In today’s fast-evolving optical communication ecosystem, precision, speed, and flexibility are non-negotiable. The OMFT Optical Multi-Format Transmitter is a fully integrated optical front-end platform that translates differential electrical RF signals into modulated optical outputs, supporting both single and dual-polarisation transmission. Its Mach-Zehnder modulator-based architecture, built-in RF amplifiers, and automated bias control system make it ideal for coherent receiver characterisation, network component testing, and experimental modulation scheme development.

Whether you’re developing high-capacity optical transceivers or running advanced system simulations, the OMFT ensures repeatability, signal purity, and bandwidth headroom, all in a compact, rack-mountable form factor.

Engineered for Next-Gen Optical Modulation

• High Electro-Optic Bandwidth – Available in Class 80 (>80 GHz, 170 GBaud), Class 60 (60 GHz, >120 GBaud), and Class 40 (>40 GHz, 96 GBaud), supporting present and future transmission standards up to 800G.
• Automated Bias Control – Closed-loop system maintains optimal operating points independent of RF input, eliminating manual alignment and ensuring consistent performance.
• Zero Noise Mode – Suppresses calibration signals after setup, guaranteeing distortion-free modulation for spectral characterisation and phase-sensitive testing.
• Flexible Laser Options – Operate with a built-in narrow-linewidth source or connect an external tunable laser for maximum integration flexibility.
• Remote Control & Touchscreen GUI – Manage via USB, Ethernet, or built-in web server; intuitive touchscreen interface streamlines local and remote operation.
• Device-Specific Calibration – Preloaded correction files for gain, phase, and IQ offset enable pre-distortion techniques for superior linearity and modulation fidelity.

Why It Delivers More

Unmatched Bandwidth for High-Speed Networks

• Covers baud rates from 96 GBaud to 170 GBaud.
• Ideal for 400G, 800G, and beyond in telecom R&D and system testing.

Consistent & Reliable Operation

• Closed-loop bias stabilisation ensures long-term stability during repetitive sequences.
• “Zero Noise” mode delivers clean signals for coherent experiments.

Flexible Integration

• Compact, rack-mountable design for benchtop or production test setups.
• Compatible with a wide range of lasers and RF signal generators.

Ready for Research & Manufacturing

• Supports coherent transmission, interoperability, and component validation.
• Accelerates PIC transceiver development, BER testing, and quality control workflows.

Enabler for Digital Twin Prototyping

• Models super-channel and multi-carrier scenarios.
• Validates DSP algorithms for coherent receivers.
• Integrates seamlessly with tunable lasers and optical filters in modular testbeds.

Coherent Receiver Testing

The OMFT functions as a reference transmitter for precise testing of coherent optical receivers. Whether you’re testing QPSK or 256-QAM systems, the OMFT delivers stable, high-quality IQ signals that mimic real-world operating conditions.

Advanced Modulation Format Development

From telecom operators to photonics researchers, the OMFT is widely used to generate and study advanced formats like:

• QPSK (Quadrature Phase Shift Keying)
• 16-QAM (Quadrature Amplitude Modulation)
• 64/256-QAM for ultra-high-speed networking

These modulation schemes are essential for increasing spectral efficiency and expanding bandwidth in next-generation fibre optic systems.

System Design for Multi-Channel Transmission

Supporting both single and dual-polarisation formats, the OMFT enables:

• Emulation of realistic multi-channel transmission
• Characterisation of polarisation-multiplexed signals
• Testing of wavelength division multiplexing (WDM) components

This makes it a critical instrument for network architecture validation.

Integration with AWGs and PPGs

Engineers can easily connect the OMFT to Arbitrary Waveform Generators (AWG) and Pulse Pattern Generators (PPG). This allows:

• Injection of pre-distorted or custom signals
• High-precision simulations of optical communication scenarios

The result: More predictable outcomes and faster development cycles.

Optical Component Characterisation

The OMFT is invaluable for validating:

• Optical transceivers and modulators
• Amplifiers and filters
• Photonic integrated circuits (PICs)

United Spectrum Instruments is the official distributor for ID Photonics GmbH in India, providing full support for the OMFT Optical Multi-Format Transmitter.

Proven Expertise in Photonics and Optical Instrumentation

With years of experience serving academic institutions, industrial R&D labs, and telecommunication companies across India, we bring:

• Localised technical support
• Fast lead times
• Integration assistance

Access to Global Innovations

Our partnership with ID Photonics GmbH, Germany, ensures our customers gain early access to next-generation optical test instruments trusted by global technology leaders.

Seamless Procurement and Support

From pre-sales consultation to post-sales training and service, United Spectrum Instruments ensures a smooth and reliable experience for your optical testing needs.