Products
Known-good-dies (KGD) on the TFLN Technology platform are ideal for PAM/IMDD and coherent applications.
Products
Known-good-dies (KGD) on the TFLN Technology platform are ideal for PAM/IMDD and coherent applications.
TFLN PIC technology allows for compact optical waveguides to be monolithically fabricated, reducing the gap between electrodes, resulting in much lower driving voltage (hence much lower power consumption) and much smaller device length. Our TFLN PIC technology allows the production of Intensity Modulator,Phase Modulator, Intensity Modulator Hybrid with DFB LD,IQ Modulator.
Liniobate offers DFB lasers with a 3dB frequency response bandwidth above 30 GHz for applications that rely on high-speed direct modulation.
These lasers are offered in standard 7-pin butterfly package with RF (K) connector, internal thermoelectric cooler, isolator(Optional), and polarization maintaining (PM) fiber pigtail with FC/APC connectors.
Liniobate develops and manufactures photodetector chips and modules based on its in-house InP-technology according to customer specifications focusing on telecom and sensing applications. Our strengths include high-speed high-power photodetectors with a 3dB-bandwidth up to 110 GHz and low noise high responsivity InGaAs photodiodes. The photodiodes cover the SWIR wavelength range of 780 nm - 2500 nm including the datacom O-band ;(1310 nm) and telecom C-band (1550 nm).
Liniobate produces periodically poled lithium niobate (PPLN) waveguide modules for visible, near-IR, and mid-IR light generation. The module consists of a PPLN waveguide, a thermoelectric cooler, and a thermistor. A custom design of the poling period is available. Please specify your pump and SHG/SFG/DFG wavelenghts down to 2 decimal places when ordering modules.
Applications
Liniobate's TFLN Technology platform enables products and solutions across AI, Datacom, Telecom and beyond.
Our Low-Noise Lithium Niobate Quantum Frequency Converter efficiently transforms communication-band photons to visible wavelengths, to be detected by cost-effective, highly efficient Si APD's. With custom-designed wavelength separation to filter out background noises due to second harmonic generation and Raman scattering, our SHG780/SHG532 module ensures high conversion efficiency and low background noise, vital to preserve signal quantum properties for long-distance quantum communication, networking, and sensing.
We work with partners worldwide to integrate our crystals and waveguides into a range of scientific instrumentation.
For OEM products you can discuss your desired specification with our engineering team to facilitate the design of a custom item. We also have a wide selection of readily available stock items for use as off-the-shelf components in your system.
We design and manufacture PPLN products that can be used in many spectroscopic or environmental science applications. These include narrow-linewidth laser sources for gas spectroscopy applications or picosecond and femtosecond ultrafast laser sources for specific wavelengths in fluorescence spectroscopy. Our products are already successfully integrated into a number of existing systems enabling future research and development into novel applications.
High-performance electro-optic IQ modulator based on Thin-film lithium niobate (TFLN) technology. It is ideal for applications where space and weight are at a premium: e.g. QPSK and QAM encoding up to 60Gbd, single-sideband modulation or RF mixing up to 60GHz. This linear Dual Parallel Mach Zehnder device combines market leading performance in bandwidth and drive-power with a compact folded-optics configuration, which segregates RF and optical interfacing to opposing ends and helps to maintain integrity of the RF feeds.
Microwave photonics is currently used in a wide variety of applications. It enables new microwave functions such as fast spectrum analysis, low-phase-noise microwave and millimeter wave generation, high-frequency conversion, long true-time delay, probing and control of microwave devices and ultra-fast analog-to-digital converters. Conversely, microwave techniques enable new optical communication systems, with faster modulation and detection devices.
Data Center, Telecom Applications
Liniobate has achieved a low-cost coherent transceiver by densely integrating its proprietary broadband and compact Thin Film LiNbO3 (TF-LN) modulator and silicon photonics receiver into the CFP2. By taking advantage of the excellent transmission performance and low-loss characteristics of the TF-LN modulator, this product delivers high output power and high OSNR performance, enabling up to a 15% increase in transmission distance compared to previous generation products.Liniobate will continue to develop its technology to aim at next-generation 1.6Tbps pluggable coherent transceivers.
News
Here you'll find the latest company announcements, industry insights, and expert perspectives. Dive into our stories to see how we're driving innovation and shaping the future.
Liniobate will participate in 2026 ECOC
Liniobate will participate in the 2026 ECOC(Exhibition - 21 - 23 September 2026, Conference - 20 September - 24 September 2026, FYCMA, Malaga, Spain), showcasing the latest. Booth#1119, we are looking forward to your visit!
Liniobate will participate in 2026 Photonics West
Liniobate will participate in the 2026 Photonics west(17-22 January, The Moscone Centre,San Francisco,California,United states), showcasing the latest. Booth:#32375, we are looking forward to your visit!
Similar to the development path of traditional microelectronic chips, the emergence of photonic quantum chips is an inevitable trend in advancing photonic quantum information technology toward practical applications. Currently, mainstream photonic quantum chips mainly rely on probabilistic photon sources based on nonlinear optical processes to generate single-photon signals. However, due to the probabilistic nature of photon emission, these sources suffer from low emission efficiency and difficulties in preparing multi-photon qubits.
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