AD9510 1.2 GHz Clock Distribution IC, PLL Core, Dividers, Delay Adjust, Eight Outputs

The AD9510 provides a multi-output clock distribution function along with an on-chip phase-locked loop (PLL) core. The design emphasizes low jitter and phase noise to maximize data converter performance. Other applications with demanding phase noise and jitter requirements also benefit from this device.

The PLL section consists of a programmable reference divider (R); a low noise, phase frequency detector (PFD); a precision charge pump (CP); and a programmable feedback divider (N). By connecting an external voltage-controlled crystal oscillator (VCXO) or voltage-controlled oscillator (VCO) to the CLK2 and CLK2B pins, frequencies of up to 1.6 GHz can be synchronized to the input reference.

There are eight independent clock outputs. Four outputs are low voltage positive emitter-coupled logic (LVPECL) at 1.2 GHz, and four are selectable as either LVDS (800 MHz) or CMOS (250 MHz) levels.

Each output has a programmable divider that can be bypassed or set to divide by any integer up to 32. The phase of one clock output relative to another clock output can be varied by means of a divider phase select function that serves as a coarse timing adjustment. Two of the LVDS/CMOS outputs feature programmable delay elements with full-scale ranges up to 8 ns of delay. This fine tuning delay block has 5-bit resolution, giving 25 possible delays from which to choose for each full-scale setting (Register 0x36 and Register 0x3A = 00000b to 11000b).

The AD9510 is ideally suited for data converter clocking applications where maximum converter performance is achieved by encode signals with subpicosecond jitter.

The AD9510 is available in a 64-lead LFCSP and can be operated from a single 3.3 V supply. An external VCO, which requires an extended voltage range, can be accommodated by connecting the charge pump supply (VCP) to 5.5 V. The temperature range is −40°C to +85°C.

Applications
  • Low jitter, low phase noise clock distribution
  • Clocking high speed ADCs, DACs, DDSs, DDCs, DUCs, and mixed-signal front ends (MxFEs)
  • High performance wireless transceivers
  • High performance instrumentation
  • Broadband infrastructure
Features and Benefits
  • Low phase noise phase-locked loop core
    • Reference input frequencies to 250 MHz
    • Programmable dual modulus prescaler
    • Programmable charge pump (CP) current
    • Separate CP supply (VCPS) extends tuning range
  • Reference input frequencies to 250 MHz
  • Programmable dual modulus prescaler
  • Programmable charge pump (CP) current
  • Separate CP supply (VCPS) extends tuning range
  • Two 1.6 GHz, differential clock inputs
  • 8 programmable dividers, 1 to 32, all integers
  • Phase select for output-to-output coarse delay adjust
  • 4 independent 1.2 GHz LVPECL outputs
    • Additive output jitter of 225 fs rms
  • Additive output jitter of 225 fs rms
  • 4 independent 800 MHz low voltage differential signaling
    • (LVDS) or 250 MHz complementary metal oxide conductor
    • (CMOS) clock outputs
    • Additive output jitter of 275 fs rms
    • Fine delay adjust on 2 LVDS/CMOS outputs
  • (LVDS) or 250 MHz complementary metal oxide conductor
  • (CMOS) clock outputs
  • Additive output jitter of 275 fs rms
  • Fine delay adjust on 2 LVDS/CMOS outputs
  • Serial control port
  • Space-saving 64-lead LFCSP
  • Clock & Timing
    RF & Microwave
    Security and Surveillance
    • Scanning Equipment
    • Video Surveillance
    Aerospace and Defense
    • Solutions
    AD9510 IBIS Models
    Data Sheets
    Documentnote
    AD9510: 1.2 GHz Clock Distribution IC, PLL Core, Dividers, Delay Adjust, Eight Outputs Data Sheet (Rev. C)PDF 1.07 M
    Application Notes
    Documentnote
    AN-0974: Multicarrier TD-SCMA FeasibilityPDF 634 kB
    AN-835: Understanding High Speed ADC Testing and Evaluation (Rev. B)PDF 985 kB
    AN-501: Aperture Uncertainty and ADC System Performance (Rev. A)PDF 227 kB
    AN-0983: Introduction to Zero-Delay Clock Timing TechniquesPDF 162 kB
    AN-756: Sampled Systems and the Effects of Clock Phase Noise and Jitter (Rev. 0)PDF 291.7 K
    AN-769: Generating Multiple Clock Outputs from the AD9540 (Rev. 0)PDF 0
    AN-939: Super-Nyquist Operation of the AD9912 Yields a High RF Output Signal (Rev. 0)PDF 221 kB
    AN-837: DDS-Based Clock Jitter Performance vs. DAC Reconstruction Filter Performance (Rev. 0)PDF 313 kB
    AN-823: Direct Digital Synthesizers in Clocking Applications Time (Rev. 0)PDF 115 kB
    AN-927: Determining if a Spur is Related to the DDS/DAC or to Some Other Source (For Example, Switching Supplies) (Rev. 0)PDF 170 kB
    AN-873: Lock Detect on the ADF4xxx Family of PLL Synthesizers (Rev. 0)PDF 207 kB
    AN-741: Little Known Characteristics of Phase Noise (Rev. 0)PDF 1679 kB
    Frequently Asked Questions
    Documentnote
    Order Information
    Part NumberPackagePacking QtyTemp RangePrice 100-499Price 1000+RoHS
    AD9510BCPZ Production64 ld LFCSP (9x9mm, 4.70mm exposed pad)OTH 260-40 to 85C7.286.19Y
    AD9510BCPZ-REEL7 Production64 ld LFCSP (9x9mm, 4.70mm exposed pad)REEL 750-40 to 85C7.286.19Y
    Evaluation Boards
    Part NumberDescriptionPriceRoHS
    AD9510/PCBZEvaluation Board190Y
    Reference Materials
    AD9510: 1.2 GHz Clock Distribution IC, PLL Core, Dividers, Delay Adjust, Eight Outputs Data Sheet (Rev. C) ad9510
    AD9510:1.2 GHz时钟分配IC,PLL内核,分频器,延迟调整,8路输出 (Rev. B) ad9510
    AD9510 (All Models/All Speed Grades) ad9510
    AN-0974: Multicarrier TD-SCMA Feasibility ad6655
    AN-835: Understanding High Speed ADC Testing and Evaluation (Rev. B) ad9220
    AN-501: Aperture Uncertainty and ADC System Performance (Rev. A) ad9220
    AN-0983: Introduction to Zero-Delay Clock Timing Techniques ad9510
    AN-756: Sampled Systems and the Effects of Clock Phase Noise and Jitter (Rev. 0) ad9220
    AN-769: Generating Multiple Clock Outputs from the AD9540 (Rev. 0) ad9540
    AN-939: Super-Nyquist Operation of the AD9912 Yields a High RF Output Signal (Rev. 0) ad9540
    AN-837: DDS-Based Clock Jitter Performance vs. DAC Reconstruction Filter Performance (Rev. 0) ad9856
    AN-823: Direct Digital Synthesizers in Clocking Applications Time (Rev. 0) ad9856
    AN-927: Determining if a Spur is Related to the DDS/DAC or to Some Other Source (For Example, Switching Supplies) (Rev. 0) ad9540
    AN-835: 高速ADC测试和评估 (Rev. 0) ad9510
    AN-769: 基于AD9540产生多时钟输出 (Rev. 0) ad9540
    AN-0974: TD-SCMA多载波系统可行性研究 (Rev. 0) ad8376
    AN-873: ADF4xxx系列PLL频率合成器的锁定检测 (Rev. 0) ad9540
    AN-0983: 零延迟时钟定时技术简介 (Rev. 0) ad9510
    AN-939: 利用AD9912的超奈奎斯特频率操作得到高RF输出信号 (Rev. 0) ad9540
    AN-927: 确定杂散来源是DDS/DAC还是其他器件(例如开关电源)[中文版] (Rev. 0) ad9540
    AN-837: 基于DDS的时钟抖动性能与DAC重构滤波器性能的关系[中文版] (Rev. 0) ad9540
    AN-873: Lock Detect on the ADF4xxx Family of PLL Synthesizers (Rev. 0) ad9540
    AN-823: 时钟应用中的直接数字频率合成器[中文版] (Rev. 0) ad9540
    AN-756: 系统采样以及时钟相位噪声和抖动的影响[中文版] (Rev. 0) ad9540
    AN-501: 孔径不确定度与ADC系统性能[中文版] (Rev. A) ad9540
    AN-741: Little Known Characteristics of Phase Noise (Rev. 0) ad9221
    AN-741: 鲜为人知的相位噪声特性 ad9540
    RF Source Booklet adf9010