Certifying duplex SC to SC singlemode links - CertiFiber Pro

This article describes the correct method for certifying duplex SC to SC singlemode using the CertiFiber Pro. This method meets the requirements of ANSI/TIA and ISO/IEC standards. It is also the method required for warranty applications with cabling vendors. As with all fiber testing, inspection is a critical component to successful certification. Without inspection, you may end up damaging the installed connectors. The CertiFiber Pro has a USB camera option for the inspection of end face connectors. Users are encouraged to take advantage of this. Additionally, the CertiFiber Pro with the USB camera option can automatically grade a fiber end face to IEC 61300-3-35 Ed 2, in around one second. Various tips are available including APC and MTP.


Before proceeding to test, ensure you have the correct test limit configured for your CertiFiber Pro. We cannot tell you which test limit to select as cabling vendors offering warranties often have stricter requirements than those found in ANSI/TIA and ISO/IEC standards. In this example, we shall use ANSI/TIA-568.3-E as our test limit. If you are using ISO/IEC limits or vendor specific limits, the test methodology described here is the same. Failing to use a 1 jumper reference for the testing of installed links could result in the rejection of your warranty application. It could also lead to negative loss results.

Test reference cords (TRCs)
If the TRCs are bad, your test results will be bad too. It represents the largest volume of calls for support. The procedure found here includes a method to verify your TRCs before and during testing. The Fluke Networks TRCs use reference grade connectors (≤ 0.20 dB) in accordance with IEC 61280-4-2 and ANSI/TIA-526-7-A standards. Note that patch cords from a distributor are typically rated ≤ 0.50 dB and may fail the TRC verification check below.

  • SRC-9-SCSC-KIT: Singlemode test reference cord kit (2 m) for testing SC terminated fibers (4 SC/SC)

Setting up your CertiFiber Pro

  2. Enter a name for your project "KB Article Example" followed by DONE. (It can be renamed later if necessary)
  3. With the fiber module inserted you will see the following screen:

    If not, tap the area under Test Setup > Module and change to CertiFiber Pro.
  4. Tap Smart Remote above to see the following options:
  5. Tap Fiber Type and select a singlemode cable - this will then allow you to select singlemode test limits.
  • Test Type: This governs the type of test. Since we are testing a duplex link, leave it as Smart Remote.
  • Bi-Directional: The standards and most cabling vendors do not require this for Tier 1 testing - check your test specification.
  • Fiber Type: This changes the refractive index setting which is used to determine the length of the fiber under test.
  • Test Limit: It is critical to get in writing the test limit you are to use. There may be a custom test limit requirement for your installation.
  • Reference Method: This must be set to 1 Jumper when link testing for warranty applications. Changing this can affect your loss budget (test limit).
  • Connector Type: Set to SC, noting this has no impact on the outcome of the test results.
  • No. of Connections/Splices: This directly affects the loss budget (test limit) used for standards such as TIA and ISO where the loss budget is based on the number of connections, splices and length of fiber. Unlike DTX, simply enter the number of connections and splices present in a single strand of fiber. CertiFiber Pro will take care of the math for you based on your Reference Method setting.

Setting the reference
The leading cause of negative loss/optimistic looking results is the use of the 2 jumper reference. That's where the reference is set using 2 jumpers and a bulkhead adapter - shown below. You may have been doing this for the past 20 years, but this reference method is incorrect for the testing of installed links.


Follow these instructions and your negative losses will be a thing of the past.

  1. Power on the main and remote sources. Allow them to stabilize. If the instruments have been sitting in the location of your test area, 5 minutes is usually long enough. If there is a significant temperature change from where they were stored to where you are using them, you will need to allow them to stabilize for much longer. We shall check the sources for stability during this procedure.
  2. From the HOME screen, tap SET REF > RUN WIZARD > NEXT.
  3. Connect the main and remote units together: (Ensure the TRCs are laid out straight)


    (If you get Warning: Check fiber connections. The measured power levels are outside the range expected...... Tap OK > View Reference. Look to the fiber with the lower reference power, where -10 dBm is worse than -6 dBm. Inspect and clean the TRC. You may need to clean the OUTPUT port on your module too. Once done, press HOME and start the procedure again.)
  5. Tap NEXT and disconnect the TRCs from the INPUT ports (never disconnect from the OUTPUT ports)

  6. Tap NEXT and insert your known good SC to SC TRCs into the INPUT ports:

  7. Tap NEXT, then join the main and remote together using singlemode rated bulkhead adapters.

  8. Tap NEXT > TRC Verification to verify the TRCs performance.
  9. The goal for singlemode is better than 0.25 dB. Losses greater than 0.25 dB will adversely affect the losses reported when you test your installed link.
    The results of the TRC verification are automatically stored in the Versiv mainframe. The Cable ID used to store the TRC verification is based on the date and time the verification was carried out. In the example above, we know it was done May 20, 2015 at 8:01 am. If you wanted to ensure your sources have stabilized, you could tap RE-VERIFY to see if the outcome changed. If it changes by more than ± 0.02 dB, your sources have not stabilized.
  10. Tap NEXT and disconnect the units from the bulkhead adapters.

  11. Press the HOME key - you are now ready to test.
  12. Connect to your link.

  13. Press TEST and in 3 seconds you will have certified both fibers at 1310 nm and 1550 nm.

Note: Consider adding a requirement to verify your TRCs every 500 tests. Include the results of the TRC verification with your certification results.