integrated circuit systems, inc. ics932s825 1276d?10/25/07 pin configuration recommended application: serverworks ht2400-based systems using amd opteron processors output features: 7 - pairs of amd low power k8 greyhound compliant clocks 7 - pair of src/pci express* gen 2 clocks 3 - 14.318 mhz ref clocks including 1 free-running 2 - 48mhz clocks 2 - pci 33 mhz clocks 2 - 25mhz clocks features: spread spectrum for emi reduction outputs may be disabled via smbus m/n programming via smbus pcie clocks meet pcie gen 2. low power differential outputs low power clock chip for serverworks ht2400 servers *other names and brands may be claimed as the property of others. functionality power groups vdd gnd 8 11 48mhz clocks 64 61 25mhz clocks 14 17 33 mhz pci clocks 20 21 analo g core 36, 28 35, 27 pcie clocks 55, 47 54, 46 k8g cpu clocks 3 7 ref clocks, xtal osc. pin number description x1 1 64 vdd25mhz x2 2 63 fs0/25mhz_0_2 x vddref_stb 3 62 25mhz_ 1_2x ref0_run_2x 4 61 gnd25mhz fs1/ref1_2x 5 60 spread_en fs2/ref2_2x 6 59 cpuk8gt_l6 gndref 7 58 cpuk8gc_l6 vdd48 8 57 cpuk8gt_l5 48mhz_0_2x 9 56 cpuk8gc_l5 48mhz_1_2x 10 55 v ddcpu gnd48 11 54 gnd sclk 12 53 cpuk8gt_l4 sdata 13 52 cpuk8gc_l4 vddpci 14 51 cpuk8gt_l3 pciclk0_2x 15 50 cpuk8gc_l3 pciclk1_2x 16 49 cpuk8gt_l2 gndpci 17 48 cpuk8gc_l2 clkpwrgd/pd# 18 47 vddcpu gnd 19 46 gnd vdda 20 45 cpuk8gt_l1 gnda 21 44 cpuk8gc_l1 gnd 22 43 cpuk8gt_l0 pciet_l0 23 42 cpuk8gc_l0 pciec_l0 24 41 gnd pciet_l1 25 40 pciet_l6 pciec_l1 26 39 pciec_l6 gnd 27 38 pciet_l5 vddpcie 28 37 pciec_l5 pciet_l2 29 36 vddpcie pciec_l2 30 35 gnd pciet_l3 31 34 pciet_l4 pciec_l3 32 33 pciec_l4 64-tssop 932s825 fs2 fs1 fs0 cpu (mhz) 000 hi-z 001 x/6 010 180.00 011 220.00 100 100.00 101 133.33 1 1 0 reserved 111 200.00
2 ics932s825 1276d?10/25/07 pin description pin # pin name type description 1 x1 in crystal input, nominally 14.318mhz. 2 x2 out crystal output, nominally 14.318mhz 3 vddref_stb pwr ref, xtal power supply, nominal 3.3v standby power 4 ref0_run_2x out 14.318mhz free running xtal output. this output runs as long as standby vdd is applied to the part. default drive is 2 loads. 5 fs1/ref1_2x i/o frequency select latch input pin / 14.318 mhz reference clock. default 2 load drive. 6 fs2/ref2_2x i/o frequency select latch input pin / 14.318 mhz reference clock. default 2 load drive. 7 gndref pwr ground pin for the ref outputs. 8 vdd48 pwr power pin for the 48mhz output.3.3v 9 48mhz_0_2x out 48mhz clock output. default 2 load drive strength 10 48mhz_1_2x out 48mhz clock output. default 2 load drive strength 11 gnd48 pwr ground pin for the 48mhz outputs 12 sclk in clock pin of smbus circuitry, 5v tolerant. 13 sdata i/o data pin for smbus circuitry, 3.3v tolerant. 14 vddpci pwr power supply for pci clocks, nominal 3.3v 15 pciclk0_2x out 3.3v pci clock output. default 2 load drive strength. 16 pciclk1_2x out 3.3v pci clock output. default 2 load drive strength. 17 gndpci pwr ground pin for the pci outputs 18 clkpwrgd/pd# in this 3.3v lvttl input is a level sensitive strobe used to determine when latch inputs are valid and are ready to be sampled. this is an active high input. / asynchronous active low input pin used to power down the device into a low power state. 19 gnd pwr ground pin. 20 vdda pwr 3.3v power for the pll core. 21 gnda pwr ground pin for the pll core. 22 gnd pwr ground pin. 23 pciet_l0 out true clock of 0.8v differential push-pull pci_express pair (no 50ohm resistor to gnd needed) 24 pciec_l0 out complement clock of 0.8v differential push-pull pci_express pair. (no 50ohm resistor to gnd needed) 25 pciet_l1 out true clock of 0.8v differential push-pull pci_express pair (no 50ohm resistor to gnd needed) 26 pciec_l1 out complement clock of 0.8v differential push-pull pci_express pair. (no 50ohm resistor to gnd needed) 27 gnd pwr ground pin. 28 vddpcie pwr power supply for pci express clocks, nominal 3.3v 29 pciet_l2 out true clock of 0.8v differential push-pull pci_express pair (no 50ohm resistor to gnd needed) 30 pciec_l2 out complement clock of 0.8v differential push-pull pci_express pair. (no 50ohm resistor to gnd needed) 31 pciet_l3 out true clock of 0.8v differential push-pull pci_express pair (no 50ohm resistor to gnd needed) 32 pciec_l3 out complement clock of 0.8v differential push-pull pci_express pair. (no 50ohm resistor to gnd needed)
3 ics932s825 1276d?10/25/07 pin description (continued) pin # pin name type description 33 pciec_l4 out complement clock of 0.8v differential push-pull pci_express pair. (no 50ohm resistor to gnd needed) 34 pciet_l4 out true clock of 0.8v differential push-pull pci_express pair (no 50ohm resistor to gnd needed) 35 gnd pwr ground pin. 36 vddpcie pwr power supply for pci express clocks, nominal 3.3v 37 pciec_l5 out complement clock of 0.8v differential push-pull pci_express pair. (no 50ohm resistor to gnd needed) 38 pciet_l5 out true clock of 0.8v differential push-pull pci_express pair (no 50ohm resistor to gnd needed) 39 pciec_l6 out complement clock of 0.8v differential push-pull pci_express pair. (no 50ohm resistor to gnd needed) 40 pciet_l6 out true clock of 0.8v differential push-pull pci_express pair (no 50ohm resistor to gnd needed) 41 gnd pwr ground pin. 42 cpuk8gc_l0 out complementary signal of low-power differential push-pull amd k8 "greyhound" clock 43 cpuk8gt_l0 out true signal of low-power differential push-pull amd k8 "greyhound" clock 44 cpuk8gc_l1 out complementary signal of low-power differential push-pull amd k8 "greyhound" clock 45 cpuk8gt_l1 out true signal of low-power differential push-pull amd k8 "greyhound" clock 46 gnd pwr ground pin. 47 vddcpu pwr supply for cpu clo cks, 3.3v nominal 48 cpuk8gc_l2 out complementary signal of low-power differential push-pull amd k8 "greyhound" clock 49 cpuk8gt_l2 out true signal of low-power differential push-pull amd k8 "greyhound" clock 50 cpuk8gc_l3 out complementary signal of low-power differential push-pull amd k8 "greyhound" clock 51 cpuk8gt_l3 out true signal of low-power differential push-pull amd k8 "greyhound" clock 52 cpuk8gc_l4 out complementary signal of low-power differential push-pull amd k8 "greyhound" clock 53 cpuk8gt_l4 out true signal of low-power differential push-pull amd k8 "greyhound" clock 54 gnd pwr ground pin. 55 vddcpu pwr supply for cpu clo cks, 3.3v nominal 56 cpuk8gc_l5 out complementary signal of low-power differential push-pull amd k8 "greyhound" clock 57 cpuk8gt_l5 out true signal of low-power differential push-pull amd k8 "greyhound" clock 58 cpuk8gc_l6 out complementary signal of low-power differential push-pull amd k8 "greyhound" clock 59 cpuk8gt_l6 out true signal of low-power differential push-pull amd k8 "greyhound" clock 60 spread_en in asynchronous, active high input to enable spread spectrum functionality. 61 gnd25mhz pwr ground pin for the 25mhz outputs 62 25mhz_1_2x out 25mhz clock output, 3.3v. default 2 load drive 63 fs0/25mhz_0_2x i/o frequency select latch input pin / fixed 25mhz 3.3v clock output. default 2 load drive 64 vdd25mhz pwr power supply for 25mhz clo cks, 3.3v nominal.
4 ics932s825 1276d?10/25/07 general description the ics932s825 is a main clock synthesizer chip that all clocks required by serverworks ht2400-based servers. an smbus interface allows full control of the device. block diagram pciclk(1:0) control logic xtal osc. cpuk8g(6:0) fixed pll 48mhz(1:0) r e f ( 2 : 1 ) , r e f 0 _ r u n x1 x2 pci33 div cpu div s data sclk fs(2:0) spread_en src div pcie(6:0) ckpwrgd/pd# 25mhz(1:0) 25m div 25mhz pll cpu/src/ pci pll series resistor for pro p er termination zo = 50 ohms 1 load 1 33 139 222 series resistor for pro p er termination zo = 50 ohms cpuk8gx 1 33 pcie_lx 1 33 differential out p ut number of loads on board number of loads on board single-ended terminations (all single-ended outputs) single-ended out p ut stren g th differential terminations 2 load (default)
5 ics932s825 1276d?10/25/07 frequency selection table bit 4 ss_en bit 3 fs3 bit2 fs2 bit1 fs1 bit0 fs0 cpu (mhz) src (mhz) pci (mhz) spread % overclock amount 0 0 0 0 0 hi-z hi-z hi-z n/a n/a 0 0 001 x/4 x/8 x/24 n/a n/a 0 0 0 1 0 180.00 90.00 30.00 0 0.90 0 0 0 1 1 220.00 110.00 36.67 0 1.10 0 0 1 0 0 100.00 100.00 33.33 0 1.00 0 0 1 0 1 133.33 100.00 33.33 0 1.00 0 0 110 0 0 1 1 1 200.00 100.00 33.33 0 1.00 0 1 0 0 0 184.00 92.00 30.67 0 0.92 0 1 0 0 1 188.00 94.00 31.33 0 0.94 0 1 0 1 0 192.00 96.00 32.00 0 0.96 0 1 0 1 1 196.00 98.00 32.67 0 0.98 0 1 1 0 0 204.00 102.00 34.00 0 1.02 0 1 1 0 1 208.00 104.00 34.67 0 1.04 0 1 1 1 0 212.00 106.00 35.33 0 1.06 0 1 1 1 1 216.00 108.00 36.00 0 1.08 1 0 0 0 0 hi-z hi-z hi-z n/a n/a 1 0 001 x/4 x/8 x/24 n/a n/a 1 0 0 1 0 180.00 90.00 30.00 -0.5% 1.00 1 0 0 1 1 220.00 110.00 36.67 -0.5% 1.00 1 0 1 0 0 100.00 100.00 33.33 -0.5% 1.00 1 0 1 0 1 133.33 100.00 33.33 -0.5% 1.00 1 0 110 1 0 1 1 1 200.00 100.00 33.33 -0.5% 1.00 1 1 0 0 0 184.00 92.00 30.67 -0.5% 0.92 1 1 0 0 1 188.00 94.00 31.33 -0.5% 0.94 1 1 0 1 0 192.00 96.00 32.00 -0.5% 0.96 1 1 0 1 1 196.00 98.00 32.67 -0.5% 0.98 1 1 1 0 0 204.00 102.00 34.00 -0.5% 1.02 1 1 1 0 1 208.00 104.00 34.67 -0.5% 1.04 1 1 1 1 0 212.00 106.00 35.33 -0.5% 1.06 1 1 1 1 1 216.00 108.00 36.00 -0.5% 1.08 byte 0 reserved reserved
6 ics932s825 1276d?10/25/07 cpu divider ratios bit00011011msb 00 0000 2 0100 4 1000 8 1100 16 01 0001 3 0101 6 1001 12 1101 24 10 0010 5 0110 10 1010 20 1110 40 11 0011 15 0111 30 1011 60 1111 120 lsb address div address div address div address div pci divider ratios bit00011011msb 00 0000 4 0100 8 1000 16 1100 32 01 0001 3 0101 6 1001 12 1101 24 10 0010 5 0110 10 1010 20 1110 40 11 0011 15 0111 30 1011 60 1111 120 lsb address div address div address div address div src divider ratios bit00011011msb 00 0000 2 0100 4 1000 8 1100 16 01 0001 3 0101 6 1001 12 1101 24 10 0010 5 0110 10 1010 20 1110 40 11 0011 7 0111 14 1011 28 1111 56 lsb address div address div address div address div divider (3:2) divider (3:2) divider (1:0) divider (1:0) divider (3:2) divider (1:0)
7 ics932s825 1276d?10/25/07 absolute maximum ratings electrical characteristics - input/supply/common output parameters t a = 0 - 70c; supply voltage v dd = 3.3 v +/-5% parameter symbol conditions min typ max units notes input high voltage v ih 2v dd + 0.3 v 1 input low voltage v il v ss - 0.3 0.8 v 1 input high current i ih v in = v dd -5 5 ua 1 i il1 v in = 0 v; inputs with no pull-up resistors -5 ua 1 i il2 v in = 0 v; inputs with pull-up resistors -200 ua 1 operating current i dd3.3op all outputs driven 250 ma powerdown current i dd3.3pd all diff pairs low/low 15 ma input frequency 3 f i v dd = 3.3 v 14.318 mhz 3 pin inductance 1 l pin 7nh1 c in logic inputs 5 pf 1 c out output pin capacitance 6 pf 1 c inx x1 & x2 pins 5 pf 1 clk stabilization 1,2 t stab from v dd power-up or de-assertion of pd# to 1st clock 3ms1,2 modulation frequency triangular modulation 30 33 khz 1 smbus voltage v dd 2.7 5.5 v 1 low-level output voltage v ol @ i pullup 0.4 v 1 current sinking at v ol = 0.4 v i pullup 4ma1 sclk/sdata clock/data rise time 3 t ri2c (max vil - 0.15) to (min vih + 0.15) 1000 ns 1 sclk/sdata clock/data fall time 3 t fi2c (min vih + 0.15) to (max vil - 0.15) 300 ns 1 1 guaranteed by design and characterization, not 100% tested in production. 2 see timing diagrams for timing requirements. 3 input frequency should be measured at the refout pin and tuned to ideal 14.31818mhz to meet ppm frequency accuracy on pll outputs. input low current input capacitance 1 parameter symbol min max units notes 3.3v core supply voltage vdda gnd + 4.5v v 1 3.3v lo g ic input supply volta g e vdd gnd +4.5v v 1 stora g e temperature ts -50 150 c ambient operating temp tambient 0 70 c input esd protection human body model esd prot 2000 v 1 1 operation at these extremes is neither implied nor g uaranteed
8 ics932s825 1276d?10/25/07 ac electrical characteristics - low power differential pcie outputs t a = 0 - 70c; v dd = 3.3 v +/-5%; c l =2pf, r s =33.2 ? parameter symbol conditions min typ max units notes rising edge slew rate t slr differential measurement 0.5 2 v/ns 1,2 falling edge slew rate t flr differential measurement 0.5 2 v/ns 1,2 slew rate variation t slva r single-ended measurement 20 % 1 maximum output voltage v high includes overshoot 1150 mv 1 minimum output voltage v low includes undershoot -300 mv 1 differential voltage swing v swing differential measurement 400 mv 1 crossing point voltage v xabs single-ended measurement 300 550 mv 1,3,4 crossing point variation v xabsvar single-ended measurement 140 mv 1,3,5 duty cycle d cy c differential measurement 45 55 % 1 pcie jitter - cycle to cycle pciej c2c differential measurement 125 ps 1 pcie[6:0] skew pcie skew differential measurement 250 ps 1 notes on electrical characteristics: 1 guaranteed by design and characterization, not 100% tested in production. 2 slew rate measured through vswing centered around differential zero 3 vxabs is defined as the voltage where clk = clk# 4 onl y a pp lies to the differential risin g ed g e ( clk risin g and clk# fallin g) 6 all long term accuracy and clock period specifications are guaranteed assuming that refout is at 14.31818mhz 5 defined as the total variation of all crossing voltages of clk rising and clk# falling. pcie phase jitter impact parameter conditions min typical max units notes output phase jitter impact ? pcie* gen1 pcie1 (including pll bw 1.5-22 mhz, z = 0.54, td=10 ns, ftrk=1.5 mhz ) 0 108 ps 1,2,3,4 output phase jitter impact - pcie gen2 pcie2 (including pll bw5-16 mhz, 8 ? 16 mhz, z = 0.54, td=10 ns) 03.1 ps rms 1,2,3,4 notes: 1. post processed evaluation through intel supplied matlab scripts. 3. these jitter numbers are def ined f or a ber of 1e-12. measured numbers at a smaller sample size have to be extrapolated to this ber target. 4. guaranteed by design and characterization, not 100% tested in production. 2. pcie* gen2 filter characteristics are subject to f inal ratification by pc isig. please check the pci* sig f or the latest specif ication.
9 ics932s825 1276d?10/25/07 ac electrical characteristics - low power differential cpu outputs t a = 0 - 70c; v dd = 3.3 v +/-5%; c l =amd64 processor test load parameter symbol conditions min typ max units notes crossing point variation ? v cross single-ended measurement 140 mv 1 fre q uenc y f 198.8 200 mhz 2 lon g term accurac y pp m -300 300 pp m3 rising edge slew rate t slr differential measurement 0.5 10 v/ns 4,5 falling edge slew rate t flr differential measurement 0.5 10 v/ns 4,5 cpu jitter - cycle to c y cle cpuj c2c differential measurement 150 ps 6 cpu jitter - accumulated cpuj acc over a 10 us period -1 1 ns 7 maximum output voltage v high includes overshoot, single-ended measurement 1150 mv 1 minimum output voltage v low includes undershoot, single-ended measurement -300 mv 1 differential voltage swing peak-to-peak v dpk-pk differential measurement 400 2400 mv 8 differential voltage v d differential measurement 200 1200 mv 9 change in v d dc cycle-to - c y cle ? v d single-ended measurement -75 75 mv 10 duty cycle d cyc differential measurement 45 55 % 11 cpu[6:0] skew cpu skew10 differential measurement 250 ps notes on electrical characteristics (guaranteed by design and characterization, not 100% tested in production): 2 minimum fre q uenc y results from 0.5% down s p read. 3 measured with s p read s p ectrum off. 4 this p arameter is intended to g ive g uidance for simulation. 6 between an y two ad j acent c y cles. 10 the difference in magnitude of two adjacent v ddc measurements. v ddc i s the stable post overshoot and ring-back part 11 defined as thigh/tcycle 8 v dpk-pk is the overall magnitude of the differential signal. 9 v dmin is the amplitude of the ring-back differential measurement, guaranteed by design, that ring-back will not cross 0v v d . v dmax is the largest amplitude allowed. 1 single-ended measurement at crossing point. value is max-min over all time. dc value of common mode is not important due to the blocking cap. 5 differential measurement throu g h the ran g e of +/-100mv 7 accumulated over a 10 us time periode, measured with jit2 tie at 50ps interval.
10 ics932s825 1276d?10/25/07 t a = 0 - 70c; vdd=3.3v +/-5%; c l = 5 pf (unless otherwise specified) parameter symbol conditions min typ max units notes pci long accuracy ppm see tperiod min-max values -300 300 ppm 1,2 33.33mhz out p ut nominal 29.9910 30.0090 ns 2 33.33mhz out p ut s p read 29.9910 30.1598 ns 2 25mhz lon g accurac y pp m see t p eriod min-max values -50 50 ns 2 25mhz clock period t p eriod 25mhz output nominal 40 ns 2 output high voltage v oh i oh = -1 ma 2.4 v 1 output low voltage v ol i ol = 1 ma 0.55 v 1 v oh @min = 1.0 v -33 ma 1 v oh @ max = 3.135 v -33 ma 1 v ol @ min = 1.95 v 30 ma 1 v ol @ max = 0.4 v 38 ma 1 ed g e rate v / t risin g ed g e rate 1 4 v/ns 1 ed g e rate v / t fallin g ed g e rate 1 4 v/ns 1 duty cycle d t1 v t = 1.5 v 45 55 % 1 pci skew t sk1 v t = 1.5 v 250 ps 1 25mhz skew t sk1 v t = 1.5 v 250 ps 1 jitter, cycle to cycle t jcyc-cyc v t = 1.5 v 250 ps 1 1 guaranteed b y desi g n and characterization, not 100% tested in p roduction. 2 all lon g term accurac y and clock period s p ecifications are g uaranteed assumin g that ref is at 14.31818mhz t period output high current i oh electrical characteristics - 33 mhz pciclk, 25mhz outputs pci clock period output low current i ol electrical characteristics - 48mhz t a = 0 - 70c; v dd = 3.3 v +/-5%; c l = 5 pf (unless otherwise specified) parameter symbol conditions min typ max units notes lon g accurac y pp m see t p eriod min-max values -100 100 pp m1,2 clock period t p eriod 48.00mhz output nominal 20.8257 20.8340 ns 2 output high voltage v oh i oh = -1 ma 2.4 v 1 output low voltage v ol i ol = 1 ma 0.55 v 1 v oh @ min = 1.0 v -33 ma 1 v oh @ max = 3.135 v -33 ma 1 v ol @min = 1.95 v 30 ma 1 v ol @ max = 0.4 v 38 ma 1 ed g e rate v / trisin g ed g e rate 1 2 v/ns 1 ed g e rate v / t fallin g ed g e rate 1 2 v/ns 1 duty cycle d t1 v t = 1.5 v 45 55 % 1 group skew t sk1 v t = 1.5 v 250 ps 1 jitter, cycle to cycle t jcyc-cyc v t = 1.5 v 250 ps 1 1 guaranteed b y desi g n and characterization, not 100% tested in p roduction. 2 all lon g term accurac y and clock period s p ecifications are g uaranteed assumin g that ref is at 14.31818mhz output low current i ol output high current i oh
11 ics932s825 1276d?10/25/07 electrical characteristics - ref-14.318mhz t a = 0 - 70c; v dd = 3.3 v +/-5%; c l = 5 pf (unless otherwise specified) parameter symbol conditions min typ max units notes lon g accurac y pp m see t p eriod min-max values -300 300 pp m1 clock period t p eriod 14.318mhz output nominal 69.8270 69.8550 ns 2 output high voltage v oh i oh = -1 ma 2.4 v 1 output low voltage v ol i ol = 1 ma 0.4 v 1 output high current i oh v oh @min = 1.0 v, v oh @max = 3.135 v -29 -23 ma 1 output low current i ol v ol @min = 1.95 v, v ol @max = 0.4 v 29 27 ma 1 ed g e rate v / t risin g ed g e rate 1 2 v/ns 1 ed g e rate v / t fallin g ed g e rate 1 2 v/ns 1 skew t sk1 v t = 1.5 v 500 ps 1 duty cycle d t1 v t = 1.5 v 45 55 % 1 jitter, cycle to cycle t jcyc-cyc v t = 1.5 v 1000 ps 1 1 guaranteed b y desi g n and characterization, not 100% tested in p roduction. 2 all lon g term accurac y and clock period s p ecifications are g uaranteed assumin g that ref is at 14.31818mhz
12 ics932s825 1276d?10/25/07 general smbus serial interface information how to write: ? controller (host) sends a start bit. controller (host) sends the write address d2 (h) ics clock will acknowledge controller (host) sends the begining byte location = n ics clock will acknowledge controller (host) sends the data byte count = x ics clock will acknowledge controller (host) starts sending byte n through byte n + x -1 (see note 2) ics clock will acknowledge each byte one at a time controller (host) sends a stop bit how to read: controller (host) will send start bit. controller (host) sends the write address d2 (h) ics clock will acknowledge controller (host) sends the begining byte location = n ics clock will acknowledge controller (host) will send a separate start bit. controller (host) sends the read address d3 (h) ics clock will acknowledge ics clock will send the data byte count = x ics clock sends byte n + x -1 ics clock sends byte 0 through byte x (if x (h) was written to byte 8) . controller (host) will need to acknowledge each byte controllor (host) will send a not acknowledge bit controller (host) will send a stop bit ics (slave/receiver) t wr ack ack ack ack ack p stop bit x byte index block write operation slave address d2 (h) beginning byte = n write start bit controller (host) byte n + x - 1 data byte count = x beginning byte n t start bit wr write rt repeat start rd read beginning byte n byte n + x - 1 n not acknowledge pstop bit slave address d3 (h) index block read operation slave address d2 (h) beginning byte = n ack ack data byte count = x ack ics (slave/receiver) controller (host) x byte ack ack
13 ics932s825 1276d?10/25/07 smbus table: frequency select and spread control register pin # name control function t yp e0 1 pwd bit 7 reserved reserved rw reserved reserved 0 bit 6 reserved reserved rw reserved reserved 0 bit 5 reserved reserved rw reserved reserved 0 bit 4 ss_en spread spectrum enable rw latched bit 3 fs3 freq select bit 3 rw 0 bit 2 fs2 freq select bit 2 rw latched bit 1 fs1 freq select bit 1 rw latched bit 0 fs0 freq select bit 0 rw latched smbus table: output control register pin # name control function t yp e0 1 pwd bit 7 ref2 output enable rw hi-z enable 1 bit 6 ref1 output enable rw hi-z enable 1 bit 5 ref0_run output enable rw disable (low) enable 1 bit 4 pciclk1 output enable rw disable (low) enable 1 bit 3 pciclk0 output enable rw disable (low) enable 1 bit 2 reserved reserved rw reserved reserved 1 bit 1 48mhz_1 output enable rw disable (low) enable 1 bit 0 48mhz_0 output enable rw disable (low) enable 1 smbus table: output control register pin # name control function t yp e0 1 pwd bit 7 reserved reserved rw reserved reserved 0 bit 6 cpuk8g_l(6) rw disable enable 1 bit 5 cpuk8g_l(5) rw disable enable 1 bit 4 cpuk8g_l(4) rw disable enable 1 bit 3 cpuk8g_l(3) rw disable enable 1 bit 2 cpuk8g_l(2) rw disable enable 1 bit 1 cpuk8g_l(1) rw disable enable 1 bit 0 cpuk8g_l(0) rw disable enable 1 smbus table: output control register pin # name control function t yp e0 1 pwd bit 7 reserved reserved rw reserved reserved 0 bit 6 pcie_l6 rw disable enable 1 bit 5 pcie_l5 rw disable enable 1 bit 4 pcie_l4 rw disable enable 1 bit 3 pcie_l3 rw disable enable 1 bit 2 pcie_l2 rw disable enable 1 bit 1 pcie_l1 rw disable enable 1 bit 0 pcie_l0 rw disable enable 1 output enable when disabled cpuk8gt_l = 0 cpuk8gc_l = 0 output enable when disabled pciet_l = 0 pciec_l = 0 38/37 33/34 31/32 25/26 23/24 b y te 0 - - - 43/42 b y te 3 - 40/39 b y te 2 - 47/46 45/44 59/58 57/56 53/52 51/50 - 4 6 b y te 1 5 see cpu frequency select table - - - - 29/30 17 10 9 16 -
14 ics932s825 1276d?10/25/07 smbus table: drive strength control register pin # name control function t yp e0 1 pwd bit 7 ref2 drive strength select rw 1 load 2 loads 1 bit 6 ref1 drive strength select rw 1 load 2 loads 1 bit 5 ref0_run drive strength select rw 1 load 2 loads 1 bit 4 pciclk1 drive strength select rw 1 load 2 loads 1 bit 3 pciclk0 drive strength select rw 1 load 2 loads 1 bit 2 48mhz_2 drive stren g th select rw 1 load 2 loads 1 bit 1 48mhz_1 drive stren g th select rw 1 load 2 loads 1 bit 0 48mhz_0 drive strength select rw 1 load 2 loads 1 smbus table: drive strength control register pin # name control function t yp e0 1 pwd bit 7 25mhz_1 output enable rw low enable 1 bit 6 25mhz_0 output enable rw hi-z enable 1 bit 5 25mhz_1 drive strength select rw 1 load 2 loads 1 bit 4 25mhz_0 drive strength select rw 1 load 2 loads 1 bit 3 reserved reserved rw reserved reserved 0 bit 2 vdiff2 vdiff msb rw 1 bit 1 vdiff1 vdiff select bit 0 rw 0 bit 0 vdiff0 vdiff lsb rw 1 smbus table: device id register pin # name control function t yp e0 1 pwd bit 7 devid 7 device id msb r - - 0 bit 6 devid 6 device id 6 r - - 0 bit 5 devid 5 device id 5 r - - 1 bit 4 devid 4 device id4 r - - 0 bit 3 devid 3 device id3 r - - 0 bit 2 devid 2 device id2 r - - 1 bit 1 devid 1 device id1 r - - 0 bit 0 devid 0 device id lsb r - - 1 smbus table: vendor id register pin # name control function t yp e0 1 pwd bit 7 rid3 r - - 0 bit 6 rid2 r - - 0 bit 5 rid1 r - - 0 bit 4 rid0 r - - 1 bit 3 vid3 r - - 0 bit 2 vid2 r - - 0 bit 1 vid1 r - - 0 bit 0 vid0 r - - 1 revision id vendor id (0001 = ics) - - - 63 - b y te 7 62 b y te 6 - - b y te 4 6 - 5 4 - - - 16 - b y te 5 62 63 11 10 - - - - 9 - - - - - see vdiff select table 17
15 ics932s825 1276d?10/25/07 smbus table: byte count register pin # name control function t yp e0 1 pwd bit 7 bc7 rw 0 bit 6 bc6 rw 0 bit 5 bc5 rw 0 bit 4 bc4 rw 0 bit 3 bc3 rw 1 bit 2 bc2 rw 0 bit 1 bc1 rw 0 bit 0 bc0 rw 1 smbus table: reserved register pin # name control function t yp e0 1 pwd bit 7 reserved reserved rw reserved reserved 0 bit 6 reserved reserved rw reserved reserved 0 bit 5 reserved reserved rw reserved reserved 0 bit 4 reserved reserved rw reserved reserved 0 bit 3 reserved reserved rw reserved reserved 0 bit 2 reserved reserved rw reserved reserved 0 bit 1 reserved reserved rw reserved reserved 0 bit 0 reserved reserved rw reserved reserved 0 smbus table: m/n programming enable pin # name control function t yp e0 1 pwd bit 7 m/n_en cpu pll m/n programming enable rw disable enable 0 bit 6 reserved reserved rw - - 0 bit 5 reserved reserved rw - - 0 bit 4 reserved reserved rw - - 0 bit 3 reserved reserved rw - - 0 bit 2 reserved reserved rw - - 0 bit 1 reserved reserved rw - - 0 bit 0 reserved reserved rw - - 0 byte count programming b(7:0) - - - b y te 10 b y te 8 b y te 9 - - - - - - - - - - - - - - - - - - - - - writing to this register will configure how many bytes will be read back, default is 9 bytes.
16 ics932s825 1276d?10/25/07 bytes 11:14 are reserved registers smbus table: cpu frequency control register pin # name control function t yp e0 1 pwd bit 7 n div8 n divider prog bit 8 rw x bit 6 n div9 n divider prog bit 9 rw x bit 5 m div5 rw x bit 4 m div4 rw x bit 3 m div3 rw x bit 2 m div2 rw x bit 1 m div1 rw x bit 0 m div0 rw x smbus table: cpu frequency control register pin # name control function t yp e0 1 pwd bit 7 n div7 rw x bit 6 n div6 rw x bit 5 n div5 rw x bit 4 n div4 rw x bit 3 n div3 rw x bit 2 n div2 rw x bit 1 n div1 rw x bit 0 n div0 rw x smbus table: cpu spread spectrum control register pin # name control function t yp e0 1 pwd bit 7 ssp7 rw x bit 6 ssp6 rw x bit 5 ssp5 rw x bit 4 ssp4 rw x bit 3 ssp3 rw x bit 2 ssp2 rw x bit 1 ssp1 rw x bit 0 ssp0 rw x n divider programming byte12 bit(7:0) and byte11 bit(7:6) m divider programming bit (5:0) - - - - - - - - - - - b y te 17 b y te 16 - - - - - - - - - b y te 15 - - - - spread spectrum programming bit(7:0) these spread spectrum bits in byte 13 and 14 will program the spread pecentage of cpu the decimal representation of m and n divier in byte 11 and 12 will configure the cpu vco frequency. default at power up = latch- in or byte 0 rom table. vco frequency = 14.318 x [ndiv(9:0)+8] / [mdiv(5:0)+2] the decimal representation of m and n divier in byte 11 and 12 will configure the cpu vco frequency. default at power up = latch- in or byte 0 rom table. vco frequency = 14.318 x [ndiv(9:0)+8] / [mdiv(5:0)+2]
17 ics932s825 1276d?10/25/07 smbus table: cpu spread spectrum control register pin # name control function t yp e0 1 pwd bit 7 reserved reserved r - - 0 bit 6 ssp14 rw x bit 5 ssp13 rw x bit 4 ssp12 rw x bit 3 ssp11 rw x bit 2 ssp10 rw x bit 1 ssp9 rw x bit 0 ssp8 rw x smbus table: programmable output divider register pin # name control function t yp e0 1 pwd bit 7 cpudiv3 rw x bit 6 cpudiv2 rw x bit 5 cpudiv1 rw x bit 4 cpudiv0 rw x bit 3 reserved reserved r - - 0 bit 2 reserved reserved r - - 0 bit 1 reserved reserved r - - 0 bit 0 reserved reserved r - - 0 smbus table: programmable output divider register pin # name control function t yp e0 1 pwd bit 7 33mhzdiv3 rw x bit 6 33mhzdiv2 rw x bit 5 33mhzdiv1 rw x bit 4 33mhzdiv0 rw x bit 3 src_div3 rw x bit 2 src_div2 rw x bit 1 src_div1 rw x bit 0 src_div0 rw x smbustable: reserved regsiter byte 21 is reserved do not write this register! - - - - b y te 18 - - - - - - - - - b y te 20 - - - - - spread spectrum programming bit(14:8) - - - - b y te 19 - - src divider ratio table cpu divider ratio programming bits src_ divider ratio programming bits 33mhz divider ratio programming bits 33mhz divider ratio table see cpu divider ratios table these spread spectrum bits in byte 13 and 14 will program the spread pecentage of cpu
18 ics932s825 1276d?10/25/07 fig. 1 shared pin operation - input/output pins the i/o pins designated by (input/output) on the ics932s825 serve as dual signal functions to the device. during initial power-up, they act as input pins. the logic level (voltage) that is present on these pins at this time is read and stored into a 5-bit internal data latch. at the end of power-on reset, (see ac characteristics for timing values), the device changes the mode of operations for these pins to an output function. in this mode the pins produce the specified buffered clocks to external loads. to program (load) the internal configuration register for these pins, a resistor is connected to either the vdd (logic 1) power supply or the gnd (logic 0) voltage potential. a 10 kilohm (10k) resistor is used to provide both the solid cmos programming voltage needed during the power-up programming period and to provide an insignificant load on the output clock during the subsequent operating period. via to vdd clock trace to load series term. res. programming header via to gnd device pad 2k � 8.2k � figure 1 shows a means of implementing this function when a switch or 2 pin header is used. with no jumper is installed the pin will be pulled high. with the jumper in place the pin will be pulled low. if programmability is not necessary, than only a single resistor is necessary. the programming resistors should be located close to the series termination resistor to minimize the current loop area. it is more important to locate the series termination resistor close to the driver than the programming resistor.
19 ics932s825 1276d?10/25/07 ordering information ics932s825 y glft example: designation for tape and reel packaging lead free, rohs compliant (optional) package type g = tssop revision designator (will not correlate with datasheet revision) device type prefix ics = standard device ics xxxx y g - lf t min max min max a -- 1.20 -- .047 a1 0.05 0.15 .002 .006 a2 0.80 1.05 .032 .041 b 0.17 0.27 .007 .011 c 0.09 0.20 .0035 .008 d e e1 6.00 6.20 .236 .244 e l 0.45 0.75 .018 .030 n 0 8 0 8 aaa -- 0.10 -- .004 variations min max min max 64 16.90 17.10 .665 .673 10-0039 n d mm. d (inch) reference doc.: jedec publication 95, mo-153 0.50 basic 0.020 basic see variations see variations see variations see variations 8.10 basic 0.319 basic 6.10 mm. body, 0.50 mm. pitch tssop ( 240 mil ) ( 20 mil ) symbol in millimeters in inches common dimensions common dimensions index area 12 n d e1 e � sea ting plane a1 a a2 e -c- b c l aaa c
20 ics932s825 1276d?10/25/07 revision history rev. issue date description page # a 02/28/07 1. updated electrical characteristics. 2. going to preliminary. 3. updated idd to reflect low power outputs various b 09/11/07 1. updated pin description 2, 3 c 09/12/07 1. updated quantity of pciex outputs listed under "output features" 1 d 10/25/07 1. corrected cpu/src/pci pll control bytes to b(15:18) from b(11:14) 2. changed pin names to indicate default drive strength. no silicon changes. 3. corrected byte 0 ss_en and fs3 reference in fs table. 4. simplified the terminations table.. 5. release to final 1, 2, 3, 4, 5, 16,17
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