企业号介绍

全部
  • 全部
  • 产品
  • 方案
  • 文章
  • 资料
  • 企业

华秋商城

元器件现货采购/代购/选型一站式BOM配单

1.8w 内容数 99w+ 浏览量 177 粉丝

TI时钟发生器CDCM61001

--- 产品详情 ---

1:1 超低抖动晶振时钟发生器
Function Clock generator
Number of outputs 1
Output frequency (Max) (MHz) 683.28
Core supply voltage (V) 3.3
Output supply voltage (V) 3.3
Input type XTAL, LVCMOS
Output type LVCMOS, LVDS, LVPECL
Operating temperature range (C) -40 to 85
Features Pin programmable
Rating Catalog
  • One Crystal/LVCMOS Reference Input Including 24.8832 MHz, 25 MHz,
    and 26.5625 MHz
  • Input Frequency Range: 21.875 MHz to
    28.47 MHz
  • On-Chip VCO Operates in Frequency Range of 1.75 GHz to 2.05 GHz
  • 1x Output Available:
    • Pin-Selectable Between LVPECL, LVDS, or 2-LVCMOS; Operates at 3.3 V
  • LVCMOS Bypass Output Available
  • Output Frequency Selectable by /1, /2, /3, /4, /6, /8 from the
    Output Divider
  • Supports Common LVPECL/LVDS Output Frequencies:
    • 62.5 MHz, 74.25 MHz, 75 MHz, 77.76 MHz, 100 MHz, 106.25 MHz, 125 MHz,
      150 MHz, 155.52 MHz, 156.25 MHz, 159.375 MHz, 187.5 MHz, 200 MHz, 212.5 MHz,
      250 MHz, 311.04 MHz, 312.5 MHz, 622.08 MHz, 625 MHz
  • Supports Common LVCMOS Output Frequencies:
    • 62.5 MHz, 74.25 MHz, 75 MHz, 77.76 MHz, 100 MHz, 106.25 MHz, 125 MHz,
      150 MHz, 155.52 MHz, 156.25 MHz, 159.375 MHz, 187.5 MHz, 200 MHz,
      212.5 MHz, 250 MHz
  • Output Frequency Range: 43.75 MHz to 683.264 MHz
  • Internal PLL Loop Bandwidth: 400 kHz
  • High-Performance PLL Core:
    • Phase Noise typically at –146 dBc/Hz at 5-MHz Offset
      for 625-MHz LVPECL Output
    • Random Jitter typically at 0.509 ps, RMS (10 kHz to 20 MHz)
      for 625-MHz LVPECL Output
  • Output Duty Cycle Corrected to 50% (± 5%)
  • Divider Programming Using Control Pins:
    • Two Pins for Prescaler/Feedback Divider
    • Three Pins for Output Divider
    • Two Pins for Output Select
  • Chip Enable and Device Reset Control Pins Available
  • 3.3-V Core and I/O Power Supply
  • Industrial Temperature Range: –40°C to +85°C
  • 5-mm × 5-mm, 32-pin, QFN (RHB) Package
  • ESD Protection Exceeds 2 kV (HBM)

The CDCM61001 is a highly versatile, low-jitter frequency synthesizer that can generate low-jitter clock outputs, selectable between low-voltage positive emitter coupled logic (LVPECL), low-voltage differential signaling (LVDS), or low-voltage complementary metal oxide semiconductor (LVCMOS) outputs, from a low-frequency crystal or LVCMOS input for a variety of wireline and data communication applications. The CDCM61001 features an onboard PLL that can be easily configured solely through control pins. The overall output random jitter performance is less than 1ps, RMS (from 10 kHz to 20 MHz), making this device a perfect choice for use in demanding applications such as SONET, Ethernet, Fibre Channel, and SAN. The CDCM61001 is available in a small, 32-pin, ?5-mm × 5-mm QFN package.

The CDCM61001 is a high-performance, low phase noise, fully-integrated voltage-controlled oscillator (VCO) clock synthesizer with one universal output buffer that can be configured to be LVPECL, LVDS, or LVCMOS compatible. The universal output can also be converted to two LVCMOS outputs. Additionally, an LVCMOS bypass output clock is available in an output configuration which can help with crystal loading in order to achieve an exact desired input frequency. It has one fully-integrated, low-noise, LC-based VCO that operates in the 1.75 GHz to 2.05 GHz range.

The phase-locked loop (PLL) synchronizes the VCO with respect to the input, which can either be a low-frequency crystal. The output has an output divider sourced from the VCO core. All device settings are managed through a control pin structure, which has two pins that control the prescaler and feedback divider, three pins that control the output divider, two pins that control the output type, and one pin that controls the output enable. Any time the PLL settings (including the input frequency, prescaler divider, or feedback divider) are altered, a reset must be issued through the Reset control pin (active low for device reset). The reset initiates a PLL recalibration process to ensure PLL lock. When the device is in reset, the outputs and divider are turned off.

The output frequency (fOUT) is proportional to the frequency of the input clock (fIN). The feedback divider, output divider, and VCO frequency set fOUT with respect to fIN. For a configuration setting for common wireline and datacom applications, refer to. For other applications, use to calculate the exact crystal oscillator frequency required for the desired output.

The output divider can be chosen from 1, 2, 3, 4, 6, or 8 through the use of control pins. Feedback divider and prescaler divider combinations can be chosen from 25 and 3, 24 and 3, 20 and 4, or 15 and 5, respectively, also through the use of control pins. shows a high-level block diagram of the CDCM61001.

The device operates in a 3.3-V supply environment and is characterized for operation from –40°C to +85°C.

为你推荐

  • 如何利用运算放大器设计振荡电路?2023-08-09 08:08

    使用运算放大器设计振荡电路运算放大器的工作原理发明运算放大器的人绝对是天才。中间两端接上电源,当同相输入大于反相输入,右侧就会输出(接近)电源电压(Vcc),如果反过来小于同相输入,则输出0V(负电源)电压。在输出端接上灯泡,假设我想控制灯泡循环亮灭,那就需要一会输出高电平点亮,一会输出低电平熄灭。也就是我需要让左边能自动变化大小,就能实现控制灯泡。如何让电
  • 【PCB设计必备】31条布线技巧2023-08-03 08:09

    相信大家在做PCB设计时,都会发现布线这个环节必不可少,而且布线的合理性,也决定了PCB的美观度和其生产成本的高低,同时还能体现出电路性能和散热性能的好坏,以及是否可以让器件的性能达到最优等。在上篇内容中,小编主要分享了PCB线宽线距的一些设计规则,那么本篇内容,将针对PCB的布线方式,做个全面的总结给到大家,希望能够对养成良好的设计习惯有所帮助。1走线长度
  • 电动汽车直流快充方案设计【含参考设计】2023-08-03 08:08

    大功率直流充电系统架构大功率直流充电设计标准国家大功率充电标准“Chaoji”技术标准设计目标是未来可实现电动汽车充电5分钟行驶400公里。“Chaoji”技术标准主要设计参数如下:最大电压:目前1000V(可扩展到1500V);最大电流:带冷却系统500A(可扩展到600A);不带冷却系统150-200A;最大功率:900KW。大功率直流充电系统架构大功率
  • Buck电路的原理及器件选型指南2023-07-31 22:28

    Buck电路工作原理电源闭合时电压会快速增加,当断开时电压会快速减小,如果开关速度足够快的话,是不是就能把负载,控制在想要的电压值以内呢?假设12V降压到5V,也就意味着,MOS管开关需要42%时间导通,58%时间断开。当42%时间MOS管导通时,电感被充磁储能,同时对电容进行充电,给负载提供电量。当58%时间MOS管断开时,由于电感上的电流不能突变,电路通
    1700浏览量
  • 100W USB PD 3.0电源2023-07-31 22:27

    什么是PD3.0快充?PD快充协议全称“USBPowerDelivery”功率传输协议,简称为“PD协议”。2015年11月,USBPD快充迎来了大版本更新,进入到了USBPD3.0快充时代。USBPD3.0相对于USBPD2.0的变化主要有三方面:增加了对设备内置电池特性更为详细的描述;增加了通过PD通信进行设备软硬件版本识别和软件更新的功能,以及增加了数
    1209浏览量
  • 千万不要忽略PCB设计中线宽线距的重要性2023-07-31 22:27

    想要做好PCB设计,除了整体的布线布局外,线宽线距的规则也非常重要,因为线宽线距决定着电路板的性能和稳定性。所以本篇以RK3588为例,详细为大家介绍一下PCB线宽线距的通用设计规则。要注意的是,布线之前须把软件默认设置选项设置好,并打开DRC检测开关。布线建议打开5mil格点,等长时可根据情况设置1mil格点。PCB布线线宽01布线首先应满足工厂加工能力,
  • 基于STM32的300W无刷直流电机驱动方案2023-07-06 10:02

    如何驱动无刷电机?近些年,由于无刷直流电机大规模的研发和技术的逐渐成熟,已逐步成为工业用电机的发展主流。围绕降低生产成本和提高运行效率,各大厂商也提供不同型号的电机以满足不同驱动系统的需求。现阶段已经在纺织、冶金、印刷、自动化生产流水线、数控机床等工业生产方面应用。无刷直流电机的优点与局限性优点:高输出功率、小尺寸和重量、散热性好、效率高、运行速度范围宽、低
  • 上新啦!开发板仅需9.9元!2023-06-21 17:43

    上新啦!开发板仅需9.9元!
  • 参考设计 | 2KW AC/DC数字电源方案2023-06-21 17:43

    什么是数字电源?数字电源,以数字信号处理器(DSP)或微控制器(MCU)为核心,将数字电源驱动器、PWM控制器等作为控制对象,能实现控制、管理和监测功能的电源产品。它是通过设定开关电源的内部参数来改变其外特性,并在“电源控制”的基础上增加了“电源管理”。所谓电源管理是指将电源有效地分配给系统的不同组件,最大限度地降低损耗。数字电源的管理(如电源排序)必须全部
    1538浏览量
  • 千万不能小瞧的PCB半孔板2023-06-21 17:34

    PCB半孔是沿着PCB边界钻出的成排的孔,当孔被镀铜时,边缘被修剪掉,使沿边界的孔减半,让PCB的边缘看起来像电镀表面孔内有铜。模块类PCB基本上都设计有半孔,主要是方便焊接,因为模块面积小,功能需求多,所以通常半孔设计在PCB单只最边沿,在锣外形时锣去一半,只留下半边孔在PCB上。半孔板的可制造性设计最小半孔最小半孔的工艺制成能力是0.5mm,前提是孔必须
    2594浏览量