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A 100G cable module based on qsfp28 interface

A receiving module and interface technology, applied in the field of optical modules, can solve the problems of unsuitable HOST terminal connection, single electrical connection, poor transmission performance, etc., and achieve the effect of diversified electrical connections, strong practicability, and good scalability

Active Publication Date: 2018-05-11
成都新易盛通信技术股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The existing QSFP28 module does not have CDR technology, and directly uses cables to connect one QSFP28 interface to another QSFP28 interface, but this connection method has the following disadvantages: 1. Since the existing QSFP28 module does not use CDR technology, Resulting in poor transmission performance and short transmission distance; 2. The existing QSFP28 module is only connected to another QSFP28 interface through a cable, but not interconnected with other types of module interfaces, so it cannot be applied to a variety of different interface types The connection between the HOST terminals, the electrical connection is single, and the practicability is poor

Method used

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  • A 100G cable module based on qsfp28 interface
  • A 100G cable module based on qsfp28 interface
  • A 100G cable module based on qsfp28 interface

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] figure 1 Shown is a block diagram of a 100G cable module based on a QSFP28 interface shown in a specific embodiment of the present invention,

[0034] Including QSFP28 interface 1, CDR receiving module 2, MCU4, cable interface 5,

[0035] The CDR receiving module 2 is respectively connected to the cable interface 5 and the QSFP28 interface 1 for receiving the first signal sent by the cable interface 5, and the CDR receiving module 2 converts the first signal into the first signal A processing signal, and sending the first processing signal to the QSFP28 interface 1;

[0036] The MCU4 is respectively connected to the CDR receiving module 2 and the QSFP28 interface 1, and is used to send first control information to control the operation of the CDR receiving module 2;

[0037] The CDR receiving module 2 is also used to send the first status signal to the MCU4, and the MCU4 is also used to process the first status signal or send the first status signal to the host comput...

Embodiment 2

[0043] image 3 Shown is a block diagram of a 100G cable module based on a QSFP28 interface shown in a specific embodiment of the present invention. The module in this embodiment includes the content in Embodiment 1, and the only difference is that it also includes a CDR sending module 3,

[0044] The CDR sending module 3 is connected to the cable interface 5 and the QSFP28 interface 1 respectively, and it is used to receive the second signal sent by the QSFP28 interface 1, and the CDR sending module 3 converts the second signal into the second signal. secondly process the signal, and send the second processed signal to the cable interface 5,

[0045] The MCU4 is respectively connected to the CDR sending module 3 and the QSFP28 interface 1, and is used to send third control information to control the operation of the CDR sending module 3;

[0046] The CDR sending module 3 is also used to send the second status signal to the MCU4, and the MCU4 is also used to process the secon...

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Abstract

The invention discloses a 100G cable module based on a QSFP28 interface, including a QSFP28 interface, a CDR receiving module, an MCU, and a cable interface. The CDR receiving module is respectively connected to the cable interface and the QSFP28 interface for receiving the The first signal sent by the cable interface, the CDR receiving module converts the first signal into a first processed signal, and sends the first processed signal to the QSFP28 interface; the MCU is respectively connected to the CDR The receiving module is interfaced with the QSFP28, and is used to send the first control information to control the operation of the CDR receiving module; the CDR receiving module is also used to send the first status signal to the MCU, and the MCU is also used to process all The first status signal or send the first status signal to the host computer through the QSFP28 interface for processing, and the CDR receiving module is also used to receive the second control information sent by the host computer through the QSFP28 interface. In the present invention, by adding a CDR module, the overall transmission performance of the module is good and the transmission distance is long.

Description

technical field [0001] The invention relates to the field of optical modules, in particular to a 100G cable module based on a QSFP28 interface. Background technique [0002] The development of the information industry has put forward higher requirements for high-speed transmission, which requires optical modules to have better transmission performance and flexibility to correspond to various electrical interfaces. [0003] The existing QSFP28 module does not have CDR technology, and directly uses cables to connect one QSFP28 interface to another QSFP28 interface, but this connection method has the following disadvantages: 1. Since the existing QSFP28 module does not use CDR technology, Resulting in poor transmission performance and short transmission distance; 2. The existing QSFP28 module is only connected to another QSFP28 interface through a cable, but not interconnected with other types of module interfaces, so it cannot be applied to a variety of different interface typ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01R31/06H01R13/66
Inventor 张居林黄晓雷肖影沈洋西张洪强张夏
Owner 成都新易盛通信技术股份有限公司