manufacturer category series package voltage class rev . date ecliptek corp. oscillator e13c5 ceramic 3.3v os6v 07/09 e13c5 series oscillator e13c5 electrical specifications 800-ecliptek www.ecliptek.com for latest revision specifications subject to change without notice. ? crystal clock oscillators ? lvpecl output ? +3.3v supply voltage ? complementary output ? tri-state output function ? 6 pad ceramic smd package ? low stand-by current ? rohs compliant (pb-free) 0c to 70c, or -40c to +85c -55c to 125c 3.3v dc 5% 75ma maximum 100ppm, 50ppm, 25ppm, or 20ppm maximum v cc -1.025v dc minimum v cc -1.085v dc minimum v cc -1.620v dc maximum v cc -1.555v dc maximum 300psec typical, 700psec maximum 50 5(%) 50 ohms into v cc -2.0v dc tri-state and complementary output enables output enables output disables output: high impedance 30a maximum 10 mseconds maximum 0.4psec typical, 1 psec maximum -60dbc/hz at 10hz offset -95dbc/hz at 100hz offset -125dbc/hz at 1khz offset -143dbc/hz at 10khz offset -145dbc/hz at 100khz offset -145dbc/hz at 1mhz offset -146dbc/hz at 10mhz offset nominal frequency (mhz) operating temperature range storage temperature range supply voltage (v cc ) input current frequency tolerance / stability output voltage logic high (v oh ) output voltage logic low (v ol ) rise time / fall time duty cycle load drive capability logic control / additional output tri-state input voltage standby current start up time rms phase jitter typical phase noise inclusive of all conditions: calibration tolerance at 25c, frequency stability over the operating temperature range, supply voltage change, output load change, 1st year aging at 25c, shock, and vibration 0c to 85c -40c to 0c 0c to 85c -40c to 0c 20% to 80% of waveform at 50% of waveform v ih of 70% of v cc minimum no connection v il of 30% of v cc maximum without load fj = 12khz to 20mhz fo=156.250mhz h 1.3 l 5.0 w 3.2 74.25mhz, 77.76mhz, 78.125mhz, 80mhz, 80.157mhz, 85mhz, 87.125mhz, 90mhz, 100mhz, 106.25mhz, 110mhz, 119mhz, 120mhz, 122.888mhz, 124.4mhz, 125mhz, 127mhz, 128mhz, 131.072mhz, 133mhz, 133.33mhz, 133.333mhz, 135mhz, 137.472mhz, 150mhz, 155.52mhz, 156.25mhz, 159.375mhz, or 161.1328mhz
line 1: exx.xxx frequency in mhz (5 digits maximum + decimal) line 2: xx y zz week of year last digit of year ecliptek manufacturing identifier manufacturer category series package voltage class rev . date ecliptek corp. oscillator e13c5 ceramic 3.3v os6v 07/09 mechanical dimensions all dimensions in millimeters environmental/mechanical specifications marking specifications tape and reel dimensions all dimensions in millimeters suggested solder pad layout all dimensions in millimeters 800-ecliptek www.ecliptek.com for latest revision specifications subject to change without notice. e13c5 e 2 f - 155.520m tr part numbering guide available options blank=bulk tr=tape & reel frequency logic control/additional output f=tri-state and complementary output duty cycle 2=50 5(%) frequency tolerance & stability/ operating temperature range c=100ppm maximum over 0c to +70c d=50ppm maximum over 0c to +70c e=25ppm maximum over 0c to +70c f=20ppm maximum over 0c to +70c g=100ppm maximum over -40c to +85c h=50ppm maximum over -40c to +85c j=25ppm maximum over -40c to +85c a b c d e f 160.3 7.50.1 6.750.1 4 0.1 2.0.01 f g h j k l 8.00.1 b0* 1.5 +0.1-0.0 a0* 0.3 0.1 k0* tape m n o p q 1.5 min 50 min 20.2 min 13.00.2 40 min r s t u v qty/reel 2.5 min 10 min 18.4 max 180 max 12.4+2-0 1,000 reel *compliant to eia 481a tolerances= +0.1 1.40 (x6) 1.00 (x6) 0.80 0.27 0.27 solder land (x6) 3.20 0.15 1.30 max 1.20 0.15 1 2 3 6 5 4 1.27 0.15 1.00 0.15 0.64 0.10 2.54 0.15 5.00 0.15 characteristic specification esd susceptibility mil-std-883, method 3015, class 1, hbm: 1500v fine leak test mil-std-883, method 1014, condition a flammability ul94-v0 gross leak test mil-std-883, method 1014, condition c mechanical shock mil-std-883, method 2002, condition b moisture resistance mil-std-883, method 1004 moisture sensitivity j-std-020, msl 1 resistance to soldering heat mil-std-202, method 210, condition k resistance to solvents mil-std-202, method 215 solderability mil-std-883, method 2003 temperature cycling mil-std-883, method 1010, condition b vibration mil-std-883, method 2007, condition a pin 1: tri-state pin 2: no connect pin 3: case ground pin 4: output pin 5: complementary output pin 6: supply voltage
|