ZHCSMJ6B November   2020  – March 2021 LMK5C33216

PRODUCTION DATA  

  1. 特性
  2. 应用
  3. 说明
  4. Revision History
  5. Device Comparison
  6. Pin Configuration and Functions
  7. Specifications
    1. 7.1 Absolute Maximum Ratings
    2. 7.2 ESD Ratings
    3. 7.3 Recommended Operating Conditions
    4. 7.4 Thermal Information
    5. 7.5 Electrical Characteristics
    6. 7.6 Timing Diagrams
  8. Parameter Measurement Information
    1. 8.1 Differential Voltage Measurement Terminology
    2. 8.2 Output Clock Test Configurations
  9. Detailed Description
    1. 9.1 Overview
    2. 9.2 Functional Block Diagram
      1. 9.2.1 PLL Architecture Overview
      2. 9.2.2 DPLL
        1. 9.2.2.1 Independent DPLL Operation
        2. 9.2.2.2 Cascaded DPLL Operation
        3. 9.2.2.3 APLL Cascaded with DPLL
      3. 9.2.3 APLL-Only Mode
    3. 9.3 Feature Description
      1. 9.3.1  Oscillator Input (XO)
      2. 9.3.2  Reference Inputs
      3. 9.3.3  Clock Input Interfacing and Termination
      4. 9.3.4  Reference Input Mux Selection
        1. 9.3.4.1 Automatic Input Selection
        2. 9.3.4.2 Manual Input Selection
      5. 9.3.5  Hitless Switching
        1. 9.3.5.1 Hitless Switching with Phase Cancellation
        2. 9.3.5.2 Hitless Switching With Phase Slew Control
        3. 9.3.5.3 Hitless Switching With 1-PPS Inputs
      6. 9.3.6  Gapped Clock Support on Reference Inputs
      7. 9.3.7  Input Clock and PLL Monitoring, Status, and Interrupts
        1. 9.3.7.1 XO Input Monitoring
        2. 9.3.7.2 Reference Input Monitoring
          1. 9.3.7.2.1 Reference Validation Timer
          2. 9.3.7.2.2 Frequency Monitoring
          3. 9.3.7.2.3 Missing Pulse Monitor (Late Detect)
          4. 9.3.7.2.4 Runt Pulse Monitor (Early Detect)
          5. 9.3.7.2.5 Phase Valid Monitor for 1-PPS Inputs
        3. 9.3.7.3 PLL Lock Detectors
        4. 9.3.7.4 Tuning Word History
        5. 9.3.7.5 Status Outputs
        6. 9.3.7.6 Interrupt
      8. 9.3.8  PLL Relationships
        1. 9.3.8.1  PLL Frequency Relationships
          1. 9.3.8.1.1 APLL Phase Detector Frequency
          2. 9.3.8.1.2 APLL VCO Frequency
          3. 9.3.8.1.3 DPLL TDC Frequency
          4. 9.3.8.1.4 DPLL VCO Frequency
          5. 9.3.8.1.5 Clock Output Frequency
        2. 9.3.8.2  Analog PLLs (APLL1, APLL2, APLL3)
        3. 9.3.8.3  APLL Reference Paths
          1. 9.3.8.3.1 APLL XO Doubler
          2. 9.3.8.3.2 APLL XO Reference (R) Divider
        4. 9.3.8.4  APLL Phase Frequency Detector (PFD) and Charge Pump
        5. 9.3.8.5  APLL Feedback Divider Paths
          1. 9.3.8.5.1 APLL N Divider with SDM
        6. 9.3.8.6  APLL Loop Filters (LF1, LF2, LF3)
        7. 9.3.8.7  APLL Voltage Controlled Oscillators (VCO1, VCO2, VCO3)
          1. 9.3.8.7.1 VCO Calibration
        8. 9.3.8.8  APLL VCO Clock Distribution Paths
        9. 9.3.8.9  DPLL Reference (R) Divider Paths
        10. 9.3.8.10 DPLL Time-to-Digital Converter (TDC)
        11. 9.3.8.11 DPLL Loop Filter (DLF)
        12. 9.3.8.12 DPLL Feedback (FB) Divider Path
      9. 9.3.9  Output Clock Distribution
      10. 9.3.10 Output Channel Muxes
      11. 9.3.11 Output Dividers (OD)
      12. 9.3.12 SYSREF
      13. 9.3.13 Output Delay
      14. 9.3.14 Clock Outputs (OUTx_P/N)
        1. 9.3.14.1 Differential Output
        2. 9.3.14.2 LVCMOS Output
        3. 9.3.14.3 Output Auto-Mute During LOL
      15. 9.3.15 Glitchless Output Clock Start-Up
      16. 9.3.16 Clock Output Interfacing and Termination
      17. 9.3.17 Output Synchronization (SYNC)
      18. 9.3.18 Zero-Delay Mode (ZDM) Synchronization
      19. 9.3.19 Time of Day (ToD) Counter
        1. 9.3.19.1 Configuring ToD Functionality
        2. 9.3.19.2 SPI as a Trigger Source
        3. 9.3.19.3 GPIO Pin as a ToD Trigger Source
          1. 9.3.19.3.1 An Example: Making a time measurement using ToD and GPIO1 as trigger
        4. 9.3.19.4 ToD Timing
        5. 9.3.19.5 Other ToD Behavior
    4. 9.4 Device Functional Modes
      1. 9.4.1 Device Start-Up
        1. 9.4.1.1 ROM Selection
        2. 9.4.1.2 EEPROM Overlay
      2. 9.4.2 DPLL Operating States
        1. 9.4.2.1 Free-Run
        2. 9.4.2.2 Lock Acquisition
        3. 9.4.2.3 DPLL Locked
        4. 9.4.2.4 Holdover
      3. 9.4.3 PLL Start-Up Sequence
      4. 9.4.4 Digitally-Controlled Oscillator (DCO) Frequency and Phase Adjustment
        1. 9.4.4.1 DPLL DCO Control
          1. 9.4.4.1.1 DPLL DCO Relative Adjustment Frequency Step Size
          2. 9.4.4.1.2 APLL DCO Frequency Step Size
      5. 9.4.5 APLL Frequency Control
      6. 9.4.6 Zero-Delay Mode Synchronization
    5. 9.5 Programming
      1. 9.5.1 Interface and Control
      2. 9.5.2 I2C Serial Interface
        1. 9.5.2.1 I2C Block Register Transfers
      3. 9.5.3 SPI Serial Interface
        1. 9.5.3.1 SPI Block Register Transfer
      4. 9.5.4 Register Map Generation
      5. 9.5.5 General Register Programming Sequence
  10. 10Application and Implementation
    1. 10.1 Application Information
      1. 10.1.1 Device Start-Up Sequence
      2. 10.1.2 Power Down (PD#) Pin
      3. 10.1.3 Strap Pins for Start-Up
      4. 10.1.4 ROM and EEPROM
      5. 10.1.5 Power Rail Sequencing, Power Supply Ramp Rate, and Mixing Supply Domains
        1. 10.1.5.1 Power-On Reset (POR) Circuit
        2. 10.1.5.2 Powering Up From a Single-Supply Rail
        3. 10.1.5.3 Power Up From Split-Supply Rails
        4. 10.1.5.4 Non-Monotonic or Slow Power-Up Supply Ramp
      6. 10.1.6 Slow or Delayed XO Start-Up
    2. 10.2 Typical Application
      1. 10.2.1 Design Requirements
      2. 10.2.2 Detailed Design Procedure
    3. 10.3 Do's and Don'ts
  11. 11Power Supply Recommendations
    1. 11.1 Power Supply Bypassing
  12. 12Layout
    1. 12.1 Layout Guidelines
    2. 12.2 Layout Example
    3. 12.3 Thermal Reliability
      1. 12.3.1 Support for PCB Temperature up to 105°C
  13. 13Device and Documentation Support
    1. 13.1 Documentation Support
      1. 13.1.1 Related Documentation
    2. 13.2 接收文档更新通知
    3. 13.3 支持资源
    4. 13.4 Trademarks
    5. 13.5 术语表
    6. 13.6 静电放电警告
  14. 14Mechanical, Packaging, and Orderable Information

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订购信息

9.3.1 Oscillator Input (XO)

The XO input is the reference clock for the fractional-N APLLs when APLLs are not used in cascade mode. The XO input determines the output frequency accuracy and stability in free-run or holdover modes.

For proper DPLL operation, the XO frequency must have a non-integer relationship with the VCO frequency so the respective APLL N divider has a fractional divider ratio. For APLL-only mode, the XO frequency can have an integer or fractional relationship with the VCOs frequencies.

For applications requiring DPLL functionality, such as SyncE and IEEE 1588 for eCPRI, the XO input can be driven by a TCXO, OCXO, or external traceable clock that conforms to the frequency accuracy and holdover stability required by the applicable synchronization standard. TCXO and OCXO frequencies of 10, 13, 14.4, 19.44, 24, 25, 27, 38.88, and 48 MHz are commonly available and cost-effective options that allow the APLL3 to operate in fractional mode for a VCO3 frequency of 2457.6 MHz.

An XO/TCXO/OCXO source with low frequency or high phase jitter/noise floor will have no impact on the APLL3 output jitter performance because the VCBO determines the jitter and phase noise over the 12-kHz to 20-MHz integration bandwidth.

The XO input buffer has programmable input on-chip termination and AC-coupled input biasing configurations as shown in Figure 9-8. The buffered XO path also drives the input monitoring blocks.

Figure 9-8 XO Input Buffer

Table 9-1 lists the typical XO input buffer configurations for common clock interface types.

Table 9-1 XO Input Buffer Modes
XO_TYPEINPUT TYPESINTERNAL SWITCH SETTINGS
INTERNAL TERM. (S1, S2)(1)INTERNAL BIAS (S3)(2)
0x00DC (external termination)OFFOFF
0x01AC (external termination)OFFON (1.3 V)
0x03AC (internal 100-Ω to GND)100 ΩON (1.3 V)
0x04DC (internal 50-Ω to GND)50 ΩOFF
0x05AC (internal 50-Ω to GND)50 ΩON (1.3 V)
0x08LVCMOSOFFOFF
0x0CLVCMOS
(internal 50-Ω to GND)		50 ΩOFF
(1) S1, S2: OFF = External termination is assumed.
(2) S3: OFF = External input bias or DC coupling is assumed.