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CDCLVP2108

ACTIVE

Low jitter, dual 1:8 universal-to-LVPECL buffer

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Data sheet

CDCLVP2108

ACTIVE
Data sheet Order now

Product details

Function Differential Additive RMS jitter (typ) (fs) 124 Output frequency (max) (MHz) 2000 Number of outputs 16 Output supply voltage (V) 2.5, 3.3 Core supply voltage (V) 2.5, 3.3 Output skew (ps) 25 Features 2:16 fanout Operating temperature range (°C) -40 to 85 Rating Catalog Output type LVPECL Input type LVCMOS, LVDS, LVPECL
Function Differential Additive RMS jitter (typ) (fs) 124 Output frequency (max) (MHz) 2000 Number of outputs 16 Output supply voltage (V) 2.5, 3.3 Core supply voltage (V) 2.5, 3.3 Output skew (ps) 25 Features 2:16 fanout Operating temperature range (°C) -40 to 85 Rating Catalog Output type LVPECL Input type LVCMOS, LVDS, LVPECL
VQFN (RGZ) 48 49 mm² 7 x 7
  • Dual 1:8 Differential Buffer
  • Two Clock Inputs
  • Universal Inputs Can Accept LVPECL, LVDS,
    LVCMOS/LVTTL
  • 16 LVPECL Outputs
  • Maximum Clock Frequency: 2 GHz
  • Maximum Core Current Consumption: 115 mA
  • Very Low Additive Jitter: <100 fs, RMS
    in 10-kHz to 20-MHz Offset Range
  • 2.375-V to 3.6-V Device Power Supply
  • Maximum Propagation Delay: 550 ps
  • Maximum Within Bank Output Skew: 25 ps
  • LVPECL Reference Voltage, VAC_REF,
    Available for Capacitive-Coupled Inputs
  • Industrial Temperature Range: –l40°C
    to +85°C
  • Supports 105°C PCB Temperature (Measured
    with a Thermal Pad)
  • Available in 7-mm × 7-mm, 48-Pin VQFN
    (RGZ) Package
  • ESD Protection Exceeds 2000 V (HBM)
  • Dual 1:8 Differential Buffer
  • Two Clock Inputs
  • Universal Inputs Can Accept LVPECL, LVDS,
    LVCMOS/LVTTL
  • 16 LVPECL Outputs
  • Maximum Clock Frequency: 2 GHz
  • Maximum Core Current Consumption: 115 mA
  • Very Low Additive Jitter: <100 fs, RMS
    in 10-kHz to 20-MHz Offset Range
  • 2.375-V to 3.6-V Device Power Supply
  • Maximum Propagation Delay: 550 ps
  • Maximum Within Bank Output Skew: 25 ps
  • LVPECL Reference Voltage, VAC_REF,
    Available for Capacitive-Coupled Inputs
  • Industrial Temperature Range: –l40°C
    to +85°C
  • Supports 105°C PCB Temperature (Measured
    with a Thermal Pad)
  • Available in 7-mm × 7-mm, 48-Pin VQFN
    (RGZ) Package
  • ESD Protection Exceeds 2000 V (HBM)

The CDCLVP2108 is a highly versatile, low additive jitter buffer that can generate 16 copies of LVPECL clock outputs from two LVPECL, LVDS, or LVCMOS inputs for a variety of communication applications. It has a maximum clock frequency up to 2 GHz. Each buffer block consists of one input that feeds two LVPECL outputs. The overall additive jitter performance is less than 0.1 ps, RMS from 10 kHz to 20 MHz, and overall output skew is as low as 25 ps, making the device a perfect choice for use in demanding applications.

The CDCLVP2108 clock buffer distributes two clock inputs (IN0, IN1) to 16 pairs of differential LVPECL clock outputs (OUT0, OUT15) with minimum skew for clock distribution. Each buffer block consists of one input that feeds two LVPECL clock outputs. The inputs can be LVPECL, LVDS, or LVCMOS/LVTTL.

The CDCLVP2108 is specifically designed for driving 50-Ω transmission lines. When driving the inputs in single-ended mode, the LVPECL bias voltage (VAC_REF) must be applied to the unused negative input pin. However, for high-speed performance up to 2 GHz, differential mode is strongly recommended.

The CDCLVP2108 is characterized for operation from –40°C to +85°C and is available in a 7-mm × 7-mm, VQFN-48 package.

The CDCLVP2108 is a highly versatile, low additive jitter buffer that can generate 16 copies of LVPECL clock outputs from two LVPECL, LVDS, or LVCMOS inputs for a variety of communication applications. It has a maximum clock frequency up to 2 GHz. Each buffer block consists of one input that feeds two LVPECL outputs. The overall additive jitter performance is less than 0.1 ps, RMS from 10 kHz to 20 MHz, and overall output skew is as low as 25 ps, making the device a perfect choice for use in demanding applications.

The CDCLVP2108 clock buffer distributes two clock inputs (IN0, IN1) to 16 pairs of differential LVPECL clock outputs (OUT0, OUT15) with minimum skew for clock distribution. Each buffer block consists of one input that feeds two LVPECL clock outputs. The inputs can be LVPECL, LVDS, or LVCMOS/LVTTL.

The CDCLVP2108 is specifically designed for driving 50-Ω transmission lines. When driving the inputs in single-ended mode, the LVPECL bias voltage (VAC_REF) must be applied to the unused negative input pin. However, for high-speed performance up to 2 GHz, differential mode is strongly recommended.

The CDCLVP2108 is characterized for operation from –40°C to +85°C and is available in a 7-mm × 7-mm, VQFN-48 package.
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Technical documentation

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* Data sheet CDCLVP2108 16-LVPECL Output, High-Performance Clock Buffer datasheet (Rev. C) PDF | HTML 25 Oct 2013
EVM User's guide CDCLVP2108EVM User's Guide 27 May 2009

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

CDCLVP2108EVM — Evaluation module for CDCLVP2108, a low additive phase noise clock buffer

CDCLVP2108EVM is the evaluation module for CDCLVP2108. The CDCLVP2108 is a highly versatile, low additive jitter buffer that integrates two channels of 1:8 LVPECL buffers with selectable LVPECL, LVDS, or LVCMOS inputs. It has a maximum clock frequency up to 2 GHz. The overall additive jitter (...)

User guide: PDF
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Simulation model

CDCLVPxxxx IBIS Model (Rev. B)

SLLM056B.ZIP (40 KB) - IBIS Model
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Supported products & hardware

Supported products & hardware

Products
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Oscillators
LMK60A0-148351 148.352-MHz, LVDS, high-performance, low jitter, differential oscillator LMK60A0-148M 148.5-MHz, LVDS, high-performance, low jitter, differential oscillator LMK60E0-156257 156.257-MHz, LVPECL, ±25 ppm, high-performance, low-jitter oscillator LMK60E0-156M 156.5-MHz, LVPECL, ±25 ppm, high-performance, low-jitter oscillator LMK60E0-212M 212.5-MHz, LVPECL, ±25 ppm, high-performance, low-jitter oscillator LMK60E2-100M 100.0-MHz, LVPECL, ±50 ppm, high-performance, low-jitter oscillator LMK60E2-125M 125-MHz, LVPECL, ±50 ppm, high-performance, low-jitter oscillator LMK60E2-150M 150-MHz, LVPECL, ±50 ppm, low jitter, standard oscillator LMK60E2-156M 156.25-MHz, LVPECL, ±50 ppm, high-performance, low-jitter oscillator LMK60I2-100M 100-MHz, HCSL, ±50 ppm, high-performance, low-jitter oscillator LMK60I2-322M 322.27-MHz, HCSL, ±50 ppm, high-performance, low-jitter oscillator LMK61A2-100M 100-MHz, ±50 ppm, LVDS ultra-low jitter standard differential oscillator LMK61A2-125M 125-MHz, ±50 ppm, LVDS ultra-low jitter standard differential oscillator LMK61A2-156M 156.25-MHz, ±50 ppm, LVDS ultra-low jitter standard differential oscillator LMK61A2-312M 312.5-MHz, ±50 ppm, LVDS ultra-low jitter standard differential oscillator LMK61A2-644M LVDS ultra-low jitter programmable oscillator with internal EEPROM LMK61E0-050M 50-MHz, LVPECL ±25 ppm, ultra-low jitter, standard differential oscillator LMK61E0-155M 155.52-MHz, LVPECL ±25 ppm, ultra-low jitter, standard differential oscillator LMK61E0-156M 156.25-MHz, ±25 ppm, LVPECL ultra-low jitter standard differential oscillator LMK61E07 Multi-signal format, ultra-low jitter programmable oscillator with internal EEPROM LMK61E08 Ultra-low jitter programmable oscillator with internal EEPROM LMK61E0M LVCMOS ultra-low jitter programmable oscillator with internal EEPROM LMK61E2 156.250-MHz, ±50 ppm, ultra-low jitter, integrated EEPROM, fully programmable oscillator LMK61E2-100M 100-MHz, ±50 ppm, LVPECL ultra-low jitter standard differential oscillator LMK61E2-125M 125-MHz, ±50 ppm, LVPECL ultra-low jitter standard differential oscillator LMK61E2-156M 156.25-MHz, ±50 ppm, LVPECL ultra-low jitter standard differential oscillator LMK61E2-312M 312.5-MHz, ±50 ppm, LVPECL ultra-low jitter standard differential oscillator LMK61I2-100M 100-MHz, ±50 ppm, HCSL ultra-low jitter standard differential oscillator LMK61PD0A2 ±50 ppm, ultra-low jitter, pin selectable, differential oscillator LMK62A2-100M 100-MHz, LVDS ±50 ppm, high-performance, low-jitter, standard oscillator LMK62A2-150M 150-MHz, LVDS ±50 ppm, high-performance, low-jitter, standard oscillator LMK62A2-156M 156.25-MHz, LVDS ±50 ppm, high-performance, low-jitter oscillator LMK62A2-200M 200-MHz, LVDS ±50 ppm, high-performance, low-jitter, standard oscillator LMK62A2-266M 266.66-MHz, LVDS ±50 ppm, high-performance, low-jitter, standard oscillator LMK62E0-156M 156.25-MHz, LVPECL, ±25 ppm, high-performance, low-jitter oscillator LMK62E2-100M 100-MHz, LVPECL, ±50 ppm, high-performance, low-jitter oscillator LMK62E2-156M 156.25-MHz, LVPECL, ±50 ppm, high-performance, low jitter, standard oscillator LMK62I0-100M 100-MHz, HCSL, ±25 ppm, high-performance, low-jitter oscillator LMK62I0-156M 156.25-MHz, HCSL, ±25 ppm, high-performance, low-jitter oscillator LMK6C Low-jitter, high-performance, bulk-acoustic-wave (BAW) fixed-frequency LVCMOS oscillator LMK6D Low-jitter, high-performance, bulk-acoustic-wave (BAW) fixed-frequency LVDS oscillator LMK6H Low-jitter, high-performance, bulk-acoustic-wave (BAW) fixed-frequency HCSL oscillator LMK6P Low-jitter, high-performance, bulk-acoustic-wave (BAW) fixed-frequency LVPECL oscillator
Hardware development
Evaluation board
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Software
Support software
LMX9830-SW LMX9830 Application Notes, Software, and Tools LMX9838-SW LMX9838 Application Notes, Software, and Tools
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Simulation tool

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PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
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VQFN (RGZ) 48 Ultra Librarian
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