What Kind Of Testing Procedures Are Essential To Determine The Quality Of Compatible Dell Transceivers?

With the increasing popularity of optical networks and the development of optical communication technology in data centers, campuses, and enterprises, the requirements for quality optical modules like compatible Dell transceivers are becoming more and more prominent. To ensure the quality and standard performance of transceivers, it needs to undergo stringent quality testing procedures before shipment.

If you are looking for fiber optical Dell transceivers and other essential components, you should consider utilizing third-party compatibles such as those from HPC Optics. You may also need to determine whether the shortlisted optical module received industry certification after the following quality testing.

  • Transceiver Testing Before Assembly

Incoming Quality Control (IQC) and surface-mounted module inspection are essential to fiber optic Dell SFP transceivers before their components are assembled. The IQC is the reliable inspection process that controls the quality of fiber optic materials and parts for manufacturing an SFP transceiver before the production starts. The third-party transceiver supplier needs to test the optical emitting module (TOSA), optical receiving module (ROSA), an optical transmitting and receiving module (BOSA) to keep a track of the quality and performance of the Dell transceivers.

  • Dell SFP Transceiver Testing After Assembly

Like before the assembly of the transceiver’s component testing is essential, similarly, it is an important process after the assemble to ensure the quality. Once the assembly of the optical transceiver is completed, a number of industry-standard tests are scheduled to determine the signals at the transmitting end (TX) and receiving ends (RX). When the testing parameters like average output optical power, extinction ratio, optical modulation amplitude (OMA), bit error rate (BER) tests, and so on are compliant with the MSA standard, the networking performance and the quality of optical modules like transceiver after assembly can be justified.

  • Aging Test

Manufacturers in general, use the optical aging boxes to comprehend the extreme working potential of the transceivers and evaluate whether the performance of the transceiver is compliant with the par standard. Once the aging test of the optical dell SFP transceiver is done, the network transmitter and receiver need to be rigorously tested to determine whether the optical power, extinction ratio, and sensitivity parameters meet the expectations.

  • Compatibility Test

This test is specifically to check the compatibility of third-party Dell transceivers and its other optical modules. HPC Optics’ compatible Dell transceiver is programmed into various corresponding brand switches to test whether it can operate on the switches conveniently or creates a technical problem. This compatibility inspection can help to avoid major pitfalls that are beyond repair and make sure that all the components of transceivers meet the quality standard requirements as expected.

  • End-Face Inspection

After passing through the above critical inspection test, the shortlisted optical transceiver and its component are inspected on the microscope to test if there are dirt and scratches present. The transceiver can be easily contaminated when it is plugged directly into or removed from the network equipment frequently. Therefore, the end-face inspection test of the proposed Dell equivalent SFP transceiver is essential before the final process of shipment to ensure that the module is precisely clean.

A qualified fiber optic compliant dell transceiver must be tested rigorously to ensure the reliability and durability of the module. You need to make sure that the transceiver must qualify all these stringent quality testing processes.