SURFACE MOUNT Crystal Oscillators 2,400+

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Part	Manufacturer	Crystal or Resonator Type	Mounting Feature	Frequency Tolerance	Aging	Load Capacitance	Additional Features	Series Resistance	Frequency Stability	Minimum Operating Temperature	Terminal Finish	JESD-609 Code	Nominal Operating Frequency	Drive Level	Physical Dimension	Maximum Operating Temperature
Q13FC1350000314	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	3 PPM/FIRST YEAR	9 pF	TR, 7 INCH	55000 ohm	144 %	-40 Cel			.032768 MHz	.5 uW	L3.2XB1.5XH0.8 (mm)/L0.126XB0.059XH0.031 (inch)	85 Cel
Q22FA2380054714	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	5 PPM/ FIRST YEAR	16 pF		50 ohm	30 %	-20 Cel			25 MHz	10 uW	3.2mm x 2.5mm x 0.7mm	70 Cel
Q24.0-JXS22-12-10/15-T1-FU-WA-LF	Jauch Quartz	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	1 PPM/FIRST YEAR	12 pF	AT CUT; TR, 7 INCH	25 ohm	15 %	-40 Cel	Nickel/Gold (Ni/Au)	e4	25 MHz	10 uW	L2.5XB2.0XH0.55 (mm)/L0.098XB0.079XH0.022 (inch)	85 Cel
Q24FA20H0004400	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	1 PPM/FIRST YEAR	9 pF		80 ohm	12 %	-20 Cel			16 MHz	10 uW	2.5mm X 2.0mm X 0.55mm	75 Cel
Q38.40-JXS32-12-10/10-FU-WA-LF	Jauch Quartz	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	1 PPM/FIRST YEAR	12 pF	AT-CUT; TR, 7 INCH	15 ohm	10 %	-20 Cel	GOLD OVER NICKEL	e4	38.4 MHz	10 uW	L3.2XB2.5XH0.7 (mm)/L0.126XB0.098XH0.028 (inch)	70 Cel
RH100-24.000-12-3030-EXT-TR	Raltron Electronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	12 pF		60 ohm	30 %	-40 Cel	Gold (Au) - electroplated	e4	24 MHz	200 uW	3.2mm x 2.5mm x 0.7mm	85 Cel
RH100-24.000-9-1010-TR	Raltron Electronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	9 pF		60 ohm	10 %	-20 Cel	Gold (Au) - electroplated	e4	24 MHz	500 uW	3.2mm x 2.5mm x 0.7mm	70 Cel
RH100-24.000-9-1015-EXT-TR	Raltron Electronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	9 pF		60 ohm	15 %	-40 Cel	Gold (Au) - electroplated	e4	24 MHz	200 uW	3.2mm x 2.5mm x 0.7mm	85 Cel
RH100-32.000-16-F-1015-EXT-TR	Raltron Electronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	16 pF		60 ohm	15 %	-40 Cel	Gold (Au) - electroplated	e4	32 MHz	500 uW	3.2mm x 2.5mm x 0.7mm	85 Cel
RH100-40.000-18-F-2050-TR	Raltron Electronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	2 PPM/YEAR	18 pF		50 ohm	50 %	-20 Cel	Gold (Au) - electroplated	e4	40 MHz	200 uW	3.2mm x 2.5mm x 0.7mm	70 Cel
RH100-40.000-8-F-1015-EXT-TR	Raltron Electronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	8 pF		60 ohm	15 %	-40 Cel	Gold (Au) - electroplated	e4	40 MHz	300 uW	3.2mm x 2.5mm x 0.7mm	85 Cel
RSM200S-32.768-12.5-T-5PPM-NS1	Raltron Electronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	5 ppm	3 PPM/FIRST YEAR	12.5 pF		50000 ohm	144 %	-40 Cel	Bright Tin (Sn)	e3	.032768 MHz	1 uW	8mm x 3.8mm x 2.5mm	85 Cel
SA324400F35HLR	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	12 pF	AEC-Q200; AT-CUT	50 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	40 MHz	10 uW	3.2mm X 2.5mm X 0.8mm	125 Cel
SA324410F35HLR	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	12 pF	AEC-Q200; AT-CUT	50 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	41 MHz	10 uW	3.2mm X 2.5mm X 0.8mm	125 Cel
SA324440F35HLR	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	12 pF	AEC-Q200; AT-CUT	50 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	44 MHz	10 uW	3.2mm X 2.5mm X 0.8mm	125 Cel
SA324450F35HLR	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	12 pF	AEC-Q200; AT-CUT	50 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	45 MHz	10 uW	3.2mm X 2.5mm X 0.8mm	125 Cel
SA324480F35HLR	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	12 pF	AEC-Q200; AT-CUT	50 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	48 MHz	10 uW	3.2mm X 2.5mm X 0.8mm	125 Cel
SA324491F35HLR	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	12 pF	AEC-Q200; AT-CUT	50 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	49.152 MHz	10 uW	3.2mm X 2.5mm X 0.8mm	125 Cel
SA53213CF35HDT	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	18 pF	AT CUT; AEC-Q200	60 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	13.56 MHz	10 uW	5mm x 3.2mm x 1.1mm	125 Cel
SC20S-9PF20PPM	Seiko Instruments Usa	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	3 PPM/FIRST YEAR	9 pF		70000 ohm	108 %	-40 Cel			.032768 MHz	.1 uW	2.05mm X 1.2mm X 0.6mm	85 Cel
SM8S-32.768K-20	Pletronics	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	3 PPM/FIRST YEAR	12.5 pF	MIL-STD-883	70000 ohm	144 %	-40 Cel	GOLD OVER NICKEL	e4	.032768 MHz	1 uW	3.2mm x 1.5mm x 1mm	85 Cel
ST3215SB32768B0HSZA1	Kyocera	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	3 PPM/YEAR	6 pF	AEC-Q200; TR, 7 INCH	70000 ohm		-40 Cel			.032768 MHz	.5 uW	L3.2XB1.5XH0.8 (mm)/L0.126XB0.059XH0.031 (inch)	125 Cel
TF322P32K7680R	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	3 PPM/FIRST YEAR	12.5 pF	TR, 7 INCH	70000 ohm	122 %	-40 Cel	Gold (Au) - with Nickel (Ni) barrier	e4	.032768 MHz	.5 uW	L3.2XB1.5XH0.9 (mm)/L0.126XB0.059XH0.035 (inch)	85 Cel
TS080F11CDT	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	5 PPM/FIRST YEAR	18 pF	AT CUT	60 ohm	10 %	-20 Cel	TIN SILVER COPPER	e1	8 MHz	100 uW	11.1mm x 4.83mm x 4.3mm	70 Cel
TS080F23IET	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	5 PPM/FIRST YEAR	20 pF	AT CUT	60 ohm	30 %	-40 Cel	TIN SILVER COPPER	e1	8 MHz	100 uW	11.1mm x 4.83mm x 4.3mm	85 Cel
TS080F33IET	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	5 PPM/FIRST YEAR	20 pF	AT CUT	60 ohm	30 %	-40 Cel	TIN SILVER COPPER	e1	8 MHz	100 uW	11.1mm x 4.83mm x 4.3mm	85 Cel
TS120F23CET	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	5 PPM/FIRST YEAR	20 pF	AT CUT	40 ohm	30 %	-20 Cel	TIN SILVER COPPER	e1	12 MHz	100 uW	11.1mm x 4.83mm x 4.3mm	70 Cel
TS120F33CDT	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	5 PPM/FIRST YEAR	18 pF	AT CUT	40 ohm	30 %	-20 Cel	TIN SILVER COPPER	e1	12 MHz	100 uW	11.1mm x 4.83mm x 4.3mm	70 Cel
TS120F33CET	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	5 PPM/FIRST YEAR	20 pF	AT CUT	40 ohm	30 %	-20 Cel	TIN SILVER COPPER	e1	12 MHz	100 uW	11.1mm x 4.83mm x 4.3mm	70 Cel
TS120F33IET	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	5 PPM/FIRST YEAR	20 pF	AT CUT	40 ohm	30 %	-40 Cel	TIN SILVER COPPER	e1	12 MHz	100 uW	11.1mm x 4.83mm x 4.3mm	85 Cel
TS250F23CDT	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	5 PPM/YEAR	18 pF	AT CUT	30 ohm	30 %	-20 Cel	TIN SILVER COPPER	e1	25 MHz	100 uW	11.1mm X 4.83mm X 4.3 mm	70 Cel
TSX-322524.0000MF09Z-AC3	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	1 PPM/FIRST YEAR	9 pF	TAPE AND REEL	40 ohm	9 %	-20 Cel	GOLD OVER NICKEL	e4	24 MHz	1 uW	L3.2XB2.5XH0.6 (mm)/L0.126XB0.098XH0.024 (inch)	75 Cel
X1A000121000612	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	3 PPM/FIRST YEAR	9 pF		90000 ohm	144 %	-40 Cel			.032768 MHz	.1 uW	1.65mm X 1.05mm X 0.5mm	85 Cel
X1E000021011900	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	1 PPM/FIRST YEAR	12 pF		60 ohm	20 %	-40 Cel	GOLD OVER NICKEL	e4	16 MHz	10 uW	3.2mm X 2.5mm X 0.6mm	85 Cel
X1E000021036701	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	2 PPM/FIRST YEAR	10 pF		40 ohm	15 %	-30 Cel	GOLD OVER NICKEL	e4	40 MHz	10 uW	3.2mm x 2.5mm x 0.6mm	85 Cel
X1E000021036714	Seiko Epson	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	2 PPM/FIRST YEAR	10 pF		40 ohm	15 %	-30 Cel	Gold (Au) - with Nickel (Ni) barrier	e4	40 MHz	10 uW	3.2mm x 2.5mm x 0.6mm	85 Cel
XRCGB24M000F2P02R0	Murata Manufacturing	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	20 ppm	5 PPM/YEAR	10 pF	TR, PLASTIC, 7 INCH	150 ohm	20 %	-30 Cel			24 MHz	150 uW	L2.0XB1.6XH0.65 (mm)/L0.079XB0.063XH0.026 (inch)	85 Cel
XT9M20HNA16M384	Vishay Intertechnology	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	5 PPM/ YEAR	20 pF	AT CUT	50 ohm	50 %	-10 Cel	Tin/Copper (Sn/Cu)	e2	16.384 MHz	100 uW	11.1mm X 4.7mm X 4.5mm	70 Cel
402F2501XIAR	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	10 pF	AT CUT	100 ohm	15 %	-40 Cel	GOLD OVER NICKEL	e4	25 MHz	10 uW	2mm x 1.6mm x 0.55mm	85 Cel
403C11A19M20000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	10 pF	AT-CUT	60 ohm	10 %	-20 Cel	GOLD OVER NICKEL	e4	19.2 MHz	10 uW	3.2mm x 2.5mm x 0.75mm	70 Cel
405C11A08M00000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	10 pF	AT CUT	100 ohm	10 %	-20 Cel	Gold (Au) - with Nickel (Ni) barrier	e4	8 MHz	10 uW	5mm x 3.2mm x 0.85mm	70 Cel
405C11A19M20000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	10 pF	AT CUT	50 ohm	10 %	-20 Cel	GOLD OVER NICKEL	e4	19.2 MHz	10 uW	5mm x 3.2mm x 0.85mm	70 Cel
405I35B19M20000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	13 pF	AT CUT	50 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	19.2 MHz	10 uW	5mm x 3.2mm x 0.85mm	85 Cel
406I35E32M76800	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	20 pF	AT CUT	40 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	32.768 MHz	10 uW	6mm x 3.5mm x 1.2mm	85 Cel
407F39E008M0000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	30 ppm	3 PPM/YEAR	20 pF	AT-CUT	100 ohm	50 %	-40 Cel	GOLD OVER NICKEL	e4	8 MHz	10 uW	7.0mm x 5.0mm x 1.3mm	85 Cel
425F11A019M2000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	10 pF	AT CUT	100 ohm	10 %	-20 Cel	GOLD OVER NICKEL	e4	19.2 MHz	10 uW	2.5mm x 2mm x 0.65mm	70 Cel
425F11A024M0000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	10 pF	AT CUT	80 ohm	10 %	-20 Cel	GOLD OVER NICKEL	e4	24 MHz	10 uW	2.5mm x 2mm x 0.65mm	70 Cel
425F11K019M2000	Cts	PARALLEL - FUNDAMENTAL	SURFACE MOUNT	10 ppm	3 PPM/YEAR	8 pF	AT CUT	100 ohm	10 %	-20 Cel	GOLD OVER NICKEL	e4	19.2 MHz	10 uW	2.5mm x 2mm x 0.65mm	70 Cel

Crystal Oscillators

Crystal oscillators are electronic components that generate stable and precise frequency signals for various applications. They are widely used in electronic devices and systems that require a precise frequency source, such as clocks, radios, and telecommunications equipment.

Crystal oscillators consist of a quartz crystal resonator, which is cut to vibrate at a specific frequency when an AC voltage is applied across it. The resonance frequency is determined by the dimensions of the crystal and the properties of the quartz material, which have a high Q-factor and temperature stability. The crystal resonator is connected to an amplifier circuit that provides feedback and controls the frequency of the output signal.

Crystal oscillators offer several advantages over other types of frequency sources, including high accuracy, stability, and low phase noise. They can operate at a wide range of frequencies, ranging from a few kilohertz to several gigahertz, and they are available in different package sizes and configurations, including through-hole and surface-mount.

Crystal oscillators come in different types, such as Pierce, Colpitts, and Butler, each with different characteristics and performance levels. They are also available in different tolerances and stability levels, depending on the application and the required performance