产品详细信息

Function Clock generator, Spread-spectrum clock generator Number of outputs 6 Output frequency (Max) (MHz) 300 Core supply voltage (V) 3.3 Output supply voltage (V) 3.3 Input type XTAL, Differential, LVCMOS Output type LVCMOS Operating temperature range (C) -40 to 85 Features Integrated EEPROM, Pin programmable, SMBus, Spread-spectrum clocking (SSC) Rating Catalog
Function Clock generator, Spread-spectrum clock generator Number of outputs 6 Output frequency (Max) (MHz) 300 Core supply voltage (V) 3.3 Output supply voltage (V) 3.3 Input type XTAL, Differential, LVCMOS Output type LVCMOS Operating temperature range (C) -40 to 85 Features Integrated EEPROM, Pin programmable, SMBus, Spread-spectrum clocking (SSC) Rating Catalog
TSSOP (PW) 20 42 mm² 6.5 x 6.4
  • High Performance 3:6 PLL Based Clock Synthesizer / Multiplier / Divider
  • User Programmable PLL Frequencies
  • EEPROM Programming Without the Need to Apply High Programming Voltage
  • Easy In-Circuit Programming via SMBus Data Interface
  • Wide PLL Divider Ratio Allows 0-ppm Output Clock Error
  • Clock Inputs Accept a Crystal or a Single-Ended LVCMOS or a Differential Input Signal
  • Accepts Crystal Frequencies from 8 MHz up to 54 MHz
  • Accepts LVCMOS or Differential Input Frequencies up to 200 MHz
  • Two Programmable Control Inputs [S0/S1, A0/A1] for User Defined Control Signals
  • Six LVCMOS Outputs with Output Frequencies up to 300 MHz
  • LVCMOS Outputs can be Programmed for Complementary Signals
  • Free Selectable Output Frequency via Programmable Output Switching Matrix [6x6] Including 7-Bit Post-Divider for Each Output
  • PLL Loop Filter Components Integrated
  • Low Period Jitter (Typ 60 ps)
  • Features Spread Spectrum Clocking (SSC) for Lowering System EMI
  • Programmable Output Slew-Rate Control (SRC) for Lowering System EMI
  • 3.3-V Device Power Supply
  • Industrial Temperature Range -40°C to 85°C
  • Development and Programming Kit for Easy PLL Design and Programming (TI Pro-Clock™)
  • Packaged in 20-Pin TSSOP

  • High Performance 3:6 PLL Based Clock Synthesizer / Multiplier / Divider
  • User Programmable PLL Frequencies
  • EEPROM Programming Without the Need to Apply High Programming Voltage
  • Easy In-Circuit Programming via SMBus Data Interface
  • Wide PLL Divider Ratio Allows 0-ppm Output Clock Error
  • Clock Inputs Accept a Crystal or a Single-Ended LVCMOS or a Differential Input Signal
  • Accepts Crystal Frequencies from 8 MHz up to 54 MHz
  • Accepts LVCMOS or Differential Input Frequencies up to 200 MHz
  • Two Programmable Control Inputs [S0/S1, A0/A1] for User Defined Control Signals
  • Six LVCMOS Outputs with Output Frequencies up to 300 MHz
  • LVCMOS Outputs can be Programmed for Complementary Signals
  • Free Selectable Output Frequency via Programmable Output Switching Matrix [6x6] Including 7-Bit Post-Divider for Each Output
  • PLL Loop Filter Components Integrated
  • Low Period Jitter (Typ 60 ps)
  • Features Spread Spectrum Clocking (SSC) for Lowering System EMI
  • Programmable Output Slew-Rate Control (SRC) for Lowering System EMI
  • 3.3-V Device Power Supply
  • Industrial Temperature Range -40°C to 85°C
  • Development and Programming Kit for Easy PLL Design and Programming (TI Pro-Clock™)
  • Packaged in 20-Pin TSSOP

The CDCE706 is one of the smallest and powerful PLL synthesizer / multiplier / divider available today. Despite its small physical outlines, the CDCE706 is very flexible. It has the capability to produce an almost independent output frequency from a given input frequency.

The input frequency can be derived from a LVCMOS, differential input clock, or a single crystal. The appropriate input waveform can be selected via the SMBus data interface controller.

To achieve an independent output frequency the reference divider M and the feedback divider N for each PLL can be set to values from 1 up to 511 for the M-Divider and from 1 up to 4095 for the N-Divider. The PLL-VCO (voltage controlled oscillator) frequency than is routed to the free programmable output switching matrix to any of the six outputs. The switching matrix includes an additional 7-bit post-divider (1-to-127) and an inverting logic for each output.

The deep M/N divider ratio allows the generation of zero ppm clocks from any reference input frequency (e.g., a 27-MHz).

The CDCE706 includes three PLLs of those one supports SSC (spread-spectrum clocking). PLL1, PLL2, and PLL3 are designed for frequencies up to 300 MHz and optimized for zero-ppm applications with wide divider factors.

PLL2 also supports center-spread and down-spread spectrum clocking (SSC). This is a common technique to reduce electro-magnetic interference. Also, the slew-rate controllable (SRC) output edges minimize EMI noise.

Based on the PLL frequency and the divider settings, the internal loop filter components will be automatically adjusted to achieve high stability and optimized jitter transfer characteristic of the PLL.

The device supports non-volatile EEPROM programming for easy-customized application. It is preprogrammed with a factory default configuration (see Figure 13) and can be reprogrammed to a different application configuration before it goes onto the PCB or re-programmed by in-system programming. A different device setting is programmed via the serial SMBus Interface.

Two free programmable inputs, S0 and S1, can be used to control for each application the most demanding logic control settings (outputs disable to low, outputs 3-state, power down, PLL bypass, etc).

The CDCE706 has three power supply pins, VCC, VCCOUT1, and VCCOUT2. VCC is the power supply for the device. It operates from a single 3.3-V supply voltage. VCCOUT1 and VCCOUT2 are the power supply pins for the outputs. VCCOUT1 supplies the outputs Y0 and Y1 and VCCOUT2 supplies the outputs Y2, Y3, Y4, and Y5. Both outputs supplies can be 2.3 V to 3.6 V. At output voltages lower than 3.3 V, the output drive current is limited.

The CDCE706 is characterized for operation from -40°C to 85°C.

The CDCE706 is one of the smallest and powerful PLL synthesizer / multiplier / divider available today. Despite its small physical outlines, the CDCE706 is very flexible. It has the capability to produce an almost independent output frequency from a given input frequency.

The input frequency can be derived from a LVCMOS, differential input clock, or a single crystal. The appropriate input waveform can be selected via the SMBus data interface controller.

To achieve an independent output frequency the reference divider M and the feedback divider N for each PLL can be set to values from 1 up to 511 for the M-Divider and from 1 up to 4095 for the N-Divider. The PLL-VCO (voltage controlled oscillator) frequency than is routed to the free programmable output switching matrix to any of the six outputs. The switching matrix includes an additional 7-bit post-divider (1-to-127) and an inverting logic for each output.

The deep M/N divider ratio allows the generation of zero ppm clocks from any reference input frequency (e.g., a 27-MHz).

The CDCE706 includes three PLLs of those one supports SSC (spread-spectrum clocking). PLL1, PLL2, and PLL3 are designed for frequencies up to 300 MHz and optimized for zero-ppm applications with wide divider factors.

PLL2 also supports center-spread and down-spread spectrum clocking (SSC). This is a common technique to reduce electro-magnetic interference. Also, the slew-rate controllable (SRC) output edges minimize EMI noise.

Based on the PLL frequency and the divider settings, the internal loop filter components will be automatically adjusted to achieve high stability and optimized jitter transfer characteristic of the PLL.

The device supports non-volatile EEPROM programming for easy-customized application. It is preprogrammed with a factory default configuration (see Figure 13) and can be reprogrammed to a different application configuration before it goes onto the PCB or re-programmed by in-system programming. A different device setting is programmed via the serial SMBus Interface.

Two free programmable inputs, S0 and S1, can be used to control for each application the most demanding logic control settings (outputs disable to low, outputs 3-state, power down, PLL bypass, etc).

The CDCE706 has three power supply pins, VCC, VCCOUT1, and VCCOUT2. VCC is the power supply for the device. It operates from a single 3.3-V supply voltage. VCCOUT1 and VCCOUT2 are the power supply pins for the outputs. VCCOUT1 supplies the outputs Y0 and Y1 and VCCOUT2 supplies the outputs Y2, Y3, Y4, and Y5. Both outputs supplies can be 2.3 V to 3.6 V. At output voltages lower than 3.3 V, the output drive current is limited.

The CDCE706 is characterized for operation from -40°C to 85°C.

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技术文档

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类型 标题 下载最新的英文版本 日期
* 数据表 Programmable 3-PLL Clock Synthesizer / Multiplier / Divider 数据表 (Rev. I) 2008年 2月 7日
应用手册 High Speed Layout Guidelines (Rev. A) 2017年 8月 8日
技术文章 How to select an optimal clocking solution for your FPGA-based design 2015年 12月 9日
技术文章 Clocking sampled systems to minimize jitter 2014年 7月 31日
技术文章 Timing is Everything: How to optimize clock distribution in PCIe applications 2014年 3月 28日
应用手册 正确理解时钟器件的抖动性能 2013年 1月 16日
用户指南 CDCE(L)9XX & CDCEx06 Programming Evaluation Module Manual (Rev. A) 2010年 11月 22日
应用手册 Troubleshooting I2C 2009年 10月 19日
用户指南 CDCE(L)9XX & CDCEx06 Programming Evaluation Module Manual 2008年 12月 9日
应用手册 CDCx706/x906 Termination and Signal Integrity Guidelines (Rev. A) 2007年 11月 28日
用户指南 CDCE906/CDCE706 Programming EVM (Rev. B) 2007年 8月 14日
用户指南 CDCE906/CDCE706 Performance EVM (Rev. B) 2007年 4月 17日
应用手册 Clock Recommendations for the DM643x EVM 2006年 11月 29日
应用手册 Recommended Input Terminations for the Differential Inputs of CDCE906/CDCE706 2006年 8月 10日

设计与开发

有关其他条款或所需资源,请点击下面的任何链接来查看详情页面。

评估板

CDCE906-706PERFEVM — CDCE906 and CDCE706 EVM

现货
数量限制: 2
评估板

CDCE906-706PROGEVM — CDCE906 and CDCE706 programmable EVM

现货
数量限制: 2
应用软件和框架

Executable File Without LabVIEW 8.2 Run Time Engine (Rev. A)

SCAC097A.ZIP (14050 KB)
驱动程序或库

CDCE706SW-LINUX — 用于 CDCE706 的 Linux 驱动程序

Linux 驱动程序支持 CDCE706 可编程 3-PLL 时钟合成器/乘法器/除法器。Linux 驱动程序支持通过 I2C 总线进行通信。
Linux 主线状态

在 Linux 主线中提供:是
可通过 git.ti.com 获取:不适用

支持的器件:
  • cdce706
Linux 源文件

与该器件关联的文件为:

  1. drivers/clk/clk-cdce706.c
  2. Documentation/devicetree/bindings/clock/ti,cdce706.txt
源文件

drivers/clk/clk-cdce706.c

Linux 器件树文档

Documentation/devicetree/bindings/clock/ti,cdce706.txt

 

启用驱动程序支持

使用“make (...)
评估模块 (EVM) 的 GUI

TI-Pro-Clock Programming Software (Rev. F)

SCAC073F.ZIP (88940 KB)
软件编程工具

CLOCKPRO — ClockPro™ 程序设计软件

TI's ClockPro software allows users to program/configure the following devices in a friendly GUI interface:
  • CDCE949
  • CDCE937
  • CDCE925
  • CDCE913
  • CDCE906
  • CDCE706
  • CDCEL949
  • CDCEL937
  • CDCEL925
  • CDCEL913

It is intended to be used with the evaluation modules of the above devices.

仿真模型

CDCE706 IBIS Model (Rev. A)

SCAC072A.ZIP (119 KB) - IBIS Model
仿真工具

PSPICE-FOR-TI — PSPICE® for TI design and simulation tool

PSpice® for TI 可提供帮助评估模拟电路功能的设计和仿真环境。此功能齐全的设计和仿真套件使用 Cadence® 的模拟分析引擎。PSpice for TI 可免费使用,包括业内超大的模型库之一,涵盖我们的模拟和电源产品系列以及精选的模拟行为模型。

借助 PSpice for TI 的设计和仿真环境及其内置的模型库,您可对复杂的混合信号设计进行仿真。创建完整的终端设备设计和原型解决方案,然后再进行布局和制造,可缩短产品上市时间并降低开发成本。 

在 PSpice for TI 设计和仿真工具中,您可以搜索 TI 器件、了解产品系列、打开测试台并对您的设计进行仿真,从而进一步分析选定的器件。您还可对多个 TI 器件进行联合仿真,以更好地展现您的系统。

除了一个完整的预加载模型库之外,您还可以在 PSPICE-FOR-TI 工具中轻松访问 TI 器件的全新技术资料。在您确认找到适合您应用的器件后,可访问 TI store 购买产品。 

借助 PSpice for TI,您可使用合适的工具来满足您在整个设计周期(从电路探索到设计开发和验证)的仿真需求。免费获取、轻松入门。立即下载 PSpice 设计和仿真套件,开始您的设计。

入门

  1. 申请使用 PSPICE-FOR-TI 仿真器
  2. 下载并安装
  3. 观看有关仿真入门的培训
光绘文件

CDCE906/CDCE706 PERF EVM Gerber Files

SCAC074.ZIP (963 KB)
光绘文件

CDCE906/CDCE706 PROG EVM Gerber files

SCAC075.ZIP (847 KB)
封装 引脚 下载
TSSOP (PW) 20 了解详情

订购与质量

包含信息:
  • RoHS
  • REACH
  • 器件标识
  • 引脚镀层/焊球材料
  • MSL 等级/回流焊峰值温度
  • MTBF/FIT 估算
  • 材料成分
  • 认证摘要
  • 持续可靠性监测

推荐产品的参数、评估模块或参考设计可能与此 TI 产品相关

支持与培训

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