NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: kHz C = 82 pF OSCILLATOR TYPE Quartz crystal Ceramic resonator 1 MHz C = 47 pF Quartz , The MSP430x1xx Basic Clock System 17 SLAA081 SLAA081 A.2.4 MSP430P112 MSP430P112 1-MHz Crystal Oscillator Characteristics Table A-4 shows 1-MHz crystal oscillator characteristics for a range of temperatures and , Table AÂ4. XT1/XT2 1-MHz Crystal Oscillator Characteristics TEMPERATURE (°C) 384 1000060 513 , Crystal Oscillator Characteristics Table A-10 shows 1-MHz crystal oscillator characteristics for a range ... | Original |
27 pages, |
Crystal oscillator 12 MHz applications of blocking oscillator DCOC CRYSTAL 4 MHZ murata quartz 1MHz FN 1016 Ceramic resonator 455khz 1MHz crystal oscillator transistor fn 1016 4 mhz crystal oscillator 4Mhz cryStal oscillator MSP430x1xx SLAA081 SLAA081 abstract |
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| Abstract: in Figure 1. FEATURES • 2650 Microprocessor • 1k bytes of ROM with pipbug* • 1 k bytes of RAM (off-board expandable) • 1 MHz crystal oscillator • Serial I/O (either TTY 20mA current loop or , description of any I/O signal not detailed above, is as follows: 1,2 Ground 4-11 Processor Data Bus 12 Strobe to Enable I nput Data Port 13 D/C Output 14 DMA Control Input 1 5 Extended/Non Extended Output , Port "C" d +15 for RS232 RS232 e -1 5 for RS232 RS232 f +5 Volts Note. Underlined items indicate buffered 2650 ... | OCR Scan |
8 pages, |
SS50 82S129 2650PC1001 2650 signetics 26 SIGNETICS pipbug 2650 computer 1 mhz crystal oscillator Signetics 2650 2650PC1001 abstract |
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| Abstract: MX004 MX004 operates from a single 5V supply and uses a 1 MHz crystal oscillator to ensure the correct pitch , input here. Internal 1 Mii pullup. 21 Xtal: Output of the clock oscillator inverter. 22 Xtal/Clock: This is the input to the clock oscillator inverter. 1 MHz Xtal input or externally derived clock can be , using the following parameters unless otherwise specified: VDD = 5V, Tamb = 25°C, Clock 1 MHz, Audio , Frequency -2 400 400 400 400 13 50 0 +2 - 5 273.2 - 1 mVrms ms dB % Hz ns ns ns ns MHz Notes ... | OCR Scan |
8 pages, |
MX004P MX004LH MX004J capacitor 15 fa 500 va inverter diagrams 1 mhz crystal oscillator datasheet abstract |
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| Abstract: microprocessor interfaces. The MX004 MX004 operates from a single 5V supply and uses a 1 MHz crystal oscillator to , input here. Internal 1 Mohm pullup. Xtal: Output of the clock oscillator inverter. Xtal/Clock: This is the input to the clock oscillator inverter. 1 MHz Xtal input or externally derived clock can be , Table 2 and are produced with a Xtal/clock frequency (fcik) of 1 MHz. The modulation frequency and band , : V =5V T . =25°C, Clock 1 MHz, Audio Level Ref: 0 dB = 775 mVrms. DD ' anto Characteristics See ... | OCR Scan |
10 pages, |
MX004P MX004J International Microcircuits 1 mhz crystal oscillator tx/rx 433 MX004LH 3 band audio tone control MX004 MX004 abstract |
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| Abstract: PIC16F84A PIC16F84A HS Mode 1 MHz xtal 33 pF C1 and C2 RS = 0.0 ohms This is the 1 MHz crystal oscillator without , The circuit is a PIC16F84A PIC16F84A with a 1 MHz crystal oscillator without RS FIGURE 24: in HS Gain , Table 1. TABLE 1: CAPACITOR SELECTION FOR CRYSTAL OSCILLATOR Osc Type Crystal Freq. , symmetrical and sinusoidal. FIGURE 19: OVERDRIVEN CRYSTAL PIC16C54 PIC16C54 HS Mode 1 MHz xtal 15 pF C1 and , (see Figure 23). The Microchip data book recommends XT FIGURE 23: mode for a 1 MHz crystal in ... | Original |
24 pages, |
AN588 CA-301 epson c-001r32.768k-a EPSON CA-301 20.000M-C led display drive pic16f84a ic Microchip AN849 PIC16 pic16f84 PIC16F84 detail 8.000m sine wave inverter pic PIC17CXXX PIC16F84A 16 pin ic AN849 AN849 abstract |
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| Abstract: this bit is set to 1, the user can operate with a 4.9152 MHz crystal between MCLK IN and MCLK OUT and , V supplies and 1 MHz master clock, making it ideal for use in low power systems. Standby current , External MCLK IN and CLK DIS = 1 BUF Bit = 0. fCLKIN = 1 MHz. Gains of 1 to 128 BUF Bit = 1. fCLKIN = 1 MHz. Gains of 1 to 128 BUF Bit = 0. fCLKIN = 2.4576 MHz. Gains of 1 to 4 BUF Bit = 0. fCLKIN = 2.4576 MHz. Gains of 8 to 128 BUF Bit = 1. fCLKIN = 2.4576 MHz. Gains of 1 to 4 BUF Bit = 1. fCLKIN = 2.4576 ... | Original |
33 pages, |
EVAL-AD7705EB AD7706BR AD7706BN AD7706 AD7705BRU AD7705BR AD7705BN AD7705 1 mhz crystal oscillator AD7705/AD7706 AD7705/AD7706 abstract |
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| Abstract: this bit is set to 1, the user can operate with a 4.9152 MHz crystal between MCLK IN and MCLK OUT and , V supplies and 1 MHz master clock, making it ideal for use in low power systems. Standby current , External MCLK IN and CLK DIS = 1 BUF Bit = 0. fCLKIN = 1 MHz. Gains of 1 to 128 BUF Bit = 1. fCLKIN = 1 MHz. Gains of 1 to 128 BUF Bit = 0. fCLKIN = 2.4576 MHz. Gains of 1 to 4 BUF Bit = 0. fCLKIN = 2.4576 MHz. Gains of 8 to 128 BUF Bit = 1. fCLKIN = 2.4576 MHz. Gains of 1 to 4 BUF Bit = 1. fCLKIN = 2.4576 ... | Original |
32 pages, |
pt100 interface to 8051 ad7705 bridge AD7705BN AD7705BR AD7705BRU AD7706 AD7706BN AD7706BR EVAL-AD7705EB AD7705 DN25D AD7705/AD7706 AD7705/AD7706 abstract |
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| Abstract: , 4 clkin 400 kHz min Master Clock Frequency: Crystal Oscillator or Externally Supplied 2.5 MHz max , bit is set to 1, the user can operate with a 4.9152 MHz crystal between MCLK IN and MCLK OUT and , . The AD7705/AD7706 AD7705/AD7706 consumes less than 1 mW at 3 V supplies and 1 MHz master clock, making it ideal for , BUF Bit = 0. fcLKiN = 1 MHz. Gains of 1 to 128 0.6 mA max BUF Bit = 1. fcLKiN = 1 MHz. Gains of 1 to 128 0.4 mA max BUF Bit = 0. fcLKiN = 2.4576 MHz. Gains of 1 to 4 0.6 mA max BUF Bit = 0. fcLKiN = ... | OCR Scan |
32 pages, |
sensym differential pressure ad7705 bridge AD7705BN AD7705BR AD7706 AD7706BN hart protocol rtd N-16 R-16 AD7705 PT100 bridge adc pt100 sensor interface WITH 8051 pt100 sensor interface WITH ADC AD7705 abstract |
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| Abstract: , when this bit is set to Logic 1, the user can operate with a 4.9152 MHz crystal between MCLK IN and , /AD7706 /AD7706 consume less than 1 mW at 3 V supplies and 1 MHz master clock, making them ideal for use in low , MHz, unless otherwise noted. All specifications TMIN to TMAX, unless otherwise noted. Table 1 , VDD. External MCLK IN and CLKDIS = 1. BUF bit = 0. fCLKIN = 1 MHz. Gains of 1 to 128. BUF bit = 1. fCLKIN = 1 MHz. Gains of 1 to 128. BUF bit = 0. fCLKIN = 2.4576 MHz. Gains of 1 to 4. BUF bit = 0. ... | Original |
44 pages, |
REF192 AD780 AD7706 AD7705 AD7705/AD7706 AD7705/AD7706 abstract |
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| Abstract: emulation board When the IE-780958-NS-EM4 IE-780958-NS-EM4 is shipped, a 1 MHz crystal oscillator is already mounted in OSC1 , (1) Clock that is already mounted on emulation board (a) For main system clock A crystal oscillator , ) is used. (b) For subsystem clock 1 A crystal oscillator (OSC2) is already mounted on the , Socket VCC Socket Pin No. NC Crystal oscillator 1 GND 7 12 CLOCK OUT 8 4 , crystal oscillator was removed in above. Check the pin 1 mark to make sure the board is mounted in ... | Original |
45 pages, |
uPD780958 uPD780957 U1610 IE-78K0-NS-A IE-78K0-NS IE-780958-NS-EM4 datasheet abstract |
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| ] QUARTZ CRYSTAL OSCILLATOR SELECTION GUIDE NJM2555 NJM2555 NJM2555 NJM2555 622MHz Drive Fundamental Quartz Crystal Oscillator NJU6369 NJU6369 NJU6369 NJU6369 Series 1.5V Operation Drive 3rd. Over Tone Quartz Crystal Oscillator NJU6379D NJU6379D NJU6379D NJU6379D 1.8V Operation 3rd. Over 3rd. Over Tone Quartz Crystal Oscillator for 166MHz NJU6397 NJU6397 NJU6397 NJU6397 Series 3rd. Over Tone Quartz Crystal Oscillator for 135MHz DISCONTINUE PRODUCTS www.datasheetarchive.com/files/jrc/e05/me-v1.htm |
JRC | 03/09/2003 | 9.41 Kb | HTM | me-v1.htm |
| ] QUARTZ CRYSTAL OSCILLATOR SELECTION GUIDE NJM2555 NJM2555 NJM2555 NJM2555 622MHz VCXO NJU6369 NJU6369 NJU6369 NJU6369 Series 1.5V Operation Fundamental Quartz Crystal Oscillator NJU6370 NJU6370 NJU6370 NJU6370 NJU6379D NJU6379D NJU6379D NJU6379D 1.8V Operation 3rd. Over Tone Quartz Crystal Oscillator NJU6391 NJU6391 NJU6391 NJU6391 Oscillator NJU6396 NJU6396 NJU6396 NJU6396 3rd. Over Tone Quartz Crystal Oscillator for 166MHz NJU6397 NJU6397 NJU6397 NJU6397 Series 3rd. Over Tone Quartz Crystal Oscillator for 135MHz www.datasheetarchive.com/files/jrc/e05/me.htm |
JRC | 26/03/2003 | 9.32 Kb | HTM | me.htm |
| Basic Clock Module: Crystal Oscillator Basic Clock Module: Crystal Oscillator LFXTCLK XIN XOUT Low power OscOff LF oscillator, XTS=0 High frequency XT oscillator, XTS=1 XTS XTS=1 ? High frequency oscillator ? 450kHz Â... 8MHz Crystal XTS=0 ? Low frequency oscillator ? 32kHz Watch Crystal ( no external capacitors ) External Clock input at XIN MSP430 MSP430 MSP430 MSP430 Crystal Oscillator Previous slide www.datasheetarchive.com/files/texas-instruments/literature/literature - common/foils/1999/modules/tsld009.htm |
Texas Instruments | 04/09/2000 | 1.17 Kb | HTM | tsld009.htm |
| 1.5 MHz. With the PLL disabled, the external oscillator frequency can go from direct current, or DC The crystal oscillator circuit can take two different frequency sources, a crystal or an external oscillator. If you choose to use a crystal, the crystal frequency must be between 30 KHz and 100 KHz, typically 32.768 KHz. The oscillator has not been designed take crystal frequencies outside this range. If you choose to use an external oscillator as the clock source, you can choose to have the PLL www.datasheetarchive.com/files/motorola/pdf/tutorial/module16068/e004/e004_text_2.txt |
Motorola | 10/08/2001 | 0.69 Kb | TXT | e004_text_2.txt |
| > Special Functions > Silicon Oscillators > LTC1799 LTC1799 LTC1799 LTC1799 - 1kHz to 33MHz Resistor Set SOT-23 Oscillator LTC1799 LTC1799 LTC1799 LTC1799 - 1kHz to 33MHz Resistor Set SOT-23 Oscillator the Fall, 2004 Design Note DN262 DN262 DN262 DN262 SOT-23 1kHz to 30MHz Oscillator with Single Clocking Switched Capacitor Filters Fixed Crystal Oscillator Replacement Ceramic Oscillator View Packages Documentation Datasheet LTC1799 LTC1799 LTC1799 LTC1799 - 1kHz to 33MHz www.datasheetarchive.com/files/linear/c1010/c1096/p2069/p2069-applications-v1.html |
Linear | 09/02/2007 | 9.37 Kb | HTML | p2069-applications-v1.html |
| crystal and related external components. You can also use an externally generated clock to feed the OSC1 pin of the crystal oscillator circuit. To use this configuration, connect the external clock to the OSC1 pin and let the OSC2 pin float. The crystal oscillator circuit can take two different frequency sources, a crystal or an external oscillator. If you choose to use a crystal, the crystal oscillator frequency must be between 30 KHz and 1.5 MHz. With the PLL disabled, the external oscillator www.datasheetarchive.com/files/motorola/pdf/tutorial/module16068/e004/all_1.html |
Motorola | 10/08/2001 | 1.65 Kb | HTML | all_1.html |
| crystal and related external components. You can also use an externally generated clock to feed the OSC1 pin of the crystal oscillator circuit. To use this configuration, connect the external clock to the OSC1 pin and let the OSC2 pin float. The crystal oscillator circuit can take two different frequency sources, a crystal or an external oscillator. If you choose to use a crystal, the crystal oscillator frequency must be between 30 KHz and 1.5 MHz. With the PLL disabled, the external oscillator www.datasheetarchive.com/files/motorola/pdf/tutorial/module16068/e004/all_1_none.html |
Motorola | 10/08/2001 | 1.66 Kb | HTML | all_1_none.html |
| crystal and related external components. You can also use an externally generated clock to feed the OSC1 pin of the crystal oscillator circuit. To use this configuration, connect the external clock to the OSC1 pin and let the OSC2 pin float. The crystal oscillator circuit can take two different frequency sources, a crystal or an external oscillator. If you choose to use a crystal, the crystal oscillator frequency must be between 30 KHz and 1.5 MHz. With the PLL disabled, the external oscillator www.datasheetarchive.com/files/motorola/pdf/tutorial/module16068/e004/all_2_none.html |
Motorola | 10/08/2001 | 1.66 Kb | HTML | all_2_none.html |
| crystal and related external components. You can also use an externally generated clock to feed the OSC1 pin of the crystal oscillator circuit. To use this configuration, connect the external clock to the OSC1 pin and let the OSC2 pin float. The crystal oscillator circuit can take two different frequency sources, a crystal or an external oscillator. If you choose to use a crystal, the crystal oscillator frequency must be between 30 KHz and 1.5 MHz. With the PLL disabled, the external oscillator www.datasheetarchive.com/files/motorola/pdf/tutorial/module16068/e004/all_2.html |
Motorola | 10/08/2001 | 1.65 Kb | HTML | all_2.html |
| INTERFACE SPECIAL FUNCTIONS Silicon Oscillators Home > Special Functions > Silicon Oscillators > LTC6904 LTC6904 LTC6904 LTC6904 - 1kHz - 68MHz Serial Port Programmable Microactuator Driver Switched Cap Building Blocks LTC6904 LTC6904 LTC6904 LTC6904 - 1kHz - 68MHz Serial MHz Serial Port Programmable Oscillator LT Magazine Dec 2003 Digital Programmable Oscillator Is Smaller, Sturdier and More Versatile than Crystal Oscillators Reliability www.datasheetarchive.com/files/linear/c1010/c1096/p2416/p2416-applications-v1.html |
Linear | 09/02/2007 | 7.78 Kb | HTML | p2416-applications-v1.html |