ICS9212-13 Integrated Circuit Systems, Inc. Direct Rambus™ Clock Generator General Description Features The ICS9212-13 is a High-speed clock generator providing up to 600 MHz differential clock source for direct Rambus™ memory system. It includes DDLL (Distributed Delay locked loop) and phase detection mechanism to synchronize the direct Rambus™ channel clock to an external system clock. ICS9212-13 provides a solution for a broad range of Direct Rambus memory applications. The device works in conjunction with the ICS9250-09. • • The ICS9212-13 power management support system turns “off” the Rambus™ channel clock to minimize power consumption for mobile and other power–sensitive applications. In “clock off” mode the device remains “on” while the output is disabled, allowing fast transitions between clock-off and clock–on states. In “power down” mode it completely powers down for minimum power dissipation. • • • • • Compatible with all Direct Rambus™ based IC s Up to 600 MHz differential clock source for direct Rambus™ memory system Cycle to cycle jitter is less than 40ps 3.3 + 5% supply Synchronization flexibility: Supports Systems that need clock domains of Rambus channel to synchronize with system or processor clock, or systems that do not require synchronization of the Rambus clock to another system clock Excellent power management support REFCLK input is from the ICS9250-09. The ICS9212-13 meets the requirements for input frequency tracking when the input frequency clock is using Spread Spectrum clocking and also the optimum bandwidth is maintained while attenuating the jitter of the reference signal. Block Diagram BUSCLK_STOP# PD# FS(0:1) Test MUX Bypass MUX GND Bypclk PLLclk Refclk B PLL A Multi(0:1) Pclk/M Synclk/N 0272F—08/08/07 PAclk Phase Detector 2 BUSCLKT BUSCLKC Phase Aligner GND VDDREF REFCLK VDD1 GND1 GND3 PCLK/M SYNCLK/N GND2 VDD2 VDDPD BUSCLK_STOP# PD# 1 2 3 4 5 6 7 8 9 10 11 12 ICS9212-13 Pin Configuration 24 23 22 21 20 19 18 17 16 15 14 13 FS0 FS1 VDD-OUT GND-OUT BUSCLKT N/C BUSCLKC GND-OUT VDD-OUT MULTI0 MULTI1 FS2 24-Pin 150 Mil SSOP ICS9212-13 Pin Descriptions Pin # Name Type Description 1 VDDREF REFV Reference voltage for refclk, to be connected to CK133 2 3 4 5 REFCLK VDD1 GND1 GND3 IN PWR PWR PWR 6,7 PCLK/M, SYNCLK/N IN 8 9 GND2 VDD2 PWR PWR 10 VDDPD REFV 11 BUSCLK_ STOP# IN 12 PD# IN 14,15 MULTI (0:1) IN 16 17 VDD_OUT GND_OUT PWR PWR 18 BUSCLKC OUT 19 N/C N/C 20 BUSCLKT OUT 21 22 GND_OUT VDD_OUT PWR PWR 13,23,24 FS(0:2) IN Reference clock, to be connected to CK133 3.3 V power supply used for PLL Ground for PLL Ground for control inputs Phase controller input, used to drive a phase aligner that adjusts the phase of the busclk. Ground for phase aligner 3.3 V power supply used for phase aligner Reference voltage for phase detector inputs connected to the controller Active low output enable/disable 3.3V CMOS active low power down, the device is powered down when the "(PD#) =0" 3.3V CMOS PLL Multiplier select, logic for selecting the multiply ratio for the PLL from the input REFCLK 3.3V supply for clock out puts Ground for clock outputs Out put clock connected to the Rambus channel. This output is the complement of BUSCLK NOT USED Output clock connected to the Rambus channel. This output is the true component of BUSCLK Ground for clock outputs 3.3V supply for clock out puts 3.3V CMOS Mode control, used in selecting bypass, test, normal, and output test (OE) 0272F—08/08/07 2 ICS9212-13 PLL Divider Selection and PLL Values (PLLCLK = REFCLK*A/B) Multo 0 0 1 1 Mult1 0 1 0 1 A 4 6 16 8 B 1 1 3 1 PLLCLK for REFCLK=50MHz Reserved 300 266.7 400 PLLCLK for REFCLK=66.66MHz 266.6 400.0 355.5 533.3 Bypass and Test Mode Selection Mode FS0 FS1 FS2 Bypclk (int.) BusClk BusClkB Normal 0 0 0 Gnd PAclk PAclkB Bypass 1 0 0 PLLclk PLLclk PLLclkB Test 1 1 0 Refclk Refclk RefclkB Vendor Test A 0 0 1 - - - Vendor Test B 1 0 1 - - - Reserved 1 1 1 - - - Output Test (OE) 0 1 X - Hi-Z Hi-Z Power Management Modes State NORMAL Clk Off Powerdown PwrDnB 1 1 0 StopB 1 0 X 0272F—08/08/07 3 ICS9212-13 Absolute Maximum Ratings Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . 4.0 V Logic Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . GND –0.5 V to VDD +0.5 V Ambient Operating Temperature . . . . . . . . . . 0°C to +70°C Storage Temperature . . . . . . . . . . . . . . . . . . . . –65°C to +150°C Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. These ratings are stress specifications only and functional operation of the device at these or any other conditions above those listed in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect product reliability. Electrical Characteristics-input/supply/Outputs Parameters Supply Voltage Refclk Input cycle time Input cycle-to-cycle Jitter Input Duty cycle over 10k cycles Input frequency of modulation Modulation index Phase detector input cycle time at PDclk/M & Synclk/N Initial phase error at phase detector inputs Phase detector input duty cycle over 10k cycles Input rise & fall times ( measured at 20%-80% of input voltage) for PDCLK/M & SYNCLK/N,&REfCLK Input capacitance at PDCLK/M,Synclk/N,&REFCLK Input Capacitance matching at PCLK/M & SYNCLK/N Input capacitance at CMOS pins Input (CMOS) signal low voltage Input (CMOS) signal high voltage Symbol VDD tCYCLE,IN t J,IN t CYCLE,PD Terr,init DCIN,PD Min 3.135 10 40% 30 0.25 30 -0.5 25% Max 3.465 40 250 60% 33 0.5 100 0.5 75% t CYCLE,PD t CYCLE,PD TIR,TIF - 1 ns CIN,PD DCIN,PD CIN,CMOS VIL VIH 0.7 7 0.5 10 0.3 - pF pF pF Vdd Vdd DCIN Fm,in PM,IN Unit V ns ps tCYCLE kHz % ns VIL,R - 0.3 Vddi,R 0.7 - 0.3 Vddi,R Vddi,PD Input signal high voltage for PD inputs and STOP VIH,R VIL,PD V IH,PD 0.7 - Vddi,PD Input supply referance for REFCLK V DD,IR 1.3 3.465 V Input supply referance vfor PD inputs VDDI,PD 1.3 3.465 V Phase detector phase error for distributed loop measured at PDCLK/M & SYNCLK/N(rising t ERR,PD -100 100 ps Cycle cycle time t CYCLE 2.5 3.75 ns tJ - 40 ps REFCLK input low voltage REFCLK input high voltage Input signal low voltage for PD inputs and STOP Cycle-to-cycle jitter at Busclk/BUSCLKB (533 MHz) Total jitter over 1 - 6 cycles (533MHz) Phase aligner, phase step size (BSCLK/BUSCLKB) PLL out put phase error when tracking SSC Out put crossing-point voltage Output voltage swing Output high voltage Out put duty cycle over 10k cycle Output cycle -to-cycle duty cycle error Output rise & fall times ( measured at 20%-80% of output voltage) Difference between rise and fall times on a single device(20%-80%) Opearting Supply Current tJ - 30 ps tSTEP 1 - ps t ERR,SSC -100 100 ps VX 1.3 1.8 V VCOS 0.4 0.6 V VH DC 2 60% 50 500 V t DC,ERR t CR,t CF 40% 300 tCR,CF - 100 ps 150 mA IDD 0272F—08/08/07 4 tCYCLE ps ps ICS9212-13 Recommended Layout General Layout Precautions: 1) Use a ground plane on the top layer of the PCB in all areas not used by traces. 2) Make all power traces and vias as wide as possible to lower inductance. Capacitor Values: C3 : 100pF ceramic All unmarked capacitors are 0.01µF ceramic Connections to VDD: 0272F—08/08/07 5 ICS9212-13 SYMBOL A A1 A2 B C D E e H L N S ∝ X COMMON DIMENSIONS MIN. NOM. MAX. .061 .064 .068 .004 .006 .0098 .055 .058 .061 .008 .010 .012 .008 .0098 .0075 SEE VARIATIONS .150 .155 .157 .025 BSC .230 .236 .244 .010 .013 .016 SEE VARIATIONS SEE VARIATIONS 0° 5° 8° 0.85 0.93 .100 VARIATIONS AA AB AC AD D MIN. .189 .337 .337 .386 NOM. .194 .342 .342 .391 S MAX. .196 .344 .344 .393 MIN. .0020 .0500 .0250 .0250 NOM. .0045 .0525 .0275 .0280 MAX. .0076 .0550 .0300 .0300 N 16 20 24 28 150 mil SSOP Package Diminisions are in inches Ordering Information ICS9212yF-13LF Example: ICS XXXX y F - PPLF T Designation for tape and reel packaging Lead Free, RoHS Compliant (Optional) Pattern Number (2 or 3 digit number for parts with ROM code patterns) Package Type F = SSOP Revision Designator (will not correlate with datasheet revision) Device Type (consists of 3 or 4 digit numbers) 0272F—08/08/07 Prefix ICS = Standard Device 6 ICS9212-13 Revision History Rev. F Issue Date Description 08/08/07 Fixed typo on Electrical Characteristics. 0272F—08/08/07 7 Page # 4