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Part Manufacturer Description Datasheet BUY
DSC8001AI5 Microchip Technology Inc CRYSTAL OSCILLATOR, CLOCK, 1MHz - 150MHz, CMOS OUTPUT visit Digikey Buy
DSC8001AL2 Microchip Technology Inc CRYSTAL OSCILLATOR, CLOCK, 1MHz - 150MHz, CMOS OUTPUT visit Digikey Buy
DSC8001BL2 Microchip Technology Inc CRYSTAL OSCILLATOR, CLOCK, 1MHz - 150MHz, CMOS OUTPUT visit Digikey Buy
DSC8001CI5 Microchip Technology Inc CRYSTAL OSCILLATOR, CLOCK, 1MHz - 150MHz, CMOS OUTPUT visit Digikey Buy
DSC8001DI1 Microchip Technology Inc CRYSTAL OSCILLATOR, CLOCK, 1MHz - 150MHz, CMOS OUTPUT visit Digikey Buy
DSC8001DL5 Microchip Technology Inc CRYSTAL OSCILLATOR, CLOCK, 1MHz - 150MHz, CMOS OUTPUT visit Digikey Buy

1 mhz crystal oscillator

Catalog Datasheet MFG & Type PDF Document Tags

1 mhz crystal oscillator

Abstract: crystal 455 khz kHz C = 82 pF OSCILLATOR TYPE Quartz crystal Ceramic resonator 1 MHz C = 47 pF Quartz , The MSP430x1xx Basic Clock System 17 SLAA081 A.2.4 MSP430P112 1-MHz Crystal Oscillator Characteristics Table A-4 shows 1-MHz crystal oscillator characteristics for a range of temperatures and , . Table A­4. XT1/XT2 1-MHz Crystal Oscillator Characteristics TEMPERATURE (°C) 384 1000060 513 , Basic Clock System 23 SLAA081 A.3.4 MSP430C112 1-MHz Crystal Oscillator Characteristics Table
Texas Instruments
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1 mhz crystal oscillator crystal 455 khz MSP430x1xx 4Mhz cryStal oscillator 4 mhz crystal oscillator DC generator MSP430

Signetics 2650

Abstract: 1 mhz crystal oscillator in Figure 1. FEATURES â'¢ 2650 Microprocessor â'¢ 1k bytes of ROM with pipbug* â'¢ 1 k bytes of RAM (off-board expandable) â'¢ 1 MHz crystal oscillator â'¢ Serial I/O (either TTY 20mA current loop , 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 16 Interrupt Acknowledge Output 17 R/W Output 18 Write , k-u Non-Extended Input Port "D" v-c Non-Extended I nput Port "C" d +15 for RS232 e â'"1 5 for RS232 f
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2650PC1001 82S129 Signetics 2650 pipbug signetics 82S129 signetics 2606 TTY 20MA 2650 signetics 2650PC1001-P RS232-

1 mhz crystal oscillator

Abstract: 500 va inverter diagrams microprocessor interfaces. The MX004 operates from a single 5V supply and uses a 1 MHz crystal oscillator to , the clock oscillator inverter. 22 Xtal/Clock: This is the input to the clock oscillator inverter. 1 , following parameters unless otherwise specified: VDD = 5V, Tamb = 25°C, Clock 1 MHz, Audio Level Ref: OdB = , ms dB % Hz ns ns ns ns MHz Notes: 1. Characteristics specified at 5V VDD. 2. Bandpass limits , components needed. MX004 MX004J (CDIP) MX004P (PDIP) 24 Pins MX004LH (24p PLCC) Fig. 1 Internal Block
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500 va inverter diagrams 3 band audio tone control capacitor 15 fa

AB273

Abstract: 1 mhz crystal oscillator a single 5V supply and uses a 1 MHz crystal oscillator to ensure the correct pitch in recovered , input here. Internal 1 M il pullup. Xtal: O utput of the clock oscillator inverter. X tal/C lock: This is the input to the clock oscillator inverter. 1 M Hz Xtal input or externally derived clock can be , param eters unless otherwise specified: V dd = 5V, Tamb = 25°C, Clock 1 MHz, Audio Level Ref: OdB = 775 , - - - 400 400 400 400 - - - - - 1 ns ns ns ns MHz Notes: 1. 2. 3. 4
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AB273 X004LH

MX004LH

Abstract: 3 band audio tone control microprocessor interfaces. The MX004 operates from a single 5V supply and uses a 1 MHz crystal oscillator to , loading are 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 , . =25°C, Clock 1 MHz, Audio Level Ref: 0 dB = 775 mVrms. DD ' anto Characteristics See Note Min
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tx/rx 433 International Microcircuits

MHz frequency counter

Abstract: MC75108 length of the enable time, The reference frequency is obtained from a 1 MHz crystal oscillator using a CMOS gate, G l, with a crystal as a feedback element. Gate G2 is used as a buffer for the 1 MHz , in three basic parts: 1. Crystal oscillator and time base. 2. Counter, latches, decoders and displays , reference than the internal oscillator is required. The time base divides the 1 MHz oscillator frequency , been used to reduce display power consumption. The counter features: 1) 5 MHz frequency operation. 2
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MHz frequency counter MC75108 CI4511 mci4017 cmos ci4511 COUNTER LED bcd AN-717 AN717/D

PIC16F84 ONE SHOT TIMER

Abstract: Microchip AN849 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 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. Cap , symmetrical and sinusoidal. FIGURE 19: OVERDRIVEN CRYSTAL 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
Microchip Technology
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AN849 PIC16F84 ONE SHOT TIMER Microchip AN849 AN849 basic PIC PIC16F84A 16 pin ic pic16f84 inverter 11F-3 DK-2750 D-85737 DS00849A-
Abstract: Tstart Serial link and digital I/O mA 1 MHz Crystal Oscillator 13.56 16 MHz 2 5 , reference oscillator will work either with a quartz crystal or a ceramic resonator. The nominal system , the Power Down mode is selected, the crystal oscillator will be turned off. Therefore, it will be , :0] Mode 0 Idle (oscillator on) 0 1 Transmitter On 1 0 Unused 1 3901090121 Rev. 005 0 1 Power Down (oscillator off) Page 21 of 27 Data Sheet Jan/05 Melexis
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MLX90121 SSOP20 ISO14001

1 mhz crystal oscillator

Abstract: crystal 3 mhz board When the IE-780958-NS-EM4 is shipped, a 1 MHz crystal oscillator is already mounted in OSC1 of , and 8 shorted Not used When using clock mounted by user Other than 1 MHz Oscillator , 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 , Prepare the IE-780958-NS-EM4. Remove the crystal oscillator that is mounted in the XT3
NEC
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crystal 3 mhz transducers for automobiles nec CB-11 IE-78K0-NS IE-78K0-NS-A uPD780957 PD780958 U16266EJ2V0UM00 U16266EJ2V0UM

IE-780958-NS-EM4

Abstract: IE-78K0-NS board When the IE-780958-NS-EM4 is shipped, a 1 MHz crystal oscillator is already mounted in OSC1 of , and 8 shorted Not used When using clock mounted by user Other than 1 MHz Oscillator , 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 , Prepare the IE-780958-NS-EM4. Remove the crystal oscillator that is mounted in the XT3
NEC
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uPD780958 U1610

ad7705 bridge

Abstract: 540-6601 , when this bit is set to Logic 1, the user can operate with a 4.9152 MHz crystal between MCLK IN and , /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 , 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. fCLKIN = 2.4576 MHz
Analog Devices
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AD7705BR-REEL ad7705 bridge 540-6601 ad7705 68hc11 rtd pt100 interface to 8051 AD7705 AD7705/AD7706 MS-013AA AD7705BN AD7705BR AD7705BR-REEL7

CMOS PLD Programming Hardware and Software Suppor

Abstract: ATF1508/1508AS DISPLAY 1 MHz CRYSTAL OSCILLATOR 25-PIN FEMALE SOCKET INTERFACE POWER SUPPLY ADAPTER , and the other two (LED2 and LED3) are for prototyping. · · · · · · Crystal Oscillator, 1 , Oscillator that generates a frequency of 1 MHz. The oscillator clocks a simple test design implemented in , 23 TCK 62 TDO 71 1 1 MHZ CLK PBSW1 81 PBSW2 SOCKET 1 (U1) 83 2 , SS2, from the four position slide switch (SW1) (See Table 2). 4. 1 MHz Clock signal is generated
Atmel
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ATF1500AS CMOS PLD Programming Hardware and Software Suppor ATF1508/1508AS atmel atf16v8b 0929a atmisp ATF1508AS DB25- 10/97/15M

DN25D

Abstract: AD7707 A VDD 1 2 OSCILLATOR = 4.9152 MHz MCLK IN = 0V OR VDD 12 VDD = 5V 8 VDD = 3V 4 2 OSCILLATOR = 2.4576 MHz CH1 5.00V CH2 2.00V 0 ­40 ­30 ­20 ­10 5ms/DIV Figure 8. Typical Crystal , less than 1 mW at 3 V supplies and 1 MHz master clock, making it ideal for use in low power systems , . Gain = 1 to 4 Typically 0.22 mA. BUF = 0. fCLK IN = 1 MHz or 2.4576 MHz Typically 0.45 mA. BUF = 1. fCLK IN = 1 MHz or 2.4576 MHz AVDD = 3 V or 5 V. Gain = 8 to 128 Typically 0.38 mA. BUF = 0. fCLK IN
Analog Devices
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AD7707 RU-20 DN25D AD7707BR AD7707BRU AD780 EVAL-AD7707EB C3580

AD770

Abstract: 7705A set to 1, the user can operate with a 4.9152 MHz crystal between MCLK IN and MCLK OUT and internally , less than 1 mW at 3 V supplies and 1 MHz master clock, making it ideal for use in low power systems , . External MCLK IN and CLK DIS = 1 BU F Bit = 0. Îclkin = 1 MHz. Gains of I to 128 BU F Bit = 1. fcLKiN = 1 MHz. Gains of 1 to 128 BU F Bit = 0. fcLKiN = 2.4576 MHz. Gains of 1 to 4 BU F Bit = 0. fcLKiN = 2.4576 MHz. Gains of 8 to 128 BU F Bit = 1. fcLKiN = 2.4576 MHz. Gains of I to 4 BU F Bit = 1. fcLKiN =
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AD770 7705A AD7706BN VDD-06 AD7705/AD77Q6 AD7706

DN25D

Abstract: pt100 interface to 8051 set to Logic 1, the user can operate with a 4.9152 MHz crystal between Pin MCLK IN and Pin MCLK OUT , AD7705/AD7706 devices consume less than 1 mW at 3 V supplies and 1 MHz master clock, making them ideal , 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, 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 MHz
Analog Devices
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pt100 interface to 8051 pt100 sensor interface WITH ADC Thermocouple type k PT100 REF192 REF43 signal conditioning circuit for pt100 7706BRUZ1 AD7706BRUZ-REEL1 AD7706BRUZ-REEL71 EVAL-AD7705EB EVAL-AD7706EB RW-16

AD7705BRZ

Abstract: AD7705 set to Logic 1, the user can operate with a 4.9152 MHz crystal between Pin MCLK IN and Pin MCLK OUT , AD7705/AD7706 devices consume less than 1 mW at 3 V supplies and 1 MHz master clock, making them ideal , 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, 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 MHz
Analog Devices
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AD7705BRZ 8051 microcontroller thermal printer pt100 temperature 3 wire AD7706BRU AD7705BRUZ-REEL7 interfacing 8051 with parallel ram RU-16 C01166-0-5/06

DN25D

Abstract: pt100 sensors CURRENT ­ A VDD 1 2 OSCILLATOR = 4.9152 MHz MCLK IN = 0V OR VDD 12 VDD = 5V 8 VDD = 3V 4 , less than 1 mW at 3 V supplies and 1 MHz master clock, making it ideal for use in low power systems , . Gain = 1 to 4 Typically 0.22 mA. BUF = 0. fCLK IN = 1 MHz or 2.4576 MHz Typically 0.45 mA. BUF = 1. fCLK IN = 1 MHz or 2.4576 MHz AVDD = 3 V or 5 V. Gain = 8 to 128 Typically 0.38 mA. BUF = 0. fCLK IN = 2.4576 MHz Typically 0.81 mA. BUF = 1. fCLK IN = 2.4576 MHz AD7707­SPECIFICATIONS B Version1
Analog Devices
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pt100 sensors SENSYM

pt100 interface to 8051

Abstract: rtd pt100 interface to 8051 , when this bit is set to Logic 1, the user can operate with a 4.9152 MHz crystal between MCLK IN and , /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 , . 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
Analog Devices
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hart protocol rtd pt100 sensor interface WITH 8051 pt100 temperature sensor circuit diagram HART 375 pressure sensor interface with 8051 PT100 bridge adc AD7705/AD77061 D7705BRZ-REEL71 AD7705BRU AD7705BRU-REEL AD7705BRU-REEL7 AD7705BRUZ1

AD7705 pt100

Abstract: 1 mhz crystal oscillator 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 =
Analog Devices
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AD7705 pt100 SenSym bp01 AD7706BR PT100 RTD signal conditioning noise problem

DN25D

Abstract: AD7705BR 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 =
Analog Devices
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passive crossover low pass filter circuit 50hz C3253
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