CY29772AXIT

CY29772 2.5V or 3.3V, 200-MHz, 12-Output Zero Delay Buffer Features Description • Output frequency range: 8.33 MHz to 200 MHz • Input frequency range: 6.25 MHz to 125 MHz • 2.5V or 3.3V operation • Split 2.5V/3.3V outputs • ±2% max. Output duty cycle variation • 7 ps RMS typical Cycle-to-cycle jitter • 6 ps RMS typical Period jitter • 12 clock outputs: drive up to 24 clock lines • One feedback output • Three reference clock inputs: crystal or LVCMOS The CY29772 is a low-voltage high-performance 200-MHz PLL-based zero delay buffer designed for high-speed clock-distribution applications. The CY29772 features one on-chip crystal oscillator and two LVCMOS reference clock inputs and provides 12 outputs partitioned in three banks of four outputs each. Each bank divides the VCO output per SEL(A:C) settings, see Functional Table. These dividers allow output to input ratios of 8:1, 6:1, 5:1, 4:1, 3:1, 8:3, 5:2, 2:1, 5:3, 3:2, 4:3, 5:4, 1:1, and 5:6. Each LVCMOS-compatible output can drive 50Ω series- or parallel-terminated transmission lines. For series-terminated transmission lines, each output can drive one or two traces, giving the device an effective fanout of 1:24. The PLL is ensured stable given that the VCO is configured to run between 200 MHz to 500 MHz. This allows a wide range of output frequencies from 8 MHz to 200 MHz. For normal operation, the external feedback input, FB_IN, is connected to the feedback output, FB_OUT. The internal VCO is running at multiples of the input reference clock set by the feedback divider, see Frequency Table. • 300 ps max. output-output skew • Phase-locked loop (PLL) bypass mode • Spread Aware™ • Output enable/disable • Pin-compatible with MPC9772 and MPC972 • Industrial temperature range: –40°C to +85°C When PLL_EN is LOW, PLL is bypassed and the reference clock directly feeds the output dividers. This mode is fully static and the minimum input clock frequency specification does not apply. • 52-pin 1.0-mm TQFP package Block Diagram Pin Configuration SELA(0,1) D Q Sync Frz D Q Sync Frz /4, /6, /8, /12 2 Sync Frz SYNC Output Disable Circuitry FB_SEL1 D Q SYNC Data Generator VSS SCLK SDATA 2 QC0 FB_SEL(0,1) VDDQC FB_OUT Sync Pulse QC1 Sync Frz SELC0 D Q SELC1 0 1 QC2 /2 VDDQC QC3 /4, /6, /8, /10 V SS QB0 V DDQB QB1 V SS QB2 V DDQB QB3 FB_IN V SS FB_OUT V DD FB_SEL0 14 15 16 17 18 19 20 21 22 23 24 25 26 QC2 QC3 2 39 38 37 36 35 34 33 32 31 30 29 28 27 C Y29772 VSS 2 /2, /4, /6, /8 1 2 3 4 5 6 7 8 9 10 11 12 13 INV_CLK SELB(0,1) SELC(0,1) QC0 QC1 /4, /6, /8, /10 SELB1 QB3 Power-On Reset SELB0 QB2 MR#/OE SELA1 QB0 QB1 FB_SEL2 SELA0 Sync Frz QA3 A V SS MR#/OE SCLK SDA TA FB_SEL2 PLL_EN REF_SEL TCLK_SEL TCLK0 TCLK1 XIN XOUT A V DD QA3 D Q VDDQA 52 51 50 49 48 47 46 45 44 43 42 41 40 QA2 FB_IN QA2 LPF VSS QA0 QA1 QA1 Sync Frz VDDQA 0 1 VCO QA0 TCLK1 TCLK_SEL Phase Detector 0 1 VSS D Q TCLK0 VCO_SEL XIN XOUT VCO_SEL PLL_EN REF_SEL 12 INV_CLK Cypress Semiconductor Corporation Document #: 38-07572 Rev. *A • 198 Champion Court • San Jose, CA 95134-1709 • 408-943-2600 Revised September 1, 2005 CY29772 Pin Description[1] Pin Name I/O Type Description 11 XIN I Analog Crystal oscillator input. 12 XOUT O Analog Crystal oscillator output. 9 TCLK0 I, PU LVCMOS LVCMOS/LVTTL reference clock input. 10 TCLK1 I, PU LVCMOS LVCMOS/LVTTL reference clock input. 44, 46, 48, 50 QA(3:0) O LVCMOS Clock output bank A. 32, 34, 36, 38 QB(3:0) O LVCMOS Clock output bank B. 16, 18, 21, 23 QC(3:0) O LVCMOS Clock output bank C. 29 FB_OUT O LVCMOS Feedback clock output. Connect to FB_IN for normal operation. 31 FB_IN I, PU LVCMOS Feedback clock input. Connect to FB_OUT for normal operation. This input should be at the same voltage rail as input reference clock. See Table 1. 25 SYNC O LVCMOS Synchronous pulse output. This output is used for system synchronization. 6 PLL_EN I, PU LVCMOS PLL enable/bypass input. When Low, PLL is disabled/bypassed. and the input clock connects to the output dividers. 2 MR#/OE I, PU LVCMOS Master reset and Output enable/disable input. See Table 2. 8 TCLK_SEL I, PU LVCMOS LVCMOS Clock reference select input. See Table 2. 7 REF_SEL I, PU LVCMOS LVCMOS/LVPECL Reference select input. See Table 2. 52 VCO_SEL I, PU LVCMOS VCO Operating frequency select input. See Table 2. 14 INV_CLK I, PU LVCMOS QC(2,3) Phase selection input. See Table 2. 5, 26, 27 FB_SEL(2:0) I, PU LVCMOS Feedback divider select input. See Table 6. 42, 43 SELA(1,0) I, PU LVCMOS Frequency select input, Bank A. See Table 3. 40, 41 SELB(1,0) I, PU LVCMOS Frequency select input, Bank B. See Table 4. 19, 20 SELC(1,0) I, PU LVCMOS Frequency select input, Bank C. See Table 5. 3 SCLK I, PU LVCMOS Serial Clock input. 4 SDATA I, PU LVCMOS Serial Data input. 45, 49 VDDQA Supply VDD 2.5V or 3.3V Power supply for bank A output clocks.[2,3] 33, 37 VDDQB Supply VDD 2.5V or 3.3V Power supply for bank B output clocks.[2,3] 22, 17 VDDQC Supply VDD 2.5V or 3.3V Power supply for bank C output clocks.[2,3] 13 AVDD Supply VDD 2.5V or 3.3V Power supply for PLL.[2,3] 28 VDD Supply VDD 2.5V or 3.3V Power supply for core and inputs.[2,3] 1 AVSS Supply Ground Analog Ground. Supply Ground Common Ground. 15, 24, 30, 35, VSS 39, 47, 51 Notes: 1. PU = Internal pull-up, PD = Internal pull-down. 2. A 0.1-µF bypass capacitor should be placed as close as possible to each positive power pin ( 100 MHz 45 – 55 tr, tf Output Rise/Fall times 0.6V to 1.8V t(φ) Propagation Delay (static phase offset) TCLK to FB_IN tsk(O) Output-to-Output Skew Skew within Bank A 0.1 – 1.0 ns –125 – 125 ps – – 75 ps Skew within Bank B – – 100 Skew within Bank C – – 150 tsk(B) Bank-to-Bank Skew – – 400 ps tPLZ, HZ Output Disable Time – – 10 ns tPZL, ZH Output Enable Time BW PLL Closed Loop Bandwidth (–3 dB) – – 10 ns ÷4 Feedback – 1.3–2.0 – MHz ÷6 Feedback – 0.7–1.3 – ÷8 Feedback – 0.9–1.3 – ÷10 Feedback – 0.6–1.1 – ÷12 Feedback – 0.6–0.9 – ÷16 Feedback – 0.4–0.6 – ÷20 Feedback – 0.6–0.9 – Note: 6. AC characteristics apply for parallel output termination of 50Ω to VTT. Outputs are at same supply voltage unless otherwise stated. Parameters are guaranteed by characterization and are not 100% tested. Document #: 38-07572 Rev. *A Page 6 of 12 CY29772 AC Electrical Specifications (VDD = 2.5V ± 5%, TA = –40°C to +85°C) (continued)[6] Parameter tJIT(CC) tJIT(PER) Description Cycle-to-Cycle Jitter Period Jitter Condition Same frequency (125 MHz) RMS (1σ) Min. Typ. Max. Unit – 7 30 ps Same frequency – – 150 Multiple frequencies – – 435 Same frequency (125 MHz) RMS (1σ) – 6 30 Same frequency – 45 75 Multiple frequencies – – 235 ps tJIT(φ) I/O Phase Jitter – – 150 ps tLOCK Maximum PLL Lock Time – – 1 ms Min. Typ. Max. Unit 200 – 500 MHz 10 – 25 MHz MHz AC Parameters (VDD = 3.3V ± 5%, TA = –40°C to +85°C) [6] Parameter Description Condition fVCO VCO Frequency fXTAL Crystal Frequency Range See Table 7 fin Input Frequency ÷4 Feedback 50 – 125 ÷6 Feedback 33.3 – 83.3 ÷8 Feedback 25 – 62.5 ÷10 Feedback 20 – 50 ÷12 Feedback 16.6 – 41.6 ÷16 Feedback 12.5 – 31.25 ÷20 Feedback 10 – 25 ÷24 Feedback 8.3 – 20.8 ÷32 Feedback 6.25 – 15.625 ÷40 Feedback 5 – 12.5 Bypass mode (PLL_EN = 0) frefDC Input Duty Cycle tr, tf TCLK Input Rise/FallTime 0.8V to 2.0V fMAX Maximum Output Frequency ÷2 Output fMAX Maximum Output Frequency (continued) 0 – 200 25 – 75 % – – 1.0 ns 100 – 200 MHz ÷4 Output 50 – 125 ÷6 Output 33.3 – 83.3 ÷8 Output 25 – 62.5 ÷10 Output 20 – 50 ÷12 Output 16.6 – 41.6 ÷16 Output 12.5 – 31.25 ÷20 Output 10 – 25 ÷24 Output 8.3 – 20.8 – – 20 MHz 48 – 52 % MHz fSCLK Serial Clock Frequency DC Output Duty Cycle fMAX < 100 MHz fMAX > 100 MHz 45 – 55 tr, tf Output Rise/Fall times 0.55V to 2.4V 0.1 – 1.0 ns t(φ) Propagation Delay (static phase offset) TCLK to FB_IN, same VDD –125 – 125 ps tsk(O) Output-to-Output Skew ps Document #: 38-07572 Rev. *A Skew within Bank A – – 75 Skew within Bank B – – 100 Page 7 of 12 CY29772 AC Parameters (VDD = 3.3V ± 5%, TA = –40°C to +85°C) (continued)[6] Parameter Description Condition Skew within Bank C Min. Typ. Max. – – 150 Unit tsk(B) Bank-to-Bank Skew – – 325 ps tPLZ, HZ Output Disable Time – – 8 ns tPZL, ZH Output Enable Time BW PLL Closed-Loop Bandwidth (–3 dB) tJIT(CC) tJIT(PER) Cycle-to-Cycle Jitter Period Jitter tJIT(φ) I/O Phase Jitter tLOCK Maximum PLL Lock Time – – 8 ns ÷4 Feedback – 1.3–2.0 – MHz ÷6 Feedback – 0.7–1.3 – ÷8 Feedback – 0.9–1.3 – ÷10 Feedback – 0.6–1.1 – ÷12 Feedback – 0.6–0.9 – ÷16 Feedback – 0.–0.6 – ÷20 Feedback – 0.6–0.9 – Same frequency (125 MHz) RMS (1σ) – 7 30 Same frequency – – 100 Multiple frequencies – – 375 Same frequency (125 MHz) RMS (1σ) – 6 30 Same frequency – 45 75 Multiple frequencies – – 225 I/O same VDD – – 150 ps – – 1 ms SYNC Output In situations where output frequency relationships are not integer multiples of each other the SYNC output provides a signal for system synchronization. The CY29772 monitors the relationship between the QA and the QC output clocks. It provides a low going pulse, one period in duration, one period prior to the coincident rising edges of the QA and QC outputs. Document #: 38-07572 Rev. *A ps ps The duration and the placement of the pulse depend on the higher of the QA and QC output frequencies. Figure 1 illustrates various waveforms for the SYNC output. Note that the SYNC output is defined for all possible combinations of the QA and QC outputs even though under some relationships the lower frequency clock could be used as a synchronizing signal. Page 8 of 12 CY29772 VCO 1:1 Mode QA QC SYNC 2:1 Mode QA QC SYNC 3:1 Mode QC QA SYNC 3:2 Mode QA QC SYNC 4:1 Mode QC QA SYNC 4:3 Mode QA QC SYNC 6:1 Mode QA QC SYNC Figure 1. Power Management The individual output enable/freeze control of the CY29772 allows the user to implement unique power management schemes into the design. The outputs are stopped in the logic ‘0’ state when the freeze control bits are activated. The serial input register contains one programmable freeze enable bit for 12 of the 14 output clocks. The QC0 and FB_OUT outputs can not be frozen with the serial port, this avoids any potential lock up situation should an error occur in the loading of the serial Document #: 38-07572 Rev. *A data. An output is frozen when a logic ‘0’ is programmed and enabled when a logic ‘1’ is written. The enabling and freezing of individual outputs is done in such a manner as to eliminate the possibility of partial “runt” clocks. The serial input register is programmed through the SDATA input by writing a logic ‘0’ start bit followed by 12 NRZ freeze enable bits. The period of each SDATA bit equals the period of the free running SCLK signal. The SDATA is sampled on the rising edge of SCLK. Page 9 of 12 CY29772 Start Bit D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D0-D3 are the control bits for QA0-QA3, respectively D4-D7 are the control bits for QB0-QB3, respectively D8-D10 are the control bits for QC1-QC3, respectively D11 is the control bit for SYNC Figure 2. Table 7. Suggested Oscillator Crystal Parameters Parameter Description Conditions TC Frequency Tolerance TS Frequency Temperature Stability Min. (TA –10° to +60°C) Typ. Max. Unit – – ±1100 PPM – – ± 100 PPM TA Aging (First three years @ 25°C) – – 5 PPM/Yr CL Load Capacitance The crystal’s rated load – 20 – pF RESR Effective Series Resistance (ESR) – 40 80 Ohm Zo = 50 ohm Pulse Generator Z = 50 ohm Zo = 50 ohm R T = 50 ohm R T = 50 ohm VTT VTT Figure 3. LVCMOS_CLK AC Test Reference for VDD = 3.3V/2.5V VDD LVCMOS_CLK VDD/2 GND VDD FB_IN VDD/2 t(φ) GND Figure 4. LVCMOS Propagation Delay t(φ), Static Phase Offset VDD VDD/2 tP GND T0 DC = tP / T0 x 100% Figure 5. Output Duty Cycle (DC) Document #: 38-07572 Rev. *A Page 10 of 12 CY29772 VDD VDD/2 GND VDD VDD/2 tSK(O) GND Figure 6. Output-to-Output Skew, tsk(O) Ordering Information Part Number Package Type Product Flow CY29772AI 52-pin TQFP Industrial, –40°C to +85°C CY29772AIT 52-pin TQFP – Tape and Reel Industrial,–40°C to 85°C Lead-free CY29772AXI 52-pin TQFP Industrial, –40°C to +85°C CY29772AXIT 52-pin TQFP – Tape and Reel Industrial,–40°C to 85°C Package Drawing and Dimension 52-lead Thin Plastic Quad Flat Pack (10 x 10 x 1.0 mm) A52B 51-85158-** Spread Aware is a trademark of Cypress Semiconductor. All product and company names mentioned in this document are the trademarks of their respective holders. Document #: 38-07572 Rev. *A Page 11 of 12 © Cypress Semiconductor Corporation, 2005. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a Cypress product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to be used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with Cypress. Furthermore, Cypress does not authorize its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges. CY29772 Document History Page Document Title:CY29772 2.5V or 3.3V, 200-MHz, 12-Output Zero Delay Buffer Document Number: 38-07572 REV. ECN No. Issue Date Orig. of Change ** 129007 09/03/03 RGL New Data Sheet *A 395853 See ECN RGL Added Lead-free devices Added Jitter typical specs in the features section Document #: 38-07572 Rev. *A Description of Change Page 12 of 12