Datasheet Texas Instruments CDCEL913-Q1 — Ficha de datos
Fabricante | Texas Instruments |
Serie | CDCEL913-Q1 |
Catálogo automotriz Sintetizador de reloj VCXO de 1 PLL programable con salidas LVCMOS de 1.8 V
Hojas de datos
CDCEx913-Q1 Programmable 1-PLL VCXO Clock Synthesizer With 1.8-V, 2.5-V, and 3.3-V Outputs datasheet
PDF, 1.5 Mb, Revisión: C, Archivo publicado: nov 9, 2016
Extracto del documento
Precios
Estado
CDCEL913IPWRQ1 | |
---|---|
Estado del ciclo de vida | Activo (Recomendado para nuevos diseños) |
Disponibilidad de muestra del fabricante | Sí |
Embalaje
CDCEL913IPWRQ1 | |
---|---|
N | 1 |
Pin | 14 |
Package Type | PW |
Industry STD Term | TSSOP |
JEDEC Code | R-PDSO-G |
Package QTY | 2000 |
Carrier | LARGE T&R |
Device Marking | CEL913Q |
Width (mm) | 4.4 |
Length (mm) | 5 |
Thickness (mm) | 1 |
Pitch (mm) | .65 |
Max Height (mm) | 1.2 |
Mechanical Data | Descargar |
Paramétricos
Parameters / Models | CDCEL913IPWRQ1 |
---|---|
Divider Ratio | Universal |
Input Level | Crystal,LVCMOS |
Jitter-Peak to Peak(P-P) or Cycle to Cycle, C-C | 60 ps |
Number of Outputs | 3 |
Operating Temperature Range, C | -40 to 85 |
Output Frequency(Max), MHz | 230 |
Output Level | LVCMOS |
Output Skew, ps | 150 |
Package Group | TSSOP |
Package Size: mm2:W x L, PKG | 14TSSOP: 32 mm2: 6.4 x 5(TSSOP) |
Rating | Automotive |
Special Features | Integrated EEPROM,Multiplier/Divider,Spread Spectrum Clocking (SSC) |
VCC, V | 1.8,3.3 |
Plan ecológico
CDCEL913IPWRQ1 | |
---|---|
RoHS | Obediente |
Notas de aplicación
- General I2C / EEPROM usage for the CDCE(L)9xx familyPDF, 40 Kb, Archivo publicado: enero 26, 2010
- Crystal or Crystal Oscillator Replacement with Silicon DevicesPDF, 894 Kb, Archivo publicado: jun 18, 2014
This application report is a general guide that outlines the advantages of using silicon-based timingdevices from Texas Instruments to generate system clocking solutions. This report covers theconventional way to derive system clocks using crystals and crystal oscillators, disadvantages of usingthese mechanical components, and details on replacing them with silicon-based timing devices from - VCXO Application Guideline for CDCE(L)9xx Family (Rev. A)PDF, 107 Kb, Revisión: A, Archivo publicado: abr 23, 2012
- Usage of I2C for CDCE(L)949, CDCE(L)937, CDCE(L)925, CDCE(L)913PDF, 297 Kb, Archivo publicado: sept 23, 2009
This document presents a method to smoothly change frequency by IВІCв„ў protocol on Texas Instruments CDCE(L)949, CDCE(L)937, CDCE(L)925, CDCE(L)913 Clock Synthesizers, thus avoiding unnecessary intermediate frequencies. It also includes a code example to generate the IВІC protocol for the CDCE(L)9xx with the TMS320C645x. - Generating Low Phase-Noise Clocks for Audio Data Converters from Low FrequencyPDF, 860 Kb, Archivo publicado: marzo 31, 2008
Generating a high-frequency system clock Fs (128fs to 768fs) from a low-frequency sampling clock fs (10 kHz to 200 kHz) is challenging, while attempting to maintain low phase jitter. A traditional phase-lock loop (PLL) can do the frequency translation, but the added phase jitter prevents the generated system clock signal from effectively driving high-performance audio data converters. This applica - Troubleshooting I2C Bus ProtocolPDF, 184 Kb, Archivo publicado: oct 19, 2009
When using the I2Cв„ў bus protocol, the designer must ensure that the hardware complies with the I2C standard. This application report describes the I2C protocol and provides guidelines on debugging a missing acknowledgment, selecting the pullup resistors, or meeting the maximum capacitance load of an I2C bus. A conflict occurs if devices sharing the I2C bus have the same slave address. This
Linea modelo
Serie: CDCEL913-Q1 (1)
Clasificación del fabricante
- Semiconductors> Clock and Timing> Clock Generators> Spread-Spectrum Clocks