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Part Manufacturer Description Datasheet Download Buy Part
LTC6904MPMS8#PBF Linear Technology LTC6904 - 1kHz - 68MHz Serial Port Programmable Oscillator; Package: MSOP; Pins: 8; Temperature Range: -55°C to 125°C
LTC6991HS6#TRMPBF Linear Technology LTC6991 - TimerBlox: Resettable, Low Frequency Oscillator; Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C
LTC6904CMS8#TRPBF Linear Technology LTC6904 - 1kHz - 68MHz Serial Port Programmable Oscillator; Package: MSOP; Pins: 8; Temperature Range: 0°C to 70°C
LTC6908CDCB-2#TRPBF Linear Technology LTC6908 - Dual Output Oscillator with Spread Spectrum Modulation; Package: DFN; Pins: 6; Temperature Range: 0°C to 70°C
LTC6908IDCB-2#TRPBF Linear Technology LTC6908 - Dual Output Oscillator with Spread Spectrum Modulation; Package: DFN; Pins: 6; Temperature Range: -40°C to 85°C
LTC6904HMS8 Linear Technology LTC6904 - 1kHz - 68MHz Serial Port Programmable Oscillator; Package: MSOP; Pins: 8; Temperature Range: -40°C to 125°C

esr "oscillation allowance" 32khz pierce Datasheets Context Search

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2006 - 2 pin crystal oscillator

Abstract: mps430 4 mhz crystal oscillator crystal oscillator 1 MHz 4 pins crystal oscillator 1 MHz 4 pins CONNECTIONS 3 pin crystal oscillator 4 pin surface mount crystal oscillator 60 Hz crystal oscillator MSP430x4xx Family Users Guide SLAA322
Text: external resistor. The maximum value of this increased ESR is called the oscillation allowance (OA). With , Oscillation Allowance test or safety margin test. With this test, the ESR safety factor is measured. As , . Oscillation Allowance (OA) OA = RQmax + ESR (4) Safety Factor (SF) SF = OA RQmax + ESR = ESR ESR , . 2 2 2 3 4 5 7 7 9 List of Tables 1 2 Typical Oscillation Allowance Values for , at 32768 Hz (often called 32 kHz). The mechanical oscillation (see Figure 1) of a 32-kHz tuning fork


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PDF SLAA322 MSP430 32-kHz MSP430 2 pin crystal oscillator mps430 4 mhz crystal oscillator crystal oscillator 1 MHz 4 pins crystal oscillator 1 MHz 4 pins CONNECTIONS 3 pin crystal oscillator 4 pin surface mount crystal oscillator 60 Hz crystal oscillator MSP430x4xx Family Users Guide SLAA322
2006 - MPS430

Abstract: SLAA322 MSP430 MSP430F1232IRHB MSP430F4xx 32,768 SMD crystal Component MSP430 32-kHz Crystal Oscillators
Text: external resistor. The maximum value of this increased ESR is called the oscillation allowance (OA). With , Oscillation Allowance test or safety margin test. With this test, the ESR safety factor is measured. As , . 2 2 2 3 4 5 7 7 9 List of Tables 1 2 Typical Oscillation Allowance Values for , at 32768 Hz (often called 32 kHz). The mechanical oscillation (see Figure 1) of a 32-kHz tuning fork , adjusted with the gain of the inverting amplifier. All MSP430 32-kHz crystal oscillators are Pierce


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PDF SLAA322 MSP430 32-kHz MSP430 MPS430 SLAA322 MSP430F1232IRHB MSP430F4xx 32,768 SMD crystal Component MSP430 32-kHz Crystal Oscillators
2006 - esr "oscillation allowance" 32khz pierce

Abstract: 32KHz crystal SLAA322B crystal oscillator safety factor MSP430 32-kHz Crystal Oscillators 32khz 5.1m msp430 crystal oscillator smd 32768hz circuit msp430 interface between rfid MSP430F4xx MSP430F1232IRHB
Text: external resistor. The maximum value of this increased ESR is called the oscillation allowance (OA). With , Oscillation Allowance test or safety margin test. With this test, the ESR safety factor is measured. As , Equation 4 and Equation 5. Oscillation Allowance (OA) OA = RQmax + ESR (4) Safety Factor (SF) SF = , . 2 2 2 3 4 5 7 7 9 List of Tables 1 2 Typical Oscillation Allowance Values for , pF) · Crystal's ESR (for 32-kHz crystals, typically 30 k to 100 k) · Tolerance (typically 5 ppm to


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PDF SLAA322B MSP430 32-kHz MSP430 esr "oscillation allowance" 32khz pierce 32KHz crystal SLAA322B crystal oscillator safety factor MSP430 32-kHz Crystal Oscillators 32khz 5.1m msp430 crystal oscillator smd 32768hz circuit msp430 interface between rfid MSP430F4xx MSP430F1232IRHB
smd transistor t1A

Abstract: Micro Crystal Switzerland 32.768khz crystal Quartz Crystal 32.768KHz advantage of crystal oscillator xtal 32.768 crystal 32.768 CC4V-T1A 32.768kHz CC4V-T1A 32.768 Khz 32.768khz crystal 2 pin
Text: >3.0 [Volt] integrated Load capacitors [pF] Oscillation allowance 300 [kOhm] Recommended 60 [kOhm] Crystal ESR typ. Effective load-capacitance 10.2 [pF] Drive level 0.220 [microW] Start-up , ] Effective load-capacitance 7.0 [pF] Oscillation allowance 500 [kOhm] Drive level 0.070 [microW , Pierce Oscillator Design and Crystal Recommendation TI - MSP430 Low-Frequency Quartz , sales@microcrystal.ch Pierce Oscillator Design and Crystal Recommendation TI MSP-430 1xx & 3xx Family XIN


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PDF MSP430 MSP430 MSP430. 768kHz CH-2540 smd transistor t1A Micro Crystal Switzerland 32.768khz crystal Quartz Crystal 32.768KHz advantage of crystal oscillator xtal 32.768 crystal 32.768 CC4V-T1A 32.768kHz CC4V-T1A 32.768 Khz 32.768khz crystal 2 pin
2009 - crystal oscillator safety factor

Abstract: circuit msp430 interface between rfid 26753 MSP430 SLAA423 SLAA322 SLAA225 6pf 32khz crystal oscillator
Text: . The amount on energy required for oscillation is impacted by the board layout, the crystal ESR , and , both the occurrence of XOSC8 and the oscillation allowance of the crystal-oscillator circuit. 2.1 , an increase in oscillator output in an attempt to maintain the same level of oscillation allowance , Start-Up Reliability The crystal ESR is directly related to the oscillator allowance and safety factor , . Oscillator Allowance PARAMETER OALF TEST CONDITIONS Oscillation allowance for LF crystals TYP


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PDF SLAA423 MSP430 MSP430 32-kHz SLAA322) crystal oscillator safety factor circuit msp430 interface between rfid 26753 SLAA423 SLAA322 SLAA225 6pf 32khz crystal oscillator
ATMEL 129

Abstract: Pierce oscillator 12000 crystal MS3V-T1R 50 Hz crystal oscillator ATmega169 MS3V-T1R 32 CAPACITANCE CHART 12,000 Crystal oscillator CC7V-T1A
Text: CD / CG 9/9 Results Effective Load Capacitance 12.9 11.3 Oscillation Allowance >500 >500 , oscillator circuit provides an oscillation allowance greater than 500 k; this allows the safe use of smallest SMD quartz crystals ( ESR 100 k). Date: October 2010 Revision N° 1.0 : Page 1/5 In , Pierce Oscillator Design and Crystal Recommendations Oscillator Design Check ATmega169 Osc , limiting Pierce Oscillator. Placing CD = 9 pF and CG = 9 pF load capacitors on each side of the crystal


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PDF ATmega169 ATmega169 ATMEL 129 Pierce oscillator 12000 crystal MS3V-T1R 50 Hz crystal oscillator MS3V-T1R 32 CAPACITANCE CHART 12,000 Crystal oscillator CC7V-T1A
50 Hz crystal oscillator

Abstract: MS3V-T1R CC7V-T1A CH-2540 Pierce oscillator 12000 crystal MS3V-T1R 32,768 KHz
Text: CD / CG 12 / 12 Results Effective Load Capacitance 12.8 11.6 Oscillation Allowance >500 >500 , oscillator circuit provides an oscillation allowance greater than 500 k; this allows the safe use of smallest SMD quartz crystals ( ESR 100 k). Date: October 2010 Revision N° 1.0 : Page 1/5 In , Pierce Oscillator Design and Crystal Recommendations Oscillator Design Check ATmega169 Osc , self limiting Pierce Oscillator. Placing CD = 12 pF and CG = 12 pF load capacitors on each side of the


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PDF ATmega169 ATmega169 50 Hz crystal oscillator MS3V-T1R CC7V-T1A CH-2540 Pierce oscillator 12000 crystal MS3V-T1R 32,768 KHz
MS3V-T1R 32

Abstract: 12000 crystal 12,000 Crystal oscillator MS3V-T1R CC7V-T1A 3.2769 pierce oscillator crystal Oscillator 200 khz crystal
Text: Capacitors CD / CG 5.6 / 5.6 Results Effective Load Capacitance 7.4 6.9 Oscillation Allowance 445 500 , 7.0 pF. The oscillator circuit provides an oscillation allowance of 445 k at VDD = 1.8 V and 500 k at VDD = 5.5 V; this allows the safe use of smallest SMD quartz crystals ( ESR 90 k). Date: October , Pierce Oscillator Design and Crystal Recommendations Oscillator Design Check ATmega164PA Osc , self limiting Pierce Oscillator. Placing CD = 5.6 pF and CG = 5.6 pF load capacitors on each side of


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PDF ATmega164PA ATmega164PA limi775 MS3V-T1R 32 12000 crystal 12,000 Crystal oscillator MS3V-T1R CC7V-T1A 3.2769 pierce oscillator crystal Oscillator 200 khz crystal
2008 - UPD78F0547GC

Abstract: quartz watch chip sp-t2a-f Quartz Crystal 32.768KHz watch module Ultrasonic cleaner circuit r5f364 payment terminal S-78190A VT-200-F VT-150-F
Text: OSCILLATION ALLOWANCE To ensure stable oscillation , the negative resistance of the circuit should be significantly larger than the equivalent series resistance (the oscillation allowance is large). Ensure that the oscillation allowance is at least five times as large as the equivalent series resistance. Oscillation Allowance Evaluation Method Rf Add resistor "Rx" to the crystal unit in series and ensure , Oscillation Circuit Design Precautions. 14 Environmental Activities at Seiko Instruments Inc


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PDF D-63263 CAQ0809EJ0064-10C UPD78F0547GC quartz watch chip sp-t2a-f Quartz Crystal 32.768KHz watch module Ultrasonic cleaner circuit r5f364 payment terminal S-78190A VT-200-F VT-150-F
2007 - PIC16f690

Abstract: pic16f690 datasheet Micro Crystal Switzerland china schematic diagram tuning fork application note TB097 RA3 thermistor smd transistor code rc4 CH-2540 DS41262
Text: 1) Oscillation Allowance 417 2) Oscillator Output Voltage AC 690 2) Drive Level 0.300 1 , match for a crystal specified for CL = 12.5 pF. The oscillator circuit provides an oscillation allowance of 417 k; this allows the safe use of smallest SMD quartz crystals ( ESR 80 k). Date: October , . TB097 FIGURE 3: CHARACTERIZATION REPORT (PAGE 1) Pierce Oscillator Pierce Oscillator Design , 220 22 22 kHz pF ppm k pF pF Remarks The PIC16F690 consists of a self limiting Pierce


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PDF TB097 PIC16F690/SS PIC16F690 high-qual536-4803 DS91097A-page pic16f690 datasheet Micro Crystal Switzerland china schematic diagram tuning fork application note TB097 RA3 thermistor smd transistor code rc4 CH-2540 DS41262
Quartz Crystal Glossary of Terms

Abstract: quartz crystal 6 MHZ crystal tuning fork quartz MHz
Text: oscillation allowance . Lack of negative resistance could lead to initial circuit start-up and and unstable oscillation at steady state. Procedure: 1. Connect the external resistance Ri in series with the crystal , parallel mode. Load capacitance is calculated as follows: Pierce circuit Colpitts Fig. 2 Equivalent Series Resistance ( ESR ): The value of impedance the crystal exhibits in the operating resonant , the operating mode, specified in dB max. or number of times of main mode ESR value. Frequency range


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2011 - M355A

Abstract: sii Product Catalog MB150 SSP-T7-F citizen crystal catalogue MB131
Text: OSCILLATION ALLOWANCE To ensure stable oscillation , the negative resistance of the circuit should be significantly larger than the equivalent series resistance (the oscillation allowance is large). Ensure that the oscillation allowance is at least five times as large as the equivalent series resistance. Oscillation , validate oscillation circuits, and recommend optimal circuit parameters for use of 32kHz Quartz Crystal , Precautions . 10 Oscillation Circuit Design Precautions


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PDF VT-200-FL) VT-200-FL F-92600 CAQ1101EJ0050-10C M355A sii Product Catalog MB150 SSP-T7-F citizen crystal catalogue MB131
2013 - Tubular package

Abstract: Ceramic package Plastic Mold Package
Text: OSCILLATION ALLOWANCE To ensure stable oscillation , the negative resistance of the circuit should be significantly larger than the equivalent series resistance (the oscillation allowance is large). Ensure that the oscillation allowance is at least five times as large as the equivalent series resistance. Oscillation Allowance Evaluation Method Rf Add resistor “Rx” to the crystal unit in series and , Handling Precautions . 11 Oscillation Circuit


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PDF D-63263 QTC2003EJ-01C1307 Tubular package Ceramic package Plastic Mold Package
2010 - ATmega328PA

Abstract: stk600 atmega2560 Design Guidelines for Quartz Crystal Oscillators ATXMEGA64 ATMEGA128A Atmel 749 32KHz crystal XMEGA Application Notes ATmega328 datasheet MEGAAVR
Text: -AVR-10/10 AVR4100 4 Testing crystal oscillation robustness 4.1 Introduction The 32kHz crystal , . Equation 4-1. Oscillator allowance . OA =RMAX + ESR Figure 4-6. Measuring oscillator allowance /RMAX , . 32kHz (32768 Hz) crystals are usually cut in the shape of a tuning fork, and very precise frequencies can be established. Figure 2-1. Shape of a 32kHz tuning fork crystal. Mechanical vibrations 2.2 , . A (j) The 32kHz oscillator in Atmel® AVR® microcontrollers is shown in Figure 2-3, and


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PDF AVR4100: 333A-AVR-10/10 ATmega328PA stk600 atmega2560 Design Guidelines for Quartz Crystal Oscillators ATXMEGA64 ATMEGA128A Atmel 749 32KHz crystal XMEGA Application Notes ATmega328 datasheet MEGAAVR
2010 - atmega328 esr meter kit

Abstract: atmel capacitive touch ic specification STK600 xmega atmega8A ABS06 ATtiny861 sine STK600 ATmega328PA ATmega328 ATMEGA16 xtal 32768
Text: -AVR-10/10 AVR4100 4 Testing crystal oscillation robustness 4.1 Introduction The 32kHz crystal , . Equation 4-1. Oscillator allowance . OA =RMAX + ESR Figure 4-6. Measuring oscillator allowance /RMAX , . 32kHz (32768 Hz) crystals are usually cut in the shape of a tuning fork, and very precise frequencies can be established. Figure 2-1. Shape of a 32kHz tuning fork crystal. Mechanical vibrations 2.2 , . A (j) The 32kHz oscillator in Atmel® AVR® microcontrollers is shown in Figure 2-3, and


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PDF AVR4100: 333A-AVR-10/10 atmega328 esr meter kit atmel capacitive touch ic specification STK600 xmega atmega8A ABS06 ATtiny861 sine STK600 ATmega328PA ATmega328 ATMEGA16 xtal 32768
2011 - ATMEGA16A

Abstract: NX3215SA atmega16 smd ATmega328 datasheet CM315 atxmega 8333C MEGAAVR atmega32a 32768HZ Quartz Crystals
Text: -AVR-02/11 AVR4100 4 Testing crystal oscillation robustness 4.1 Introduction The 32kHz crystal , . Equation 4-1. Oscillator allowance . OA =RMAX + ESR Figure 4-6. Measuring oscillator allowance /RMAX , AVR4100: Selecting and testing 32kHz crystal oscillators for Atmel AVR microcontrollers Features , . 32kHz (32768Hz) crystals are usually cut in the shape of a tuning fork, and very precise frequencies can be established. Figure 2-1. Shape of a 32kHz tuning fork crystal. Mechanical vibrations 2.2


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PDF AVR4100: 32kHz 8333C-AVR-02/11 ATMEGA16A NX3215SA atmega16 smd ATmega328 datasheet CM315 atxmega 8333C MEGAAVR atmega32a 32768HZ Quartz Crystals
2011 - ATmega328PA

Abstract: crystal oscillator smd 32768hz atmega8a atmega64a ATmega328 smd stk600 atmega2560 Seiko SSPT7F ABS06 atmega328 esr meter kit atmega16 smd
Text: -AVR-07/11 AVR4100 4 Testing crystal oscillation robustness 4.1 Introduction The 32kHz crystal , . Equation 4-1. Oscillator allowance . OA =RMAX + ESR Figure 4-6. Measuring oscillator allowance /RMAX , AVR4100: Selecting and testing 32kHz crystal oscillators for Atmel AVR microcontrollers Features , applications. 32kHz (32768Hz) crystals are usually cut in the shape of a tuning fork, and very precise frequencies can be established. Figure 2-1. Shape of a 32kHz tuning fork crystal. Mechanical vibrations


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PDF AVR4100: 32kHz 8333D-AVR-07/11 ATmega328PA crystal oscillator smd 32768hz atmega8a atmega64a ATmega328 smd stk600 atmega2560 Seiko SSPT7F ABS06 atmega328 esr meter kit atmega16 smd
2004 - AN826 crystal oscillator basic

Abstract: practical analysis of the Pierce Oscillator Microchip AN849 AN849 AN826 microchip DS00943 OPA655 AN826 crystal AN943 AN826
Text: : use the following · RTESTMAX is referred to as the "safety margin" · " Oscillation allowance " is referred to as the "safety margin" plus ESR A ratio is specified between oscillation allowance , the simple Crystal Pierce Gate Oscillator (Figure 1) has a "simplified" model (Figure 2) that is , . Some components have a nonlinear behavior with amplitude. FIGURE 1: THE CRYSTAL PIERCE GATE , knowledge. The conditions for oscillation will be addressed in the first part of the document. The


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PDF AN943 dev4-7200 D-85737 NL-5152 DS00943A-page AN826 crystal oscillator basic practical analysis of the Pierce Oscillator Microchip AN849 AN849 AN826 microchip DS00943 OPA655 AN826 crystal AN943 AN826
crystal oscillator safety factor

Abstract: 32KHz crystal IC ATMEGA16 32khz crystal oscillator atmel atmega 382 6pf 32khz crystal oscillator FX135 ATMEGA16L P6245 LC684DXL
Text: allowance . Safety factor is calculated by dividing the oscillator allowance by the specified maximum ESR of , 32KHz CRYSTAL OSCILLATOR CHARACTERIZATION REPORT PREPARED FOR: ATMEL SEPTEMBER 24, 2010 Curtis , Charlier@foxonline.com Page 1 of 13 FOX ELECTRONICS 32KHz CRYSTAL OSCILLATOR CHARACTERIZATION REPORT SEPTEMBER 24 , Measurements of safety factor, oscillator allowance , and negative resistance Crystal oscillator start up , allowance , a variable resistor is added in series to the crystal unit. While power is applied, resistance


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PDF 32KHz ATmega164P/324P ATmega164PA crystal oscillator safety factor 32KHz crystal IC ATMEGA16 32khz crystal oscillator atmel atmega 382 6pf 32khz crystal oscillator FX135 ATMEGA16L P6245 LC684DXL
1998 - 32.768 khz crystal 5ppm

Abstract: ISO-14001 RC-1009B VT-200 Quartz Crystals 1MHz overtone SPT1A Specification Quartz Crystals 1Mhz sii Product Catalog
Text: 18 20 22 24 26 28 (pF) Load Capacitance CL Figure 12 3. Oscillation Allowance , than the equivalent series resistance (the oscillation allowance is large). The targeted oscillation allowance is more than five times the equivalent series resistance. Oscillation Allowance Evaluation , . 3 Oscillation Circuit Design Precautions , shock caused during automatic mounting. 4 Oscillation Circuit Design Precautions 1. Drive Level


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PDF 1-9807-020-MS/AC 32.768 khz crystal 5ppm ISO-14001 RC-1009B VT-200 Quartz Crystals 1MHz overtone SPT1A Specification Quartz Crystals 1Mhz sii Product Catalog
1999 - AN9334

Abstract: epson 32.768KHZ CRYSTALS -oscillator epson 32.768KHZ CRYSTALS 2 pin 10mhz crystal oscillator 1MHz crystal oscillator CIRCUIT epson 32.768k 10khz crystal oscillator HA7210 C-001R crystal 32kHZ
Text: Improving Start-up Time at 32kHz for the HA7210 Low Power Crystal Oscillator Application Note October 1996 AN9334.1 providing faster start-up times ( 32kHz crystals with ESR greater than 50k , 32kHz with a 5V supply and a 40pF load, the HA7210 will draw a mere 10µA. In this range (10kHz to , in normal oscillation . This will result in a power savings because very often a majority of the , long. It should be noted that 32kHz crystal parameters vary significantly from vendor to vendor and


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PDF 32kHz HA7210 AN9334 768kHz HA7210 10kHz 10MHz. epson 32.768KHZ CRYSTALS -oscillator epson 32.768KHZ CRYSTALS 2 pin 10mhz crystal oscillator 1MHz crystal oscillator CIRCUIT epson 32.768k 10khz crystal oscillator C-001R crystal 32kHZ
2000 - AN9334

Abstract: HA7210 C-001R epson 32.768k C-001R 32.768K-a
Text: Improving Start-up Time at 32kHz for the HA7210 Low Power Crystal Oscillator TM Application Note December 2000 AN9334.2 providing faster start-up times ( 32kHz crystals with ESR greater , 1), at 32kHz with a 5V supply and a 40pF load, the HA7210 will draw a mere 10µA. In this range , drive the crystal in normal oscillation . This will result in a power savings because very often a , unexpectedly long. It should be noted that 32kHz crystal parameters vary significantly from vendor to vendor


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PDF 32kHz HA7210 AN9334 768kHz HA7210 10kHz 10MHz. C-001R epson 32.768k C-001R 32.768K-a
2009 - MS3V-T1R 32,768 KHz

Abstract: Atomizing ms3v MS3V-T1R PIC16f690 example codes TB097 PICC-18 PIC32 PIC18F14K50 AN943
Text: crystals with low ESR of less than 65 KOhm are recommended, as they allow for higher oscillation allowance which ensures reliable operation over temperature and voltage. For oscillation allowance , please , used to determine the oscillation allowance and if there is sufficient margin for reliable operation , with 5x the crystal ESR that is added via negative resistance testing. Negative resistance testing


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PDF AN1288 16-bit DS01288A-page MS3V-T1R 32,768 KHz Atomizing ms3v MS3V-T1R PIC16f690 example codes TB097 PICC-18 PIC32 PIC18F14K50 AN943
2009 - ds3600

Abstract: DS3640 DS3655 ds3605 dallas semiconductor DS3641 DS1341 rtc ds1307 RTC DS1302 3-Wire LCD using DS1302 DS3605
Text: 32kHz PIERCE OSCILLATOR CALIBRATED 32.768kHz CLOCK SOURCE ACCURACY (ppm) 32.768kHz , timekeeping current ·Compatible with crystal ESR up to 80k ·1.8V to 5.5V operating voltage range ·Maintains , ·Oscillator-stop flag ·Programmable square-wave output defaults to 32kHz on power-up ·3mm x 3mm, 8-pin µSOP or , Sync input, 80k ESR Sync input, 80k ESR I2C RTCs with power switching Maxim's I2C RTCs with power , DS1305 96 SRAM 2 - 96 SRAM 2 1Hz, 32kHz 2.0 to 5.5 HH:MM:SS


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PDF 20-year ds3600 DS3640 DS3655 ds3605 dallas semiconductor DS3641 DS1341 rtc ds1307 RTC DS1302 3-Wire LCD using DS1302 DS3605
1996 - AN9334

Abstract: 5mhz crystal oscillator HA7210 10khz crystal oscillator 1.5V 10mhz crystal oscillator oscillator 32,768KHz 5V 32.768ka EPSON Crystals 1MHz OSCILLATOR 32.768K Data Sheet epson 32.768KHZ CRYSTALS
Text: . providing faster start-up times ( 32kHz crystals with ESR greater than 50k should be avoided). Using the , 32kHz for the HA7210 Low Power Crystal Oscillator Author: Robert Rood The HA7210 is a very low power , range setting (FREQ 1 = 1, FREQ 2 = 1), at 32kHz with a 5V supply and a 40pF load, the HA7210 will , continues to drive the crystal in normal oscillation . This will result in a power savings because very , can be unexpectedly long. It should be noted that 32kHz crystal parameters vary significantly from


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PDF AN9334 32kHz HA7210 10kHz 10MHz. 100kHz) 5mhz crystal oscillator 10khz crystal oscillator 1.5V 10mhz crystal oscillator oscillator 32,768KHz 5V 32.768ka EPSON Crystals 1MHz OSCILLATOR 32.768K Data Sheet epson 32.768KHZ CRYSTALS
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