NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: , 21041ç'"B, 21041ç'-A, and 21041ç'-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 21041ç'"A, 21041ç'"B, 21041ç'-A, and 21041ç'-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 |
4 pages, |
Digital Equipment Corporation 20MHz Crystal datasheet abstract |
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| 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 |
2 pages, |
10BASE 100BASE TQFP-176 Am79C973/Am79C975 Am79C973/Am79C975 abstract |
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| 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 |
5 pages, |
WK31 marking code wda 2 pin crystal oscillator 20mhZ TW0225A TW0225A abstract |
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| 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 |
5 pages, |
AV9107C-13CS08 AV9107C-13 AV9107C av9107 05 AV9107C-13 abstract |
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| 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 |
2 pages, |
Nucleus RTOS Am79C970A 20MHz Crystal 10BASE 100BASE AM79C978 datasheet abstract |
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| Abstract: 20MHz crystal Power down, standby and active mode, Can be powered by USB with no need for step ... | Original |
2 pages, |
AS3992 20MHz 4PIN ISO-18000-6C ISO18000-6C AS3992BQFP AS3992BQFP abstract |
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| 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 |
5 pages, |
20Mhz crystal PT7C4502 PT7C4502 abstract |
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| 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 |
4 pages, |
MPC9108 motorola br1333 clklock 20mhz xtal 20Mhz crystal XTAL 50MHZ XTAL 20MHz MPC9108 abstract |
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| Abstract: the PWM period = [512/crystal frequency (MHz)]us. If bit 2 is enabled the PWM period = [1024/crystal frequency (MHz)]us. Assuming we have a 20MHz crystal and IOC2 bit 2 is disabled the PWM period equals [512/20 MHz]us or 25.6us. If IOC2 bit 2 is disabled the high time = [(PWMx_CONTROL * 2) / crystal frequency (MHz)]us. If bit 2 is enabled the high time = [(PWMx_CONTROL * 4) / crystal frequency (MHz)]us. Assuming that we have a 20MHz crystal and IOC2 bit 2 is disabled the high time equals [(25 * 2) / 20 MHz ... | Original |
3 pages, |
ups pwm 8XC196kc ApBUILDER C196 intel 272238 mcs-96 software 272216 80C196KD 8XC196KC Users manual 272238 MCS-96 mcs 96 programming 8XC196KC/KD 8XC196KC/KD abstract |
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| Abstract: max. 5.5 V VDD 4.5 - 5.5 VSS 0.25VDD 25VDD 4.5 - 5.5 4.5 - 5.5 20MHz ceramic resonator oscillation Refer to figure 1 20MHz crystal resonator oscillation Refer to figure 1 20MHz ceramic resonator oscillation Refer to figure 3 20MHz crystal resonator oscillation Refer to figure 3 unit , Conditions ·FmCF=20MHz for Ceramic resonator oscillation, Crystal oscillation VDD[V] 4.5 - 5.5 , (main-clock) Type of oscillator 20MHz crystal oscillator 20MHz Ceramic oscillator Producer Oscillator ... | Original |
14 pages, |
voltage mode pwm controler LC62F0164A daishinku AL P3d 5922A 20MHz Crystal LC62F0164A abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
| Over 1.1 million files (1986-2013): html articles, reference designs, gerber files, chemical content, spice models, programs, code, pricing, images, circuits, parametric data, RoHS data, cross references, pcns, military data, and more. Please note that due to their age, these files do not always format correctly in modern browsers. Disclaimer. |
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| 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 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 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 |
| XDS Q & A: CLOCK OPTIONS AND REQUIREMENTS XDS Q & A: CLOCK OPTIONS AND REQUIREMENTS keywords: faq, clock, xds, requirements, 1x THE FIRST GENERATION XDS HAS THREE CLOCK OPTIONS, WHICH CAN BE SELECTED VIA INIT COMMAND. 1. OPTION 0 IN THE INIT COMMAND SELECTS INTERNAL CRYSTAL. THIS IS 20 MHZ CRYSTAL ON THE EMULATOR BOARD. 2. OPTION 1 IS EXTERNAL CLOCK. THIS ALLOWS THE USER TO PROVIDE A CLOCK TO THE EMULATOR FROM THE USER www.datasheetarchive.com/files/texas-instruments/sc/docs/dsps/hotline/xds1k01.htm |
Texas Instruments | 20/12/1996 | 4.36 Kb | HTM | xds1k01.htm |
| Analog to Digital Converter. Conversion time is 9.3 us with a 20 MHz crystal. I 2 C ns for all instructions except multiply and divide when executing at 20 MHz. 2.7 V to 5.5 V , two DAC outputs, programmable oscillator configurations for high and low speed crystals or RC www.datasheetarchive.com/files/philips/pip/p87lpc779-02.html |
Philips | 06/06/2005 | 4.19 Kb | HTML | p87lpc779-02.html |
| Converter. Conversion time is 9.3 us with a 20 MHz crystal. I 2 C-bus communication port and Full except multiply and divide when executing at 20 MHz. 2.7 V to 5.5 V operating range for digital , programmable oscillator configurations for high and low speed crystals or RC operation, wide operating www.datasheetarchive.com/files/philips/pip/p87lpc778-01.html |
Philips | 06/06/2005 | 4.16 Kb | HTML | p87lpc778-01.html |
| (tm) products Single 20 MHz crystal or external 20 MHz oscillator module operation Single 5V supply 160 : crystal, transformers, connectors and a power source. The LERIC8 provides on-chip LED drivers that www.datasheetarchive.com/files/national/htm/nsc02712-v4.htm |
National | 16/09/1998 | 6.89 Kb | HTM | nsc02712-v4.htm |
| (tm) products Single 20 MHz crystal or external 20 MHz oscillator module operation Single 5V supply 160 : crystal, transformers, connectors and a power source. The LERIC8 provides on-chip LED drivers that www.datasheetarchive.com/files/national/docs/wcd00041/wcd0418a.htm |
National | 03/04/1998 | 5.59 Kb | HTM | wcd0418a.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 is disabled the PWM period equals [512/20 MHz]ms or 25.6ms. If IOC2 bit 2 is disabled the high time ) / 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] or 2.5ms. We can also calculate the low time by subtracting the high time from 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 is disabled the PWM period equals [512/20 MHz]ms or 25.6ms. If IOC2 bit 2 is disabled the high time ) / 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] or 2.5ms. We can also calculate the low time by subtracting the high time from www.datasheetarchive.com/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 is disabled the PWM period equals [512/20 MHz]ms or 25.6ms. If IOC2 bit 2 is disabled the high time ) / 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] or 2.5ms. We can also calculate the low time by subtracting the high time from www.datasheetarchive.com/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 is disabled the PWM period equals [512/20 MHz]ms or 25.6ms. If IOC2 bit 2 is disabled the high time ) / 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] or 2.5ms. We can also calculate the low time by subtracting the high time from www.datasheetarchive.com/files/intel/design/mcs96/technote/2383-v6.htm |
Intel | 01/08/1998 | 7.99 Kb | HTM | 2383-v6.htm |