SU-A29B0 Series Differential Positive ECL (DPECL) SU-A29B0 Series Rev D Frequency Range: 300.0MHz to 1.7GHz Description The SU-A29B0 Series of quartz crystal oscillators provide DPECL Fast Edge compatible signals. This device is intended to operate on positive voltage for PECL applications. Features Size, mm 9 x 14 I/O 6 pad Supply Voltage 3.3V / 2.5V • Wide frequency range - 300.0MHz to 1.7GHz • 3.3V and 2.5V version available • High Reliability - NEL HALT/HASS qualified for crystal oscillator start-up conditions • User specified tolerance available • Patent Pending, harmonic multiplication for extremely low jitter • High frequency output eliminates the need for PLL multiplication • Stabilities over temperatures as low as ±20ppm eliminates SAW oscillator temperature problems • Cover connected to ground • Will withstand SMD reflow temperatures of 183°C for 4 minutes maximum • High shock resistance, to 1000g Creating a Part Number SU - A29BX - FREQ Package Code SU 6 pad 9x14mm SMD Input Voltage Code Specification A 3.3V B 2.5V 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 Drawing Specifications For the most up to date specifications on each NEL product, log on to our website—www.nelfc.com Dimension shown in inches and (mm). Electrical Connections Pin Connection 1 Enable 2 N/C 3 Ground 4 Q Output 5 /Q Output 6 VCC 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 Differential Positive ECL (DPECL) SU-A29B0 Series Rev D Frequency Range: 300.0MHz to 1.7GHz Operating Conditions and Output Characteristics Electrical Characteristics Parameter Symbol Frequency — Duty Cycle — Logic 0(1) VOL Logic 1(1) VOH tr, tf Rise & Fall Time(6) RMS Random Jitter(4) — Enable Voltage(2) — Disable Voltage — Frequency Stability(5) dF/F — Phase Noise(3) — — — — — General Characteristics Parameter Symbol Conditions Min Typical — 300.0MHz — @ 50% points 45/55% — — VCC -1.810V — — VCC -1.025V — 300MHz-900MHz — — 900MHz-2.5GHz — — — — — with VEE=0V 0V — with VEE=0V 3.0V — Overall conditions including: -100ppm — voltage, calibration, temp., 10 yr. aging, shock, vibration @100Hz — — @1kHz — — @10kHz — — @100kHz — — @1MHz — — @10MHz — — Conditions Min Typical Max 1.7GHz 55/45% VCC -1.620V VCC -0.880 V 500 psec 200 psec 1 psec 1.0V VCC +100ppm - 80 dBc/Hz -110 dBc/Hz -130 dBc/Hz -130 dBc/Hz -135 dBc/Hz -135 dBc/Hz Max Supply Voltage VCC 3.3V±5% 3.135 V 3.3 V 3.465V Supply Current ICC 50 ohm termination 0.0 mA — 120 mA To 2.00V below VCC Output Current I O Low level Output Current 0.0 mA — ±50.0 mA Operating Temperature TA — 0ºC — 70ºC º Storage Temperature T S — -55 C — 125ºC Input: Logic High (ECL) - Disables VEE or Open - Enables Lead Temperature TL Soldering, 10 sec. — — 300ºC Load 50 ohm to VCC-2V or Thevenin Equivalent, Bias Required Start-up Time tS — — 2 ms 10 ms Environmental and Mechanical Characteristics Mechanical Shock Thermal Shock Vibration Soldering Condition 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 55 Hz to 2000 Hz 300ºC for 10 seconds Footnotes: 1) VOL, VOH, referenced to ground. 2) Open to Enable pin also enables the output. 3) Phase Noise characterization available. Phase Noise is frequency dependent, phase noise specification references a 1.0GHz part. 4) RMS Jitter bandwith of 12kHz to 20MHz. 5) Standard frequency stability (±20,±25,±50ppm & other available). 6) 20-80% VO with 50 ohm load to VCC-2V.