The QSFP28 ER1 BIDI optical module features a 1304.58nm EML laser and an APD receiver, with an LC interface. It consumes less than 4.5W of power, operates within a temperature range of 0 to 70°C, supports Digital Diagnostics Monitor (DDM), and can transmit data over a single-mode fiber for up to 40km.
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Our product offerings
Our optical modules cover speeds of 10G, 16G, 25G, 40G, 100G, 200G, 400G, and 800G, with a 1.6T module currently under development.
With outstanding performance and versatility, our products cater to a wide range of applications, precisely meeting diverse business requirements to ensure the efficient operation of your network.
With outstanding performance and versatility, our products cater to a wide range of applications, precisely meeting diverse business requirements to ensure the efficient operation of your network.
850127113111304.581273.54/1273.551294.53 – 1296.598511309.141310DWDM1264.5 – 1277.51284.5 – 1297.51530.331535.041539.771544.538819119411304.5 – 1317.51324.5 – 1337.512911331CWDM1270149015501306.851309.131311.421277.891282.261286.661295.561300.051299.02 – 1301.091303.54 – 1305.631308.09 – 1310.19
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﹣4.6 ~ 4dBm﹣2.9 ~ 4dBm﹣3.1 ~ 4dBm﹣3.2 ~ 4.4 dBm﹣3.3 ~ 3.5dBm﹣0.1 ~ 4.2dBm(OMA)﹣2.8 ~ 4dBm(OMA)1.1 ~ 5dBm(OMA)4.5 ~ 7.9dBm﹣0.6 ~ 5.6dBm﹣6.5 ~ 4dBm/﹣4.2 ~ 4.7dBm1 ~ 7dBm1 ~ 6.5dBm﹣5.5 ~ 3dBm﹣8.4 ~ 2.4dBm﹣4.4 ~ 4dBm﹣6 ~ 2dBm1.5~ 5.5dBm﹣4.3~ 4.5dBm1.1~ 5dBm﹣0.1~ 4.2dBm﹣2~ 6.5dBm﹣2.9~ 2.9dBm﹣4.7~ 7.9dBm﹣1~ 4dBm﹣0.8~ 4.5dBm﹣6.5~ 2.5dBm1~ 5dBm﹣5.5~ 3dBm2~ 7dBm﹣7~ 2.3dBm﹣7~ 4.3dBm﹣8.4~ 2.4dBm0~ 5dBm﹣7~ 2dBm0~ 6dBm﹣3~ 6dBm0~ 4dBm﹣7.3~ 1dBm﹣4.7~ 4dBm﹣2~ 4dBm
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﹣6.4+TECQ@1.8<TECQ≦4.4dB<-4.3dBm@2.4E-4< -4.5dBm@2E-4< -4.6dBm@2E-4﹣4.4+TECQ@1.8<TECQ≦4.4dB<﹣4.4dBm(OMA)≤-4.6dBm,-6+SECQ<﹣4.5dBm(OMA)≤-6.6dBm,-8+SECQ≤-6.1dBm(OMA)<-14dBm≤-16.1dBm,SECQ-17.5≤-6.5dBm,-7.9+SECQ≤-3.9dBm,SECQ-5.3/≤-6.5dBm@SECQ=1.4dB≤-6dBm2.4E-4(PER)≤-27dBm≤-9.4dBm@5E-5≤-10.3dBm@5E-5≤-6.6dBm,SECQ-8@5E-5≤-11.4dBm@5E-5≤-8.6dBm@5E-5≤-6.1dBm@5E-5≤-4.5dBm@5E-5≤-19dBm@5E-5≤-20.9dBm@5E-5≤-13.8dBm@5E-5≤-12.5dBm@4E-3≤-3.9dBm@5E-5≤-10dBm@5E-5≤-25dBm@5E-5≤-9.1dBm@5E-5≤-18dBm@5E-5≤-24dBm@5E-5≤-11.5dBm@5E-5≤-10.5dBm@5E-5≤-28dBm@5E-5≤-10.2dBm@5E-5≤-14dBm@5E-5≤-16dBm@5E-5≤-12dBm@5E-5≤-23dBm@5E-5≤-11.1dBm@5E-5≤-14.4dBm@5E-5
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QSFP28 ER1 BIDI
QSFP28 ER1
The QSFP28 ER1 optical module features a 1310nm EML laser and an APD receiver, equipped with an LC interface. It consumes less than 4.5W of power and operates within a temperature range of 0 to 70°C. The module supports Digital Diagnostics Monitoring (DDM) and can transmit data over single-mode fiber for up to 40 kilometers.
Learn more>QSFP28 ZR DWDM
The QSFP28 ZR DWDM optical module features a 4x25G electrical interface and an LC connector, with a power consumption of ≤5W, operating within a temperature range of 0~70°C. It supports Digital Diagnostics Monitoring (DDM) and is suitable for data center interconnect applications, capable of transmitting over 80km on G.652 single-mode fiber.
Learn more>QSFP28 DR1
The QSFP28 DR1 optical module features 1310nm EML lasers, PIN receivers, and LC interfaces, with a power consumption of less than 4W, operating from 0 to 70°C, supporting Digital Diagnostics Monitor (DDM), and capable of transmitting 500m over 9/125μm single-mode fiber.
Learn more>QSFP28 FR CWDM
The QSFP28 FR CWDM optical module features a 4x25G electrical interface and LC connector, with a power consumption of less than 3.5W, an operating temperature range of 0 to 70°C, and supports Digital Diagnostics Monitor (DDM). It is designed for data centers and other applications, supporting transmission over 2km on G.652 single-mode fiber. Dtuy
Learn more>QSFP28 CLR4
The QSFP28 CLR4 optical module features a 4x25G electrical interface and LC connector, with a power consumption of less than 3.5W, operating temperature range from 0 to 70°C, and supports Digital Diagnostics Monitor (DDM). It is designed for use in data centers and other applications, supporting 10km transmission over G.652 single-mode fiber. Dtuy
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QSFP+DWDM
The QSFP+ DWDM optical module features a 4x10G electrical interface and an LC connector, with a power consumption of less than 4.5W, and operates within a temperature range of 0 to 70°C. It supports Digital Diagnostics Monitor (DDM) and is suitable for 40G Ethernet and other applications. It can transmit data over 100km on G.652 single-mode fiber.
Learn more>QSFP+SWDM4
The QSFP+SWDM4 optical module features 4x10G electrical interfaces and LC connectors, with a power consumption of less than 3.5W, operating from 0 to 70°C, and supporting Digital Diagnostics Monitor (DDM). It is designed for 40G Ethernet applications and can transmit data up to 350 meters over OM4 multimode fiber.
Learn more>QSFP+ZR4
The QSFP+ ZR4 optical module features 4x10G electrical interfaces and LC connectors, with a power consumption of less than 4.5W, operating temperature range from 0 to 70°C, and supports Digital Diagnostics Monitor (DDM) and can transmit data up to 80Km over G.652 single-mode fiber.
Learn more>QSFP+ER4
The QSFP+ ER4 optical module features 4x10G electrical interfaces and LC connectors, with a commercial power consumption of less than 4.5W. It operates in a temperature range of 0 to 70°C and supports Digital Diagnostics Monitor (DDM). It is designed for use with G.652 single-mode fiber, enabling transmission over 40 kilometers.
Learn more>QSFP+LR4
The QSFP+ LR4 optical module features 4x10G electrical interfaces and LC connectors, with a commercial power consumption of less than 3.5W. It operates within a temperature range of 0 to 70°C and supports Digital Diagnostics Monitoring (DDM). It is designed for 10km transmission over G.652 single-mode fiber. Dtuy
Learn more>QSFP+LX4
The QSFP+ LX4 optical module features 4x10G electrical interfaces and LC connectors, with a power consumption of less than 3.5W. It operates within a temperature range of 0 to 70°C and supports Digital Diagnostics Monitoring (DDM). It can transmit up to 2 kilometers over single-mode fiber (SMF), 100 meters over OM3, and 150 meters over OM4.
Learn more>Recommended for You
Frequently Asked Questions (FAQ)
Discover more about us
Why is there such a big price difference for optical modules
The factors that affect the price of optical modules mainly include speed, transmission distance, packaging process and chip, compatibility and reliability testing. When choosing, one should not only consider the price, but also the performance and service. Aoyuan Optoelectronics modules adhere to low-power design and strict testing standards in high-speed products such as 400G/800G, balancing stability and cost-effectiveness, helping customers achieve higher network reliability and long-term value while controlling costs.
How to determine the reliability of an optical module manufacturer
To determine the reliability of optical module manufacturers, one can consider several aspects such as R&D and technical strength, product line integrity, testing and quality control, service and support, and customer and market applications. Choosing Aoyuan optical modules is not only about buying products, but also about buying guarantees.
How to choose the appropriate optical module
When choosing an optical module, the following factors are mainly considered: speed (such as 100G, 400G, 800G); Transmission distance (short distance SR, medium distance LR, long distance ER/Zr); Fiber type (single-mode or multi-mode); Packaging forms (SFP, QSFP, QSFP-DD, etc.); Compatibility (requires confirmation of compatibility with switches and routers), Aoyuan Guangtong will provide complete selection guidance and after-sales service to help users reduce deployment risks.
Why choose Aoyuan Optical Module
As a provider of intelligent optical network solutions, Aoyuan Guangtong, backed by Aoyuan Group, has profound technological accumulation and research and development capabilities. Its optical module products cover high-speed series such as 400G and 800G, meeting the needs of multiple scenarios such as data centers, cloud computing, 5G, AI computing power, etc. Compared to similar products on the market, the Aoyuan optical module has outstanding performance in low-power design, stability, and compatibility, supporting large-scale cluster deployment and running more efficiently and reliably.
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