JAJSKW2B
June 2020 – June 2021
LMK05318B
PRODUCTION DATA
1
特長
2
アプリケーション
3
概要
4
Revision History
5
概要 (続き)
6
Pin Configuration and Functions
6.1
Device Start-Up Modes
7
Specifications
7.1
Absolute Maximum Ratings
7.2
ESD Ratings
7.3
Recommended Operating Conditions
7.4
Thermal Information: 4-Layer JEDEC Standard PCB
7.5
Thermal Information: 10-Layer Custom PCB
7.6
Electrical Characteristics
7.7
Timing Diagrams
7.8
Typical Characteristics
8
Parameter Measurement Information
8.1
Output Clock Test Configurations
9
Detailed Description
9.1
Overview
9.1.1
ITU-T G.8262 (SyncE) Standards Compliance
9.2
Functional Block Diagram
9.2.1
PLL Architecture Overview
9.2.2
DPLL Mode
9.2.3
APLL-Only Mode
9.3
Feature Description
9.3.1
Oscillator Input (XO_P/N)
9.3.2
Reference Inputs (PRIREF_P/N and SECREF_P/N)
9.3.2.1
Programmable Input Hysteresis
9.3.3
Clock Input Interfacing and Termination
9.3.4
Reference Input Mux Selection
9.3.4.1
Automatic Input Selection
9.3.4.2
Manual Input Selection
9.3.5
Hitless Switching
9.3.5.1
Hitless Switching With 1-PPS Inputs
9.3.6
Gapped Clock Support on Reference Inputs
9.3.7
Input Clock and PLL Monitoring, Status, and Interrupts
9.3.7.1
XO Input Monitoring
9.3.7.2
Reference Input Monitoring
9.3.7.2.1
Reference Validation Timer
9.3.7.2.2
Amplitude Monitor
9.3.7.2.3
Frequency Monitoring
9.3.7.2.4
Missing Pulse Monitor (Late Detect)
9.3.7.2.5
Runt Pulse Monitor (Early Detect)
9.3.7.2.6
Phase Valid Monitor for 1-PPS Inputs
9.3.7.3
PLL Lock Detectors
9.3.7.4
Tuning Word History
9.3.7.5
Status Outputs
9.3.7.6
Interrupt
9.3.8
PLL Relationships
9.3.8.1
PLL Frequency Relationships
9.3.8.2
Analog PLLs (APLL1, APLL2)
9.3.8.3
APLL Reference Paths
9.3.8.3.1
APLL XO Doubler
9.3.8.3.2
APLL1 XO Reference (R) Divider
9.3.8.3.3
APLL2 Reference (R) Dividers
9.3.8.4
APLL Phase Frequency Detector (PFD) and Charge Pump
9.3.8.5
APLL Feedback Divider Paths
9.3.8.5.1
APLL1 N Divider With SDM
9.3.8.5.2
APLL2 N Divider With SDM
9.3.8.6
APLL Loop Filters (LF1, LF2)
9.3.8.7
APLL Voltage Controlled Oscillators (VCO1, VCO2)
9.3.8.7.1
VCO Calibration
9.3.8.8
APLL VCO Clock Distribution Paths (P1, P2)
9.3.8.9
DPLL Reference (R) Divider Paths
9.3.8.10
DPLL Time-to-Digital Converter (TDC)
9.3.8.11
DPLL Loop Filter (DLF)
9.3.8.12
DPLL Feedback (FB) Divider Path
9.3.9
Output Clock Distribution
9.3.10
Output Channel Muxes
9.3.11
Output Dividers (OD)
9.3.12
Clock Outputs (OUTx_P/N)
9.3.12.1
AC-Differential Output (AC-DIFF)
9.3.12.2
HCSL Output
9.3.12.3
1.8-V LVCMOS Output
9.3.12.4
Output Auto-Mute During LOL
9.3.13
Glitchless Output Clock Start-Up
9.3.14
Clock Output Interfacing and Termination
9.3.15
Output Synchronization (SYNC)
9.3.16
Zero-Delay Mode (ZDM) Synchronization for 1-PPS Input and Output
9.4
Device Functional Modes
9.4.1
Device Start-Up Modes
9.4.1.1
EEPROM Mode
9.4.1.2
ROM Mode
9.4.2
PLL Operating Modes
9.4.2.1
Free-Run Mode
9.4.2.2
Lock Acquisition
9.4.2.3
Locked Mode
9.4.2.4
Holdover Mode
9.4.3
PLL Start-Up Sequence
9.4.4
Digitally-Controlled Oscillator (DCO) Mode
9.4.4.1
DCO Frequency Step Size
9.4.4.2
DCO Direct-Write Mode
9.4.5
Zero-Delay Mode Synchronization
9.5
Programming
9.5.1
Interface and Control
9.5.2
I2C Serial Interface
9.5.2.1
I2C Block Register Transfers
9.5.3
SPI Serial Interface
9.5.3.1
SPI Block Register Transfer
9.5.4
Register Map and EEPROM Map Generation
9.5.5
General Register Programming Sequence
9.5.6
EEPROM Programming Flow
9.5.6.1
EEPROM Programming Using Method #1 (Register Commit)
9.5.6.1.1
Write SRAM Using Register Commit
9.5.6.1.2
Program EEPROM
9.5.6.2
EEPROM Programming Using Method #2 (Direct Writes)
9.5.6.2.1
Write SRAM Using Direct Writes
9.5.6.2.2
User-Programmable Fields In EEPROM
9.5.7
Read SRAM
9.5.8
Read EEPROM
9.5.9
EEPROM Start-Up Mode Default Configuration
10
Application and Implementation
10.1
Application Information
10.1.1
Device Start-Up Sequence
10.1.2
Power Down (PDN) Pin
10.1.3
Power Rail Sequencing, Power Supply Ramp Rate, and Mixing Supply Domains
10.1.3.1
Mixing Supplies
10.1.3.2
Power-On Reset (POR) Circuit
10.1.3.3
Powering Up From a Single-Supply Rail
10.1.3.4
Power Up From Split-Supply Rails
10.1.3.5
Non-Monotonic or Slow Power-Up Supply Ramp
10.1.4
Slow or Delayed XO Start-Up
10.2
Typical Application
10.2.1
Design Requirements
10.2.2
Detailed Design Procedure
10.2.3
Application Curves
10.3
Do's and Don'ts
11
Power Supply Recommendations
11.1
Power Supply Bypassing
11.2
Device Current and Power Consumption
11.2.1
Current Consumption Calculations
11.2.2
Power Consumption Calculations
11.2.3
Example
12
Layout
12.1
Layout Guidelines
12.2
Layout Example
12.3
Thermal Reliability
12.3.1
Support for PCB Temperature up to 105 °C
13
Device and Documentation Support
13.1
Device Support
13.1.1
TICS Pro
13.1.2
Related Documentation
13.2
Receiving Notification of Documentation Updates
13.3
サポート・リソース
13.4
Trademarks
13.5
Electrostatic Discharge Caution
13.6
Glossary
14
Mechanical, Packaging, and Orderable Information
パッケージ・オプション
メカニカル・データ(パッケージ|ピン)
RGZ|48
MPQF123F
サーマルパッド・メカニカル・データ
RGZ|48
QFND031W
発注情報
jajskw2b_oa
jajskw2b_pm
1
特長
デジタル・フェーズ・ロック・ループ (DPLL) ×1:
ヒットレス・スイッチング:± 50ps の位相過渡応答
プログラミング可能な Fastlock によるループ帯域幅
低コストの TCXO/OCXO を使用する規格準拠の同期およびホールドオーバー
業界をリードするジッタ性能を備えたアナログ・フェーズ・ロック・ループ (APLL) ×2:
312.5MHz で 50fs の RMS ジッタ (APLL1)
155.52MHz で
125fs
の RMS ジッタ (APLL2)
基準クロック入力 ×2
優先度に基づく入力選択
基準喪失時のデジタル・ホールドオーバー
8 つのクロック出力
と プログラマブル・ドライバ付きの
最大
6
種類の出力周波数
AC-LVDS、AC-CML、AC-LVPECL、HCSL、および1.8Vの LVCMOS 出力フォーマット
起動時のカスタム・クロック用 EEPROM/ROM
柔軟な構成オプション
入力
および出力
で1Hz (1PPS)~800MHz
XO/TCXO/OCXO 入力:10~100MHz
DCO モード:0.001ppb/ステップ未満で高精度のクロック・ステアリングを実現 (IEEE 1588 PTP スレーブ)
高度なクロック監視およびステータス
I
2
C または SPI インターフェイス
PSNR:–83dBc (3.3V 電源で 50mVpp のノイズ)
3.3V 電源、1.8V、2.5V、または3.3V 出力
産業用温度範囲:-40℃~+85℃