Optoelectronic Hybird Integration | E-mail:sales1@cqwiseworld.com
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The Mini DM Optical Transceiver Link stands out as a high-performance, compact optical transmission solution designed for demanding microwave signal transmission scenarios. Integrating a direct-modulated DFB laser chip, a high-gain microwave amplifier chip, and a built-in driving circuit into a hermetic package, this product redefines miniaturization standards in optical transceiver technology. With a footprint only one-third the size of traditional separate optical transmitters, it delivers identical functionality while saving critical space for system integration. Its wide operating temperature range of -55℃~70℃ ensures stable performance in extreme environmental conditions, making it a top choice for aerospace, defense, and high-reliability industrial applications. What sets it apart is the optional microwave amplification module, which effectively reduces link noise figure and enhances signal integrity across the entire bandwidth. Whether for analog signal transmission in radar systems or signal distribution in electronic reconnaissance systems, the Mini DM Optical Transceiver Link combines high integration, small size, and strong environmental adaptability to meet the most stringent miniaturization and reliability requirements.
Embeds direct-modulated DFB laser chip, microwave amplifier chip, and driving circuit in one unit.
Adopts hermetic package design to resist moisture, dust, and mechanical vibration.
Covers a ultra-wide bandwidth of 30MHz-18GHz, supporting multi-band signal transmission.
Boasts input P-1 ≥18dBm, ensuring high linearity and low distortion for microwave signals.
Offers optional DWDM/CWDM wavelength to meet dense wavelength division multiplexing application needs.
No need for external matching circuits, simplifying system design and reducing integration costs.
Features small optical fiber bending radius, improving layout flexibility in limited space.
Wide operating temperature range of -55℃~70℃, adapting to harsh working environments.
The Mini DM Optical Transceiver Link provides stable, low-noise signal transmission for satellite ground stations and on-board communication modules. Its small size and wide temperature adaptability make it ideal for satellite payload integration.
It enables long-distance, low-loss transmission of radar analog signals, supporting real-time data feedback and target detection in radar systems. The low noise figure ensures high-precision signal acquisition.
In electronic reconnaissance systems, the product realizes efficient distribution of reconnaissance signals to multiple processing units. Its high integration reduces system volume and improves deployment mobility.
Parameter | Value |
Bandwidth | 30MHz-18GHz |
Input P-1 | ≥18dBm |
Wavelength Option | DWDM/CWDM |
Operating Temperature | -55℃~70℃ |
Package Type | Hermetic Package |
External Circuit Requirement | No Need |
We offer flexible customization services for the Mini DM Optical Transceiver Link to meet your specific application requirements, including wavelength customization, package modification, and performance parameter optimization.
For bulk purchase quotes and inventory availability, please contact our sales team via the inquiry form on our official website.
For technical consultation on product integration and compatibility, our engineering team is ready to provide professional support.
Sample orders are available for quality verification before large-scale procurement.
It is only one-third the size of separate optical transmitters with the same function. This compact design significantly reduces the space occupied in system integration, which is particularly suitable for miniaturized equipment.
Yes. We support customization of wavelength, package type, and performance parameters according to customer requirements. You can provide detailed technical specifications, and our team will formulate a personalized solution for you.
No. The product integrates the driving circuit and microwave amplifier chip internally. It can work normally without matching external circuits, which simplifies the system design process and reduces integration costs.
