Oscillators

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Mfr Part #	Quantity Available	Price	Tariff Status	Series	Package	Product Status	Base Resonator	Type	Frequency	Function	Output	Voltage - Supply	Frequency Stability	Absolute Pull Range (APR)	Operating Temperature	Current - Supply (Max)	Ratings	Mounting Type	Package / Case	Supplier Device Package	Size / Dimension	Height - Seated (Max)
CCSO-914X-1000.000 XTAL OSC SO 1.0000GHZ SNWV SMD Crystek Corporation	455 In Stock	1 : $49.58000 Strip	-	CCSO	Strip	Active	Crystal	SO (SAW)	1 GHz	-	Sine Wave	5V	±100ppm	-	-40°C ~ 85°C	35mA	-	Surface Mount	4-SMD, No Lead	-	0.559" L x 0.360" W (14.20mm x 9.14mm)	0.210" (5.33mm)
CCSO-914X3-1000 XTAL OSC SO 1.0000GHZ SNWV SMD Crystek Corporation	143 In Stock	1 : $49.58000 Strip	-	CCSO	Strip	Active	Crystal	SO (SAW)	1 GHz	-	Sine Wave	3.3V	±120ppm	-	-40°C ~ 85°C	35mA	-	Surface Mount	4-SMD, No Lead	-	0.559" L x 0.360" W (14.20mm x 9.14mm)	0.210" (5.33mm)
CCSO-914X-250.000 XTAL OSC SO 250.0000MHZ SNWV SMD Crystek Corporation	62 In Stock	1 : $107.15000 Strip	-	CCSO	Strip	Active	Crystal	SO (SAW)	250 MHz	-	Sine Wave	5V	±100ppm	-	-40°C ~ 85°C	35mA	-	Surface Mount	4-SMD, No Lead	-	0.560" L x 0.360" W (14.20mm x 9.14mm)	0.210" (5.33mm)
CCSO-014-1090.000 XTAL OSC SO 1.0900GHZ SNWV TH Crystek Corporation	0 In Stock	1 : $95.88000 Strip	-	CCSO	Strip	Obsolete	Crystal	SO (SAW)	1.09 GHz	-	Sine Wave	12V	±250ppm	-	-55°C ~ 105°C	40mA	-	Through Hole	14-DIP, 4 Leads (Full Size, Metal Can)	14-DIP	0.820" L x 0.520" W (20.83mm x 13.21mm)	0.200" (5.08mm)
CCSO-914X-245.760 XTAL OSC SO 245.7600MHZ SNWV SMD Crystek Corporation	0 In Stock Check Lead Time	1 : $107.15000 Strip	-	CCSO	Strip	Active	Crystal	SO (SAW)	245.76 MHz	-	Sine Wave	5V	±150ppm	-	-40°C ~ 85°C	35mA	-	Surface Mount	4-SMD, No Lead	-	0.560" L x 0.360" W (14.20mm x 9.14mm)	0.210" (5.33mm)

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Oscillator products are used as frequency/time reference sources, distinguished from crystal products often used for similar purposes by their integration of additional functions for maintenance and stabilization of the resulting output. In minimal form, they consist of a crystal or other resonant element plus functions needed to allow a user to obtain a frequency reference without extensive attention to the operation of the resonant element. More advanced devices integrate temperature compensation or control functions in order to obtain a more stable reference or one capable of selective adjustment.