Operation, Features, Hardware features – Trimble Outdoors THUNDERBOLT 64057-00-ENG User Manual
Page 12: Interface protocols, Operation features, Hardware features interface protocols
1 Introduction
10 Trimble ThunderBolt E GPS Disciplined Clock User Guide
Operation
The ThunderBolt E GPS disciplined clock provides time and frequency through a
12-channel GPS receiver and a high-quality ovenized quartz oscillator integrated onto
a single printed circuit board. Tightly integrating GPS into the clock design eliminates
the need for a separate GPS receiver. This results in better reliability, a smaller size, and
a cost advantage.
The board in the ThunderBolt E consists of one board with GPS and a 24 V power
supply regulator. This power supply regulator ensures clean, robust power to the GPS.
The board can support several different oscillators for applications having stringent
holdover requirements.
The ThunderBolt E is ready to use out of the box for most applications. When a
+24 VDC power source is applied, the ThunderBolt E will begin to track satellites—
four satellites are required to begin the self-survey process. At the same time the
oscillator will come up to operating temperature and stabilize, outputting the 1 PPS
and reference frequency.
To get the most from your time reference, you can customize the ThunderBolt E using
the Trimble binary interface, TSIP (Trimble Standard Interface Protocol). For more
information, see
Appendix A, Trimble Standard Interface Protocol
Features
Hardware features
•
A single printed circuit board containing
–
A quality ovenized oscillator
–
A 12-channel GPS receiver
–
Control circuitry
•
Easy integration with the Trimble Bullet
™
antenna
•
Easy calibration for different cable lengths
•
Output
–
10 MHz reference signal output via BNC connector
–
1 PPS output with an Over-determined solution synchronized to GPS or
UTC time
Interface protocols
The ThunderBolt E uses the Trimble Standard Interface Protocol (TSIP). This is a
binary packet protocol that allows the system designer maximum configuration
control over the GPS receiver for optimum performance in timing applications. TSIP