Products

The Tabor 9160 Single-Channel Amplifier is a high-performance bench-top amplifier engineered for demanding lab and industrial applications. This 2U, half 19” rack-size amplifier provides a wide bandwidth of 45MHz and a high output of 34Vp-p into 50Ω, with peak currents up to 1A. Ideal for piezo-electronics, MEMS, and transducer testing, it combines precision, low distortion, and customizable configurations for gain, input impedance, and output setup.

Key Features

• Single-channel bench-top amplifier, 2U half 19” rack size
• DC-coupled wideband operation with 45MHz bandwidth
• High output voltage: up to 34Vp-p into 50Ω
• Peak output current: 1A, supporting up to 10W output power
• Fast transition time of <10ns for sharp signal edges
• Low distortion for accurate waveform reproduction
• Customizable gain (x10 standard, x15 optional), input impedance, and output configuration
• Front-panel main input with rear-panel auxiliary and DC offset inputs
• Ideal for piezo-electronics, MEMS, transducer characterization, and scientific applications
• Compact design compatible with standard lab setups

The 9200 Dual Amplifier from Tabor Electronics is a high-voltage, dual-channel amplifier engineered for precise signal amplification in laboratory, industrial, and scientific applications. Designed in a compact 2U half-rack format, it provides clean, high-fidelity amplification for signals from waveform, function, or pulse generators. With high voltage output, wide bandwidth, and flexible configuration, the 9200 Dual Amplifier is a versatile, cost-effective solution for demanding high-voltage applications.

Key Features

• High voltage output: 300Vp-p (±150V) per channel
• Output current: up to 100 mA per channel
• Full power bandwidth: DC to >500 kHz
• Slew rate: 200 V/µs for rapid signal transitions
• Dual-channel operation for simultaneous amplification
• Low distortion for precise waveform fidelity
• Customizable gain and signal ground options
• Floating input and output for flexible grounding
• Compact 2U bench-top or rack-mountable design
• Cost-effective high-voltage amplification solution

The 9200A Dual Amplifier from Tabor Electronics is a high-voltage, dual-channel amplifier engineered for precision signal amplification. With compact design and advanced safety features, it supports versatile applications from laboratory testing to MEMS actuator control. Built to maintain signal fidelity across wide bandwidths, the 9200A offers reliable, low-distortion amplification for critical high-voltage applications.

Key Features

• Dual independent channels with precise amplification
• High voltage output: 400Vp-p (±200V) per channel
• Output current: up to 100 mA per channel
• Full power bandwidth: DC to >500 kHz
• High slew rate: 400 V/µs for fast signal transitions
• Rear-panel monitor outputs for each channel
• Compatible with all Tabor waveform generators
• Special unipolar mode for MEMS engine drivers
• Compact, stackable 2U chassis for bench-top or rack mounting
• Advanced safety latch and front panel high voltage switch

The Tabor 9250 Dual-Channel Amplifier is a high-performance, bench-top amplifier designed for lab and PXI-based test systems. It provides two independent channels or a single differential output with precise amplification up to 40Vp-p. With large and small signal bandwidths up to 30MHz, a high slew rate of 200V/µs, and low distortion, the 9250 is ideal for waveform amplification and high-fidelity signal testing.

Key Features

• Dual-channel bench-top amplifier, 2U half 19” rack size
• Operates as independent channels or single differential output
• Large signal bandwidth: 15MHz, small signal bandwidth: 30MHz
• High amplitude output: up to 40Vp-p into high impedance
• Slew rate up to 200V/µs for fast signal transitions
• Low distortion for precise waveform reproduction
• Configurable gain, input impedance, output impedance, and output configuration
• Additional rear-panel inputs for DC offset and signal summation
• Stackable design compatible with other Tabor generators and PXI setups
• Front-panel outputs for easy access and measurement

The Tabor 9260 Dual-Channel Amplifier is a versatile bench-top amplifier designed for high-frequency, high-current signal applications. Its 2U, half 19” rack design delivers up to 34Vp-p output into 50Ω and peak currents up to 1A. The 9260 can operate as two independent channels or one input with two differential outputs, making it perfect for piezo-electronics, MEMS, and transducer testing. Customizable gain, input impedance, and output configurations provide unmatched flexibility for demanding lab environments.

Key Features

• Dual-channel bench-top amplifier, 2U half 19” rack size
• DC-coupled wideband operation with 45MHz bandwidth
• High output voltage: up to 34Vp-p into 50Ω
• Peak output current: 1A, supporting up to 10W output power
• Fast transition time of <10ns for precise signal edges
• Low distortion for accurate waveform reproduction
• Configurable gain (x10 standard, x15 optional), input impedance, and output setup
• Front-panel main input; rear-panel auxiliary and DC offset inputs
• Operates as independent channels or differential output mode
• Ideal for piezo-electronics, MEMS, transducer characterization, and scientific applications

The 9400 Four Channel Amplifier from Tabor Electronics is a compact, high voltage signal amplifier built for precision and flexibility. Designed with four fully independent channels, it delivers powerful 400Vp-p output while maintaining exceptional signal integrity across a wide bandwidth. Ideal for laboratory testing, MEMS actuator control, and high voltage research applications, this amplifier combines performance, safety, and space-saving design in one reliable solution.

Key Features

• Four independent amplification channels
• High voltage output up to 400Vp-p (±200V)
• Output current up to 50mA per channel
• Full power bandwidth from DC to over 500kHz
• High slew rate up to 400V per microsecond
• Rear panel monitor outputs divided by 100
• Compatible with Tabor waveform generators
• Special unipolar mode for MEMS engine drivers
• Compact chassis for bench-top stacking or 19 inch rack mounting
• Advanced safety latch and high voltage mechanical switch

The Tabor A10150 Signal Amplifier is a compact, high-speed amplifier designed to enhance any signal source. With 150MHz bandwidth and up to 20Vp-p output into 50Ω, it provides clean, low-distortion amplification. Its ultra-fast transition time of under 1.8ns ensures precise waveform fidelity, making it ideal for Ethernet testing, ASIC, FPGA, and DAC characterization. The A10150 can be used as a standalone amplifier or as a “Snap-On” accessory for Tabor WaveXciter and WS8351/2 models, extending signal voltage without compromising integrity.

Key Features

• Single-channel, DC-coupled wideband amplifier
• High bandwidth of 150MHz for fast signal response
• Maximum output up to 20Vp-p into 50Ω load
• Ultra-fast transition time: <1.8ns for precise waveform edges
• Compact, all-metal footprint for easy integration
• Low distortion ensures clean signal amplification
• Custom gain options: x5 standard, x10 optional
• Compatible with Tabor WaveXciter and WS8351/2 series
• Suitable for Ethernet, FPGA, ASIC, and DAC testing

The Tabor A10160 Signal Amplifier is a compact, high-current amplifier designed to boost any signal source with precision. Offering 45MHz bandwidth, up to 34Vp-p output into 50Ω, and 10W peak power, it ensures clean, low-distortion signals. Its ultra-fast transition time of under 10ns delivers sharp waveform edges, making it ideal for piezo-electronics, transducer testing, MEMS, and general high-speed electronic applications. The A10160 can operate as a standalone amplifier or as a “Snap-On” accessory for Tabor WaveXciter and WS8351/2 series, providing flexible, cost-effective power enhancement.

Key Features

• Single-channel, DC-coupled wideband amplifier
• 45MHz high-speed bandwidth for fast signal response
• Maximum output of 34Vp-p into 50Ω
• High output current drive up to 1A
• Peak power up to 10W, continuous power 7.5W
• Ultra-fast transition time: <10ns
• Compact, all-metal footprint for lab and bench setups
• Low distortion for precise signal amplification
• Custom gain options: x10 standard, x15 or x20 optional
• Compatible with Tabor WaveXciter and WS8351/2 series

The A10200 RF Signal Amplifier from Tabor Electronics is a high-power, ultra-wideband amplifier designed for demanding high-frequency applications. Compact and versatile, it extends the output power of any signal source up to +28dBm across 100 kHz to 20 GHz, providing a reliable solution for RF testing, multi-tone experiments, and advanced electronics applications.

Key Features

• Ultra-wideband frequency range: 100 kHz to 20 GHz
• High output power: +28dBm typical at P1dB
• Reverse polarity and over/under voltage protection
• Compact, lightweight design with dedicated power supply
• Ideal for high-frequency RF and signal testing
• Compatible with Tabor Lucid series generators or any signal source
• Maintains signal integrity across full bandwidth
• Cost-effective, versatile solution for laboratory and field applications

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

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 DAM 6.0-P Dual Antenna Mast is a high-precision, dual-antenna mast designed for accurate EMC measurements in magnetic absorption chambers.

Key Features:

• Adjustable height from 1.0 m to 6.0 m with electric stepper motor
• Pneumatic polarization change 0° to 90° in approx. 3 seconds
• Dual antenna support with max. load 20 kg (balanced)
• Rotating antenna bars to eliminate elevation errors
• Robust base: 0.95 m x 0.73 m
• Non-metallic construction (plastic and reinforced fiberglass)
• Remote control via LAN (TCP/IP) with FCU3.0 or NCD Controller
• Suitable for EMC testing labs, automotive, industrial, and telecom setups