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CDCV857BDGGR Datasheet(PDF) 5 Page - Texas Instruments |
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CDCV857BDGGR Datasheet(HTML) 5 Page - Texas Instruments |
5 / 16 page CDCV857B, CDCV857BI 2.5-V PHASE-LOCK LOOP CLOCK DRIVER SCAS689A − FEBRUARY 2003 − REVISED NOVEMBER 2010 5 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 recommended operating conditions (see Note 4) MIN TYP MAX UNIT Supply voltage VDDQ 2.3 2.7 V Supply voltage AVDD VDDQ − 0.12 2.7 V Low level input voltage V CLK, CLK, FBIN, FBIN VDDQ/2 – 0.18 V Low-level input voltage, VIL PWRDWN −0.3 0.7 V High level input voltage V CLK, CLK, FBIN, FBIN VDDQ/2 + 0.18 V High-level input voltage, VIH PWRDWN 1.7 VDDQ + 0.3 V DC input signal voltage (see Note 5) –0.3 VDDQ + 0.3 V Differential input signal voltage V (see Note 6) dc CLK, FBIN 0.36 VDDQ + 0.6 V Differential input signal voltage, VID (see Note 6) ac CLK, FBIN 0.7 VDDQ + 0.6 V Input differential pair cross voltage, VIX (see Note 7) VDDQ/2 – 0.2 VDDQ/2 + 0.2 V High-level output current, IOH −12 mA Low-level output current, IOL 12 mA Input slew rate, SR 1 4 V/ns Operating free air temperature T Commercial 0 85 °C Operating free-air temperature, TA Industrial −40 85 °C NOTES: 4. The unused inputs must be held high or low to prevent them from floating. 5. The dc input signal voltage specifies the allowable dc execution of the differential input. 6. The differential input signal voltage specifies the differential voltage |VTR − VCP| required for switching, where VTR is the true input level and VCP is the complementary input level. 7. The differential cross-point voltage is expected to track variations of VCC and is the voltage at which the differential signals must be crossing. electrical characteristics over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS MIN TYP† MAX UNIT VIK Input voltage All inputs VDDQ = 2.3 V, II = –18 mA –1.2 V V High level output voltage VDDQ = min to max, IOH = –1 mA VDDQ – 0.1 V VOH High-level output voltage VDDQ = 2.3 V, IOH = –12 mA 1.7 V V Low level output voltage VDDQ = min to max, IOL = 1 mA 0.1 V VOL Low-level output voltage VDDQ = 2.3 V, IOL = 12 mA 0.6 V VOD Output voltage swing} Differential outputs are terminated with 120 Ω /CL 14 pF (See 1.1 VDDQ – 0.4 V VOX Output differential cross-voltagew with 120 Ω /CL = 14 pF (See Figure 3) VDDQ/2 – 0.15 VDDQ/2 VDDQ/2 + 0.15 V II Input current VDDQ = 2.7 V, VI = 0 V to 2.7 V ±10 μA IOZ High-impedance state output current VDDQ = 2.7 V, VO= VDDQ or GND ±10 μA IDDPD Power-down current on VDDQ + AVDD CLK and CLK = 0 MHz; PWRDWN = Low; Σ of IDD and AIDD 20 100 μA AI Supply current on AV fO = 170 MHz 7 10 mA AIDD Supply current on AVDD fO = 200 MHz 9 12 mA CI Input capacitance VDDQ = 2.5 V, VI = VDDQ or GND 2 2.5 3.5 pF † All typical values are at a respective nominal VDDQ. ‡ The differential output signal voltage specifies the differential voltage ⎮VTR − VCP⎮, where VTR is the true output level and VCP is the complementary output level. § The differential cross-point voltage is expected to track variations of VDDQ and is the voltage at which the differential signals must be crossing. The frequency range is 100 MHz to 200 MHz. |
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