Products

• 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.

The Hi-Techniques FreeStyle series of Data Acquisition Systems is a versatile, capable solution for mobile and rugged data acquisition applications. FreeStyle was designed from the ground up to make data acquisition as fast and as easy as possible. Just grab your FreeStyle and your computer and head out to the test site.

Flexibility by Design

The Hi-Techniques Synergy series of Data Acquisition Systems integrates superior transient and streaming capability with optimized time and frequency domain performance. Add in universal signal conditioning, real-time math and you’ll see why Synergy is the ultimate Data Acquisition System for all of your mechanical, electrical, acoustic, shock and vibration measurements.

• Independent High Resolution Digitizers
• Up to 1 MS/s per Channel Streaming
• Remote Control, Display and Storage
• Mix and Match Input Modules
• Multiple Instrument Synchronization
• Unparalleled Analysis Capability
• Over 100 Built-in Analysis Functions
• Full Custom Analysis Capability

The Hi-Techniques Synergy series of Data Acquisition Systems integrates superior transient and streaming capability with optimized time and frequency domain performance. Add in universal signal conditioning, real-time math and you’ll see why Synergy is the ultimate Data Acquisition System for all of your mechanical, electrical, acoustic, shock and vibration measurements.

• 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.