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ZLN.2F.7106.CLL is a high-performance fiber optic hybrid connector engineered for fiber, laser, infrared equipment scenarios. It features a 1×LC fiber + 6 low-voltage pin core configuration, supporting dual-wavelength transmission of 1310nm/1550nm with ultra-low optical loss. Adopting a precision push-pull structural design, pearl-chrome plated brass housing and IP68 full-sealed protection, it integrates high-speed optical signal and stable electrical power/control signal transmission, with 5000 times mechanical life and full RoHS compliance, ensuring reliable operation in harsh industrial, outdoor laser/infrared and fiber communication environments.
It integrates 1 LC fiber core and 6 low-voltage electrical pins to achieve simultaneous transmission of high-speed optical signals and low-voltage power/control signals. The optimized optical path features IL ≤ 0.25 dB and RL ≥ 45 dB, supporting 1310 nm/1550 nm dual-wavelength transmission to fully meet the signal transmission requirements of optical fiber, laser and infrared equipment.
Designed according to industry-standard interfaces and structures, it features excellent interchangeability and universality, enabling direct mating with mainstream standard connectors. It reduces equipment replacement and matching costs, and facilitates system integration and upgrade.
With a professional 360° shielding structure, it provides shielding effectiveness of 95 dB at 10 MHz and 80 dB at 1 GHz. It effectively resists complex electromagnetic interference in industrial and outdoor environments, avoids signal distortion, and ensures high-fidelity optical signal transmission.
With professional tail sealing and transparent epoxy potting, it reaches IP68 waterproof and dustproof rating. It withstands a maximum pressure of 60 bar and 96-hour salt spray corrosion, operates stably from -55°C to 125°C, and resists 15g vibration and 100g shock, adapting to harsh working conditions.
Gold-plated tin bronze electrical contacts ensure stable conductivity with contact resistance ≤ 12.5 mΩ. The pearl-chrome plated brass housing provides excellent corrosion resistance. High-temperature resistant PPS insulation ensures independent and reliable transmission of optical and electrical signals.
Adopting a precision push-pull self-locking structure, it enables fast mating, precise positioning and accidental disconnection prevention. Optimized design delivers up to 5000 mating cycles, meeting frequent plugging requirements for industrial and mobile optoelectronic equipment.
Parameters | Specifications |
Operating Temperature | -55°C~125°C |
Humidity(max) | <=95%[at 60°C/140°F] |
Salt Spray Corrosion | 1000hr |
Vibration | 15g[10Hz~2000Hz] |
Mating Cycles | 5000+ times |
Contact Material | Gold Plated Tin Bronze |
Housing Material | Pearl Chrome Plated Copper |
Insulator Material | PPS |
Other Shell Material | Nickel-plated Brass |
Contact Diameter | 1.25mm &0.7mm |
Shock Resistance | 100g[6ms] |
Rated Current | 7A |
Rated Voltage | 750V AC |
Insulator Resistance | 5000 mΩ[at 5000V AC] |
IP Rate | IP68 |
Wave Length | 1310nm$1550nm |
Loss | IL<=25dB RL>=45dB |
R(Max) | <=12.5mΩ |
Fiber-electric hybrid connectors are widely used in laser transmitters, infrared detection systems, thermal imaging cameras and optical sensing equipment. They transmit high-speed optical signals and stable power at the same time, ensuring reliable operation in precision optical detection and industrial laser processing scenarios.
These connectors serve medical endoscopes, surgical laser systems, patient monitors and diagnostic imaging equipment. Their compact structure, low loss and stable hybrid transmission meet the strict requirements of medical equipment for safety, miniaturization and long-term stability.
They are applied in data acquisition systems, optical probes, sensor modules and precision testing instruments. The hybrid design supports both high-speed optical signal transmission and electrical control, providing accurate and stable data transmission for laboratory and industrial measurement.
Ideal for industrial cameras, automated production lines, robotic arms and intelligent control systems. The connectors offer strong anti-interference and anti-vibration performance, realizing stable optical communication and power supply in harsh industrial environments.
Used in airborne equipment, field communication systems, radar devices and military detection equipment. With high durability, wide temperature resistance and excellent sealing, they maintain stable performance under extreme environmental conditions.
Suitable for outdoor optical communication base stations, oilfield monitoring, on-site wiring and field transmission systems. IP68 sealing and salt-spray resistance enable stable hybrid transmission in rainy, dusty and corrosive outdoor environments.
Applied in professional cameras, fiber audio/video transmission equipment, live broadcast systems and studio interfaces. They support high-quality signal transmission with fast plug-pull connection, ensuring stable and efficient on-site work.
A: It is fully compatible with mainstream industry-standard interfaces and features excellent interchangeability. It can directly replace similar standard connectors, reduce equipment replacement and matching costs, and facilitate the integration and upgrade of optoelectronic systems.
A: It adopts a separate structure for fiber cores and electrical pins, using high-temperature-resistant, high-insulation PPS material. This effectively isolates optical and electrical transmission paths, ensuring the two types of signals are transmitted independently without interference.
A: Avoid rough insertion and extraction to prevent damage to the precision fiber core. Keep the fiber contact surface clean and free of dust, oil, or other contaminants. Ensure accurate alignment between plug and socket during connection to avoid optical path deviation caused by mis-mating.
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ZLN.2F.7106.CLL is a high-performance fiber optic hybrid connector engineered for fiber, laser, infrared equipment scenarios. It features a 1×LC fiber + 6 low-voltage pin core configuration, supporting dual-wavelength transmission of 1310nm/1550nm with ultra-low optical loss. Adopting a precision push-pull structural design, pearl-chrome plated brass housing and IP68 full-sealed protection, it integrates high-speed optical signal and stable electrical power/control signal transmission, with 5000 times mechanical life and full RoHS compliance, ensuring reliable operation in harsh industrial, outdoor laser/infrared and fiber communication environments.
It integrates 1 LC fiber core and 6 low-voltage electrical pins to achieve simultaneous transmission of high-speed optical signals and low-voltage power/control signals. The optimized optical path features IL ≤ 0.25 dB and RL ≥ 45 dB, supporting 1310 nm/1550 nm dual-wavelength transmission to fully meet the signal transmission requirements of optical fiber, laser and infrared equipment.
Designed according to industry-standard interfaces and structures, it features excellent interchangeability and universality, enabling direct mating with mainstream standard connectors. It reduces equipment replacement and matching costs, and facilitates system integration and upgrade.
With a professional 360° shielding structure, it provides shielding effectiveness of 95 dB at 10 MHz and 80 dB at 1 GHz. It effectively resists complex electromagnetic interference in industrial and outdoor environments, avoids signal distortion, and ensures high-fidelity optical signal transmission.
With professional tail sealing and transparent epoxy potting, it reaches IP68 waterproof and dustproof rating. It withstands a maximum pressure of 60 bar and 96-hour salt spray corrosion, operates stably from -55°C to 125°C, and resists 15g vibration and 100g shock, adapting to harsh working conditions.
Gold-plated tin bronze electrical contacts ensure stable conductivity with contact resistance ≤ 12.5 mΩ. The pearl-chrome plated brass housing provides excellent corrosion resistance. High-temperature resistant PPS insulation ensures independent and reliable transmission of optical and electrical signals.
Adopting a precision push-pull self-locking structure, it enables fast mating, precise positioning and accidental disconnection prevention. Optimized design delivers up to 5000 mating cycles, meeting frequent plugging requirements for industrial and mobile optoelectronic equipment.
Parameters | Specifications |
Operating Temperature | -55°C~125°C |
Humidity(max) | <=95%[at 60°C/140°F] |
Salt Spray Corrosion | 1000hr |
Vibration | 15g[10Hz~2000Hz] |
Mating Cycles | 5000+ times |
Contact Material | Gold Plated Tin Bronze |
Housing Material | Pearl Chrome Plated Copper |
Insulator Material | PPS |
Other Shell Material | Nickel-plated Brass |
Contact Diameter | 1.25mm &0.7mm |
Shock Resistance | 100g[6ms] |
Rated Current | 7A |
Rated Voltage | 750V AC |
Insulator Resistance | 5000 mΩ[at 5000V AC] |
IP Rate | IP68 |
Wave Length | 1310nm$1550nm |
Loss | IL<=25dB RL>=45dB |
R(Max) | <=12.5mΩ |
Fiber-electric hybrid connectors are widely used in laser transmitters, infrared detection systems, thermal imaging cameras and optical sensing equipment. They transmit high-speed optical signals and stable power at the same time, ensuring reliable operation in precision optical detection and industrial laser processing scenarios.
These connectors serve medical endoscopes, surgical laser systems, patient monitors and diagnostic imaging equipment. Their compact structure, low loss and stable hybrid transmission meet the strict requirements of medical equipment for safety, miniaturization and long-term stability.
They are applied in data acquisition systems, optical probes, sensor modules and precision testing instruments. The hybrid design supports both high-speed optical signal transmission and electrical control, providing accurate and stable data transmission for laboratory and industrial measurement.
Ideal for industrial cameras, automated production lines, robotic arms and intelligent control systems. The connectors offer strong anti-interference and anti-vibration performance, realizing stable optical communication and power supply in harsh industrial environments.
Used in airborne equipment, field communication systems, radar devices and military detection equipment. With high durability, wide temperature resistance and excellent sealing, they maintain stable performance under extreme environmental conditions.
Suitable for outdoor optical communication base stations, oilfield monitoring, on-site wiring and field transmission systems. IP68 sealing and salt-spray resistance enable stable hybrid transmission in rainy, dusty and corrosive outdoor environments.
Applied in professional cameras, fiber audio/video transmission equipment, live broadcast systems and studio interfaces. They support high-quality signal transmission with fast plug-pull connection, ensuring stable and efficient on-site work.
A: It is fully compatible with mainstream industry-standard interfaces and features excellent interchangeability. It can directly replace similar standard connectors, reduce equipment replacement and matching costs, and facilitate the integration and upgrade of optoelectronic systems.
A: It adopts a separate structure for fiber cores and electrical pins, using high-temperature-resistant, high-insulation PPS material. This effectively isolates optical and electrical transmission paths, ensuring the two types of signals are transmitted independently without interference.
A: Avoid rough insertion and extraction to prevent damage to the precision fiber core. Keep the fiber contact surface clean and free of dust, oil, or other contaminants. Ensure accurate alignment between plug and socket during connection to avoid optical path deviation caused by mis-mating.
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