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20MHz Crystal

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: fundamental crystal ranging from 20 to 40 MHz. ÷2 FREQUENCY RANGE 10 - 20MHz OUTPUT BUFFER CMOS , Phase Noise Divider by 2 VCXO (10MHz to 20MHz) 7. Crystal Specifications PARAMETERS SYMBOL , PLL502-52 PLL502-52 Low Phase Noise Divider by 2 VCXO (10MHz to 20MHz) FEATURES · · · · · Integrated voltage-controlled crystal oscillator circuitry (VCXO) (pull range 380ppm minimum). VCXO tuning , Integrated divider by 2: output range of 10MHz to 20MHz. 2.5V or 3.3V supply voltage. Selectable High ... PhaseLink
Original
datasheet

5 pages,
199.12 Kb

20MHz Crystal CRYSTAL 20 mhZ crystal 40mhz divider by 2 p50252 PLL502-52 PLL502-52HOC PLL502-52HOC-R PLL502-52HSC PLL502-52SC-R PLL502-52SC PLL502-52OC-R PLL502-52OC PLL502-52HSC-R osc XTAL 10Mhz crystal 20Mhz circuit XTAL 20MHz crystal 20Mhz TEXT
datasheet frame
Abstract: applications requiring a VCXO output in the 10MHz to 20MHz range, using a fundamental crystal ranging from 20 , (10MHz to 20MHz) 7. Crystal Specifications PARAMETERS Crystal Resonator Frequency Crystal Loading , ABV0252 ABV0252 Low Phase Noise Divider by 2 VCXO (10MHz to 20MHz) FEATURES · · · · · · · Integrated voltage-controlled crystal oscillator circuitry (VCXO) (pull range 380ppm minimum). VCXO tuning range: 0V - V DD V , 2: output range of 10MHz to 20MHz. 2.5V or 3.3V supply voltage. Selectable High Drive (30mA) or ... Abracon
Original
datasheet

5 pages,
49.79 Kb

Resonator 20MHz crystal 20Mhz circuit 2 pin crystal oscillator 20mhZ ABV0252 TEXT
datasheet frame
Abstract: crystal. This makes the PLL502-52 PLL502-52 ideal for a wide range of applications requiring a VCXO output in the 10MHz to 20MHz range, using a fundamental crystal ranging from 20 to 40 MHz. FREQUENCY RANGE 10 , Preliminary for proposal PLL502-52 PLL502-52 Low Phase Noise Divider by 2 VCXO (10MHz to 20MHz) FEATURES · · · · · · Integrated voltage-controlled crystal oscillator circuitry (VCXO) (pull , resonant crystals (from 20 to 40MHz). Integrated divider by 2: output range of 10MHz to 20MHz. 3.3V ... PhaseLink
Original
datasheet

5 pages,
96.25 Kb

XTAL 20MHz XTAL 10mHZ PLL502-52 osc XTAL 10Mhz 20MHz Crystal crystal 20Mhz 2 pin crystal oscillator 20mhZ TEXT
datasheet frame
Abstract: 156.25MHz and another two at 125MHz. The SM802108 SM802108 accepts a 25 MHz crystal or LVCMOS reference clock , operating range · Typical phase jitter @ 156.25MHz (1.875MHz to 20MHz): 110fs (typical) at 3.3V · , LVCMOS 1 = Output from Input Reference Clock or Crystal 45K pull-down 6 January 2011 , Function 8 VDD PWR 9 REF_IN I, (SE) LVCMOS 10 XIN I, (SE) 12pF crystal 11 XOUT O, (SE) 12pF crystal 13, 14 VSS PWR 18 VDDO1 PWR Power Supply ... Micrel Semiconductor
Original
datasheet

11 pages,
452.44 Kb

XTAL 25MHZ Datasheet NX2520SA 5052B SM802108 TEXT
datasheet frame
Abstract: 156.25MHz and another two at 125MHz. The SM802108 SM802108 accepts a 25 MHz crystal or LVCMOS reference clock , operating range • Typical phase jitter @ 156.25MHz (1.875MHz to 20MHz): 110fs (typical) at 3.3V â , LVCMOS 1 = Output from Input Reference Clock or Crystal 45KΩ pull-down 6 January 2011 , Function 8 VDD PWR 9 REF_IN I, (SE) LVCMOS 10 XIN I, (SE) 12pF crystal 11 XOUT O, (SE) 12pF crystal 13, 14 VSS PWR 18 VDDO1 PWR Power Supply ... Micrel Semiconductor
Original
datasheet

11 pages,
462.91 Kb

SM802108 TEXT
datasheet frame
Abstract: for Ethernet interface in all kind of systems. (1.875MHz – 20MHz): 0.2ps (typical) ÎÎ RMS phase jitter @ 156.25MHz, using a 25MHz crystal (12kHz – 20MHz): 0.33ps (typical) ÎÎ Full , clock solutions. Using a 25MHz crystal, the most popular Ethernet frequencies can be generated based on the settings of 2 frequency select pins. ÎÎ Selectable crystal oscillator interface or , , 125MHz, 156.25MHz ÎÎ RMS phase jitter @ 156.25MHz, using a 25MHz crystal The PI6LC48P0201 PI6LC48P0201 uses ... Pericom Semiconductor
Original
datasheet

10 pages,
845.74 Kb

PI6LC48P0201 TEXT
datasheet frame
Abstract: phase jitter, so it is ideal for Ethernet interface in all kind of systems. (1.875MHz – 20MHz): 0.16ps (typical) ÎÎ RMS phase jitter @ 156.25MHz, using a 25MHz crystal (12kHz – 20MHz , 19.53125MHz or 25MHz crystal, the most popular Ethernet frequencies can be generated based on the settings of 4 frequency select pins. differential LVPECL output pairs ÎÎ Selectable crystal oscillator , : 125MHz, 156.25MHz, 312.5MHz, 625MHz ÎÎ RMS phase jitter @ 156.25MHz, using a 25MHz crystal ... Pericom Semiconductor
Original
datasheet

12 pages,
929.56 Kb

PI6LC48P0301 TEXT
datasheet frame
Abstract: (f < 20MHz) * < 30mA (f > 20MHz) * See application circuit on page 2 for details Pin 1: Pin 3 , < 20MHz) * AC-MOS compatible (f > 20MHz) * 40 / 60% (min.) @ Vdd / 2 * tr < 7ns tf < 7ns (f < 20MHz) * tr < 7ns tf < 7ns (f > 20MHz) * < 0.4V > Vdd ­ 0.5V < 5ms 25pF max * Marking Example Micro Crystal MCSO1EV-D 33.000 MHz Micro Crystal E/D 09.12 Type Frequency (PIN 1) ENVIRONMENT , spec N° Oscillator Type MCSO1 = Miniature Surface Mount Clock Crystal Oscillator Oscillator ... Micro Crystal
Original
datasheet

2 pages,
69.62 Kb

oscillator 20mhz smd crystal oscillator marking crystal 20Mhz smd CH-2540 20MHz Crystal SMD 2 pin crystal oscillator 20mhZ TEXT
datasheet frame
Abstract: for Ethernet interface in all kind of systems. (1.875MHz – 20MHz): 0.2ps (typical) ÎÎ RMS phase jitter @ 156.25MHz, using a 25MHz crystal (12kHz – 20MHz): 0.33ps (typical) ÎÎ Full , clock solutions. Using a 25MHz crystal, the most popular Ethernet frequencies can be generated based on the settings of 2 frequency select pins. ÎÎ Selectable crystal oscillator interface or , , 125MHz, 156.25MHz ÎÎ RMS phase jitter @ 156.25MHz, using a 25MHz crystal The PI6LC48P0201 PI6LC48P0201 uses ... Pericom Semiconductor
Original
datasheet

10 pages,
848.48 Kb

PI6LC48P0201 TEXT
datasheet frame
Abstract: crystal oscillator has ability to oscillate from 20MHz to 75MHz. The oscillation amplifier incorporates , is a quartz crystal oscillator has ability to oscillate from 20MHz to 75MHz. The oscillation , 3rd.Over Tone 3rd.Over Tone Quartz Crystal Oscillator 3rd.Over Tone Quartz Crystal Oscillator , quartz crystal, and realizes very low oscillation stopping current using NAND circuit. The 3 , FEATURES q Operating Voltage : +4.0V to +6.0V q Oscillation Frequency: 20MHz to 75MHz q High Fan-out ... New Japan Radio
Original
datasheet

1 pages,
41.23 Kb

Quartz Crystal oscillator NJU6376 NJU6375 crystal oscillator 20Mhz crystal 20MHz quartz crystal crystal 20Mhz circuit crystal 20Mhz TEXT
datasheet frame

Archived Files

Abstract Saved from Date Saved File Size Type Download
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/design/mcs96/technote/2383-v3.htm
Intel 10/02/1998 8.39 Kb HTM 2383-v3.htm
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/design/mcs96/technote/2383-v5.htm
Intel 30/04/1998 7.99 Kb HTM 2383-v5.htm
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/design/mcs96/technote/2383-v6.htm
Intel 01/08/1998 7.99 Kb HTM 2383-v6.htm
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/design/mcs96/technote/2383-v2.htm
Intel 03/08/1997 7.13 Kb HTM 2383-v2.htm
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/products one/design/mcs96/technote/2383.htm
Intel 03/05/1999 7.83 Kb HTM 2383.htm
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/design/mcs96/technote/2383-v1.htm
Intel 31/10/1997 8.38 Kb HTM 2383-v1.htm
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/design/mcs96/technote/2383-v7.htm
Intel 31/10/1998 8 Kb HTM 2383-v7.htm
Features: Is 32 kHz faster than 20 MHz ? Features: Is 32 kHz faster than 20 MHz ? typical 8bit ?C 20MHz crystal divided by 4 5MHz = 200ns 5 cycles / instruction 1000ns instruction cycle time for 8 bit MSP430 MSP430 32kHz crystal DCO generation 4 MHz = 250ns 1 cycle / instruction 250ns instruction cycle time for 16 bit MSP430 MSP430 performs 16 bit instead of 8 bit 4
/datasheets/files/texas-instruments/literature/literature - common/foils/1999/msp430 features/tsld004.htm
Texas Instruments 04/09/2000 1.17 Kb HTM tsld004.htm
generating. If IOC2 bit 2 is disabled the PWM period = [512/crystal frequency (MHz)]ms. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]ms. Assuming we have a 20MHz crystal and IOC2 bit 2 [(PWMx_CONTROL * 2) / crystal frequency (MHz)]ms. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]ms. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time
/datasheets/files/intel/design/mcs96/technote/2383.htm
Intel 01/02/1999 7.83 Kb HTM 2383.htm
clear the WATCHDOG register. One state time = [2/crystal frequency (MHz)]. For example, when using a 20MHz crystal, 1 state time is equal to 100ns. Essentially we have 64K*100ns or 65,535*100ns. This
/datasheets/files/intel/design/mcs96/technote/2384-v6.htm
Intel 01/08/1998 5.96 Kb HTM 2384-v6.htm