Products

AETechron 7796 Amplifier – High-Current, Low-Impedance Industrial Power
Ideal for precision testing, EMC simulations, and MRI systems.

Key Features:

• Delivers over 200 Ap peak current, up to ±180V
• DC to 100 kHz bandwidth for versatile signal reproduction
• Four-quadrant operation (source/sink modes)
• Operates in both voltage and current-controlled modes
• Handles in-rush currents up to 200A
• Field-configurable rail supply modes for load optimization
• Advanced protection against voltage, current, and thermal faults
• Stackable for higher voltage or current (up to 800 Ap)

The AH401D Picoammeter is a compact and high precision 4 channel charge integration electrometer designed for accurate low current measurements. Built with an advanced charge integration input stage and a 20 bit delta sigma ADC, the instrument ensures reliable sensing of extremely small currents with minimal noise. Its simultaneous multi channel sampling, Ethernet connectivity, and trigger input make it a powerful solution for beam monitoring, detector measurements, and scientific instrumentation. The AH401D is engineered for stable performance, high linearity, and precise signal acquisition in demanding laboratory environments.

Key Features

• 4 channel simultaneous sampling picoammeter
• Advanced charge integration input stage for precise current sensing
• 20 bit delta sigma ADC with digital noise reduction filter
• Eight selectable input current ranges
• Measurement ranges from 50 pA up to 2 µA
• Ultra high resolution down to 50 aA
• User selectable integration time from 1 ms to 1 s
• Continuous current to voltage conversion without dead time
• Ethernet interface with TCP/IP and UDP communication
• External trigger input for synchronized measurements
• Compact low noise design for close placement to signal sources
• Plug and play oscilloscope software for configuration and analysis

The AH501D Picoammeter is a high performance 4 channel bipolar electrometer designed for precise low current measurements in advanced research and detector monitoring systems. Built with a transimpedance input stage and high resolution 24 bit conversion, the instrument delivers accurate simultaneous current measurements across multiple channels. With an integrated bias voltage source, analog monitoring outputs, and Ethernet connectivity, the AH501D provides a complete solution for beam position monitoring, detector analysis, and scientific instrumentation.

Key Features

• 4 channel simultaneous sampling bipolar picoammeter
• 24 bit high resolution current measurement
• Three selectable input current ranges
• Bipolar current measurement capability
• Measurement range from ±2.5 nA up to ±2.5 mA
• Ultra high resolution down to 300 aA
• Fast sampling with minimum period of 38.4 microseconds
• Integrated low noise bias voltage source up to 30 V
• Analog monitor outputs for real time signal observation
• Ethernet interface with TCP/IP and UDP communication
• External trigger and gate input for synchronized acquisition
• Compact design to reduce cable noise interference
• Plug and play oscilloscope software for configuration and analysis

The AMC-PICO-8 Picoammeter is a high performance 8 channel bipolar electrometer designed for precision current measurements in advanced instrumentation environments. Built in the MTCA.4 format, the device combines a specialized transimpedance input stage with 20 bit simultaneous sampling ADCs to deliver fast and accurate current sensing. With sampling speeds up to 1 MSPS and floating input capability up to ±300 V, the system supports demanding detector readout and scientific measurement applications. Its FPGA based signal processing and PCI Express communication ensure reliable data acquisition and efficient system integration.

Key Features

• 8 channel simultaneous bipolar current measurement
• High resolution 20 bit analog to digital conversion
• Sampling rate up to 1 MSPS for fast data acquisition
• MTCA.4 Advanced Mezzanine Card architecture
• Floating input capability up to ±300 V relative to chassis ground
• Transimpedance input stage with advanced signal conditioning
• Multiple selectable measurement ranges depending on configuration
• Integrated FPGA for high speed signal processing
• Digital channel calibration with onboard EEPROM storage
• Trigger based acquisition with pre trigger memory capture
• PCI Express communication interface for system control
• Scatter gather DMA support for high speed data transfer

The BatReg² Battery Cycler is a high-precision bidirectional and regenerative battery testing system designed for advanced battery research, cycling, and charging applications. Built with state-of-the-art digital control and regenerative technology, it enables accurate testing while efficiently returning excess energy to the grid. With output ratings up to 100 V and ±150 A, this system delivers reliable performance for laboratories, research centers, and battery development facilities.

Key Features

• High-precision bidirectional and regenerative battery cycler
• Output capability up to 100 V and ±150 A
• Multiple regulation modes including Constant Voltage, Constant Current, and Constant Power
• 24-bit resolution at 100 kHz for precise output setting and readback
• Built-in polarity detection for safe battery connection
• Embedded web server interface for monitoring and configuration
• Integrated 24-bit Arbitrary Waveform Generator running at 100 kHz
• 4-channel precision oscilloscope for advanced signal monitoring
• High efficiency regenerative design that returns energy to the grid
• Low output noise and ripple due to high switching frequency architecture
• Ethernet connectivity supporting TCP/IP and UDP communication
• Optional trigger, analog control, auxiliary ADC, and K-type thermocouple inputs

Key Features:

• Wide frequency range: 9 kHz – 8 GHz
• High gain: 29 dB up to 6 GHz, 27 dB from 6 – 8 GHz
• Low noise figure: < 2.7 dB @ 1 GHz
• Compact aluminum housing (85 × 36 × 29 mm, 130 g)
• ESD-protected input for safe operation
• Operates on simple +12 V DC power supply
• Rugged and lightweight design for field and lab use

The BEST Beam Stabilization System is a complete turnkey solution designed to control and stabilize photon beam position and intensity in synchrotron radiation X ray beamlines. Developed to support high precision beamline experiments, the system integrates advanced hardware with powerful software tools to deliver reliable beam monitoring and correction. With a distributed architecture and FPGA driven control algorithms, the BEST system allows researchers to optimize beam stability, improve experimental accuracy, and maintain consistent beam performance in demanding scientific environments.

Key Features

• Complete turnkey system for photon beam position and intensity stabilization
• Designed for synchrotron radiation X ray beamline applications
• Simultaneous control of beam position X and Y and beam intensity I0
• Distributed architecture for flexible installation near beamline components
• High speed FPGA based hardware for low latency correction performance
• Advanced control algorithms operating across several kHz frequency range
• Integrated readout unit based on high precision picoammeter technology
• Dedicated control and interface unit for system configuration and monitoring
• Gigabit Ethernet connectivity for network integration
• High throughput communication interface for real time system control
• Compatible with EPICS based beamline control systems
• Software tools for detector configuration and beamline optimization

A modular, scalable, and intelligent matrix switching system designed for precision in multi-channel test applications.

Key Features:

• Modular design with up to 4 plugin switch cards
• 6×32 channel matrix, up to 2A per channel
• Remote control via TCP/IP interface
• Integrated diagnostics & safety monitoring
• Compatible with LabView, Python, C++, CANoe, and more
• Auto-cooling with smart fan activation
• Rack-mountable 4HU chassis with high build quality
• Expandable switching lines with CU-600 matrix
• Unlimited waveform size with dual waveform output
• Protocol generation and oscilloscope waveform simulation

The complete turnkey solution for testing high-voltage transient emissions and immunity under ISO 7637-4 standards.

Key Features:

• Full ISO 7637-4 compliance
• Pulse A: Switching noise simulation (100 kHz–10 MHz)
• Pulse B: Low-frequency sinusoidal testing (3 kHz–300 kHz)
• 75W high-power RF amplifier for clean signal output
• Configurable burst generation (1–1000 cycles)
• Galvanically isolated digital I/O and EUT interlock
• Scalable and modular hardware for custom test setups
• Integrated overvoltage and transient protection
• WaveMaster software with graphical waveform creation
• Compatible with LabView, Python, C++, and more

The CAR AWG 6000 is a high-performance, 4-quadrant battery simulator designed for EMC testing on vehicle supply lines. This powerful unit delivers precise voltage variations up to ±70V and 200A, compliant with international automotive standards.

Key Features:

• 4-quadrant voltage/current amplifier
• Battery simulation up to ±70V and 200A
• Compliant with ISO 7637-2, LV 124, LV 148, and more
• Arbitrary waveform generation at 20MSa/s, 16kSa
• Bandwidth up to 1 MHz for small signals
• Simulates pulse 2b, pulse 4, crank profiles, and AC ripple
• Selectable output impedance: 0–200 mΩ
• Overvoltage and overcurrent protection
• Integrated impulse recording function (IRF)
• Remote control via CAR-Remote software and Ethernet

A powerful battery simulator designed for high-voltage automotive testing up to 1500V. Compact, efficient, and ISO 7637-4:2020 compliant.

Key Features:

• Output voltage up to 1500V DC
• Supports 30A at 500V, 10A at 1500V
• Constant power delivery of 15kW
• Slew rate up to 100V/µs for rapid rise time
• Remote PC control via CAR-Remote software
• Parallel stacking up to 10 units (100A total)
• Compliant with ISO 7637-2, ISO 7637-4, FMC1280
• Compact desktop design with built-in Ethernet
• Robust overvoltage and overcurrent protection

CDG 7000 Conducted Immunity Test System, 10 kHz – 400 MHz

Key Features:

• All-in-one IEC/EN 61000-4-6 immunity test system with RF signal generator, power amplifier, 3-channel RF voltmeter, and directional coupler.
• Frequency range from 10 kHz to 400 MHz with multiple amplifier versions (25 W, 75 W, 75 W/10k).
• Supports BCI tests (ISO 11452-4) and NAMUR standards.
• Advanced software HELIA 7 with EUT monitoring and automated reporting.
• Interfaces: USB, LAN, optional GPIB for flexible integration.
• Expandable with external amplifiers and configurable digital I/O.
• Compact, robust 19″ desktop housing with 3-year warranty.

The CIS-25 Test Kit by AE Techron is an all-in-one solution for aviation conducted and induced susceptibility testing. Designed to meet rigorous standards like DO-160 Sections 16, 18, and 19, this kit includes everything needed to perform accurate, repeatable EMC tests with minimal setup.

Key Features:

• Meets Multiple Standards: DO-160 Sections 16 (up to 24VDC), 18, 19, MIL STD 461, Airbus ABD0100.1.8
• Complete Test Kit: Includes DSR 100-25 power system, three coupling transformers, and chattering relay
• 4x Power Surge Capability: Ideal for in-rush testing (up to 200 ms)
• Built-In Standards Library: 3110A library for additional EMC tests
• Expert Guidance Included: Two hours of consulting from EMC specialist Patrick G. Andre
• Secure & Durable: Comes with a lockable storage cabinet and all necessary accessories

The CT PCB Current Transducers series offers compact and highly precise PCB mount current measurement solutions for DC and AC applications. Built with advanced 0-FLUCS closed loop fluxgate technology, these transducers provide exceptional accuracy, low noise, and excellent linearity. Available in current output and voltage output versions, the CT PCB Current Transducers support current ranges of ±13 A, ±26 A, and ±52 A, making them ideal for precision electronics, power supplies, and industrial testing systems.

Key Features

• High precision DC and AC current measurement
• Available current ranges of ±13 A, ±26 A, and ±52 A
• Advanced 0-FLUCS closed loop fluxgate technology
• PCB mount design for compact electronic systems
• Excellent linearity with extremely low noise
• Negligible temperature coefficient for stable measurements
• Galvanic isolation between primary and secondary circuits
• Current output and buffered voltage output versions available
• Metal casing for improved noise immunity and reduced interference
• Suitable replacement for Hall effect current sensors
• Designed for high precision power electronics applications

The CT-100 Current Transducer is a high precision DC current transformer designed for accurate monitoring of DC and AC currents up to ±100 A. Built with advanced 0-FLUCS closed loop fluxgate technology, the device delivers excellent linearity, extremely low noise, and minimal temperature drift. The CT-100 Current Transducer is available in both current output and voltage output versions and supports multiple connection options for flexible integration into power electronics, testing systems, and industrial measurement applications.

Key Features

• High precision DC and AC current measurement up to ±100 A
• Advanced 0-FLUCS closed loop fluxgate sensing technology
• Excellent linearity with extremely low noise performance
• Negligible temperature coefficient for stable measurements
• Transformation ratio of 1:1000 for accurate signal conversion
• Current output or buffered voltage output versions available
• Galvanic isolation between primary and secondary circuits
• Connection options with DB-9 connector or PCB through hole interface
• LED indicator for operational status monitoring
• Ideal replacement for Hall effect current sensors
• Compatible with PS1215 low noise power supply for optimal performance

The CT-1000 Current Transducer is a high precision DC current transformer designed for accurate monitoring of DC and AC currents up to ±1000 A. Built on advanced 0-FLUCS closed loop technology, this device delivers excellent linearity, extremely low noise, and negligible temperature drift. Available in both current output and voltage output versions, the CT-1000 Current Transducer provides reliable performance for laboratories, industrial testing, power electronics systems, and calibration applications.

Key Features

• High precision current measurement up to ±1000 A full scale
• Advanced 0-FLUCS closed loop current sensing technology
• High bandwidth performance for DC and AC current monitoring
• Exceptional linearity with extremely low noise output
• Negligible temperature coefficient for stable long term measurements
• Galvanic isolation between primary and secondary circuits
• Transform ratio of 1:2000 for accurate signal conversion
• Available in current output or buffered voltage output versions
• Integrated LED indicator for device status
• Suitable replacement for Hall effect current sensors where higher accuracy is required
• Ideal for precision testing, calibration systems, and industrial power monitoring