crystal oscillators 357 beloit street, p.o. box 457, burlington, wi 53105-0457 u.s.a. phone 262/763-3591 fax 262/763-2881 email: nelsales@nelfc.com www.nelfc.com data sheet 0719c tcxo/tcvcxo option code specification x no v. control v w/ v. control OE-XBFXXXX-X series rev. g hf/uhf tcvcxo ultra low phase noise 0.70 (17,78 mm) 1.42 (36,1 mm) 1 2 5 0.50 (12,7 mm) 0.25 (6,35 mm) 1.00 (25,40 mm) 3 4 ?0.030 (0,76 mm) typ 1.07 (27,20 mm) creating a part number oe - x bf x x x x - x - freq package code oe 5 pin 36x27mm not all combinations available ? consult factory description: the oe-xbfxxxx series of temperature compensated, voltage controlled crystal oscillators (tcvcxo), provides high and ultra high frequency with excellent temperature stability, extremely low phase noise and jitter with a variety of different output types in a standard europack. features ? standard ?europack? ? very low phase jitter and phase noise ? excellent frequency stability ? ultra high frequency ? up to 2.0 ghz ? sine-wave output ? stratum3 available ? cots/dual use supply voltage code specification 0 5v 5% a 3.3v 5% temperature range code specification e -10c to 60c b 0c to 70c c -20c to 70c d -40c to 85c temp. frequency stability code specification 1 1.0 ppm 2 2.5 ppm 3 0.28 ppm output type code specification s sine-wave environmental code specification l contains a level of lead that is in excess of rohs directive and is not designed for reflow r rohs compliant, not designed for reflow
crystal oscillators 357 beloit street, p.o. box 457, burlington, wi 53105-0457 u.s.a. phone 262/763-3591 fax 262/763-2881 email: nelsales@nelfc.com www.nelfc.com data sheet 0719c OE-XBFXXXX-X series rev. g hf/uhf smd tcvcxo specifications parameter symb condition min typ max unit note (1) electrical frequency range f 30 2,000 mhz input voltage vcc 3.135 4.75 3.30 5.0 3.465 5.25 v a 0 input current icc 30 100 140 ma @100mhz, 3.3v @622mhz, 3.3v @1000mhz, 3.3v frequency stab. f/f overall, available 4.6 20 years frequency stability f/f vs. temperature vs. vcc aging 0.5 0.1 1 3.5 1 ppm ppm/v ppm/year ppm see chart first year 10 years calibration f/f as shipped, 25oc 0.5 1 ppm load cmos sine pecl lvds 15pf/10k ohm internally ac-coupled 50 ohm 50 ohm to vcc-2v or thevenin equivalent 100 ohm between the outputs receiving end sine-wave into 50 ohms =400mhz 0 4 3 7 3.3v 5.0v output power (2) p >400mhz -5 0 0 5 5 dbm 3.3v 5.0v start up time ts 2 10 ms phase jitter 1 0.4 0.2 1 0.4 ps 100hz to 20mhz 12khz to 20mhz subharmonics pecl, lvds, sine pecl, sine cmos, sine -45 -40 -40 -35 none dbc f>250mhz f>1,000mhz f<250mhz spurious -60 dbc harmonics sine-wave -30 -25 -20 dbc f<1,000mhz f 1,000mhz ssb phase noise @10hz @100 hz @1 khz @10 khz @100 khz -80 -110 -140 -155 -160 dbc/hz @100mhz ssb phase noise @10hz @100 hz @1 khz @10 khz @100 khz -60 -90 -120 -130 -135 dbc/hz @1,000mhz
crystal oscillators 357 beloit street, p.o. box 457, burlington, wi 53105-0457 u.s.a. phone 262/763-3591 fax 262/763-2881 email: nelsales@nelfc.com www.nelfc.com data sheet 0719c OE-XBFXXXX-X series rev. g hf/uhf smd tcvcxo electrical (continued) parameter symb condition min typ max unit note input impedance > 10kohm control voltage vc 0 3.3 v modulation bandwidth mb 100 hz contact factory for wider mb deviation vc=0v to 3.3v,25c 5 7 ppm note 1) all parameters, unless otherwis e specified, are at nominal conditions, ie: t=25c, nominal vcc & nominal load 2) higher output power available ? consult factory (current consumption may increase) absolute maximum ratings parameter symb condition min typ max unit note input break down voltage vcc -0.5 5.5 v storage temp. ts -40 105 c contr. voltage vc -1 9 v environmental and mechanical operating temp. range 0c to 70c , -40c to 85c, see chart, page 1 mechanical shock per mil-std-202, method 213, cond. e thermal shock per mil-std-883, method 1011, cond. a vibration per mil-std-883, method 2007, cond. a soldering conditions 260oc 10 seconds, leads only hermetic seal leak rate less than 1x10 -8 atm.cc/s of helium (crystal only) electrical connections pin out pin #1-vc ; pin#2 ? vref; pin #3 ? vc c; pin #4- output ; pin #5- gnd;
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