Products

High-Precision Current Sensing with BNC Connectivity

• High-Precision Measurement: ±1% accuracy for reliable current sensing.
• Customizable Configurations: Designed to meet specific user requirements for precision measurement.
• BNC Connector for Easy Integration: Works with oscilloscopes, ADCs, spectrum analyzers, and power analyzers.
• Non-Insulated Conductive Case: Proper insulation must be provided on the monitored conductor.
• 50 Ohm Termination Compatibility: Using a 50Ω termination reduces the output to half.

High-Precision Voltage Measurement Up to 500kV

• High-Voltage Measurement Capability: Supports up to 500kV in insulating oil and customizable calibration for air use.
• Precision Division Ratios: Models with 5000:1, 10,000:1, and custom ratios, ensuring reliable voltage scaling.
• Temperature-Compensated Accuracy: ±1% over 20°C to 80°C, providing stable voltage readings.
• Robust Design for Harsh Environments: Sealed for high-voltage insulating oil use, with custom air calibration available.
• Safe Operation with Ground Loop Control: The outer conductor is isolated from the case, allowing controlled grounding connections.

Precision Pulse Output Up to 500kV

• Wide Voltage Range: Supports 100kV to 500kV pulse outputs for high-energy applications.
• Fast Pulse Transmission: Pulse durations from 0.25 to 50 microseconds, ensuring efficient energy transfer.
• Insulating Oil Immersion: Open-construction design for operation in high-voltage insulating oil, reducing breakdown risks.
• Advanced Overvoltage Protection: Designed with built-in safety factors (50-100%) to prevent damage from overvoltages.
• Reliable Flashover Protection: Corona ring-to-core insulation prevents damage from accidental flashovers.

The EMI 64k software allows to embed the TDEMI systems in a fully automated test environment.

• Full automation of EMI testing according to all commercial and military standards
• Automated control of turntable, antenna and other equipment
• Height and Angular Scan
• Procedures according to standards as well as customized procedures
• Reducing the cost for EMC and communication testing and certification by tailored packages

• HD4096 technology provides 12-bit resolution up to 8 GHz and 20 GS/s
• Up to 5 Gpts of acquisition memory enables detailed viewing of long events
• 15.6” 1900 x 1080 Full HD capacitive touchscreen
• ProBus2 input supports up to 8 GHz bandwidth while maintaining support for legacy ProBus probes
• MAUI with OneTouch user interface for intuitive and efficient operation
• Waveform Control Knobs – Control channel, zoom, math and memory traces with the multiplexed vertical and horizontal knobs
• Color-coded panel indicators – Trigger, horizontal and vertical indicator colors correspond to the associated waveform on the display
• Cursor/Adjust Knobs – Enable and position cursors or adjust settings and parameters without opening a menu
• Mixed Signal Capability – Debug complex embedded designs with integrated 16-channel mixed signal capability
• Easy connectivity with seven USB 3.1 ports (3 front, 4 side) and UHD (4k) HDMI and DisplayPort outputs

• Eye diagram (a), eye mask failure (b) and IsoBER eye opening analysis (c)
• Jitter spectrum (a) with noise floor display (b) and inverse FFT of the periodic jitter (c)
• Data dependent jitter (DDj) plot for each bit in synch with pattern (a) and with histogram (b)
• Time interval error (TIE) jitter track analysis
• Jitter histograms (a) with bathtub curves (b) and CDF plot (c)
• Intersymbol interference (ISI) plots pinpoint bit sequences that have high ISI and are sources of bit errors
• Jitter measurements table with full details for one or more “lanes” plus reference

• S-parameters DC to 40 GHz, single-ended and mixed-mode
• Impedance Profile with <1 mm resolution, differential and common-mode
• Internal, automatic OSLT calibration
• USB-connected, small, lightweight
• Flexible display of the measurements
• Remove effects from fixtures, connectors and cables
• Emulate eye diagrams with CTLE, DFE and FFE equalization
• Advanced jitter analysis

• 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

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.

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