CSTCE8M00G15C
Abstract: KDS 8 MHZ crystal KDS 12 MHZ crystal KDS Crystals 32.768 20 MHz crystal KDS 6FA25000F10M11 KDS 25 MHZ crystal DT-38G06 KDS 16 MHZ crystal KDS 32 MHZ crystal
Text: AN2867 Application note Oscillator design guide for ST microcontrollers Introduction Most designers are familiar with oscillators Pierce-Gate topology , but few really understand how they operate, let alone how to properly design an oscillator. In practice,
|
Original
|
AN2867
CSTCE8M00G15C
KDS 8 MHZ crystal
KDS 12 MHZ crystal
KDS Crystals 32.768
20 MHz crystal KDS
6FA25000F10M11
KDS 25 MHZ crystal
DT-38G06
KDS 16 MHZ crystal
KDS 32 MHZ crystal
|
PDF
|
CSTCE8M00G15C
Abstract: MC306G06 AN2867 6FA25000F10M11 JFVNY cstce8m00g15c murata STM32TM HC-49S-8 DT-38G06 PFXLF250F-20
Text: AN2867 Application note Oscillator design guide for ST microcontrollers Introduction Most designers are familiar with oscillators Pierce-Gate topology , but few really understand how they operate, let alone how to properly design an oscillator. In practice,
|
Original
|
AN2867
CSTCE8M00G15C
MC306G06
AN2867
6FA25000F10M11
JFVNY
cstce8m00g15c murata
STM32TM
HC-49S-8
DT-38G06
PFXLF250F-20
|
PDF
|
CSTCE8M00G15C
Abstract: JFVNY cstce8m00g15c murata HC-49S-8 hosonic KDS 8.0 Crystals 8 mhz HC49S-8 CSTCE8M00G15 HC-49S Hosonic KDS Crystals
Text: AN2867 Application note Oscillator design guide for ST microcontrollers Introduction Most designers are familiar with oscillators Pierce-Gate topology , but few really understand how they operate, let alone how to properly design an oscillator. In practice,
|
Original
|
AN2867
CSTCE8M00G15C
JFVNY
cstce8m00g15c murata
HC-49S-8
hosonic
KDS 8.0 Crystals 8 mhz
HC49S-8
CSTCE8M00G15
HC-49S Hosonic
KDS Crystals
|
PDF
|
JFVNY
Abstract: CSTCW24M0X51R-R0 KDS 6 MHZ crystal DT-38G06 Abracon ABS07 KDS Crystals 32.768 KDS 8 MHZ crystal 6FA25000F10M11 AN2867 hosonic
Text: AN2867 Application note Oscillator design guide for ST microcontrollers Introduction Most designers are familiar with oscillators Pierce-Gate topology , but few really understand how they operate, let alone how to properly design an oscillator. In practice,
|
Original
|
AN2867
JFVNY
CSTCW24M0X51R-R0
KDS 6 MHZ crystal
DT-38G06
Abracon ABS07
KDS Crystals 32.768
KDS 8 MHZ crystal
6FA25000F10M11
AN2867
hosonic
|
PDF
|
Pierce oscillator
Abstract: Pierce easily tuned oscillator Statek Single Crystal-Controlled Oscillator crystal oscillator datasheets single phase resonant inverter circuit oscillator basic series inverter CX1V STATEK
Text: TECHNICAL NOTE 24 Comparison of Low Frequency Oscillator Designs Oscillator Types Series Oscillators Crystal-controlled oscillators can be divided into two basic groups: positive reactance or negative reactance. The positive reactance mode is commonly called a “parallel resonant” or “antiresonant” oscillator. A pierce oscillator is
|
Original
|
|
PDF
|
CSTCE16M0V13C
Abstract: AN-3005 CSTCR8M00G15C CSTCR4M00G15C CSTCE16M0G55A-R0 crystal CSTCE8M00G55A-R0 AN3005 CSTCE8M00G55A-R0 cstcr4m00g15 Quartz crystals General Introduction
Text: AN3005 Application note Oscillator design guide for STM8A microcontroller Introduction Most designers are familiar with oscillators Pierce-Gate topology , but few really understand how they operate, let alone how to properly design an oscillator. In practice, most designers
|
Original
|
AN3005
CSTCE16M0V13C
AN-3005
CSTCR8M00G15C
CSTCR4M00G15C
CSTCE16M0G55A-R0
crystal CSTCE8M00G55A-R0
AN3005
CSTCE8M00G55A-R0
cstcr4m00g15
Quartz crystals General Introduction
|
PDF
|
Ceramic Resonator LT 10.7
Abstract: 80C535 80535 application note LT 752 80C515 XTAL2
Text: On-Chip Peripheral Components 7.8 Oscillator and Clock Circuit XTAL1 and XTAL2 are the input and output of a single-stage on-chip inverter which can be configured with off-chip components as a Pierce oscillator. The oscillator, in any case, drives the internal clock generator. The clock generator provides the internal clock signals to the chip at half
|
Original
|
80C515/80C535
Ceramic Resonator LT 10.7
80C535
80535 application note
LT 752
80C515
XTAL2
|
PDF
|
oscillator resonator capacitor resistor
Abstract: C517 crystal-controlled Pierce Oscillator inverter xtal2
Text: On-Chip Peripheral Components 7.9 Oscillator and Clock Circuit XTAL1 and XTAL2 are the input and output of a single-stage on-chip inverter which can be configured with off-chip components as a Pierce oscillator. The oscillator, in any case, drives the internal clock generator. The clock generator provides the internal clock signals to the chip at half
|
Original
|
|
PDF
|
Untitled
Abstract: No abstract text available
Text: Product Crystals & Oscillators UPDATE Understanding the basics of the Pierce oscillator The designer’s challenge is to optimize performance with the quartz crystal BY SYED RAZA Director of Engineering Abracon www.abracon.com T oday, the majority of electronic circuits including
|
Original
|
|
PDF
|
Design Guidelines for Quartz Crystal Oscillators
Abstract: Quartz Crystal 32.768KHz r128k amplifier circuit diagram 10000 watt piezoelectric crystal circuit th crystal oscillator EQUIVALENT cd 40 cs
Text: TECHNICAL NOTE 30 Design Guidelines for Quartz Crystal Oscillators Introduction A CMOS Pierce oscillator circuit is well known and is widely used for its excellent frequency stability and the wide range of frequencies over which they can be used. They are ideal for small, low
|
Original
|
|
PDF
|
PAS-BC3WK
Abstract: Chip crystal oscillator safety factor
Text: PIERCE ANALYZER SYSTEM PAS ADVANCED BOARD CHARACTERIZATION SERVICE PAS-BC3WK INTRODUCTION: The majority of electronic designs have some form of timing associated with them. Depending on the frequency accuracy requirements, some employ oscillators while others use off-the-shelf crystals in conjunction with the built-in oscillator circuit;
|
Original
|
ISO9001
PAS-BC3WK
Chip
crystal oscillator safety factor
|
PDF
|
AN8080
Abstract: pierce oscillator 1MHz crystal oscillator CIRCUIT 3rd Overtone crystal equivalent circuit calculation 50mhz crystal oscillator 4000ZE HCM49 Pierce Citizen oscillator 25Mhz 16pF crystal
Text: Using a Discrete Crystal as a PLD Clock Source June 2009 Application Note AN8080 Introduction Clocks are a necessary part of synchronous PLD designs e.g. Lattice Semiconductor’s ispMACH 4000ZE and MachXO . Designers will typically use integrated oscillators but there are other, less expensive options. This document will discuss the generation of a clock signal using an inexpensive crystal circuit to minimize board costs.
|
Original
|
AN8080
4000ZE
AN8080
pierce oscillator
1MHz crystal oscillator CIRCUIT
3rd Overtone crystal equivalent circuit calculation
50mhz crystal oscillator
HCM49
Pierce
Citizen oscillator
25Mhz 16pF crystal
|
PDF
|
AN1579
Abstract: DL140 Design Guidelines for Quartz Crystal Oscillators Pierce oscillator series and parallel resonance circuit
Text: Freescale Semiconductor, I nc. AN1579 Application Note Understanding the Multivibrator Based Crystal Oscillator Circuit Used on the BiCMOS MPC Family of Clock Drivers Prepared by Todd Pearson Motorola Applications Engineering 10/97 Motorola, Inc. 1997
|
Original
|
AN1579
AN1579/D
DL140
AN1579
Design Guidelines for Quartz Crystal Oscillators
Pierce oscillator
series and parallel resonance circuit
|
PDF
|
Pierce oscillator
Abstract: AN1579 DL140 Pierce pcb crystal design Nippon capacitors
Text: AN1579 Application Note Understanding the Multivibrator Based Crystal Oscillator Circuit Used on the BiCMOS MPC Family of Clock Drivers Prepared by Todd Pearson Motorola Applications Engineering 10/97 Motorola, Inc. 1997 1 REV 0 AN1579 Understanding the Multivibrator Based Crystal Oscillator Circuit
|
Original
|
AN1579
AN1579/D
DL140
Pierce oscillator
AN1579
Pierce
pcb crystal design
Nippon capacitors
|
PDF
|
|
cx-1-sm
Abstract: Pierce Oscillator inverter toc12
Text: EURO QUARTZ CX1SM CRYSTAL Miniature SMD Crystal for Pierce Oscillators 530kHz to 2.1MHz FEATURES Extensional Mode Ideal for use with microprocesors Designed for low power applications Full military testing available Low ageing OUTLINE & DIMENSIONS DESCRIPTION
|
Original
|
530kHz
cx-1-sm
Pierce Oscillator inverter
toc12
|
PDF
|
mc68hc908
Abstract: MC68HC908 CIRCUIT crystal oscillator in microcontroller DS1099 MAX7375 MAX7376 MAX7377 MAX7378 MAX7381 MAX7382
Text: Maxim > App Notes > MICROCONTROLLERS Keywords: crystal, ceramic resonator, clock, micro, uC, EMI, shock, vibration Aug 15, 2005 APPLICATION NOTE 3582 Replacing Crystals and Ceramic Resonators with Silicon Oscillators Abstract: Silicon oscillators can replace crystal and ceramic-resonator devices in most microcontroller µC
|
Original
|
MAX7376:
MAX7377:
MAX7378:
MAX7381:
MAX7382:
MAX7383:
MAX7384:
MAX7387:
MAX7388:
MAX7389:
mc68hc908
MC68HC908 CIRCUIT
crystal oscillator in microcontroller
DS1099
MAX7375
MAX7376
MAX7377
MAX7378
MAX7381
MAX7382
|
PDF
|
125OC
Abstract: No abstract text available
Text: CX1VSM CRYSTAL 10 kHz to 600 kHz Miniature Surface Mount Quartz Crystal for Pierce Oscillators DESCRIPTION The CX1VSM quartz crystal is a high quality tuning fork resonator for use in Pierce single inverter oscillators. The CX1VSM is hermetically sealed in a rugged, miniature
|
Original
|
260OC.
-40OC
-55OC
125OC
125OC
|
PDF
|
CX4VSM
Abstract: cx4vsm crystals Quartz Crystals 32768
Text: EURO QUARTZ CX4VSM CRYSTAL Ultra-Miniature SMD Crystal 30kHz to 250kHz FEATURES Frequency Range 30kHz to 250kHz High shock resistance Low ageing Designed for low power applications Full MIL testing available OUTLINE & DIMENSIONS DESCRIPTION CX3VSM crystals are leadless devices designed for surface mounting
|
Original
|
30kHz
250kHz
250kHz
25een
CX4VSM
cx4vsm crystals
Quartz Crystals 32768
|
PDF
|
125OC
Abstract: No abstract text available
Text: CX-1V-SM CRYSTAL 10 kHz to 600 kHz TM Miniature Surface Mount Quartz Crystal for Pierce Oscillators DESCRIPTION The CX-1V-SM quartz crystal is a high quality tuning fork resonator for use in Pierce single inverter oscillators. The CX-1V-SM is hermetically sealed in a rugged, miniature
|
Original
|
260OC.
125OC
|
PDF
|
125OC
Abstract: CX1V STATEK
Text: CX-1V-SM CRYSTAL 10 kHz to 600 kHz TM Miniature Surface Mount Quartz Crystal for Pierce Oscillators DESCRIPTION The CX-1V-SM quartz crystal is a high quality tuning fork resonator for use in Pierce single inverter oscillators. The CX-1V-SM is hermetically sealed in a rugged, miniature
|
Original
|
260OC.
125OC
CX1V STATEK
|
PDF
|
LC51
Abstract: cst8.00mtw040
Text: Use of the TMS320C5x Internal Oscillator With External Crystals or Ceramic Resonators Application Report Clay Turner Digital Signal Processing Products—Semiconductor Group SPRA054 October 1995 Printed on Recycled Paper IMPORTANT NOTICE Texas Instruments TI reserves the right to make changes to its products or to
|
Original
|
TMS320C5x
SPRA054
SPRU056)
LC51
cst8.00mtw040
|
PDF
|
Pierce oscillator
Abstract: SM1 SMD SMD CRYSTAL SMD 5kw
Text: CX MINIATURE CRYSTALS CX-6V-SM EUROQUARTZ Telephone: +44 0 1460 230000 Fax: +44(0)1460 230001 Email: sales@euroquartz.co.uk Web: www.euroquartz.co.uk Page 800kHz to 1.35MHz ULTRA-LOW PROFILE MINIATURE SMD CRYSTAL 1 of 2 General Description
|
Original
|
800kHz
35MHz
500ppm
178mm
330mm
Pierce oscillator
SM1 SMD
SMD CRYSTAL
SMD 5kw
|
PDF
|
K4085
Abstract: 125OC XTAL Crystals Oscillators
Text: CX4VSM CRYSTAL 30 kHz to 200 kHz Ultra-Miniature Low Profile Surface Mount Quartz Crystal DESCRIPTION STATEK’s ultra-miniature CX4VSM quartz crystals are hermetically sealed in surface mount ceramic packages and custom laser-tuned to frequencies ranging from 30 kHz to
|
Original
|
260OC.
-10OC
-40OC
-55OC
125OC
K4085
125OC
XTAL Crystals Oscillators
|
PDF
|
CX-1V-03
Abstract: 32.768 khz crystal 5ppm
Text: CX-1V-03 CRYSTAL 10 kHz to 600 kHz Miniature Quartz Crystal for Pierce Oscillators DESCRIPTION The CX-1V quartz crystal is a high quality tuning fork resonator for use in Pierce single inverter oscillators. The CX-1V is hermetically sealed in a rugged, miniature ceramic
|
Original
|
CX-1V-03
CX-1V-03
32.768 khz crystal 5ppm
|
PDF
|