Product details

Function Zero-delay Additive RMS jitter (typ) (fs) 65 Output frequency (max) (MHz) 220 Number of outputs 4 Output supply voltage (V) 1.7 Core supply voltage (V) 2.5 Output skew (ps) 40 Features Spread spectrum clocking (SSC) Operating temperature range (°C) -40 to 85 Rating Catalog Output type LVTTL Input type LVTTL
Function Zero-delay Additive RMS jitter (typ) (fs) 65 Output frequency (max) (MHz) 220 Number of outputs 4 Output supply voltage (V) 1.7 Core supply voltage (V) 2.5 Output skew (ps) 40 Features Spread spectrum clocking (SSC) Operating temperature range (°C) -40 to 85 Rating Catalog Output type LVTTL Input type LVTTL
TSSOP (PW) 28 62.08 mm² 9.7 x 6.4
  • Spread-Spectrum Clock Compatible
  • Operating Frequency: 60 MHz to 220 MHz
  • Low Jitter (Cycle-Cycle): ±60 ps (±40 ps at 200 MHz)
  • Low Static Phase Offset: ±50 ps
  • Low Jitter (Period): ±60 ps (±30 ps at 200 MHz)
  • 1-to-4 Differential Clock Distribution (SSTL2)
  • Best in Class for VOX = VDD/2 ±0.1 V
  • Operates From Dual 2.6-V or 2.5-V Supplies
  • Available in a 28-Pin TSSOP Package
  • Consumes < 100-µA Quiescent Current
  • External Feedback Pins (FBIN, FBIN) Are Used to Synchronize the Outputs to the Input Clocks
  • Meets/Exceeds JEDEC Standard (JESD82-1) For DDRI-200/266/333 Specification
  • Meets/Exceeds Proposed DDRI-400 Specification (JESD82-1A)
  • Enters Low-Power Mode When No CLK Input Signal Is Applied or PWRDWN Is Low
  • APPLICATIONS
    • DDR Memory Modules (DDR400/333/266/200)
    • Zero-Delay Fan-Out Buffer

  • Spread-Spectrum Clock Compatible
  • Operating Frequency: 60 MHz to 220 MHz
  • Low Jitter (Cycle-Cycle): ±60 ps (±40 ps at 200 MHz)
  • Low Static Phase Offset: ±50 ps
  • Low Jitter (Period): ±60 ps (±30 ps at 200 MHz)
  • 1-to-4 Differential Clock Distribution (SSTL2)
  • Best in Class for VOX = VDD/2 ±0.1 V
  • Operates From Dual 2.6-V or 2.5-V Supplies
  • Available in a 28-Pin TSSOP Package
  • Consumes < 100-µA Quiescent Current
  • External Feedback Pins (FBIN, FBIN) Are Used to Synchronize the Outputs to the Input Clocks
  • Meets/Exceeds JEDEC Standard (JESD82-1) For DDRI-200/266/333 Specification
  • Meets/Exceeds Proposed DDRI-400 Specification (JESD82-1A)
  • Enters Low-Power Mode When No CLK Input Signal Is Applied or PWRDWN Is Low
  • APPLICATIONS
    • DDR Memory Modules (DDR400/333/266/200)
    • Zero-Delay Fan-Out Buffer

The CDCVF855 is a high-performance, low-skew, low-jitter, zero-delay buffer that distributes a differential clock input pair (CLK, CLK) to 4 differential pairs of clock outputs (Y[0:3], Y[0:3]) and one differential pair of feedback clock outputs (FBOUT, FBOUT). The clock outputs are controlled by the clock inputs (CLK, CLK), the feedback clocks (FBIN, FBIN), and the analog power input (AVDD). When PWRDWN is high, the outputs switch in phase and frequency with CLK. When PWRDWN is low, all outputs are disabled to a high-impedance state (3-state) and the PLL is shut down (low-power mode). The device also enters this low-power mode when the input frequency falls below a suggested detection frequency that is below 20 MHz (typical 10 MHz). An input frequency-detection circuit detects the low-frequency condition and, after applying a >20-MHz input signal, this detection circuit turns the PLL on and enables the outputs.

When AVDD is strapped low, the PLL is turned off and bypassed for test purposes. The CDCVF855 is also able to track spread-spectrum clocking for reduced EMI.

Because the CDCVF855 is based on PLL circuitry, it requires a stabilization time to achieve phase-lock of the PLL. This stabilization time is required following power up. The CDCVF855 is characterized for both commercial and industrial temperature ranges.

The CDCVF855 is a high-performance, low-skew, low-jitter, zero-delay buffer that distributes a differential clock input pair (CLK, CLK) to 4 differential pairs of clock outputs (Y[0:3], Y[0:3]) and one differential pair of feedback clock outputs (FBOUT, FBOUT). The clock outputs are controlled by the clock inputs (CLK, CLK), the feedback clocks (FBIN, FBIN), and the analog power input (AVDD). When PWRDWN is high, the outputs switch in phase and frequency with CLK. When PWRDWN is low, all outputs are disabled to a high-impedance state (3-state) and the PLL is shut down (low-power mode). The device also enters this low-power mode when the input frequency falls below a suggested detection frequency that is below 20 MHz (typical 10 MHz). An input frequency-detection circuit detects the low-frequency condition and, after applying a >20-MHz input signal, this detection circuit turns the PLL on and enables the outputs.

When AVDD is strapped low, the PLL is turned off and bypassed for test purposes. The CDCVF855 is also able to track spread-spectrum clocking for reduced EMI.

Because the CDCVF855 is based on PLL circuitry, it requires a stabilization time to achieve phase-lock of the PLL. This stabilization time is required following power up. The CDCVF855 is characterized for both commercial and industrial temperature ranges.

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* Data sheet 1.5-V Phase-Lock Loop Clock Driver datasheet (Rev. A) 03 May 2007

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