Orolia Announces Successful Synchronization with SecureSyncand Satelles STL Signal
March 22, 2017
GPS Timing Integration for Small Form Factor PDRS
March 24, 2016
Spectracom’s TSync bus-level timing platform was integrated into a new small, rugged, Passive Detection and Reporting System (PDRS) to receive GPS, discipline an onboard rugged ovenized crystal oscillator and generate high precision time and frequency signals for system synchronization. It also delivers GPS coordinates for the system.
The development of the system greatly benefited from Spectracom's customization-to-COTS approach by adapting the platform into a standard VPX-based card without the need for non-recurring engineering charges. It offered the necessary ruggedization, small size, and low weight and power consumption to meet the goals of system portability, and is available with secure SAASM GPS.
Priority Healthcare Uses Time Synchronization to Comply with Regulations and Reduce Risk
July 26, 2015
Priority Healthcare uses a GPS time server to enhance security and authentication, as required by HIPAA and Sarbanes Oxley. Receiving time through a GPS signal from behind the network firewall protects confidential patient information and greatly decreases security risk of unsecure and unreliable time.
Dawson Creek Fire Department
September 13, 2012
The Dawson Creek Fire Department had a problem. The clock on the wall showed a different time than the computer clock, which had a different time than devices recording the mergency calls routed through the department. Times noted on manual documentation did not always match times from the recording devices. DCFD was not using a true official time reference to maintain consistent records as is the best practice in public safety answering points.
Precise Sub-Microsecond Timing Solution Delivered for High Frequency Trading
August 27, 2012
Thesys Technologies solved these requirements: (1) a highly reliable and accurate GPS-source of time; (2) The ability for the GPS time server to distribute time to multiple networks and physical locations; (3) Sub-microsecond synchronization between company servers and the GPS time server; (4) Eliminate any potential backward time adjustment that was observed with a PTP client as correctly sequenced events is a must.
