OCO-M36ADS Double oven through hole OCXO Sine wave Features Applications: GPS, CDMA, 3G, 4G High frequency stability vs. temperature (up to ±2 x 10-10) Low phase noise: < -160 dBc/Hz @ 10 kHz Parameter Specification Frequency range Standard frequencies Frequency stability vs. operating temperature range 5.0000 ~ 10.0000 MHz 5.000, 8.1920 & 10.000 MHz ≤ ±5 x 10-10 over -40 ~ +70 °C ≤ ±3 x 10-10 over -20 ~ +70 °C ≤ ±2 x 10-10 over 0 ~ +55 °C ±5 % ≤ ±1 x 10-10 -10 ±5 % ≤ ±1 x 10 1st year ≤ ±2 x 10-8 -12 < 5 x 10 Allan deviation per 1 s sine wave > 400 mV (rms) 50 Ω ±5 % +12 V ±5 % < 700 mA < 150 mA < 10 min < ±5 x 10-8 @ +25 °C > ±0.4 ppm positive slope 0 ~ +5.0 V +5.0 V < -100 dBc/Hz @ 1 Hz < -130 dBc/Hz @ 10 Hz < -148 dBc/Hz @ 100 Hz < -155 dBc/Hz @ 1 kHz < -160 dBc/Hz @ 10 kHz > 30 dBc 0 ~ +55 °C, -20 ~ +70 °C or -40 ~ +70 °C -55 ~ +85 °C 19 mm vs. supply voltage change vs. load change vs. aging after 30 days of operation Short term stability Output waveform Output load Supply voltage Peak current consumption during warm-up time Steady-state current consumption @ +25 °C Warm-up time Frequency pulling range Vcontrol (Vc) via external voltage Reference voltage output (Vref) Phase noise @ 10 MHz carrier frequency Harmonics Operating temperature range Storage temperature range Case height /H) Pin function #1 #2 #3 #4 #5 Vc Vref Vdc RF output GND Circuit diagram CBP = 0.01 mF ZOUT = 50 Ω 2002/95/EC RoHS compliant QuartzCom AG [email protected] www.quartzcom.com QuartzCom Asia [email protected] QuartzCom USA [email protected] 12 Dec. 10