Symmetricom SyncServer 'NO SYNC' FIX Replacement GPS Receiver Timing Card Module (iLotus M12M)-www.prostudioconnection.com
Symmetricom SyncServer 'NO SYNC' FIX Replacement GPS Receiver Timing Card Module (iLotus M12M)-www.prostudioconnection.com

Symmetricom SyncServer 'NO SYNC' FIX Replacement GPS Receiver Timing Card Module (iLotus M12M)

( GPS_Upgrade_Card) )

Regular price $488.00 $0.00      (2 available in stock)

Note this item is subject to a 7 calendar day return policy from the date that it is delivered, as the sales window is obviously very narrow.  Please only purchase if you accept this constraint. 

A replacement GPS receiver card for Symmetricom SyncServer clocks that lost time sync on 18th September 2022 due to a week number roll over event in the OEM cards supplied by Furuno.  This card just replaces the failed card to restore correct timekeeping (you may need to perform a factory reset of the server to reset the internal clock).   The buyer is responsible for installing the card and is expected to have basic engineering skills and tools.  Technical support is not included, but the job is straightforward.  The card is held in place by four screws and provided that care is taken to insert the 10 connection pins on the underside carefully before the screws are re-inserted and to re-connect the antenna pigtail cable by pressing the connector square to the circuit board so as to avoid bending the center pin you should be fine.  Anti-static precautions should be observed during the procedure and the power cable should be disconnected.  The card may take a little longer than normal to achieve lock when first used as it will need to download the GPS almanac and triangulate its position.  Subsequent cold starts should be quicker.  The card has a production date of 2014 (or later) so it will not experience a week number roll over until 2033 at the earliest.

Features
  • 12 Channel simultaneous operation
  • Fully calibrated to UTC at USNO
  • Performance using clock granularity message
  • < 2nS 1 Sigma average
  • < 6nS 6 Sigma average
  • Performance not using clock granularity message
  • < 10nS 1 Sigma average
  • < 20nS 6 Sigma average
  • 155mW Power consumption

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