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LAN-WDM

DWDM ·Ö²å¸´ÓÃÆ÷Ä £¿é

Green LAN (Local Area Network) Wavelength Division Multiplexer is designed to meet industrial stringent size and loss requirements. Based on Thin-Film-Filter (TFF) and Micro-optics, this low loss LWDM features a small form factor, ultra low insertion loss, high channel isolation, and unparalleled reliability.

Fiber Optical Splitter

Fiber Optical Splitter

Fiber Optical Splitter

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¡ñ Low Insertion Loss
¡ñ High Return Loss
¡ñ Excellent Directivity

Free Space CCWDM-18 channels

Free Space CCWDM-18 channels

Free Space CCWDM-18 channels

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¡ñ Epoxy free in optical path
¡ñ Stable and reliable
¡ñ Compact size

Free Space CCWDM-6+1 channels

Free Space CCWDM-6+1 channels

Free Space CCWDM-6+1 channels

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¡ñ Epoxy free in optical path
¡ñ Stable and reliable
¡ñ Compact size

Free Space CCWDM-8 channels

Free Space CCWDM-8 channels

Free Space CCWDM-8 channels

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¡ñ Epoxy free in optical path
¡ñ Stable and reliable
¡ñ Compact size

FTTX -1310/1490/1550 WDM (1x2)

FTTX -1310/1490/1550 WDM (1x2)

 FTTX 1310/1490/1550 WDM is based on patented athermal platform for optical device. This multiplexer features ultra low insertion loss, superb thermal stability, and unparalleled reliability. The technology is a lead-free packaging platform and contains no epoxies in the optical path. Green OADM is Telcordia GR-1221 and GR-1209 tested, qualified for uncontrolled environment applications, and is in compliance with industry green initiatives such as Rohs and WEEE.

 

LAN-WDM

FWDM ¸´ÓÃ&½â¸´Óà LGXÄ £¿é

 Green LAN (Local Area Network) Wavelength Division Multiplexer is designed to meet industrial stringent size and loss requirements. Based on Thin-Film-Filter (TFF) and Micro-optics, this low loss LWDM features a small form factor, ultra low insertion loss, high channel isolation, and unparalleled reliability.

LAN-WDM

GPON Ä £¿é

Green LAN (Local Area Network) Wavelength Division Multiplexer is designed to meet industrial stringent size and loss requirements. Based on Thin-Film-Filter (TFF) and Micro-optics, this low loss LWDM features a small form factor, ultra low insertion loss, high channel isolation, and unparalleled reliability.

High Isolation 1310/1550 nm Micro-Optic WDM

High Isolation 1310/1550 nm Micro-Optic WDM

High-Isolation Micro-Optic Wavelength Division Multiplexer (HWDM) is based on thin-film filter technology and metal bonding micro-optic packaging. This component is used to combine or separate 1310 and 1550nm band signal. The HWDM device offers a very flat and wide passband, low insertion loss, and much higher isolation than the MWDM device. This product is ideal for high-power Optical Amplification Systems and WDM Network applications. All products are epoxy-free in the optical path.  HWDM devices are Bellcore GR-1221 qualification tested.

LAN-WDM

LAN WDM Ä £¿é

 Green LAN (Local Area Network) Wavelength Division Multiplexer is designed to meet industrial stringent size and loss requirements. Based on Thin-Film-Filter (TFF) and Micro-optics, this low loss LWDM features a small form factor, ultra low insertion loss, high channel isolation, and unparalleled reliability.

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LAN-WDM

LWDM

Green LAN (Local Area Network) Wavelength Division Multiplexer is designed to meet industrial stringent size and loss requirements. Based on Thin-Film-Filter (TFF) and Micro-optics, this low loss LWDM features a small form factor, ultra low insertion loss, high channel isolation, and unparalleled reliability. 

Mini Collimator

Mini Collimator

Mini Collimator

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¡ñ Low IL & High Return Loss High Stability

Monitor CWDM /Demux Rack Mount

Monitor CWDM /Demux Rack Mount

  Features of Monitor CWDM Dual Path Mux/Demux Rack Mount£º

1. Low Insertion Los
 2. High Isolation
 3. Low PDL
 4. Compact Design
 5. Good channel-to-channel uniformity
 6. Wide Operating Wavelength: from 1260nm to 1620nm
 7. Wide Operating Temperature: from -40¡æ to 85¡æ

CWDM²¨·Ö¸´ÓÃÆ÷ºÍDWDM²¨·Ö¸´ÓÃÆ÷µÄÌØÐԱȽÏ

Monitor CWDM Dual Path Mux/Demux Rack Mount

      

Features of  CWDM Dual Path Mux/Demux Rack Mount

1. Low Insertion Loss

2. High Isolation

3. Low PDL

4. Compact Design

5. Good channel-to-channel uniformity

6. Wide Operating Wavelength: from 1260nm to 1620nm

7. Wide Operating Temperature: from -40¡æ to 85¡æ

MPO

MPO

MPO

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¡ñ Low Insertion Loss, High Return Loss
¡ñ Excellent Mechanical Endurance
¡ñ High Reliability And Stability

MWDM-CSU Series

MWDM-CSU Series

Micro-Optic Wavelength Division Multiplexer (MWDM) is based on thin-film filter technology and patented athermal platform systems for optical devices. MWDM-SU is used to add or drop supervisory channels. This device offers a very flat and wide passband, low insertion loss, and high isolation, which make it ideal for high-power Optical Amplification Systems and DWDM Network applications.  MWDM devices are Bellcore GR-1221 qualification tested and are in compliance with industry green initiatives such as Rohs and WEEE. All  products are epoxy-free in the optical path.

 

MWDM-LR/LB Series

MWDM-LR/LB Series

 Micro-Optic Wavelength Division Multiplexer (MWDM) is based on thin-film filter technology and patented athermal platform systems for optical devices. This device offers a flat and wide passband, low insertion loss, and high isolation, which make it ideal for high-power Optical Amplification Systems and DWDM Network applications.  MWDM devices are Bellcore GR-1221 qualification tested and are in comliance with industry green initiatives such as Rohs and WEEE. All  products are epoxy-free in the optical path.

MWDM-LSU Series

MWDM-LSU Series

Micro-Optic Wavelength Division Multiplexer (MWDM) is based on thin-film filter technology and patented athermal platform for optical device. The MWDMLSU offers a flat and wide passband, low insertion loss, and high isolation, which make this device ideal for high-power Optical Amplification Systems and DWDM Network applications. MWDM devices are Bellcore GR-1221 qualification tested and are in compliance with industry green initiatives such as Rohs and WEEE. All products are epoxy-free in the optical path.

MWDMGCR/CB

MWDMGCR/CB

Micro-Optic Wavelength Division Multiplexer (MWDM) is based on thin-film filter technology and patented athermal platform systems for optical devices. This device offers a flat and wide passband, low insertion loss, and high isolation, which make this device ideal for high-power Optical Amplification Systems and DWDM Network applications.  MWDM devices are Bellcore GR-1221 qualification tested and are in compliance with industry green initiatives such as Rohs and WEEE. All  products are epoxy-free in the optical path.

LAN-WDM

PLC+WDMÄ £¿é

 Green LAN (Local Area Network) Wavelength Division Multiplexer is designed to meet industrial stringent size and loss requirements. Based on Thin-Film-Filter (TFF) and Micro-optics, this low loss LWDM features a small form factor, ultra low insertion loss, high channel isolation, and unparalleled reliability. 

Single Channel Coarse WDM OADM

Single Channel Coarse WDM OADM

 single channel Coarse WDM is based on a patented athermal platform for optical devices. This multiplexer features ultra low insertion loss, superb thermal stability, and unparalleled reliability. The technology is a lead-free packaging platform and contains no epoxies in the optical path. Green CWDM is Telcordia GR-1221 and GR-1209 tested, qualified for uncontrolled environment applications, and is in compliance with industry green initiatives such as Rohs and WEEE.

Single Channel CWDM OADM (2x2)

Single Channel CWDM OADM (2x2)

Optical Add/Drop Multiplexer is based on a patented athermal platform for optical devices. This multiplexer features ultra low insertion loss, superb thermal stability, and unparalleled reliability. The technology is a lead-free packaging platform and contains no epoxies in the optical path. Green CWDM is Telcordia GR-1221 and GR-1209 tested, qualified for uncontrolled environment applications, and is in compliance with industry green initiatives such as Rohs and WEEE.

Standard Jumper

Standard Jumper

Standard Jumper

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¡ñ Low insertion loss, high return loss
¡ñ Excellent mechanical endurance ?
¡ñ High reliability and stability

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