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Receiving end hard pin connection circuit based on 10G EPON ONU BOB optical module

A technology for connecting circuits and CPU modules, applied to printed circuits, electromagnetic receivers, printed circuit components, etc., can solve problems such as high material cost, high processing difficulty, and difficulty in automated production

Active Publication Date: 2020-04-10
SICHUAN TIANYI COMHEART TELECOM
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a receiving end hard-pin connection circuit based on a 10G EPON ONU BOB optical module, which is used to solve problems in the prior art, such as: the current market mainstream design is to use a flexible circuit board (FPC) to connect to reduce The impact of impedance mismatch on high-speed signals; however, the use of flexible circuit boards to ensure product performance also brings many problems, such as high processing difficulty, difficulty in achieving a high degree of automated production, and high material costs

Method used

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  • Receiving end hard pin connection circuit based on 10G EPON ONU BOB optical module
  • Receiving end hard pin connection circuit based on 10G EPON ONU BOB optical module
  • Receiving end hard pin connection circuit based on 10G EPON ONU BOB optical module

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Embodiment

[0028] like figure 1 shown, based on the receiving end hard pin connection circuit of the 10G EPON ONU BOB optical module, comprising a CPU module, a PMD module and a BOSA module, the CPU module connects the PMD module by a differential line, and the PMD module is connected by a differential line. The BOSA module described above;

[0029] Among them, it also includes a boosting module, the output end of the PMD module is connected to the input end of the boosting module through the PWM wiring and the FB wiring of the APD respectively, and the output end of the boosting module is routed through the BIAS of the APD. The line is connected to the receiving end of the BOSA module, and the RX+ pin and the RX- pin of the BOSA module are both connected to the input end of the PMD module through a differential line.

[0030] In the above scheme, after the ONU receives the optical data signal, the BOSA module converts it into a current signal through the internal photodiode (or avalanc...

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Abstract

The invention discloses a 10G EPON ONU BOB optical module-based receiving end hard pin connection circuit, which comprises a CPU module, a PMD module and a BOSA module, and is characterized in that the CPU module is connected with the PMD module through a differential line, and the PMD module is connected with the BOSA module through a differential line; the LED lamp further comprises a boosting module. The output end of the PMD module is connected with the input end of the boost module through a PWM wire and an FB wire of an APD. The output end of the boost module is connected with the receiving end of the BOSA module through a BIAS wire of an APD, and an RX + pin and an RX-pin of the BOSA module are connected with the input end of the PMD module through differential wires. According to the invention, the TO46 gold pin of the receiving end of the optical device does not pass through a flexible circuit board through various modes of optimizing PWM and FB wiring of the APD, shortening the length of a differential line and carrying out impedance control, independently supplying power to the receiving end circuit of the BOSA module and the like; and moreover, the sensitivity and the bit error rate level are not worse than those of a circuit connected by using a flexible circuit board, so that the production process difficulty and the material cost are reduced.

Description

technical field [0001] The invention belongs to the technical field of optical fiber communication, and in particular relates to a hard-pin connection circuit of a receiving end based on a 10G EPON ONU BOB optical module. Background technique [0002] 10G EPON is designed with reference to the standard IEEE 802.3av. At present, 10G EPON has many applications. The 10G EPON deployed in the global network has begun to take shape, most of which are concentrated in China. China Telecom has carried out several 10G EPON performance tests. The 10G EPON equipment is mature and interoperable, and can be commercialized in FTTB application scenarios. The user MDU cost has only increased by 5% to 20%, and the bandwidth has increased by 10%. times, the cost per M bandwidth has dropped significantly. [0003] Home gateway (ONU) products used in 10G PON network use a 10.3125Gbps transmission rate in the downstream direction, and at the same time, in order to improve the optical signal gain...

Claims

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Application Information

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IPC IPC(8): H04B10/60H05K1/02H04Q11/00
CPCH04B10/60H04Q11/0067H05K1/0245H05K1/025
Inventor 王旭东李超群薛亚芬
Owner SICHUAN TIANYI COMHEART TELECOM
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