Products

✔ Multiple Bandwidth Options: 100 MHz, 200 MHz, and 350 MHz
✔ Fast Sampling Rate: Up to 2 GS/s (interleaved) for high-speed signal acquisition
✔ Extended Memory Depth: Up to 28 Mpts per channel for capturing intricate signal variations
✔ Serial Bus Trigger and Decode: Built-in support for I2C, SPI, UART, RS232, CAN, LIN
✔ Waveform Sequence Recorder: Capture and playback up to 80,000 recorded waveforms
✔ Advanced Triggering System: Includes Edge, Slope, Pulse Width, Window, Runt, Interval, and Pattern triggers
✔ Multi-Mode Display: Supports color temperature mapping and intensity grading for signal clarity
✔ MSO Upgrade Option: 16 digital channels available for mixed-signal debugging (on 4-channel models)
✔ Connectivity: USB, LAN, and external trigger output for remote data transfer and PC control

• Bandwidth Options: 100 MHz, 200 MHz, 350 MHz, and 500 MHz.
• Sampling Rate: Up to 2 GS/s (1 GS/s per channel in four-channel mode).
• Memory Depth: Up to 200 Mpts in interleaved mode for extended signal capture.
• High-Speed Capture: Waveform update rates of 120,000 wfm/s in standard mode and up to 500,000 wfm/s in sequence mode.
• Advanced Triggers: Edge, Slope, Pulse Width, Window, Runt, Interval, Dropout, Pattern, and Serial triggering.
• MSO Functionality: Optional 16 digital channels for mixed-signal analysis.
• Waveform Recorder: History Mode allows users to store and replay up to 90,000 waveforms.
• Comprehensive Math Functions: Includes FFT, differentiation, integration, and enhanced resolution modes.
• 256-Level Intensity Grading: Color temperature display for identifying rare signal events.
• Connectivity: USB Host, USB Device, LAN, and External Trigger support for seamless data transfer and remote control.

• High Bandwidth & Sampling Rate: Models available in 200 MHz, 350 MHz, 500 MHz, and 1 GHz with up to 5 GS/s sample rate.
• Deep Memory Capture: Up to 250 Mpts in interleaved mode, allowing detailed waveform analysis.
• Advanced Triggering & Waveform Capture: Zone Triggering, History Mode (100,000 waveforms), and a waveform capture rate of 500,000 wfm/s.
• Math & Measurement Functions: 9 basic math functions (FFT, addition, subtraction, multiplication, division, etc.) and 50+ automatic measurement parameters.
• Bode Plot & Power Analysis: Standard features include Bode Plot for frequency response testing and comprehensive power analysis for applications like power quality assessment, current harmonics, inrush current, and switching loss.
• Mixed Signal Debugging: Optional 16-channel MSO capability for digital signal acquisition.
• Connectivity & Remote Access: USB, LAN, and embedded web server for remote control and data analysis.

• Available in 4.5-digit (60,000 count) and 6.5-digit (2,200,000 count) resolutions.
• Wide measurement range:
  • DC Voltage: Up to 1000V
  • AC Voltage: Up to 750V (True RMS)
  • Current: 10A (AC/DC)
  • Resistance: 100MΩ (2-wire/4-wire)
  • Capacitance: 2nF – 100mF
  • Temperature measurements with TC and RTD sensor support.
• High-speed measurements:
  • T3DMM4-5: 150 readings per second
  • T3DMM6-5: 10,000 readings per second
• Advanced mathematical functions such as Max, Min, Standard Deviation, dBm/dB, Relative Measurement, Pass/Fail Analysis, and Histograms.
• Connectivity: USB Device, USB Host, and LAN for remote operation via SCPI commands.
• Data Storage: 1GB NAND flash memory for saving configuration files and test data.
• Built-in cold junction compensation for accurate temperature measurements.
• File management system supporting U-disc and local storage for convenient data access.
• Comprehensive user interface with a dual-display system for easy navigation.
• Automatic measurement functions, including statistical analysis, gating, and reference functions.

• Customizable & savable test setups
• Program & Datalog Storage
• User Defined Temperature Limits
• Local & Remote Operations
• LabView™ drivers
• IEEE-488, RS232 ports

• 20 Amp Operation: Full performance with 20 amp service
• Automatic Power Reduction: Reduces power usage during idle periods
• Heat Only Mode: Reduces power usage when cold temperatures are not used
• WhisperStream Technology: quieter, smooth-sounding operation, 56 dBA
• Frost Free Test Environment: dry air purge for tester interface, prevents condensation:
  0.5 to 3scfm (0.25 to 1.5 l/s)
• Heated Defrost: quickly removes moisture buildup from internal chiller
• DUT Temperature Control : Proprietary control algorithm enables DUT temperature to be directly controlled
• Transition Rate*
  -55 to +125°C, approx. 10 seconds
  125 to -55°C, approx. 10 seconds
• System Airflow Output*
  4 to 18scfm (1.9 to 8.5 l/s) Continuous
• Temperature Range*
  -80 to +225°C (60Hz) No LN2 or LCO2 Required

• High reliability thermal cycling without thermoelectric modules
• Temperature range: -65 to 175°C
• Cooling power:
  • 40W at -40°C for lower power devices
  • 55W at -55°C and 120W at -40°C.
• Transition rate: up to <35 sec over 25 to -40°C
• Easy and secure thermal connection to in-circuit or test socked DUT
• Touch-screen controller: user-programmable temperatures, graphing, data logging
• Communications options: Ethernet, USB, IEEE, RS232

-60° to +200°C

• Economy model with high thermal capacity
• Precise temperatures with fast transitions from -60 to 200°C
• No annual leak testing required per EU 517/2014 F-Gas Regulation
• Effective testing and conditioning of electronic components, boards, and modules
• Available for 50 and 60Hz operation
• No need for Liquid Nitrogen (LN2) or Liquid Carbon Dioxide (LCO2)
• Remote communications and set up and touch screen operation
• User Defined Temperature Limits

The new G5.RSS series features

• High control dynamics
• An exceptional accuracy
• A nominal output voltage of up to 3000 VDC
• A wide current-voltage range with an auto-ranging factor of 3.
• You get the best value for your investment.

• Frequency Range 10 Hz – 1GHz, 3GHz or 6GHz
• 4000x faster in your pre-certifcation work
• compact design and +12V power supply
• 162.5 MHz full gapless real-time analysis bandwidth
• Weighted Real-time Spectrogram

• requency Range from DC up to 40 GHz
• 685 MHz Real-time analysis bandwidth
• Dynamic range of more than 100 dB
• Multi-GHz real-time scanning up to 40 GHz
• all 6dB RBWs acc. to CISPR, MIL, DO, ANSI, FCC
• fastest super-heterodyn receiver on the planet

• compact and completely modular design
• high effectiveness in all operation modes, few requirements on building infrastructure
• ability to use an existing liquid cooling system directly
• optional matched liquid-to-air cooling unit TC.LAE available
• possibility of upgrading to systems of up to 1 MVA
• high level of system dynamics, ≤ 5 kHz modulation bandwidth
• non-restrictive capability of refeeding in the Q4 operation mode
• possibility of operating as an autonomous 4-Q and 3-phase quasi-analogue amplifier
• possibility of “Hardware-in-the loop”-operation (HIL mode)
• user friendly application software with pre-configured test patterns
• possibility of integrating into a complete SAS simulation and test system
• galvanic isolation available as an option without derating the simulator port data

Bidirectional (source & sink), Regenerative 0…65VDC to 0…1500VDC, 20kW up to 1.5 MW 

• cell system nominal voltage and type of chemistry
• number of cells
• internal resistance and associated parameters
• cell temperature progression
• allowed current
• charge efficiency
• energy computing and management facilities
• time-dependent and functional dependent parameters

• Setting of operational parameters for each output phase: (frequency, phase, voltage, basic waveform)
• Defining functional blocks enabling a wide variety of modulation capabilities
• Defining, editing and storing of even complex and long test sequences
• Preview window for output voltage waveforms
• LC load mode, definition of complex equivalent circuits
• Hand drawing curve tool and FOURIER tool (harmonics synthesis)
• TC.ACS provides an extensive safety concept in order to detect unwanted or off-limit conditions very quickly and to initiate controlled limiting or even a shutdown.

• compact and completely modular design
• high effectiveness in all operation modes, few requirements on building infrastructure
• ability to use an existing liquid cooling system directly
• optional matched liquid-to-air cooling unit TC.LAE available
• possibility of upgrading to systems of up to 1 MVA
• high level of system dynamics, ≤ 5 kHz modulation bandwidth
• non-restrictive capability of refeeding in the Q4 operation mode
• possibility of operating as an autonomous 4-Q and 3-phase quasi-analogue amplifier
• possibility of “Hardware-in-the loop”-operation (HIL mode)
• user friendly application software with pre-configured test patterns
• possibility of integrating into a complete SAS simulation and test system
• galvanic isolation available as an option without derating the simulator port data

Photovoltaic applications, the quality and technical data of the AC-DC converter is of primary interest. Solar installations are intended for a lifetime of roughly 20 years, therefore even fractions of a percent in efficiency will represent significant amounts of energy losses.