AV9155 Integrated Circuit Systems, Inc. Low Cost 20-Pin Frequency Generator General Description The AV9155 is a low cost frequency generator designed specifically for desktop and notebook PC applications. Its CPU clocks provide all necessary CPU frequencies for 286, 386 and 486 systems, including support for the latest speeds of processors. The device uses a 14.318 MHz crystal to generate the CPU and all peripheral clocks for integrated desktop motherboards. The dual 14.318 MHz clock outputs allows one output for the system and one to be the input to an ICS graphics frequency generator such as the AV9194. The CPU clock offers the unique feature of smooth, glitch-free transitions from one frequency to the next, making this ideal device to use whenever slowing the CPU speed. The AV9155 makes a gradual transition between frequencies, so that it obeys the Intel cycle-to-cycle timing specification for 486 systems. The simultaneous 2X and 1X CPU clocks offer controlled skew to within 1.5ns (max) of each other. ICS offers several versions of the AV9155. The different devices are shown below: PART Features Compatible with 286, 386, and 486 CPUs Supports turbo modes Generates communications clock, keyboard clock, floppy disk clock, system reference clock, bus clock and CPU clock Output enable tristates outputs Up to 100 MHz at 5V or 3.3V 20-pin DIP or SOIC All loop filter components internal Skew-controlled 2X and 1X CPU clocks Power-down option ICS has been shipping motherboard frequency generators since April 1990, and is the leader in the area of multiple output clocks on a single chip. The AV9155 is a third generation device, and uses ICSs patented analog CMOS phase-locked loop technology for low phase jitter. ICS offers a broad family of frequency generators for motherboards, graphics and other applications, including cost-effective versions with only one or two output clocks. Consult ICS for all of your clock generation needs. DESCRIPTION AV9155C-01 Motherboard clock generator with 16 MHz BUS CLK AV9155C-02 Motherboard clock generator with 32 MHz BUS CLK AV9155C-23 Includes Pentium frequencies AV9155C-36 Features a special 40 MHz SCSI clock Block Diagram Pentium is a trademark of Intel Corporation. 9155 Rev B 8/24/98 AV9155 Pin Configuration 20-Pin DIP or SOIC 20-Pin DIP or SOIC Pin Descriptions for AV 9155-01, 9155-02 PIN N UM BER PIN N AM E TYPE DESC RIPTIO N 1 1.843 M Hz O utput 1.84 M Hz clock output. 2 X2 O utput C rystal connection. 3 X1 Input C rystal connection. 4 VDD - Digital power supply (3.3V or 5.0V). 5 GN D 6 16 M Hz/32 M Hz O utput 16 M Hz (-01) or 32 M Hz (-02) clock output. 7 24 M Hz O utput 24 M Hz floppy disk/combination I/O clock output. 8 12 M Hz O utput 12 M Hz keyboard clock output. 9 AGN D - Analog ground (original version). 10 OE Input O utput enable. Tristates all outputs when low. (Has internal pull-up.) 11 FS2 Input C PU clock frequency select #2. (Has internal pull-up.) Input Digital Ground. 12 PD# 13 14.318 M Hz O utput 14.318 M Hz reference clock output. Power-down. Shuts off entire chip when low. (Has internal pull-up.) 14 14.318 M Hz O utput 14.318 M Hz reference clock output. 15 GN D - Digital ground. 16 VDD - Digital power supply (3.3V or 5.0V). 17 2XC PU O utput 2X C PU clock output. 18 C PU O utput 1X C PU clock output. 19 FS1 Input C PU clock frequency select #1. (Has internal pull-up.) 20 FS0 Input C PU clock frequency select #0. (Has internal pull-up.) 2 AV9155 Functionality - AV9155-01 (Using 14.318 MHz input. All frequencies in MHz.) PERIPHERAL CLOCKS CLOCK#2 CPU and 2XCPU FS2 (Pin 11) FS1 (Pin 19) FS0 (Pin 20) 2XCPU (Pin 17) CPU (Pin 18) COMMCLK (Pin 1) BUSCLK (Pin 6) FDCLK (Pin 7) KBCLK (Pin 8) 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 8 16 32 40 50 66.66 80* 100* 4 8 16 20 25 33.33 40* 50* 1.843* 16* 24* 12* REFERENCE CLOCKS REFCLK1 (Pin 13) REFCLK2 (Pin 14) 14.318 14.318 *5V only. Functionality - AV9155-02 (Using 14.318 MHz input. All frequencies in MHz.) PERIPHERAL CLOCKS CLOCK#2 CPU and 2XCPU FS2 (Pin 11) FS1 (Pin 19) FS0 (Pin 20) 2XCPU (Pin 17) CPU (Pin 18) COMMCLK (Pin 1) BUSCLK (Pin 6) FDCLK (Pin 7) KBCLK (Pin 8) 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 8 16 32 40 50 66.66 80* 100* 4 8 16 20 25 33.33 40* 50* 1.843* 32* 24* 12* REFERENCE CLOCKS *5V only. REFCLK1 (Pin 13) REFCLK2 (Pin 14) 14.318 14.318 Frequency Transitions Using an Input Clock as Reference A key feature of the AV9155 is its ability to provide smooth, glitch-free frequency transitions on the CPU and 2XCPU clocks when the frequency select pins are changed. These frequency transitions do not violate the Intel 486 specification of less than 0.1% frequency change per clock period. The AV9155 is designed to accept a 14.318 MHz crystal as the input reference. With some external changes, it is possible to use a crystal oscillator or clock input. Please see application note AN04 for details on driving the AV9155 with a clock. 3 AV9155 Pin Configuration 20-Pin DIP or SOIC 20-Pin DIP or SOIC Pin Descriptions for AV9155-23, -36 PIN NUMBER PIN NAME TYPE DESCRIPTION 1 1.843/40 MHz Output 1.84 MHz (-23)/40 MHz SCSI (-36) clock output. 2 X2 Output Crystal connection. 3 X1 Input Crystal connection. 4 VDD - Digital power supply (+5V) 5 GND 6 16 MHz/15 MHz Output 16 MHz (-23)/15 MHz (-36) clock output. Digital ground. 7 24 MHz Output 24 MHz floppy disk/combination I/O clock output. 12 MHz keyboard clock output. 8 12 MHz Output 9 AGND - 10 OE Input Output enable. Tristates all outputs when low. (Has internal pull-up.) 11 FS2 Input CPU clock frequency select #2. (-23 has internal pull-up.) 12 PD# Input Power-down. Shuts off entire chip when low. (Has internal pull-up.) Analog ground (original version). 13 14.318 MHz Output 14.318 MHz reference clock output. 14 14.318 MHz Output 14.318 MHz reference clock output. 15 GND - 16 VDD - Digital ground. 17 2XCPU Output 2X CPU clock output. 1X CPU clock output. Digital power supply (3.3V or 5.0V). 18 CPU Output 19 FS1 Input CPU clock frequency select #1. (-23 has internal pull-up.) 20 FS0 Input CPU clock frequency select #0. (-23 has internal pull-up.) 4 AV9155 Functionality - AV9155-23 (Using 14.318 MHz input. All frequencies in MHz.) CLOCK#2 CPU and 2XCPU FS2 (Pin 11) 0 0 0 0 1 1 1 1 FS1 (Pin 19) 0 0 1 1 0 0 1 1 PERIPHERAL CLOCKS FS0 (Pin 20) 0 1 0 1 0 1 0 1 2XCPU (Pin 17) 75* 32 60 40 50 66.66 80* 52 CPU (Pin 18) 37.5* 16 30 20 25 33.33 40* 26 COMMCLK (Pin 1) BUSCLK (Pin 6) FDCLK (Pin 7) KBCLK (Pin 8) 1.843 16* 24 12 REFERENCE CLOCKS REFCLK1 (Pin 13) REFCLK2 (Pin 14) 14.318 14.318 *5V only Functionality - AV9155-36 (Using 14.318 MHz input. All frequencies in MHz.) CLOCK#2 CPU and 2XCPU PERIPHERAL CLOCKS FS2 (Pin 11) FS1 (Pin 19) FS0 (Pin 20) 2XCPU (Pin 17) CPU (Pin 18) SCSICLK (Pin 1) BUSCLK (Pin 6) FDCLK (Pin 7) KBCLK (Pin 8) 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 8 16 60 40 50 66.66 80* 100* 4 8 30 20 25 33.33 40* 50* 40* 15* 24* 12* REFERENCE CLOCKS *5V only 5 REFCLK1 (Pin 13) REFCLK2 (Pin 14) 14.318 14.318 AV9155 Absolute Maximum Ratings VDD referenced to GND . . . . . . . . . . . . . . . . . . . . . . 7V Voltage on I/O pins referenced to GND. . . . . . . . . . . GND -0.5V to VDD +0.5V Operating temperature under bias. . . . . . . . . . . . . . . . 0C to +70C Power dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.5 Watts Storage temperature . . . . . . . . . . . . . . . . . . . . . . . . . . -40C to +150C Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated 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 at 5V VDD = 4.0 to 5.5V (5V +10%/-20%); TA=0C to 70C unless otherwise stated PARAMETER Input Low Voltage SYMBOL V IL DC Characteristics TEST CONDiTIONS VDD=5V Input High Voltage Input Low Current V IH ILL VDD=5V VIN=0V Input High Current Output Low Voltage IIH VOL VIN=VDD IOL=4mA MIN TYP MAX 0.8 2.0 -1 5uA UNITS V V A 5 0.4 A V Output High Voltage VOH IOH=-lnlA, V DD=5.OV VDD-.4V V Output High Voltage Output High Voltage VOH VOH IOH=-4nIA, VDD=5.OV I H=-8mA VDD-.8V 2.4 V V Supply Current Icc No load No load Supply Current, Power-Down ICDSTBY Output Frequency Changeover Supply and Temperature Short circuit current Pull-up resistor value Input Capacitance Load Capacitance Isc Rpu Ci CL Output Rise time, 0.8 to 2.0V Rise time, 20% to 80% VDD Output Fall time, 2.0 to 0.8V Fall time, 80% to 20% VDD Duty cycle Duty cycle, reference clocks Jitter, one sigma tr tr tr tf dt dt fji1s Jitter, absolute Jitter, absolute Input Frequency Clock skew between CPUand 2XCPU outputs Frequency Transition time tjab tjab fi FD 1 With respect to typical frequency Each output clock 25 Except Xl, X2 Pins Xl, X2 AC Characteristics 25pF load 25pF load 25pF load 25pF load 25pF load 25pF load As compared with clock period 16-100 MHz clocks 80 mA 1.5 mA 0.002 0.01 % 10 mA k p 1 2 1 2 48/52 43/57 0.8 2 4 2 4 60/40 60/40 2.5 ns ns ns ns % % % 2 5 700 % ps MHz 0.5 1 ns 15 20 ms 40 680 20 40/60 40/60 14.318 Tsk tft 40 0.7 From 8 to 100 MHz Notes: 1 All clocks on AV9155-xx running at highest possible frequencies. Power supply current can change substantially with different mask configurations. Consult ICS. 6 AV9155 Actual Output Frequencies (Using 14.318 MHz input. All frequencies in MHz.) AV9155-01 and AV9155-02 CLOCK#2 CPU and 2XCPU AV9155-23 CPU CLOCK FS2 (Pin 11) FS1 (Pin 19) FS0 (Pin 20) 2XCPU (Pin 17) CPU (Pin 18) FS2 (Pin 11) FS1 (Pin 19) FS0 (Pin 20) 2XCPU (Pin 17) CPU (Pin 18) 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 7.50 15.51 32.22 40.09 50.11 66.82 80.18* 100.23* 3.75 7.76 16.11 20.05 25.06 33.41 40.09* 50.11* 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 75.170* 31.940 60.136 40.090 50.113 66.476 80.181* 51.903* 37.585* 15.970 30.068 20.045 25.057 33.238 40.091* 25.952* *5V only. *5V only. PERIPHERAL CLOCKS PERIPHERAL CLOCKS COMMCLK (Pin 1) BUSCLK (Pin 6) FDCLK (Pin 7) KBCLK (Pin 8) COMMCLK (Pin 1) BUSCLK (Pin 6) FDCLK (Pin 7) KBCLK (Pin 8) 1.846 32.01 or 16.00 24.00 12.00 1.846 16.00 24.00 12.00 AV9155-36 CPU CLOCK FS2 (Pin 11) FS1 (Pin 19) FS0 (Pin 20) 2XCPU (Pin 17) CPU (Pin 18) 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 8.054 16.002 59.875 39.886 50.113 66.476 80.181* 100.226* 4.027 8.001 29.936 19.943 25.057 33.238 40.091* 50.113* PERIPHERAL CLOCKS COMMCLK (Pin 1) BUSCLK (Pin 7) FDCLK (Pin 6) KBCLK (Pin 8) 40.00 15.00 24.00 12.00 7 AV9155 AV9155 Recommended External Circuit Notes: 1. ICS recommends the use of an isolated ground plane for the AV9155. All grounds shown on this drawing should be connected to this ground plane. This ground plane should be connected to the system ground plane at a single point. Please refer to AV9155 Board Layout Diagram. 2. A single power supply connection for all VDD lines at the 2.2F decoupling capacitor is recommended to reduce interaction of analog and digital circuits. The 0.1F decoupling capacitors should be located as close to each VDD pin as possible. series termination resistor should be used on any clock output which drives more than one load or drives a long trace 3. A 33 (more than about two inches), especially when using high frequencies (>50 MHz). This termination resistor is put in series with the clock output line close to the clock output. It helps improve jitter performance and reduce EMI by damping standing waves caused by impedance mismatches in the output clock circuit trace. 4. The ferrite bead does not enhance the performance of the AV9155, but will reduce EMI radiation from the VDD line. 8 AV9155 AV9155 Recommended Board Layout This is the recommended layout for the AV9155 to maximize clock performance. Shown are the power and ground connections, the ground plane, and the input/output traces. Use of the isolated ground plane and power connection, as shown, will prevent stray high frequency ground and system noise from propagating through the device. When compared to using the system ground and power planes, this technique will minimize output clock jitter. The isolated ground plane should be connected to the system ground plane at one point, near the 2.2F decoupling cap. For lowest jitter performance, this isolated ground plane should be kept away from clock output pins and traces. Keeping the isolated ground plane area as small as possible will minimize EMI radiation. Use a sufficient gap between the isolated ground plane and system ground plane to prevent AC coupling. The ferrite bead in the VDD line optional, but will help reduce EMI. The traces to distribute the output clocks should be over a system ground or power supply plane. The trace width should be about two times the thickness of the PC board between the trace and the underlying plane. These guidelines help minimize clock jitter and EMI radiation. The traces to distribute power should be as wide as possible. 9 AV9155 20-Pin DIP Package Ordering Information AV9155-01N20, AV9155-02N20, AV9155-23N20, AV9155-36N20 Example: ICS XXXX-PPP M X#W Lead Count & Package Width Lead Count=1, 2 or 3 digits W=.3 SOIC or .6 DIP; None=Standard Width Package Type N=DIP (Plastic#) T&R=Tape and Reel Pattern Number (2 or 3 digit number for parts with ROM code patterns) Device Type (consists of 3 or 4 digit numbers) Prefix ICS, AV=Standard Device Notes: Tape and reel packaging should be ordered with the suffix T&R. For instance, if the -01 in DIP and tape & reel is required, order the part as AV9155-01CN20T&R. 10 AV9155 LEAD COUNT 14L 16L 18L 20L 24L 28L 32L DIMENSION L 0.354 0.404 0.454 0.504 0.604 0.704 0.804 Ordering Information AV9155-01W20, AV9155-02M20, AV9155-23M20, AV9155-36M20 Example: ICS XXXX-PPP M X#W Lead Count & Package Width Lead Count=1, 2 or 3 digits W=.3 SOIC or .6 DIP; None=Standard Width Package Type W=SOIC T&R=Tape and Reel Pattern Number (2 or 3 digit number for parts with ROM code patterns) Device Type (consists of 3 or 4 digit numbers) Prefix ICS, AV=Standard Device 11