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CDCE72010 Datasheet PDF

Part Series:CDCE72010 Series
Description:10Outputs Low Jitter Clock Synchronizer and Jitter Cleaner
Document:CDCE72010RGCT Datasheet PDF (78 Pages)

CDCE72010 Datasheet PDF

77 Pages
TI
10Outputs Low Jitter Clock Synchronizer and Jitter Cleaner
20 Pages
TI
TEXAS INSTRUMENTS CDCE72010EVM Evaluation Module, 1.5GHz Low-Phase Noise Clock, CDCE72010

CDCE72010 - TI Function Overview

The CDCE72010 is a high-performance, low phase noise, and low skew clock synchronizer that synchronizes a VCXO (Voltage Controlled Crystal Oscillator) or VCO (Voltage Controlled Oscillator) frequency to one of two reference clocks. The clock path is fully programmable providing the user with a high degree of flexibility. The following relationship applies to the dividers:
Frequency (VCXO_IN or AUX_IN) / Frequency (PRI_REF or SEC_REF) = (P
N)/(R
M)
The VC(X)O_IN clock operates up to 1.5GHz through the selection of external VC(X)O and loop filter components. The PLL loop bandwidth and damping factor can be adjusted to meet different system requirements.
The CDCE72010 can lock to one of two reference clock inputs (PRI_REF and SEC_REF) and supports frequency hold-over mode for fail-safe and system redundancy. The outputs of the CDCE72010 are user definable and can be any combination of up to 10 LVPECL/LVDS outputs or up to 20 LVCMOS outputs. The built-in synchronization latches ensure that all outputs are synchronized for very low output skew.
All device settings, including output signaling, divider value selection, input selection, and many more, are programmable with the SPI (4-wire Serial Peripheral Interface). The SPI allows individual control of the device settings.
The device operates in a 3.3V environment and is characterized for operation from –40°C to +85°C.
The CDCE72010 is available in a 64-pin lead-free “green” plastic quad flatpack package with enhanced bottom thermal pad for heat dissipation. The Texas Instruments package designator is RGC (S-PQFP-N64).
High Performance LVPECL, LVDS, LVCMOS PLL Clock Synchronizer
Two Reference Clock Inputs (Primary and Secondary Clock) for Redundancy
Support with Manual or Automatic Selection
Accepts Two Differential Input (LVPECL or LVDS) References up to 500MHz
(or Two LVCMOS Inputs up to 250MHz) as PLL Reference
VCXO_IN Clock is Synchronized to One of Two Reference Clocks
VCXO_IN Frequencies up to 1.5GHz (LVPECL)
800MHz for LVDS and
250MHz for LVCMOS Level Signaling
Outputs Can be a Combination of LVPECL, LVDS, and LVCMOS
(Up to 10 Differential LVPECL or LVDS Outputs or up to
20 LVCMOS Outputs), Output 9 can be Converted to an
Auxiliary Input as a 2nd VC(X)O.
Output Divider is Selectable to Divide by 1, 2, 3, 4, 5, 6, 8, 10,
12, 16, 18, 20, 24, 28, 30, 32, 36, 40, 42, 48, 50, 56, 60, 64, 70,
or 80 On Each Output Individually up to Eight Dividers. (Except for
Output 0 and 9, Output 0 Follows Output 1 Divider and Output 9
Follows Output 8 Divider)
SPI Controllable Device Setting
Individual Output Enable Control via SPI Interface
Integrated On-Chip Non-Volatile Memory (EEPROM) to Store Settings
without the Need to Apply High Voltage to the Device
Optional Configuration Pins to Select Between Two Default Settings
Stored in EEPROM
Efficient Jitter Cleaning from Low PLL Loop Bandwidth
Very Low Phase Noise PLL Core
Programmable Phase Offset (Input Reference to Outputs)
Wide Charge-Pump Current Range From 200µA to 3mA
Presets Charge-Pump to VCC_CP/2 for Fast Center-Frequency
Setting of VC(X)O, Controlled Via the SPI Bus
SERDES Startup Mode (Depending on VCXO Range)
Auxiliary Input: Output 9 can Serve as 2nd VCXO Input to Drive
All Outputs or to Serve as PLL Feedback Signal
RESET or HOLD Input Pin to Serve as Reset or Hold Functions
REFERENCE SELECT for Manual Select Between Primary and Secondary
Reference Clocks
POWER DOWN (PD) to Put Device in Standby Mode
Analog and Digital PLL Lock Indicator
Internally Generated VBB Bias Voltages for Single-Ended Input Signals
Frequency Hold-Over Mode Activated by HOLD Pin or SPI Bus to Improve
Fail-Safe Operation
Input to All Outputs Skew Control
Individual Skew Control for Each Output with Each Output Divider
Packaged in a QFN-64 Package
ESD Protection Exceeds 2kV HBM
Industrial Temperature Range of –40°C to 85°
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