Integrated Circuit Systems, Inc. AV9154A Low-Cost 16-Pin Frequency Generator General Description Features .The AV9154A is a 0.8mm version of the industry leading AV9154. * * * * * * * Like the AV9154, the AV9154A is a low-cost frequency generator designed for general purpose PC and disk drive applications. However, because the AV9154A uses 0.8mm technology and the latest phaselocked loop architecture, it offers performance advantages that enable the device to be sold into PentiumTM systems. The AV9154A guarantees a 45/55 duty cycle over all frequencies. In addition, a worst case jitter of 250ps is specified at Pentium frequencies. The CPU clock offers the unique feature of smooth, glitch-free transitions from one frequency to the next, making this the ideal device to use when slowing the CPU speed. The AV9154A makes a gradual transition between frequencies so that it obeys the Intel cycle-to-cycle timing specifications for 486 and Pentium systems. The AV9154A-42 and AV9154A-43 devices offer features specifically for green PCs. The AV9154A-42 and -43 have a single pin that, when pulled low, will smoothly slow the 2XCPU clock to 8 MHz. This is ideal for dynamic DX microprocessors. The AV9154A-43 not only has the slow clock feature, but also offers a glitch-free stop clock for static SX microprocessors. The STOPCLK# pin, when pulled low, enables the 2XCPU clock to go low only after completing its last full cycle. The clock continues to run internally, and will be output again on the first full cycle immediately following stop clock disable. The simultaneous 2X and 1X CPU clocks offer controlled skew to within 500ps of each other (-42 only). * * * * Compatible with 386, 486 and Pentium CPUs 45/55 Duty cycle Runs up to 66 MHz at 3.3V Single pin can slow clock to 8 MHz (on -42 and -43) Single pin can stop the CPU clock glitch-free (on -43) Very low jitter, 250ps for Pentium frequencies 1X and 2X CPU clocks skew controlled to 250ps (-42 only) Smooth transitions between all CPU frequencies Slow frequency ramp at power-on avoids CPU lock-up 16-pin PDIP or 150-mil skinny SOIC packages 0.8m CMOS technology Applications Computer motherboards: The AV9154A-ST replaces crystals and oscillators, saving board space, component cost, part count and inventory costs. It produces a switchable CPU clock and up to four fixed clocks to drive floppy disk, communications, super I/O, Bus, and/or keyboard devices. The small package and 3.3V operation is perfect for handheld computers. 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. Consult ICS for all your clock generation needs. Block Diagram Pentium is a trademark of Intel Corporation 9154 Rev B 04/17/97 AV9154A Pin Configuration 16-Pin PDIP or SOIC AV9154A-27 16-Pin PDIP or SOIC AV9154A-42 16-Pin PDIP or SOIC AV9154A-43 Description of new pin: Description of new pis: SLOWCLK# forces 2XCPUCLK output to ramp smoothly to 8MHz and CPUCLK output to 4 MHz when pulled low. SLOWCLK# forces 2XCPUCLK output to ramp smoothly to 8MHz when pulled low. STOPCLK# provides gilitchfree stop of the 2XCPUCLK output when pulled low. When raised back high, the 2XCPUCLK output clock resumes full speed operation (no clock frequency ramp up since the internal VCO is not stopped). 16-Pin PDIP or SOIC 9154-04 16-Pin PDIP or SOIC 9154-10 16-Pin PDIP or SOIC 9154-26 2 AV9154A Stop Clock Feature The ICS9154A-43 incorporates a unique stop clock feature compatible with static logic processors. When the stop clock pin goes low, the 2XCPUCLK will go low after the next occurring falling edge. When STOPCLK again goes high, 2XCPUCLK resumes on the next rising edge of the internal clock. This feature enables fast, glitch-free starts and stops of the 2XCPUCLK and is guaranteed that the CPU does not receive any short period clocks. 3 AV9154A Pin Descriptions Frequencies based upon 14.318 MHz input) PIN NUMBER PIN NAME TYPE -4 4 13 5 12 8 -10 4 13 5 12 8 -26 4 13 5 12 8 -27 4 13 5 12 8 -42 4 13 5 12 8 -43 4 13 5 12 8 VDD VDD GND GDD AGND P P P P P 1 16 1 16 1 1 FS0 I 16 15 16 15 16 16 FS1 I 10 - 10 10 9 10 FS2 I - - 9 9 - - OE I - - - - 15 15 SLOWCLK# I - - - - - 9 STOPCLK# I 3 2 11 3 2 10 3 2 11 3 2 11 3 2 10 3 2 11 X1 X2 14.318 MHz I O O Digital power (3.3 or 5V). Digital power (3.3 or 5V). Digital ground. Digital ground. Analog ground. Frequency select 0 for CPU clock (has internal pull-up).* Frequency select 1 for CPU clock (has internal pull-up).* Frequency select 2 for CPU clock (has internal pull-up).* Tristates outputs when low (has internal pull-up).* Slows 2XCPU clock to 8 MHz (active low) (has internal pull-up). Stops 2XCPU clock glitch-free (active low) (has internal pull-up). Crystal In. Crystal Out. 14.318 MHz reference clock output. - 7 1 - - 1.84 MHz O 1.84 MHz (comm) clock output. 6 - 11 6 6 - 6 - 6 - 6 - 24 MHz 16 MHz O O 24 MHz (floppy disk) clock output. 16 MHz clock output. - - 7 7 - - 12 MHz O 12 MHz keyboard clock output. 7 1 - - 7 7 8 MHz O 8 MHz keyboard clock output. 14 14 14 - 11 - CPUCLK O 15 - 15 14 14 14 2XCPUCLK O 2X CPU clock output. 9 - - - - - PD# I - 9 - - - - PDFCLK# I Power-Down All (active low) (has internal pull-up). Power-Down Fixed Clock (1.84, 8, 16, 24) (active low).** Note: Internal Pull-up Resistors. * -04 and -10 have no pull-ups or frequency select pins ** -10 has no pull-up or Pin 9 PDFCLK 4 DESCRIPTION CPU clock output. AV9154A Clock Tables (using 14.318 MHz input, all frequencies in MHz) FS2 FS1 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 CPUCLK 8 20 16.67 12.50 30 10 33.33 25 -43 2XCPUCLK ^ 16 40 33.33 25 60 20 66.66 50 CPUCLK 8.00 20.05 16.71 12.55 -43 2XCPUCLK 16.00 40.09 33.41 25.06 30.07 10.03 33.24 25.06 60.14 20.05 66.48 50.11 -42 -27 2XCPUCLK FS0 2XCPUCLK 16 40 33.33 25 60 20 66.66 50 75* 32 60 40 50 66.66 80* 52 Actual Frequencies (using 14.318 MHz input, all frequencies in MHz) -42 -27 2CPUCLK FS2 FS1 FS0 0 0 0 0 0 0 1 1 0 1 0 1 75.17* 31.94 60.14 40.09 2XCPUCLK 16.00 40.09 33.41 25.06 1 1 1 1 0 0 1 1 0 1 0 1 50.11 66.48 80.18* 51.90 60.14 20.05 66.48 50.11 Fixed Clock Output Actual Frequencies (using 14.318 MHz input, all freqencies in MHz) 14.318 1.84 24.0 12.0 Clock Tables in MHz for -04 and -10 (using 14.318 MHz input , all frequencies in MHz) -04 -10 FS(3:0) CPUCL2XCPU CPU K 0 100* 50* PDCPU 1 80* 40* 40 2 66.6 33.3 50 3 50 25 66.6 8.0 4 5 6 7 - 40 32 24 16 20 16 12 8 - * These selections only operate at 5 V. 5 Clock Table for AV9154A-26 (using 14.318 MHz input all frequencies in MHz) FS(2:0) 2XCPU CPUCLK (MHz) (MHz) 0 100.23* 50.11 1 80.18* 40.09 2 66.48* 33.24 3 50.11 25.06 4 40.09 20.05 5 32.22 16.11 6 24.23 12.12 7 15.75 7.88 AV9154A Absolute Maximum Ratings VDD referenced to GND ........................................................................... 7.0 V Voltage on I/O pins referenced to GND ..... GND - 0.5 V to VDD + 0.5 V Operating Temperature under bias .............................................. 0 to +70 C Power Dissipation ................................................................................... 0.5 W Storage Temperature ............................................................... -40 to +150 C Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. These ratings are stess 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 at 3.3 V VDD = 3.3 V 10%, TA = 0 - 70 oC unless otherwise stated DC Characteristics PARAMETER Input Low Voltage Input High Voltage Input Low Current Input High Current Output Low Voltage Output High Voltage1 Output Low Current1 Output High Current1 Supply Current Outp ut Frequ ency C ha ng e o ve r Su p pl y and Temperature1 Short circuit current1 Input Capacitance1 Load Capacitance1 Pull-up Resistor1 SYMBOL VIL VIH IIL IIH VOL VOH IOL IOH IDD TEST CONDITIONS VIN = 0V (pull-up pin) VIN = VDD IOL = 6mA IOH = -4mA VOL = 0.2VDD VOH = 0.7VDD unloaded, 60 MHz FD With respect to typical frequency ISC CI CL Rpu each output clock except X1, X2 pins X1, X2 at VDD - 0.5V Notes: 1. Parameter is guaranteed by design and characterization. 6 MIN 0.7 V -5.0 0.85 VDD 15.0 - TYP 2.5 0.05 VDD 0.94 VDD 24 -13 16 MAX 0.2 VDD 7.0 5.0 0.1 VDD -8.0 34 UNITS V V A A V V mA mA mA - 0.002 0.01 % 20 - 30 20 620 10 900 mA pF pF k ohm AV9154A Electrical Characteristics at 3.3 V VDD = 3.3 V 10%, TA = 0 - 70 oC unless otherwise stated AC Characteristics PARAMETER Input Clock Rise Time SYMBOL 1 Input Clock Fall Time1 Rise time, 20% to 80% VDD1 Fall time, 80% to 20% VDD1 Duty cycle at 50% VDD1 Duty cycle, reference clocks1 Jitter, one sigma, 20-66 MHz clocks1 Jitter, one sigma, clocks below 20 MHz1 Jitter, absolute, 20-66 MHz clocks1 Jitter, absolute, clocks below 20 MHz1 Input Frequency1 Maximum Output Frequency1 Clock skew between CPU and 2XCPU outputs1 Power-up Time1 Frequency Transition Time1 TEST CONDITIONS MIN TYP MAX UNITS tICr - - 20 ns tICf - - 20 ns tr 15pF load - 2.2 3.5 ns tf 15pF load - 1.2 2.5 ns dt 15pF load 40/60 48/52 60/40 % dt 15pF load 50/65 43/57 65/50 % tj1s 10,000 cycles - 100 200 ps tjls 10,000 cycles - 1.0 2.0 % tjab 10,000 cycles -350 - 350 ps tjab 10,000 cycles - 1.5 4.0 % fin 2 14.318 32 MHz fout 70 - - MHz T sk AV9154A-42 - 220 500 ps ttPO off to 50 MHz - 6 12 ms from 8 to 50 MHz - 4.5 10 ms tft Notes: 1. Parameter is guaranteed by design and characterization. Not subject to production testing. 7 AV9154A Electrical Characteristics at 5.0 V VDD = +5 10% V, T A = 0 - 70oC unless otherwise stated DC Characteristics PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITS Input Low Voltage VIL VDD=5 V - - 0.8 V Input High Voltage VIH VDD=5 V 2.0 - - V Input Low Current IIL VIN=0 V (pull-up pin) - 6 15 A Input High Current IIH VIN = VDD -5 - 5 A Output Low Voltage VOL IOL = 10 mA - 0.15 0.4 V Output High Voltage1 VOH IOH = -30 mA 2.4 3.7 - V Output Low Current1 IOL VOL = 0.8 V 25 45 - mA Output High Current1 IOH VOH = 2.4 V - -53 -35 mA Supply Current IDD unloaded, 66 MHz - 25 50 mA Output Frequency Change over Supply and Temperature1 FD with respect to typical frequency - 0.002 0.01 % Short circuit current1 ISC each output clock 25 40 - mA Input Capacitance1 CI except X1, X2 - - 10 pF Load Capacitance1 CL pins X1, X2 - 20 - pF Pull-up Resistor1 Rpu A + VDD -1 V - 400 700 k ohm Notes: 1. Parameter is guaranteed by design and characterization. Not subject to production testing. 8 AV9154A Electrical Characteristics at 5.0 V VDD = +5 10% V, T A = 0 - 70oC unless otherwise stated AC Characteristics PARAMETER SYMBOL 1 TEST CONDITIONS MIN TYP MAX UNITS Input Clock Rise Time tICr - - 20 ns Time1 Input Clock Fall Output Rise time, 0.8 to 2.0V1 Rise time, 20% to 80% V1 Output Fall time, 2.0 to 0.8V1 tICf - - 20 ns tr 15pF load - 1.5 2 ns tr 15pF load - 2.0 3 ns tf 15pF load - 0.5 1.5 ns Fall time, 80% to 20% V1 tf 15pF load - 2.0 3.0 ns Duty cycle at 1.4V1 Duty cycle, reference clocks1 Jitter, one sigma, 20 MHz80 MHz clocks1 Jitter, one sigma, clocks below 20 MHz1 Jitter, absolute, 20 MHz80 MHz clocks1 Jitter, absolute, clocks below 20 MHz1 dt 15pF load, VDD = 5V5% 45/55 48/52 55/45 % dt 15 pF load 40/65 43/57 65/40 % tj1s 10,000 cycles - 70 140 ps tjls 10,000 cycles - 0.8 2.0 % tjab 10,000 cycles -250 - 250 ps tjab 10,000 cycles - 1.0 3.0 % fin 2 14.318 32 MHz fout 140 - - MHz Input Frequency Maximum Output Frequency1 Clock skew between CPU and 2XCPU outputs1 Tsk AV9154A-42 - 140 400 ps Power-up Time1 ttPO to 80 MHz - 8 15 ms Frequency Transition Time1 tft from 8 to 66.66 MHz - 6.5 12 ms Notes: 1. Parameter is guaranteed by design and characterization. Not subject to production testing. 9 AV9154A 0.260 0.765 0.325 0.130 0.015min 0.010 0 ~ 5 0.060 0.130 0.360 0.100 0.018 16-Pin PDIP Package 0.031 0.063 0.390 0.238 0.015 0.154 0.008 0.050 0.024 0.0060.004 0.016 0.025 16-Pin SOIC Package Ordering Information AV9154A-04CN16 AV9154A-10CN16 AV9154A-26CN16 AV9154A-27CN16 AV9154A-42CN16 AV9154A-43CN16 AV9154A-04CS16 AV9154A-10CS16 AV9154A-26CS16 AV9154A-27CS16 AV9154A-42CS16 AV9154A-43CS16 Example: ICS XXXX-PPP M X#W Lead Count & Package Width Lead Count=1,2, or 3 digits W=0.3" SOIC or 0.6" DIP; None=Standard Width Package Type N=DIP (Plastic), S=SOIC 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; GSP=Genlock device 10