Data Sheet 9725A CRYSTAL CLOCK OSCILLATORS HS-1530 TTL Rev. H Continued Operating Conditions and Output Characteristics Electrical Characteristics Parameter Frequency Duty Cycle Logic 0 Logic 1 Rise & Fall Time Tpz Jitter, RMS(2) Frequency Stability (1) Symbol Conditions ------------@ VCC/2 VOL @ 8mA VOH @ 0.4mA tr,tf @ 0.4 to 2.4V ----------------dF/F Overall conditions including: voltage, calibration, temp., 10 yr aging, shock, vibration Min 80.0MHz 40/60% ----2.4V -------------100ppm Typical ----------------1 ns ------------- Max 140.0MHz 60/40% 0.4V ----3 ns 5 ms 5 psec +100ppm Min 4.75V 0.0 mA 0.0 mA 0°C -55°C ----------------- Typical 5.0V --------------------------------- Max 5.25V 80 mA ±16.0 mA 70°C 125°C 420 mW 300°C 10TTL gate 10 ms General Characteristics Parameter Supply Voltage Supply Current Output current Operating temperature Storage temperature Power Dissipation Lead temperature Load Start-up time Symbol VCC ICC IO TA TS PD TL ---tS Conditions ----No Load ----------------Soldering, 10 sec. --------- Environmental and Mechanical Characteristics Mechanical Shock Thermal Shock Vibration Soldering Condition Hermetic Seal Per MIL-STD-202, Method 213, Condition E Per MIL-STD-833, Method 1011, Condition A 0.060" double amplitude 10 Hz to 55 Hz, 35g’s 55Hz to 2000 Hz 300°C for 10 seconds Leak rate less than 1 x 10 -8 atm.cc/sec of helium Footnotes: 1) Standard frequency stability (±20,±25,±50ppm & others available) 2) Jitter performance is frequency dependent. Please contact factory for full characterization. RMS jitter bandwidth of 12kHz to 20MHz. Test Load: Creating a Part Number HS - X153X - FREQ Package Code HS Leaded 4 pin (14 pin) SM Leaded 4 pin (14 pin) SMD Gull Wing Input Voltage Code Specification A 3.3V 5V Tolerance/Performance 0 ±100ppm 0-70°C 1 ±50ppm 0-70°C 7 ±25ppm 0-70°C 9 Customer Specific A ±20ppm 0-70°C B ±50ppm -40 to +85°C C ±100ppm -40 to +85°C 357 Beloit Street, P.O. Box 457, Burlington, WI 53105-0457 U.S.A. Phone 262/763-3591 FAX 262/763-2881 Email: [email protected] www.nelfc.com