Products

Precision, performance, and scalability packed into a high-efficiency DC power solution. Ideal for demanding test environments and energy recovery.

Key Features:

• Output voltage: 0–240 V DC
• Scalable from 27 kW to 2000+ kW
• Modular build: up to 44 connected units
• Full sink/source operation with regeneration
• Ultra-fast switching: rise/fall time <250 µs
• Accuracy: <0.02% FS with high-res current range
• Auto-ranging capability (factor of 3)
• Control modes: CV, CC, CP, CR, Ri-Sim
• Seamless waveform generation via AnyWave + WaveMaster
• Optional HMI touchscreen and CAN interface

Precision meets performance in this regenerative, modular, and highly controllable DC power supply for high-voltage testing applications.

Key Features:

• Output voltage: 0 to 3000 V DC
• Power range: 54 to 2000+ kW
• Fast response: <250 µs rise/fall times
• Regenerative sink/source operation
• High current accuracy: <0.02% FS
• Auto-ranging voltage-current flexibility (factor 3)
• Full digital modes: CV, CC, CP, CR, Ri-Sim
• Modular design with up to 44 units
• Optional HMI touchscreen and CAN interface
• Waveform generation via AnyWave + WaveMaster

High-speed, modular AC power supply with precision control and full regeneration. Perfect for grid simulation, HIL testing, and EMC validation.

Key Features:

• Power scalable from 30 kVA to 1050+ kVA
• Voltage range: 0–305 V AC with 4 active outputs
• True 4-quadrant regenerative design for energy efficiency
• Ultra-fast switching time (≤200 µs response)
• High current accuracy <0.02% full scale
• Full digital control modes: CV, CC, CP, CR, Ri-Sim
• Programmable grid simulator, AC amplifier, or electronic RLC load
• Compatible with AnyWave & WaveMaster for custom waveform control
• Modular 19” rack-mounted units with low heat and noise output
• Ideal for automotive, aerospace, HIL, EMC, and renewable power testing

A precision-driven, regenerative DC power supply ideal for high-demand testing environments across industries.

Key Features:

• Voltage range: 0 to 320 V DC
• Power output: 36 to 2000+ kW
• Modular and scalable up to 44 units
• Regenerative sink and source operation
• Voltage rise/fall time <250 µs
• Accuracy <0.02% FS with high-res current range
• Auto-ranging factor of 3
• Full digital control: CV, CC, CP, CR, Ri-Sim
• Supports AnyWave + WaveMaster waveform control
• Optional touchscreen HMI and CAN interface

Key Features:

• Dual-channel arbitrary waveform generation with 2.8 MS/s sampling rate and 16-bit resolution.
• Integrated with BOLAB WaveMaster software for graphical and tabular waveform design.
• Endless waveform streaming with double buffer memory for uninterrupted operation.
• Real-time triggering, data acquisition, and live waveform editing.
• Supports importing oscilloscope data, ASCII, and TDMS files.
• Preloaded waveform libraries for LV 124, LV 148, ISO 7637-2, ISO 16750-2, GMW, JLR, VW standards.
• Seamless integration with LabView, Python, CANoe, MATLAB, C/C++ via DLLs.
• Compact and robust design for laboratory and industrial testing applications.

High-efficiency regenerative DC power supply with scalable architecture and ultra-fast switching. Ideal for demanding test environments.

Key Features:

• Voltage range: 0–80 V DC
• Power scalable from 9 kW to 2000+ kW
• Modular: Up to 44 units (parallel, series, combined)
• Full sink/source mode with energy recovery
• Voltage rise/fall time <250 µs
• Current accuracy <0.02% FS
• Auto-ranging with a factor of 3
• Digital control: CV, CC, CP, CR, Ri-Sim
• User-friendly software and HMI options
• AnyWave + WaveMaster for waveform control
• CAN, API, and high-speed bus support

The BAT EMC software suite by NEXIO is an advanced electromagnetic compatibility testing platform designed to automate, control, and streamline EMC testing workflows. Built for laboratories, automotive engineers, and compliance specialists, it enables accurate emission and immunity testing with powerful configuration and reporting tools.

Key Features

• Automated EMC emission and immunity testing workflows
• Supports conducted and radiated emission and immunity tests
• Configurable test parameters including RBW, detectors, scan time, and limits
• Automotive-focused testing aligned with CISPR25 standards
• BAT-ELEC module for transient, burst, and surge testing automation
• Real time monitoring tools including voltmeters, analyzers, and cameras
• Centralized project management for EMC test data and resources
• Multi brand compatibility for test generators and measurement equipment
• Automatic compliance report generation for regulatory requirements
• Designed for aerospace, automotive, healthcare, and industrial labs

The BAT metrology software suite by NEXIO is a precision-driven measurement solution designed to support EMC laboratories and engineering teams in analyzing, calibrating, and validating electrical and RF test systems. It enhances accuracy, ensures compliance, and simplifies complex measurement workflows across multiple testing environments.

Key Features

• Comprehensive metrology platform for EMC and RF measurement systems
• Supports VNA based testing for RSIL, RCD, and cable validation
• Oscilloscope based analysis for ESD guns and signal generators
• Amplifier calibration to maintain consistent performance standards
• BAT-NSA and SVSWR testing for anechoic chamber and OATS environments
• Ensures accurate signal measurement and system validation
• Improves compliance, reliability, and measurement consistency
• Suitable for EMC laboratories, research centers, and industrial testing
• Reduces calibration errors and improves test repeatability
• Supports modern metrology workflows for complex RF systems

The BAT-SCAN near field system is an advanced robotic EMC measurement solution designed to analyze and visualize electromagnetic behavior in electronic components and circuits. Developed by NEXIO, it enables precise near-field scanning to identify EMC issues early in the design stage, improving product reliability and reducing development costs.

Key Features

• Robotic near-field scanning system for EMC analysis
• High precision measurement accuracy up to 0.1 mm
• Measurement volume of 500 x 500 x 400 mm
• High speed scanning up to 1 m/s
• Integrated 4K high resolution camera for visual analysis
• Lightweight system design at 11.2 kg
• Automated EMC failure detection and localization
• Compatible with multiple robotic scanning platforms
• Supports PCB, IC, shielding, and enclosure analysis
• Reduces qualification test cycles and debugging time

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

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

CAPITOLE RCS software is an advanced radar signature prediction tool developed by NEXIO for calculating Radar Cross Section (RCS) with high precision. It enables defense engineers and research organizations to analyze, simulate, and optimize the radar visibility of complex systems such as aircraft, ships, and military equipment.

Key Features

• Dedicated radar cross section (RCS) simulation platform
• High accuracy radar signature prediction for defense systems
• Advanced solvers for small and large complex structures
• Supports millions of unknowns for large scale simulations
• Digital twin based modeling for pre prototype evaluation
• Parametric studies for optimizing radar stealth performance
• Reduces physical prototyping and testing costs
• Clean and user friendly interface for RCS analysis
• Suitable for aircraft, naval, and defense system design
• Helps improve detection and stealth performance analysis

CAPITOLE RF software by NEXIO is an advanced radio frequency simulation and antenna design tool that enables engineers to predict, analyze, and optimize RF performance during the early design phase. It helps reduce development time, minimize prototyping costs, and improve overall system efficiency through accurate digital simulation.

Key Features

• Advanced RF and antenna design simulation platform
• High precision electromagnetic propagation modeling
• Creation of realistic digital twin system models
• Parametric study support for performance optimization
• Reduces prototype iterations and development costs
• Validates antenna performance before physical testing
• Optimized for telecommunications, radar, and radiolocation applications
• Supports PCB antenna design and material selection analysis
• High performance solver technology for accurate results
• Helps ensure compliance with RF design specifications

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