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Tabor | Rack Mount Modules

Model LS3082R

Rs. 2534412.00

LS3082R is a 3 GHz dual-channel RF analog signal generator in a 1U, 19” rack-mountable unit. It offers phase-coherent outputs, fast switching, and full analog modulation, making it a compact, high-performance solution for multi-signal RF testing and production..

  • Detail
  • Special Features
  • Specification

The LS3082R extends Tabor’s rack-mount RF generator lineup by integrating two high-performance RF channels into a 1U rack module, making it ideal for applications that require compact form factor with multi-signal generation capabilities. With frequency coverage up to 3 GHz, both channels offer high spectral purity and support for synchronized or independent output configurations.

Designed for automated and continuous testing, LS3082R supports full analog modulation — including AM, FM, PM, Pulse, and Sweep — and ultra-fast switching speeds, making it a strong fit for production lines, RF validation benches, and multi-path simulation environments.

Its space-saving design and remote programmability allow easy deployment in automated test racks and lab systems without compromising on RF performance or control flexibility.

  • Dual RF channels up to 3 GHz

  • Phase-coherent or independent operation

  • Compact 1U, 19” rack-mounted enclosure

  • AM, FM, PM, Sweep & Pulse modulation

  • Ultra-fast frequency and amplitude switching

  • High signal integrity with low phase noise

  • Ideal for rack-based ATE setups and multi-path testing

  • Remote programmable via standard software platforms

  • Frequency Range: 100 kHz to 3 GHz

  • Channels: 2 (independent or phase-coherent)

  • Form Factor: 1U, 19” rack-mounted unit

  • Switching Speed: <100 µs typical

  • Modulation Types: AM, FM, PM, Sweep, Pulse

  • Phase Noise: Low, optimized for high-fidelity RF output

  • Control Interface: Remote programming via SCPI, Python, MATLAB, LabVIEW

  • Use Cases: Multi-channel signal simulation, production RF testing, MIMO emulation, automated validation systems