The Application of Hardened Crystal Reference Oscillators into the Hardende Subminiature Telemetry and Sensor System (HSTSS) Program

摘要

This paper briefly reports on concepts for hardening (physically toughening) crystal reference oscillators for the highly integrated program known as HSTSS. Within the HSTSS program is the L & S band transmitter development contract. The harshest requirements for this contract are surviving and functioning, to within 20 ppm of its center frequency, 30 ms after sustaining a shock pulse of 100,000 (g) for 0.5 ms on any axis. Additional requirements call for the transmitter to be no larger than 0.2 in~3, and to operate within a 20 ppm frequency stability throughout the temperature range of -40~0 to +85~0 centigrade and during centrifugal spins of up to 300 Hz or 25,000 (g). Fundamentally the question is, is it feasible for any telemetry system to be capable of withstanding such harsh conditions and, to be practical on all DoD Test Ranges, still adhere to the stability tolerance guidelines set forth by the Range Commanders Council on Telemetry Standards - IRIG 106-96? Under "normal" conditions, stability requirements for "Range" transmitters are easily satisfied through the use of off-the-shelf crystal reference oscillators which provide the reference frequencies required within a transmitters' phase lock loop circuitry. Unfortunately, the oscillator is also the most vulnerable part of a transmitter to the conditions losted and is the key to this problem. the oscillator's weak points are in its resonator's fragile quartz structure (the blank) and support mechanism. The challenge is to invent and adapt this area to these newere harsher conditions and to do it in the smallest space ever required.