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CDC2509C

NOT RECOMMENDED FOR NEW DESIGNS

1-to-9 PLL clock driver for SDRAM applications

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Data sheet
CDC2509C is not recommended for new designs
Although this product continues to be in production to support previous designs, we don't recommend it for new designs. Consider one of these alternates:
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CDCVF2509 ACTIVE 3.3-V phase-lock loop clock driver with 9 outputs for DRAM applications Can achieve better performance

CDC2509C

NOT RECOMMENDED FOR NEW DESIGNS
Data sheet Order now

Product details

Function Zero-delay Output frequency (max) (MHz) 126 Number of outputs 9 Core supply voltage (V) 3.3 Output skew (ps) 250 Operating temperature range (°C) to Rating Catalog
Function Zero-delay Output frequency (max) (MHz) 126 Number of outputs 9 Core supply voltage (V) 3.3 Output skew (ps) 250 Operating temperature range (°C) to Rating Catalog
TSSOP (PW) 24 49.92 mm² 7.8 x 6.4
  • Use CDCVF2510A as a Replacement for this Device
  • Designed to Meet PC SDRAM Registered DIMM Design Support Document Rev. 1.2
  • Spread Spectrum Clock Compatible
  • Operating Frequency 25 MHz to 125 MHz
  • Static tPhase Error Distribution at 66MHz to 100 MHz is ±150 ps
  • Drop-In Replacement for TI CDC2509A With Enhanced Performance
  • Jitter (cyc - cyc) at 66 MHz to 100 MHz is |100 ps|
  • Available in Plastic 24-Pin TSSOP
  • Phase-Lock Loop Clock Distribution for Synchronous DRAM Applications
  • Distributes One Clock Input to One Bank of Five and One Bank of Four Outputs
  • Separate Output Enable for Each Output Bank
  • External Feedback (FBIN) Terminal Is Used to Synchronize the Outputs to the Clock Input
  • On-Chip Series Damping Resistors
  • No External RC Network Required
  • Operates at 3.3 V
  • Use CDCVF2510A as a Replacement for this Device
  • Designed to Meet PC SDRAM Registered DIMM Design Support Document Rev. 1.2
  • Spread Spectrum Clock Compatible
  • Operating Frequency 25 MHz to 125 MHz
  • Static tPhase Error Distribution at 66MHz to 100 MHz is ±150 ps
  • Drop-In Replacement for TI CDC2509A With Enhanced Performance
  • Jitter (cyc - cyc) at 66 MHz to 100 MHz is |100 ps|
  • Available in Plastic 24-Pin TSSOP
  • Phase-Lock Loop Clock Distribution for Synchronous DRAM Applications
  • Distributes One Clock Input to One Bank of Five and One Bank of Four Outputs
  • Separate Output Enable for Each Output Bank
  • External Feedback (FBIN) Terminal Is Used to Synchronize the Outputs to the Clock Input
  • On-Chip Series Damping Resistors
  • No External RC Network Required
  • Operates at 3.3 V

The CDC2509C is a high-performance, low-skew, low-jitter, phase-lock loop (PLL) clock driver. It uses a PLL to precisely align, in both frequency and phase, the feedback (FBOUT) output to the clock (CLK) input signal. It is specifically designed for use with synchronous DRAMs. The CDC2509C operates at 3.3 V VCC. It also provides integrated series-damping resistors that make it ideal for driving point-to-point loads.

One bank of five outputs and one bank of four outputs provide nine low-skew, low-jitter copies of CLK. Output signal duty cycles are adjusted to 50%, independent of the duty cycle at CLK. Each bank of outputs is enabled or disabled separately via the control (1G and 2G) inputs. When the G inputs are high, the outputs switch in phase and frequency with CLK; when the G inputs are low, the outputs are disabled to the logic-low state.

Unlike many products containing PLLs, the CDC2509C does not require external RC networks. The loop filter for the PLL is included on-chip, minimizing component count, board space, and cost.

Because it is based on PLL circuitry, the CDC2509C requires a stabilization time to achieve phase lock of the feedback signal to the reference signal. This stabilization time is required, following power up and application of a fixed-frequency, fixed-phase signal at CLK, and following any changes to the PLL reference or feedback signals. The PLL can be bypassed for test purposes by strapping AVCC to ground.

The CDC2509C is characterized for operation from 0°C to 85°C.

For application information refer to application reports High Speed Distribution Design Techniques for CDC509/516/2509/2510/2516 (literature number SLMA003) and Using CDC2509A/2510A PLL with Spread Spectrum Clocking (SSC) (literature number SCAA039).

The CDC2509C is a high-performance, low-skew, low-jitter, phase-lock loop (PLL) clock driver. It uses a PLL to precisely align, in both frequency and phase, the feedback (FBOUT) output to the clock (CLK) input signal. It is specifically designed for use with synchronous DRAMs. The CDC2509C operates at 3.3 V VCC. It also provides integrated series-damping resistors that make it ideal for driving point-to-point loads.

One bank of five outputs and one bank of four outputs provide nine low-skew, low-jitter copies of CLK. Output signal duty cycles are adjusted to 50%, independent of the duty cycle at CLK. Each bank of outputs is enabled or disabled separately via the control (1G and 2G) inputs. When the G inputs are high, the outputs switch in phase and frequency with CLK; when the G inputs are low, the outputs are disabled to the logic-low state.

Unlike many products containing PLLs, the CDC2509C does not require external RC networks. The loop filter for the PLL is included on-chip, minimizing component count, board space, and cost.

Because it is based on PLL circuitry, the CDC2509C requires a stabilization time to achieve phase lock of the feedback signal to the reference signal. This stabilization time is required, following power up and application of a fixed-frequency, fixed-phase signal at CLK, and following any changes to the PLL reference or feedback signals. The PLL can be bypassed for test purposes by strapping AVCC to ground.

The CDC2509C is characterized for operation from 0°C to 85°C.

For application information refer to application reports High Speed Distribution Design Techniques for CDC509/516/2509/2510/2516 (literature number SLMA003) and Using CDC2509A/2510A PLL with Spread Spectrum Clocking (SSC) (literature number SCAA039).
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* Data sheet CDC2509C: 3.3-V Phase-Lock Loop Clock Driver datasheet (Rev. A) 02 Dec 2004

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