Products

The Model 3202 RF Amplifier is a high frequency, high power dual channel amplifier built in a compact single slot PXIe form factor. Operating from 100kHz to 20GHz and delivering up to 30dBm output power into 50Ω, it provides reliable and stable RF amplification for demanding test environments.

Key Features

• Wide bandwidth from 100kHz to 20GHz
• Dual channel RF amplification
• Up to 30dBm saturated output power
• +27dBm typical output power at P1dB
• Cascade channels for up to 25dB gain
• Single slot PXIe module
• Designed for 50Ω systems
• Reverse polarity protection
• Over voltage and under voltage protection
• Compatible with Tabor waveform and RF generators

The Model 3222 Signal Amplifier is a 3U single slot PXI power amplifier designed for clean and stable signal amplification from DC to over 20MHz. With up to 40Vp p output into high impedance and flexible configuration options, it solves common PXI voltage limitations while maintaining exceptional signal purity.

Key Features

• 3U single width PXI card
• Wideband operation from DC to over 20MHz
• High output amplitude up to 40Vp p into high impedance
• Up to 20Vp p into 50Ω
• Fixed gain x10 standard
• Custom gain configuration available
• Low distortion and high signal purity
• Configurable input and output impedance
• Configurable output polarity
• Floating or grounded signal option up to 250Vdc
• Draws current only from +5V rail

The Model 9160 Signal Amplifier is a high bandwidth, high current single channel amplifier built for demanding signal amplification tasks. Designed in a compact 2U half 19 inch rack metal enclosure, it provides powerful output, fast transition time, and stable performance for laboratory and industrial environments.

Key Features

• 45MHz wide bandwidth
• 34Vp-p output into 50Ω
• Up to 1A peak output current
• Continuous power output up to 10W
• Fast transition time under 10ns
• Low distortion signal amplification
• Custom gain options x10, x15, x20
• Configurable input impedance 50Ω, 75Ω, 1MΩ
• DC or AC coupling options
• Rear auxiliary and DC offset inputs
• Rack mount compatible 2U half 19 inch design

The Model 9250 Signal Amplifier is a high-performance 30MHz differential and dual-channel amplifier designed for precision, flexibility, and high-voltage wide bandwidth applications. Built in a compact 2U half 19 inch rack metal enclosure, it is ideal for laboratory benches and rack-mounted systems.

Key Features

• Dual-channel or differential configuration
• Large signal bandwidth up to 15MHz
• Small signal bandwidth up to 30MHz
• Output amplitude up to 40Vp-p into high impedance
• Slew rate up to 200V per microsecond
• Low distortion signal amplification
• Custom gain options from x10 to x20
• Configurable input impedance: 50Ω, 75Ω, 1MΩ
• Configurable output impedance: 50Ω, 75Ω, 600Ω
• DC or AC coupling options
• Stackable design compatible with Tabor instruments
• Rack mount ready with optional 19 inch kit

The Model A10150 Signal Amplifier is a compact, high speed 150MHz single channel amplifier designed for low distortion and precise signal boosting. With ultra fast transition time and strong output capability, it is the perfect companion for high frequency signal sources that require additional voltage drive.

Key Features

• 150MHz wide bandwidth
• Up to 16Vp-p into 50Ω standard
• Optional 20Vp-p into 50Ω configuration
• Fast transition time under 1.8ns
• DC coupled wideband design
• Low distortion signal amplification
• Compact all metal enclosure
• Standard gain x5
• Optional gain x10
• Ideal snap on accessory for Tabor WaveXciter and WS8351 or WS8352 models
• Standalone compatible with any signal source

The Model A10160 Signal Amplifier is a compact, high current 45MHz single channel amplifier built for high voltage and wide bandwidth signal amplification. Designed with a small footprint and rugged metal enclosure, it delivers powerful output and fast signal transitions for demanding laboratory and industrial environments.

Key Features

• 45MHz wide bandwidth
• 34Vp-p output into 50Ω
• Peak output current up to 1A
• Continuous current up to 750mA
• Continuous power up to 7.5W and peak power up to 10W
• Fast transition time under 10ns
• DC coupled wideband architecture
• Custom gain options x10, x15, x20
• Compact all metal enclosure
• Compatible snap on accessory for Tabor WaveXciter and WS8351 or WS8352
• Standalone operation with any signal source

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

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