Products

The FAST-PS-M Power Supply is a high performance monopolar digital power supply designed for applications that require stable current and voltage control. With output power up to 900 W, this advanced power system integrates a digital control loop, embedded web server and built in waveform and monitoring tools. Its high precision sensing technology and fast communication interfaces make the FAST-PS-M Power Supply an ideal solution for research laboratories, industrial test systems and precision electronics applications.

Key Features

• High performance monopolar digital power supply with output power up to 900 W
• Precise current and voltage control with digital regulation
• Built in Arbitrary Waveform Generator operating at 100 ksps
• Integrated four channel oscilloscope with high precision monitoring
• Embedded web server interface for configuration and control
• High speed Ethernet connectivity with 10/100/1000 Mbit support
• Dual SFP communication slots for fast feedback and system integration
• Low noise output and high bandwidth performance
• High precision sensing using 0 FLUCS current transducer technology
• Local colour display and interface for monitoring and configuration
• Internal protections including over voltage and over current protection
• Optional analog control input for amplifier compatibility

The FMC-4SFP+ Adapter is a high performance FPGA Mezzanine Card designed to provide fast SFP and SFP+ communication through a High Pin Count FMC interface. Built according to the VITA 57.1 FMC standard, the adapter enables dual or quad channel optical communication for advanced FPGA based systems. With flexible voltage compatibility, integrated clock generation, and support for multiple SFP modules, the FMC-4SFP+ Adapter delivers reliable high speed connectivity for data acquisition, networking, and signal processing applications.

Key Features

• High Pin Count FMC adapter based on the VITA 57.1 standard
• Supports dual or quad channel SFP and SFP+ communication
• Up to four SFP or SFP+ module slots
• Designed for high speed optical communication with FPGA carriers
• Compatible with a wide range of FMC carrier boards
• Flexible operating voltage from 1.5 V to 3.3 V through VADJ
• Integrated LVDS clock oscillator with adjustable frequency
• Clock frequency range from 10 MHz to 280 MHz
• DIP switch and I2C interface for oscillator configuration
• Automatic module configuration for stand alone operation
• Component placement compatible with various carrier layouts
• Designed to fit carriers without front panel modifications

The FMC-MOTDRV22 Motor Driver is a cost efficient dual channel stepper motor control board designed for systems that require reliable motion control within an FPGA based environment. Built according to the ANSI VITA 57.1 FMC standard, this mezzanine card enables precise control of bipolar stepper motors while providing integrated diagnostics and protection features. With programmable chopper modes, motor load detection, and flexible voltage options, the FMC-MOTDRV22 Motor Driver offers a dependable solution for automation, instrumentation, and scientific motion control systems.

Key Features

• Dual channel stepper motor driver design
• Compatible with ANSI VITA 57.1 FMC standard carrier boards
• Supports bipolar stepper motors for precision motion control
• Maximum output up to 12 V or 24 V at 1.8 A per coil depending on model
• Programmable chopper slope with three operating modes
• Integrated motor load detection without external sensors
• Load dependent current control for efficient motor operation
• Diagnostic monitoring and system protection features
• Protection against overcurrent, short to ground, undervoltage and overheating
• Encoder interface support for motor position monitoring
• Flexible configuration with internal or external power supply options
• Dedicated cabling solutions available for easy installation

The FMC-PICO-1M4 Ammeter is a high precision four channel current measurement board designed for accurate monitoring of very low bipolar currents in advanced electronic systems. Built as a Low Pin Count FPGA Mezzanine Card compliant with the VITA 57.1 FMC standard, this module combines high resolution data acquisition with low latency performance. With 20 bit resolution and sampling speeds up to 1 MSPS, the FMC-PICO-1M4 Ammeter provides reliable current monitoring for scientific instrumentation, accelerator systems, and precision measurement environments.

Key Features

• Four channel high precision floating ammeter design
• 20 bit resolution analog to digital conversion
• Sampling rate up to 1 MSPS for fast data acquisition
• Independent and simultaneous sampling for each channel
• Multiple measurement ranges depending on board version
• Bipolar current measurement capability
• Floating input channels up to ±300 V relative to FMC ground
• Low noise analog front end for precise measurements
• Minimal temperature dependence for stable performance
• Optional factory calibration with EEPROM stored calibration data
• External trigger support for synchronized acquisition
• Separate SPI communication links for each channel
• Compatible with VITA 57.1 FMC Low Pin Count carrier boards

The FPP2.3-M Manual Field Probe Positioner is a precise manual height adjustment system for electromagnetic field probes, designed for uniform field calibration in EMC testing environments.

Key Features:

• Manual height adjustment: 0.2 – 2.3 m
• Maximum load capacity: 3 kg
• Total height: 2.5 m
• Fabricated from PVC and reinforced fiberglass, fully non-metallic
• Base dimensions: 0.5 m × 0.5 m with movable wheels
• Lightweight and portable: approx. 10 kg
• Compliant with EN61000-4-3 and IEC61000-4-3 standards
• Ideal for uniform field calibration and precise field probe positioning

The FPP2.3/1.5 M Field Probe Positioner is a high-precision, remote-controlled axial system designed for fast and automated electromagnetic field measurements.

Key Features:

• Remote-controlled horizontal movement for single-axis operation
• Moves 4 probes to 4 positions for rapid 16-point calibration
• Automates uniform field calibration (UFA) per EN61000-4-3 / IEC61000-4-3
• Load capacity: 3 kg
• Adjustable positioning speed (1–35 cm/s)
• High accuracy: ±0.5 cm
• Durable construction: plastic & reinforced fiberglass, minimal metal parts
• LAN (TCP/IP) interface for full remote operation
• Compatible with FCU 3.0 or NCD Controller

A turnkey solution for harmonics and flicker compliance, this system delivers powerful, efficient, and automated testing for today’s high-power demands.

Key Features:

• Fully compliant with IEC/EN 61000-3-2, -3-3, -3-11, and -3-12
• High-power testing up to 75 A and 50 kVA
• Regenerative AC power supply with energy recovery
• Programmable simulation: voltage, frequency, harmonics, interharmonics
• Precision impedance network for accurate flicker measurements
• Advanced power analyzer with harmonic and flicker metering
• Preloaded test sequences with automated software control
• Expandable to include dips, swells, and short interruptions

BOLAB ISO 21498 HV Test System & Ripple Generator sets the benchmark for advanced high-voltage ripple testing, ensuring full compliance with ISO 21498, LV123, VW 80300, and other major automotive standards. Its modular design, integrated amplifier system, and WaveMaster software deliver unmatched precision, flexibility, and control.

Key Features:

• High-voltage ripple testing compliant with ISO 21498, LV123, VW 80300, and more
• Ripple voltage up to 100 Vpp and current from 100A to 2000A+
• Frequency range: 10 Hz to 300+ kHz for wide testing capability
• Series amplifier integration for precise, distortion-free ripple injection
• WaveMaster software enables automated test sequences and dynamic control
• Modular, future-proof design adaptable to evolving EV standards

The HV-PANDA HV Board is a high voltage Advanced Mezzanine Card designed for MTCA.4 systems that require reliable and precise high voltage delivery. This double width AMC board integrates four independent high voltage channels capable of delivering up to 6 kV output. Built using proven high voltage technology, the HV-PANDA HV Board ensures stable operation and secure power control for detector and instrumentation applications. With integrated safety interlocks, flexible channel configurations, and dedicated monitoring software, the board offers a dependable solution for advanced scientific and industrial systems.

Key Features

• Double width AMC board designed for MTCA.4 systems
• Four independent high voltage channels
• Maximum output up to 6 kV per channel depending on configuration
• Multiple channel rating options including 6 kV, 4 kV, and 500 V
• Maximum power up to 6 W per channel
• Positive or negative polarity configuration available
• Front panel interlocks for individual channel safety control
• Additional 12 V power input for high voltage operation
• RTM interface for MTCA backplane connectivity
• Reliable high voltage technology for detector applications
• Graphical user interface for simple system control
• Dedicated drivers for configuration and monitoring

The MAS 1.0/1.5 – 35kg Manual Antenna Stand is a robust and versatile stand for precise antenna positioning in EMC testing environments.

Key Features:

• Adjustable height from 1.0 m to 1.5 m using hydraulic cylinder
• Manual polarization change from 0° to 90°
• Supports antennas up to 35 kg
• Manual tilt adjustment up to 30°
• Rotating antenna bar to eliminate elevation errors
• Stable base: 0.9 m x 1.57 m
• Suitable for EMC chambers, labs, and industrial setups

The MGA 1033 Magnetic Immunity Generator and Analyzer is a compact and versatile system designed for generating and measuring magnetic fields according to international EMC standards. With its integrated high-power amplifier and flexible configuration, it ensures precise and legally compliant testing for industries including automotive, avionics, military, and medical electronics.

Key Features:

• Frequency range: DC to 250 kHz
• Field strengths up to 1000 A/m (with Helmholtz coils)
• Integrated 800 W high-power amplifier
• Supports ISO 11452-8, EN 55103, DO-160, MIL-STD-461 and more
• Three independent modules: signal generator, power amplifier, spectrum analyzer
• Self-calibration and calibration modes with Helmholtz coils
• Fully automatic testing with optional triaxial coil
• Wide range of compatible accessories

MOL2000T Fiber Optic Link 80 Hz – 3.5 GHz with Gain and Sleep Feature delivers secure, high-performance analog signal transmission in demanding RF and EMC applications.

Key Features:

• Wide bandwidth: 80 Hz to 3.5 GHz
• Remote-controlled gain: -62.5 dB to +24 dB (0.5 dB steps)
• Automatic optical level control for stable performance
• High immunity to electric fields (up to 500 kV/m, MIL-STD 461 RS105)
• Built-in test pulse generator for link verification
• Long-distance transmission up to 1 km
• Compact & lightweight: 380 g per unit
• Battery-powered with 40-hour autonomy and sleep mode
• Flexible control with FibREmote software (PC & Android)
• Rugged RF and optical connectors for durability

Key Features:

• Wide bandwidth: DC to 25 MHz for accurate signal transmission
• Dual-channel design with two independent inputs
• High EMI immunity up to 500 kV/m (MIL-STD 461 RS105)
• Remote-selectable attenuation: 1:1, 10:1, 100:1
• Galvanic isolation for safe operation in high-voltage environments
• Long-distance optical transmission up to 1 km
• Battery-powered with 20+ hour autonomy and sleep mode
• Remote configuration via FibREmote software for PC & Android

The MOL3000 Analog Optical Link is a high-performance transmission system designed for EMC and RF applications. It ensures reliable, interference-free signal transfer even in harsh electromagnetic environments, making it an essential tool for industries including defense, aerospace, power, and research.

Key Features:

• Wide frequency bandwidth: 80 Hz to 3.5 GHz
• Automatic optical level control for stable performance
• High immunity to external electric fields (>500 kV/m)
• Lightweight and compact: 99 x 64 x 41 mm, 350 g per unit
• Flexible power options with 40-hour battery autonomy
• Long-distance transmission up to 1 km
• Rugged RF (SMA) and optical (FC/APC) connectors
• Supplied with transmitter, receiver, chargers, and carrying case

The NGPS Power Supply is a high stability digital power supply series designed for demanding industrial and scientific applications. Delivering up to 10 kW of output power and scalable up to 40 kW through parallel operation, this advanced system provides precise current and voltage control with exceptional temperature stability. Equipped with Gigabit Ethernet connectivity, an embedded web server, waveform generation capability and a built in oscilloscope, the NGPS Power Supply offers a powerful and flexible solution for laboratories, research facilities and high performance power systems.

Key Features

• High stability digital power supply with output power up to 10 kW
• Parallel operation capability allowing up to 40 kW system power
• Precise current and voltage control using advanced digital architecture
• Temperature stabilized internal section for extremely low drift
• High speed 10/100/1000 Mbit Ethernet communication
• Ultra fast SFP interface supporting update rates up to 100 kHz
• Embedded Linux operating system with web based configuration interface
• Built in Arbitrary Waveform Generation for custom signal control
• Integrated four channel oscilloscope for real time monitoring
• Remote sensing terminals for accurate voltage control at the load
• Optional analog control input for compatibility with legacy systems
• Low noise and high efficiency performance for demanding applications

Opto Fiber-Optic Automotive Link Overview

Key Features:

• Designed for reliable automotive communication and EMC testing
• Wide range of supported protocols: CAN, LIN, FlexRay, SPI, SENT, A2B, PSI5, K-Line, and more
• Automotive Ethernet options with Marvell, Broadcom, and NXP chipsets
• High-speed data transfer (up to 20 MS/s for SENT, 10 Mbit/s for FlexRay, 1 Gbit/s for Ethernet)
• Flexible integration: standalone shielded cases or 19” rack-mounted receivers
• Ideal for use in anechoic chambers and EMC-compliant environments
• Partnered with MK-Messtechnik GmbH for proven quality and performance