Products

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 MR9321 Logic Probe is a compact, high-speed voltage detection accessory designed for seamless use with Hioki Memory HiCorders. It enables reliable ON and OFF state monitoring of AC and DC signals across multiple channels.

Key Features

• Four fully isolated input channels for safe signal monitoring
• Detects 100 V and 200 V AC or 24 V DC voltage states
• Supports power line interruption detection
• High-speed response with 1 ms rise time and 3 ms fall time
• High and low detection range switching for flexible use
• Miniature terminal connection for compatible Memory HiCorders

• Three or four high performance outputs each with full functionality
• Range switching gives variable voltage/current combinations
• Shared power mode provides double power from a single output
• Low output noise and ripple via linear final regulation
• High setting resolution of up to 1mV and 0.1mA
• Variable OVP and OCP trips on all outputs which can be linked (MX-Q Series 2 units only)
• Individual or combined output on/off control with programmable delay sequencing.
• Selectable voltage tracking (isolated tracking)
• Selectable current meter averaging
• Switchable remote sense capability
• Graphic LCD (colour on Series 2) provides simultaneous output metering
• Numeric or spin-wheel control of all parameters
• 50 setting memories per output plus 50 linked memories
• 3U rack case for bench or rack mounting (4U rack kit accessory available)
• RS-232, USB and LAN (LXI) interfaces (P models)
• GPIB option (P models only)
• Duplicate power & sense terminals at rear (P models)
• Software control from Test Bridge software (free download – P models only)

Series 2 (“S2”) models add:

• Colour display
• Enhanced channel power sharing
• ‘TripLink’ feature: Link channels to trip together on OVP or OCP
• New MX103Q SELV Model

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

optoCharger Bidirectional Optical Transmission for EV Charging

Key Features:

• Bidirectional Optical Isolation: Transmits Control Pilot, CAN, and auxiliary signals over a 20 m multimode fiber link.
• Battery Powered: Internal 8.4 V, 4 Ah NiMH pack provides up to 10 hours of operation.
• Robust Shielding: Anodized aluminum housing with rubber bumpers for durability and CISPR 25 Class 5 compliance.
• Protocol Compatibility: Supports CCS, CHAdeMO, and GB/T charging standards.
• Versatile Connectivity: BNC for Control Pilot, D SUB 15 for CAN, sensors, and lock control.
• Portable & Lightweight: Compact design 140 × 86 × 65 mm, weight ≈760 g.

optoLAN 100/1000Base-T1-BCM89887 Optical Link for Automotive Ethernet

Key Features:

• Supports 1000Base-T1 and 100Base-T1 automotive Ethernet signals
• Equipped with Broadcom BCM89887 chipset for reliable performance
• Bidirectional optical transmission ensures high fidelity and interference-free testing
• Rosenberger HSD (Z-coded) connectors for secure connectivity
• Shielded aluminum housing prevents electromagnetic interference
• Battery-powered with >12 hours runtime for flexible lab use
• Proven reliability in automotive EMC and EMI/EME test labs
• Compatible with adapter cables and external power options for custom setups

A reliable optical link for automotive Ethernet signals, optimized for EMC testing with Broadcom BCM89811 chipset compatibility.

Key Features:

• Designed for 100Base-T1 automotive Ethernet applications
• Compatible with Broadcom BCM89811 PHY chipset
• Supports T1-to-T1 or T1-to-Tx with integrated media converter
• Equipped with Rosenberger HSD connectors and FSMA optical ports
• Shielded aluminum housing for EMI protection
• Battery powered with >10 hours runtime
• Complies with ISO 11452-2 and MIL-STD-461 standards
• Ideal for automotive, military, RF, and aerospace industries

The Tabor P12812B RF AWG is a high-performance 12-channel arbitrary waveform generator designed for RF, Electronic Warfare (EW), and quantum research. With 16-bit resolution and 1GS memory, it delivers precise, adaptive waveform outputs. Its PXI Express modular architecture supports ultra-fast PCIe data transfer, real-time feedback, and scalable multi-channel configurations.

Key Features

• 1.25GS/s sampling rate for accurate waveform generation
• 16-bit vertical resolution for high-fidelity signals
• 12 output channels with 12 programmable markers
• 1GS standard memory, expandable up to 8GS
• Real-time FPGA-controlled feedback for adaptive waveforms
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express architecture for scalable multi-channel systems
• High-speed PCIe transfer for uninterrupted waveform streaming
• Excellent phase noise and spurious performance
• Programmable via Python, MATLAB, C, or LabVIEW

The P1282B RF AWG Module is designed for precision signal generation and advanced RF experimentation. Built on the Proteus SDR architecture, it delivers high performance waveform control for research and communication systems.

Key features:

• 1.25 GS/s sampling rate with 16-bit resolution for high signal accuracy
• 2-channel RF AWG module supporting synchronized waveform output
• 1 GS internal memory for flexible waveform storage and replay
• 4 integrated markers for advanced timing and trigger control
• SDR-based architecture enabling real-time waveform responsiveness
• PCIe high-speed data transfer for ultra-fast system communication
• Integrated IQ modulation and demodulation support
• Low latency feedback system for adaptive waveform generation
• Scalable modular design for multi-channel expansion
• Suitable for EW simulation, wireless testing and quantum control

The Tabor P1282M AWG is a powerful arbitrary waveform generator and transceiver platform designed for advanced signal generation and real time processing. With a 1.25GS/s sampling rate, 16-bit vertical resolution, and two independent output channels, this instrument delivers high fidelity waveform generation for Electronic Warfare simulation, quantum control experiments, and wireless communication research.

Built on an advanced SDR architecture within the Proteus instrument family, the P1282M AWG goes beyond traditional signal generation. It can listen to incoming signals, process them instantly, and react in real time through its integrated FPGA based feedback system. This makes it an excellent solution for laboratories and engineers who need flexible waveform generation with intelligent system response.

Key Features

• 1.25GS/s sampling rate for accurate waveform generation
• 16-bit vertical resolution for high signal precision
• 2 independent output channels for dual channel waveform control
• 4 programmable markers for precise signal synchronization
• 1GS waveform memory for storing complex signal sequences
• High speed PCIe data transfer architecture
• Real time FPGA feedback for conditional waveform generation
• Integrated digital IQ modulation and demodulation support
• Excellent phase noise and spurious signal performance
• Task table sequencing for dynamic waveform transitions
• Optional streaming capability for long waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW programming

The Tabor P1282M Proteus AWG is a powerful 1.25GS/s, 16-bit arbitrary waveform generator and transceiver platform built for engineers who demand precision, scalability, and real-time responsiveness. Designed on advanced SDR architecture, it delivers intelligent waveform generation for Electronic Warfare, quantum research, radar simulation, and next-generation wireless testing.

Key Features

• 1.25GS/s sample rate with 16-bit vertical resolution
• 1GS memory standard, expandable up to 16GS
• Dual-channel output with 4 markers
• Advanced PXI Express modular architecture
• Integrated digital IQ modulators and demodulators
• Optional 5.4GS/s RF ADC digitizer for transceiver capability
• Real-time feedback control for conditional waveform generation
• Ultra-fast PCIe data transfer and streaming
• Task-driven non-linear waveform sequencing
• Excellent phase noise and spurious performance

The Tabor P1284B RF AWG is a high-performance arbitrary waveform generator designed for advanced RF, Electronic Warfare (EW), and quantum control applications. With 4 output channels, 16-bit resolution, and 1GS memory, it provides precise waveform generation and rapid response through FPGA-controlled real-time feedback. Its modular PXI Express design supports expansion, high-speed PCIe data transfer, and uninterrupted signal streaming.

Key Features

• 1.25GS/s sampling rate for fast and accurate waveform generation
• 16-bit vertical resolution for precise signal output
• 4 output channels with 4 programmable markers
• 1GS standard memory, expandable up to 8GS
• FPGA-controlled real-time feedback for adaptive waveform responses
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express architecture, scalable for multi-channel systems
• Ultra-fast PCIe data transfer for uninterrupted streaming
• Excellent phase noise and spurious performance
• Programmable via Python, MATLAB, C, or LabVIEW

The Tabor P1284M AWG is a high precision arbitrary waveform generator designed for demanding signal generation and RF testing applications. With a sampling rate of 1.25GS/s, 16-bit vertical resolution, and four independent output channels, it provides accurate waveform generation for Electronic Warfare simulation, quantum research, radar development, and next generation wireless communication testing.

Part of the advanced Proteus instrument family, the P1284M AWG is built on a modern SDR architecture that allows the system to not only generate signals but also analyze and respond to them in real time. Its integrated FPGA based feedback system enables conditional waveform generation, making it a powerful solution for engineers and researchers working with complex RF environments.

Key Features

• 1.25GS/s sampling rate for accurate waveform generation
• 16-bit resolution for high signal fidelity
• 4 independent output channels for multi channel testing
• 4 programmable markers for precise signal timing
• 1GS waveform memory for storing complex sequences
• High speed PCIe data transfer architecture
• Integrated digital IQ modulators and demodulators
• Real time FPGA feedback for conditional waveform generation
• Excellent phase noise and spurious signal performance
• Task table sequencing for dynamic waveform control
• Optional streaming capability for long waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW

The Tabor P1284M Proteus AWG is a high performance 1.25GS/s, 16-bit arbitrary waveform generator built for advanced RF, Electronic Warfare, radar, and quantum applications. With four synchronized channels, deep memory, and real-time FPGA feedback, it delivers intelligent waveform generation that responds instantly to changing conditions.

Key Features

• 1.25GS/s sample rate with 16-bit vertical resolution
• 1GS memory standard, expandable up to 16GS
• Four fully synchronized output channels
• Four standard markers with expansion options
• Advanced PXI Express modular architecture
• Integrated digital IQ modulators and demodulators
• Optional 5.4GS/s RF ADC for transceiver capability
• Real-time FPGA feedback for conditional waveform generation
• Ultra-fast PCIe data transfer and streaming
• Excellent phase noise and spurious performance

The Tabor P1288B RF AWG is a high-performance arbitrary waveform generator built for demanding RF, Electronic Warfare (EW), and quantum control applications. It features 8 output channels, 16-bit resolution, and 1GS memory, combined with FPGA-controlled real-time feedback for adaptive waveform generation. Its modular PXI Express design supports high-speed PCIe data transfer, uninterrupted signal streaming, and scalability for multi-channel systems.

Key Features

• 1.25GS/s sampling rate for precise waveform generation
• 16-bit vertical resolution for high-fidelity signals
• 8 output channels with 8 programmable markers
• 1GS standard memory, expandable up to 8GS
• FPGA-controlled real-time feedback for adaptive output
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express architecture for scalable multi-channel setups
• High-speed PCIe transfer for uninterrupted waveform streaming
• Excellent phase noise and spurious performance
• Programmable via Python, MATLAB, C, or LabVIEW