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TW8831-LB1-CR Intersil Corporation TW8831-LB1-CR LOW COST LCD CONTROLLER (NON-AUTO, CU WIRE) ri Buy
TW8833-NB1-CR Intersil Corporation TW8833-NB1-CR TFT DISPLAY CONTROLLER ri Buy
TW8832-LB1-CR Intersil Corporation TW8832-LB1-CR TFT DISPLAY CONTROLLER ri Buy

20MHz Crystal

Catalog Datasheet Results Type PDF Document Tags
Abstract: , 21041'"B, 21041'-A, and 21041'-B PCI Ethernet LAN Controllers into your application using a 20-MHz crystal , that use a 20-MHz crystal could result in the failure of the 21041'"A, 21041'"B, 21041'-A, and 21041'-B in your application. Most designs that integrate the 21041 have implemented a crystal circuit on , 83 IREF 86 10 k ohms 100 ohms 20-MHz Crystal 120 pF 20-MHz Input Clock No Connection , and capacitors of the crystal circuit bias the crystal so that it can begin to self-oscillate. ... Original
datasheet

4 pages,
23.21 Kb

Digital Equipment Corporation 20MHz Crystal datasheet abstract
datasheet frame
Abstract: Clock Source External 25Mhz Crystal Integrated 20Mhz Oscillator External 20Mhz Crystal External 20Mhz Crystal External 20Mhz Crystal External 20Mhz Crystal Power Supply 3.3V 210 mA ... Original
datasheet

2 pages,
68.84 Kb

BIOS Flash ROM Chip 20MHz Crystal 10BASE 100BASE TQFP-176 Am79C973/Am79C975 Am79C973/Am79C975 abstract
datasheet frame
Abstract: TAI-SAW TECHNOLOGY CO., LTD. No. 3, Industrial 2nd Rd., Ping-Chen Industrial District, Taoyuan, 324, Taiwan, R.O.C. TEL: 886-3-4690038 FAX: 886-3-4697532 E-mail: tstsales@mail.taisaw.com Web: www.taisaw.com Approval Sheet For Product Specification Issued Date: 4/16/2007 (REV. NO: 2) Product Name: SMD 3.2x2.5 20MHz Crystal Oscillator TST Parts No.: TW0225A TW0225A Customer Parts No. : Company , 3.2x2.5 20MHz Crystal Oscillator MODEL NO.: TW0225A TW0225A REV. NO: 2 Features: Surface Mount Seam Weld ... Original
datasheet

5 pages,
194.04 Kb

WK31 TW0225A marking code wda 2 pin crystal oscillator 20mhZ 20MHz Crystal Oscillator TW0225A abstract
datasheet frame
Abstract: Input Clock frequency. Typically 20MHz crystal. DESCRIPTION Output Enable - Tristates the 40 MHz , output, divided by 2 from clock1 output, for 20MHz with 20MHz crystal. Output is synthesized. Input , 40MHz with 20MHz crystal. Frequency Accuracy and Calculation Allowable Input and Output , AV9107C-13 AV9107C-13 uses a 20 MHz crystal to generate two PLL synthesis outputs of 20 and 40 MHz. The Output enable , jitterfree operation. Pin Configuration Block Diagram Note: Crystal is 20 MHz AV 9107-13 ... Original
datasheet

5 pages,
243.75 Kb

AV9107C-13CS08 AV9107C-13 AV9107C av9107 05 20MHz Crystal AV9107C-13 abstract
datasheet frame
Abstract: External 25Mhz Crystal External 25Mhz Crystal Integrated 20Mhz Oscillator External 20Mhz Crystal External 20Mhz Crystal External 20Mhz crystal or External 60Mhz oscillator 3.3V 3.3V 210 mA ... Original
datasheet

2 pages,
185.49 Kb

Nucleus RTOS Am79C970A 20MHz Crystal 10BASE 100BASE AM79C978 datasheet abstract
datasheet frame
Abstract: 20MHz crystal Power down, standby and active mode, Can be powered by USB with no need for step ... Original
datasheet

2 pages,
52.46 Kb

UHF rfid short range reader predistortion ISO-1800 AS3992BQFP 20MHz 4PIN as399 AS3992 ISO18000-6C ISO-18000-6C AS3992BQFP abstract
datasheet frame
Abstract: , 20MHz crystal, OE = Vcc no load, 20MHz crystal, OE = GND Min. Vcc Supply Voltage Pin 3 , Input crystal frequency of 5 - 30 MHz techniques. · Input clock frequency of 4 - 50 MHz · , Period jitter 50ps (100~180MHz) from a lower frequency crystal or clock input. It is · Duty , to designed to replace crystal oscillators in most electronic systems, clock multiplier and , mode, inexpensive crystal to produce output clocks up to 180 MHz. The complex Logic divider is the ... Original
datasheet

5 pages,
179.76 Kb

pt7c4502-1gde 20Mhz crystal PT7C4502 PT7C4502 abstract
datasheet frame
Abstract: Supply Current no load, 20MHz crystal, OE = Vcc no load, 20MHz crystal, OE = GND Vcc Vcc ICLK, OE , | Features · Low cost frequency multiplier · Zero ppm multiplication error · Input crystal frequency of 5 - , ) techniques, the device uses a standard fundamental mode, inexpensive crystal to produce output clocks up to , from a lower frequency crystal or clock input. It is designed to replace crystal oscillators in most , Crystal Oscillator VCC GND PT0140 PT0140(08/04) 1 Ver:2 Data Sheet PT7C4502 PT7C4502 PLL Clock ... Original
datasheet

7 pages,
47.52 Kb

PT7C4502W PT7C4502 PT7C4502 abstract
datasheet frame
Abstract: The device interfaces to a 20MHz crystal as its frequency source. From this source the device provides a buffered copy of the 20MHz clock as well as synthesized 40MHz and 50MHz output clocks. · · · · MULTIPLE OUTPUT CLOCK SYNTHESIZER Fully Integrated PLL Fully Integrated Crystal , I/O Function XTALIN 1 I 20MHz Crystal Connection, External Reference Point VDD 2 ­ +5V Power Supply GND 3 ­ Ground CLK1 4 O 20MHz Output, Buffer Xtal ... Original
datasheet

4 pages,
67.43 Kb

MPC9108 motorola br1333 20mhz xtal 20Mhz crystal XTAL 50MHZ XTAL 20MHz clklock MPC9108 abstract
datasheet frame
Abstract: the PWM period = [512/crystal frequency (MHz)]µs. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]µs. Assuming we have a 20MHz crystal and IOC2 bit 2 is disabled the PWM period equals [512/20 MHz]µs or 25.6µs. If IOC2 bit 2 is disabled the high time = [(PWMx_CONTROL * 2) / crystal frequency (MHz)]µs. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]µs. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time equals [(25 * 2) / 20 MHz ... Original
datasheet

3 pages,
26.11 Kb

ups pwm 8XC196kc 8XC196KC SFR 8XC196KC user manual ApBUILDER C196 intel 272238 mcs-96 software 272216 8XC196KC Users manual 272238 MCS-96 mcs 96 programming 80C196KD 8XC196KC/KD 8XC196KC/KD 8XC196KC/KD abstract
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Datasheet Content (non pdf)

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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 MSP430 MSP430 32kHz crystal DCO generation 4 MHz = 250ns 1 cycle / instruction 250ns instruction cycle time #11; for 16 bit MSP430 MSP430 MSP430 MSP430 performs 16 bit instead of 8 bit 4 times faster than a typical 8 bit ?C !! Previous slide
www.datasheetarchive.com/files/texas-instruments/literature/literature - common/foils/1999/msp430 features/tsld004.htm
Texas Instruments 04/09/2000 1.17 Kb HTM tsld004.htm
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 is disabled the PWM ) / 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 equals [(25
www.datasheetarchive.com/files/intel/design/mcs96/technote/2383-v8.htm
Intel 03/05/1999 7.83 Kb HTM 2383-v8.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
www.datasheetarchive.com/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
www.datasheetarchive.com/files/intel/design/mcs96/technote/2383-v5.htm
Intel 30/04/1998 7.99 Kb HTM 2383-v5.htm
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 is disabled the PWM ) / 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 equals [(25
www.datasheetarchive.com/files/intel/design/mcs96/technote/2383.htm
Intel 01/02/1999 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
www.datasheetarchive.com/files/intel/design/mcs96/technote/2383-v7.htm
Intel 31/10/1998 8 Kb HTM 2383-v7.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
www.datasheetarchive.com/files/intel/design/mcs96/technote/2383-v6.htm
Intel 01/08/1998 7.99 Kb HTM 2383-v6.htm
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 is disabled the PWM period equals [512/20 MHz]ms or 25.6ms. If IOC2 bit 2 is disabled the high time = [(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 equals [(25 * 2) / 20 MHz
www.datasheetarchive.com/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
www.datasheetarchive.com/files/intel/design/mcs96/technote/2383-v1.htm
Intel 31/10/1997 8.38 Kb HTM 2383-v1.htm
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 is disabled the PWM ) / 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 equals [(25
www.datasheetarchive.com/files/intel/products one/design/mcs96/technote/2383.htm
Intel 03/05/1999 7.83 Kb HTM 2383.htm