : ±(1 inter val time + 100ppm × reading + 0.6ns), Average>16 : ±(1 inter val time + 100ppm × reading + 0.4ns) |
Vertical Resolution (A/D) | 8 bits |
Vertical Sensitivity | 5mV/div - 5V/div |
Trigger Type | Edge, Pulse, Slope |
Trigger Mode | Auto, Normal, Single |
rigger Level | ±5 divisions from screen center |
Acquisition Mode | Sample, Peak Detect and Average |
Cursor Measurement | ? V and ?T between cursors |
Automatic Measurement | Vpp, Vavg, Vrms, Freq, Period, Vmax, Vmin, Vtop, Vbase, Vamp, Overshoot, Preshoot, Rise Time, Fall Time, +Width, -Width, +Duty, -Duty |
Waveform Math | FFT |
Communication Interface | USB2.0 |
Dimension (W×H×D) | 150× 20× 18(mm) |
Weight (without package) | 0.27kg |
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