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| w83194r-39/-39a 100mhz 3-dimm clock publication release date: may 1998 - 1 - revision 0.20 1.0 general description the w83194r-39/-39a is a clock synthesizer which provides all clocks required for high-speed risc or cisc microprocessor such as intel pentium ii. w83194r-39 provides eight different frequency of cpu and pci clocks and W83194R-39A provides sixteen cpu/pci frequencies which are externally selectable with smooth transitions. w83194r-39/-39a also provides 13 sdram clocks controlled by the none-delay buffer_in pin. the w83194r-39/-39a accepts a 14.318 mhz reference crystal as its input and runs on a 3.3v supply. spread spectrum built in at ? 0.5% or ? 0.25% to reduce emi. programmable stopping individual clock outputs and frequency selection through i 2 c interface. the device meets the pentium power-up stabilization, which requires cpu and pci clocks be stable within 2 ms after power-up. it is not recommend to use the dual function pin for the slots(isa, pci, cpu, dimm). the add on cards may have a pull up or pull down. high drive six pci and thirteen sdram clock outputs typically provide greater than 1 v /ns slew rate into 30 pf loads. two cpu clock outputs typically provide better than 1 v /ns slew rate into 20 pf loads as maintaining 50 ? 5% duty cycle. the fixed frequency outputs as ref, 24mhz, and 48 mhz provide better than 0.5v /ns slew rate. 2.0 product features supports pentium ? ii cpu with i 2 c. 2 cpu clocks (one free-running cpu clock) 13 sdram clocks for 3 dims 6 pci synchronous clocks one ioapic clock for multiprocessor support optional single or mixed supply: (vddq1=vddq2 = vddq3 = vddq4 = vddl1 =vddl2= 3.3v) or (vddq1= vddq2 = vddq3=vddq4 = 3.3v, vddl1 = vdql2 = 2.5v) < 250ps skew among cpu and sdram clocks < 250ps skew among pci clocks < 5ns propagation delay sdram from buffer input skew from cpu(earlier) to pci clock -1 to 4ns, center 2.6ns. smooth frequency switch with selections from 50 mhz to 133 mhz cpu i 2 c 2-wire serial interface and i 2 c read back
w83194r-39/-39a preliminary publication release date: may 1998 - 2 - revision 0.20 ? 0.25% or ? 0.5% spread spectrum function to reduce emi programmable registers to enable/stop each output and select modes (mode as tri-state or normal ) 2ms power up clock stable time mode pin for power management one 48 mhz for usb & one 24 mhz for super i/o 48-pin ssop package 3.0 block diagram pll2 xtal osc spread spectrum pll1 latch por stop 1/2 control logic config. reg. stop stop stop pci clock divider ~ ~ 6 4 2 13 5 48mhz 24mhz ioapic ref(0:1) cpuclk_f cpuclk1 sdram(0:12) pciclk(0:4) pciclk_f xin xout buffer in fs(0:2)* 3 mode* cpu_stop# pci_stop# sdata* sdclk* pll2 xtal osc spread spectrum pll1 latch por stop 1/2 control logic config. reg. stop stop stop pci clock divider ~ ~ 6 4 2 12 5 48mhz 24mhz ioapic ref(0:1) cpuclk_f cpuclk1 sdram(0:11) pciclk(0:4) pciclk_f xin xout buffer in fs(0:3)* 4 mode* cpu_stop# pci_stop# sdata* sdclk* sdram12 w83194r-39 W83194R-39A w83194r-39/-39a preliminary publication release date: may 1998 - 3 - revision 0.20 4.0 pin configuration 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 vddq1 pci_stop#/ref0 vss xin xout vddq2 pciclk_f/mode* pciclk0/fs3* vss pciclk1 pciclk2 pciclk3 pciclk4 vddq2 buffer in vss sdram11 sdram10 vddq3 sdram 9 sdram 8 vss sdata sdclk vddl1 ioapic ref1/fs2* vss cpuclk_f cpuclk1 vddl2 cpu_stop# sdram12 vss sdram 0 sdram 1 sdram 2 vddq3 sdram 3 vss sdram 4 sdram 5 sdram 6 sdram 7 vddq4 vddq3 48mhz/fs0* 24mhz/fs1* (W83194R-39A ) 5.0 pin description in - input out - output i/o - bi-directional pin # - active low * - internal 250k w pull-up w83194r-39/-39a preliminary publication release date: may 1998 - 4 - revision 0.20 5.1 crystal i/o symbol pin i/o function xin 4 in crystal input with internal loading capacitors and feedback resistors. xout 5 out crystal output at 14.318mhz nominally. 5.2 cpu, sdram, pci, ioapic clock outputs symbol pin i/o function cpuclk_f 44 out free running cpu clock. not affected by cpu_stop# cpuclk1 43 out low skew (< 250ps) clock outputs for host frequencies such as cpu, chipset and cache. powered by vddl2. low if cpu_stop# is low. cpu_stop# 41 in this asynchronous input halts cpuclk1,ioapic & sdram(0:12) at logic ?0? level when driven low. ioapic 47 out high drive buffered output of the crystal, and is powered by vddl1. sdram [ 0:12] 17,18,20,21,28 ,29,31,32,34, 35,37,38,40 out sdram clock outputs. fanout buffer outputs from buffer in pin.(controlled by chipset) pciclk_f/ *mode 7 i/o free running pci clock during normal operation. latched input. mode=1, pin 2 is ref0; mode=0, pin2 is pci_stop# pciclk0/*fs3 (W83194R-39A) 8 i/o low skew (< 250ps) pci clock outputs. latched input for fs3 at initial power up for h/w selecting the output frequency of cpu, sdram and pci clocks. pciclk [ 0:4 ] (w83194r-39) 8,10,11,12,13 out low skew (< 250ps) pci clock outputs. synchronous to cpu clocks with 1-48ns skew(cpu early). buffer in 15 in inputs to fanout for sdram outputs. sdram [ 0: 11 ] 17,18,20,21, 28,29,31,32, 34,35,37,38 o synchronous dram dims clocks which have the same frequency as cpu clocks w83194r-39/-39a preliminary publication release date: may 1998 - 5 - revision 0.20 5.3 i 2 c control interface symbol pin i/o function sdata 23 i/o serial data of i 2 c 2-wire control interface with internal pull-up resistor. sdclk 24 in serial clock of i 2 c 2-wire control interface with internal pull-up resistor. 5.4 fixed frequency outputs symbol pin i/o function ref0 / pci_stop# 2 i/o 14.318mhz reference clock. this ref output is the stronger buffer for isa bus loads. halt pciclk(0:4) clocks at logic 0 level, when input low (in mobile mode. mode=0) ref1 / *fs2 46 i/o 14.318mhz reference clock. latched input for fs2 at initial power up for h/w selecting the output frequency of cpu, sdram and pci clocks. 24mhz / *fs1 25 i/o 24mhz output clock. latched input for fs1 at initial power up for h/w selecting the output frequency of cpu, sdram and pci clocks. 48mhz / *fs0 26 i/o 48mhz output for usb during normal operation. latched input for fs0 at initial power up for h/w selecting the output frequency of cpu, sdram and pci clocks. 5.5 power pins symbol pin function vddq1 1 power supply for ref [0:1] crystal and core logic. vddl1 48 power supply for ioapic output, either 2.5v or 3.3v. vddl2 42 power supply for cpuclk[0:3], either 2.5v or 3.3v. vddq2 6, 14 power supply for pciclk_f, pciclk[0:4], 3.3v. vddq3 19, 30, 36 power supply for sdram[0:12], and cpu pll core, nominal 3.3v. vddq4 27 power for 24 & 48mhz output buffers and fixed pll core. vss 3,9,16,22,33,39,45 circuit ground. w83194r-39/-39a preliminary publication release date: may 1998 - 6 - revision 0.20 6.0 frequency selection 6.1 frequency table of w83194r-39 fs2 fs1 fs0 cpu,sdram (mhz) pci (mhz) ref,ioapic (mhz) 0 0 0 50 25(cpu/2) 14.318 0 0 1 75 37.5(cpu/2) 14.318 0 1 0 83.3 41.65(cpu/2) 14.318 0 1 1 66.8 33.4(cpu/2) 14.318 1 0 0 103 34.3(cpu/3) 14.318 1 0 1 112 37.33(cpu/3) 14.318 1 1 0 133 33.25(cpu/4) 14.318 1 1 1 100.2 33.3(cpu/3) 14.318 6.2 frequency table of W83194R-39A fs3=0 cpu,sdram (mhz) pci (mhz) ref,ioapic fs2 fs1 fs0 (mhz) 0 0 0 124 41.33(cpu/3) 14.318 0 0 1 75 37.5(cpu/2) 14.318 0 1 0 83.3 41.65(cpu/2) 14.318 0 1 1 66.8 33.4(cpu/2) 14.318 1 0 0 103 34.3(cpu/3) 14.318 1 0 1 112 37.33(cpu/3) 14.318 1 1 0 133 44.33(cpu/3) 14.318 1 1 1 100.3 33.3(cpu/3) 14.318 fs3=1 cpu,sdram (mhz) pci (mhz) ref,ioapic fs2 fs1 fs0 (mhz) 0 0 0 120 40.00(cpu/3) 14.318 0 0 1 115 38.33(cpu/3) 14.318 0 1 0 110 36.67(cpu/3) 14.318 0 1 1 105 35.00(cpu/3) 14.318 1 0 0 140 35.00(cpu/4) 14.318 1 0 1 150 37.50(cpu/4) 14.318 1 1 0 124 31.00(cpu/4) 14.318 1 1 1 133 33.25(cpu/4) 14.318 w83194r-39/-39a preliminary publication release date: may 1998 - 7 - revision 0.20 7.0 mode pin -power management input control mode, pin7 (latched input) pin 2 0 pci_stop# (input) 1 ref0 (output) w83194r-39/-39a preliminary publication release date: may 1998 - 8 - revision 0.20 8.0 funtion description 8.1 power management functions all clocks can be individually enabled or disabled via the 2-wire control interface. on power up, external circuitry should allow 3 ms for the vco ?s to stabilize prior to enabling clock outputs to assure correct pulse widths. when mode=0, pins 15 and 46 are inputs (pci_stop#), (cpu_stop#), when mode=1, these functions are not available. a particular clock could be enabled as both the 2-wire serial control interface and one of these pins indicate that it should be enable. the w83194r-39/-39amay be disabled in the low state according to the following table in order to reduce power consumption. all clocks are stopped in the low state, but maintain a valid high period on transitions from running to stop. the cpu and pci clocks transform between running and stop by waiting for one positive edge on pciclk_f followed by negative edge on the clock of interest, after which high levels of the output are either enabled or disabled. cpu_stop# pci_stop# cpuclk1, ioapic & sdram 0:12 pci other clks xtal & vcos 0 0 low low running running 0 1 low running running running 1 0 running low running running 1 1 running running running running 8.2 2-wire i 2 c control interface the clock generator is a slave i 2 c component which can be ?r ead back ? the data stored in the latches for verification. all proceeding bytes must be sent to change one of the control bytes. the 2- wire control interface allows each clock output individually enabled or disabled. on power up, the w83194r-39/-39ainitializes with default register settings, and then it ?s optional to use the 2-wire control interface. the sdata signal only changes when the sdclk signal is low, and is stable when sdclk is high during normal data transfer. there are only two exceptions. one is a high-to-low transition on sdata while sdclk is high used to indicate the beginning of a data transfer cycle. the other is a low-to-high transition on sdata while sdclk is high used to indicate the end of a data transfer cycle. data is always sent as complete 8-bit bytes followed by an acknowledge generated. byte writing starts with a ?s tart ? condition followed by 7-bit slave address and a write command bit [1101 0010], command code checking [0000 0000], and byte count checking. after successful reception of each byte, an ?a cknowledge ? (low) on the sdata wire will be generated by the clock chip. controller can start to write to internal i 2 c registers after the string of data. the sequence order is as follows: w83194r-39/-39a preliminary publication release date: may 1998 - 9 - revision 0.20 bytes sequence order for i 2 c controller : clock address a(6:0) & r/w ack 8 bits dummy command code ack 8 bits dummy byte count ack byte0,1,2... until stop set r/w to 1 when ?r ead back ?, the data sequence is as follows : clock address a(6:0) & r/w ack byte 0 ack ack byte2, 3, 4... until stop byte 1 8.3 serial control registers the pin column lists the affected pin number and the @powerup column gives the default state at true power up. "command code" byte and "byte count" byte must be sent following the acknowledge of the address byte. although the data (bits) in these two bytes are considered "don't care", they must be sent and will be acknowledge. after that, the below described sequence (register 0, register 1, register 2, ....) will be valid and acknowledged. 8.3.1 register 0: cpu frequency select register (default = 0) bit @powerup pin description 7 0 - 0 = ? 0.25% spread spectrum modulation 1 = ? 0.5% spread spectrum modulation 6 0 - ssel2 (for frequency table selection by software via i 2 c) 5 0 - ssel1 (for frequency table selection by software via i 2 c) 4 0 - ssel0 (for frequency table selection by software via i 2 c) 3 0 - 0 = selection by hardware 1 = selection by software i 2 c - bit 6:4 2 0 - ssel3 (for frequency table selection by software via i 2 c) 1 0 - 0 = normal 1 = spread spectrum enabled 0 0 - 0 = running 1 = tristate all outputs note : the frequency table selected by software via i 2 c is the same as the hardware setting frequency table. w83194r-39/-39a preliminary publication release date: may 1998 - 10 - revision 0.20 function table function outputs description cpu pci sdram ref ioapic tri-state hi-z hi-z hi-z hi-z hi-z normal see table see table cpu 14.318 14.318 8.3.2 register 1 : cpu , 48/24 mhz clock register (1 = enable, 0 = stopped) bit @powerup pin description 7 1 - latched fs2# 6 1 - reserved 5 1 - reserved 4 1 - reserved 3 1 40 sdram12 (active / inactive) 2 1 - reserved 1 1 43 cpuclk1 (active / inactive) 0 1 44 cpuclk_f (active / inactive) w83194r-39/-39a preliminary publication release date: may 1998 - 11 - revision 0.20 8.3.3 register 2: pci clock register (1 = enable, 0 = stopped) bit @powerup pin description 7 1 - reserved 6 1 7 pciclk_f (active / inactive) 5 1 - reserved 4 1 14 pciclk4 (active / inactive) 3 1 12 pciclk3 (active / inactive) 2 1 11 pciclk2 (active / inactive) 1 1 10 pciclk1 (active / inactive) 0 1 8 pciclk0 (active / inactive) 8.3.4 register 3: sdram clock register ( 1 = enable, 0 = stopped ) bit @powerup pin description 7 1 - reserved 6 1 - reserved 5 1 26 48mhz (active / inactive) 4 1 25 24mhz (active / inactive) 3 1 - reserved 2 1 21,20,18,17 sdram(8:11) (active / inactive) 1 1 32,31,29,28 sdram(4:7) (active / inactive) 0 1 38,37,35,34 sdram(0:3) (active / inactive) w83194r-39/-39a preliminary publication release date: may 1998 - 12 - revision 0.20 8.3.5 register 4: reserved register (1 = enable, 0 = stopped) bit @powerup pin description 7 1 - reserved 6 1 - reserved 5 1 - reserved 4 1 - reserved 3 1 - latched fs1# 2 1 - reserved 1 1 - reserved 0 1 - reserved 8.3.6 register 5: peripheral control (1 = enable, 0 = stopped) bit @powerup pin description 7 1 - reserved 6 1 - reserved 5 1 - reserved 4 1 47 ioapic (active / inactive) 3 1 - reserved 2 1 - reserved 1 1 46 ref1 (active / inactive) 0 1 2 ref0 (active / inactive) note: 1. inactive means outputs are held low and are disabled from switching. 2. latched frequency selects(fs#) will be inverted logic load of the input frequency select pin conditions. w83194r-39/-39a preliminary publication release date: may 1998 - 13 - revision 0.20 9.0 specifications 9.1 absolute maximum ratings stresses greater than those listed in this table may cause permanent damage to the device. precautions should be taken to avoid application of any voltage higher than the maximum rated voltages to this circuit. maximum conditions for extended periods may affect reliability. unused inputs must always be tied to an appropriate logic voltage level (ground or vdd). symbol parameter rating vdd , v in voltage on any pin with respect to gnd - 0.5 v to + 7.0 v t stg storage temperature - 65 c to + 150 c t b ambient temperature - 55 c to + 125 c t a operating temperature 0 c to + 70 c 9.2 ac characteristics vdd = vddq3 = 3.3v 5 %, vddq2 = vddl1=vddl2 = 2.375v~2.9v , t a = 0 c to +70 c parameter symbol min typ max units test conditions output duty cycle 45 50 55 % measured at 1.5v cpu/sdram to pci offset t off 1 4 ns 15 pf load measured at 1.5v skew (cpu-cpu), (pci- pci), (sdram-sdram) t skew 250 ps 15 pf load measured at 1.5v cpu/sdram cycle to cycle jitter t ccj ? 250 ps cpu/sdram absolute jitter t ja 500 ps jitter spectrum 20 db bandwidth from center bw j 500 khz output rise (0.4v ~ 2.0v) & fall (2.0v ~0.4v) time t tlh t thl 0.4 1.6 ns 15 pf load on cpu and pci outputs overshoot/undershoot beyond power rails v over 0.7 1.5 v 22 w at source of 8 inch pcb run to 15 pf load ring back exclusion v rbe 0.7 2.1 v ring back must not enter this range. w83194r-39/-39a preliminary publication release date: may 1998 - 14 - revision 0.20 9.3 dc characteristics vdd = vddq3 = 3.3v 5 %, vddq2 = vddl1=vddl2 = 2.375v~2.9v , t a = 0 c to +70 c parameter symbol min typ max units test conditions input low voltage v il 0.8 v dc input high voltage v ih 2.0 v dc input low current i il -66 m a input high current i ih 5 m a output low voltage i ol = 4 ma v ol 0.4 v dc all outputs output high voltage i oh = 4ma v oh 2.4 v dc all outputs using 3.3v power tri-state leakage current ioz 10 m a dynamic supply current for vdd + vddq3 i dd3 ma cpu = 66.6 mhz pci = 33.3 mhz with load dynamic supply current for vddq2 + vddq2b i dd2 ma same as above cpu stop current for vdd + vddq3 i cpus3 ma same as above cpu stop current for vddq2 + vddq2b i cpus2 ma same as above pci stop current for vdd + vddq3 i pd3 ma w83194r-39/-39a preliminary publication release date: may 1998 - 15 - revision 0.20 9.4 buffer characteristics 9.4.1 type 1 buffer for cpu clock parameter symbol min typ max units test conditions pull-up current min i oh(min) -27 ma vout = 1.0 v pull-up current max i oh(max) -27 ma vout = 2.0v pull-down current min i ol(min) ma vout = 1.2 v pull-down current max i ol(max) 27 ma vout = 0.3 v rise/fall time min between 0.4 v and 2.0 v t rf(min) 0.4 ns 10pf load rise/fall time max between 0.4 v and 2.0 v t rf(max) 1.6 ns 20pf load 9.4.2 type 2 buffer for ioapic parameter symbol min typ max units test conditions pull-up current min i oh(min) ma vout = 1.4 v pull-up current max i oh(max) -29 ma vout = 2.7 v pull-down current min i ol(min) ma vout = 1.0 v pull-down current max i ol(max) 28 ma vout = 0.2 v rise/fall time min between 0.7 v and 1.7 v t rf(min) 0.4 ns 10pf load rise/fall time max between 0.7 v and 1.7 v t rf(max) 1.8 ns 20pf load w83194r-39/-39a preliminary publication release date: may 1998 - 16 - revision 0.20 9.4.3 type 3 buffer for ref1, 24mhz, 48mhz parameter symbol min typ max units test conditions pull-up current min i oh(min) -29 ma vout = 1.0 v pull-up current max i oh(max) -23 ma vout = 3.135v pull-down current min i ol(min) 29 ma vout = 1.95 v pull-down current max i ol(max) ma vout = 0.4 v rise/fall time min between 0.8 v and 2.0 v t rf(min) 1.0 ns 10pf load rise/fall time max between 0.8 v and 2.0 v t rf(max) 4.0 ns 20pf load 9.4.4 type 4 buffer for sdram (0:12) parameter symbol min typ max units test conditions pull-up current min i oh(min) ma vout = 1.65 v pull-up current max i oh(max) -46 ma vout = 3.135 v pull-down current min i ol(min) ma vout = 1.65 v pull-down current max i ol(max) 53 ma vout = 0.4 v rise/fall time min between 0.8 v and 2.0 v t rf(min) 0.5 ns 20pf load rise/fall time max between 0.8 v and 2.0 v t rf(max) 1.3 ns 30pf load 9.4.5 type 5 buffer for pciclk(0:4,f) parameter symbol min typ max units test conditions pull-up current min i oh(min) -33 ma vout = 1.0 v pull-up current max i oh(max) -33 ma vout = 3.135 v pull-down current min i ol(min) 30 ma vout = 1.95 v pull-down current max i ol(max) 38 ma vout = 0.4 v rise/fall time min between 0.8 v and 2.0 v t rf(min) 0.5 ns 15pf load rise/fall time max between 0.8 v and 2.0 v t rf(max) 2.0 ns 30pf load w83194r-39/-39a preliminary publication release date: may 1998 - 17 - revision 0.20 10.0 power management timing 10.1 cpu_stop# timing diagram cpuclk (internal) pciclk (internal) pciclk_f cpu_stop# cpuclk[0:3] sdram 3 4 1 2 3 4 1 2 for synchronous chipset, cpu_stop# pin is an asynchronous ? active low ? input pin used to stop the cpu clocks for low power operation. this pin is asserted synchronously by the external control logic at the rising edge of free running pci clock(pciclk_f). all other clocks will continue to run while the cpu clocks are stopped. the cpu clocks will always be stopped in a low state and resume output with full pulse width. in this case, cpu ?c locks on latency ? is less than 4 cpu clocks and ?c locks off latency ? is less then 4 cpu clocks. 10.2 pci_stop# timing diagram cpuclk (internal) pciclk (internal) pciclk_f pci_stop# pciclk[0:5] 1 2 1 2 for synchronous chipset, pci_stop# pin is an asynchronous ?a ctive low ? input pin used to stop the pciclk [0:4] for low power operation. this pin is asserted synchronously by the external control logic at the rising edge of free running pci clock(pciclk_f). all other clocks will continue to run while the pci clocks are stopped. the pci clocks will always be stopped in a low state and resume output with full pulse width. in this case, pci ?c locks on latency ? is less than 2 pci clocks and ?c locks off latency ? is less then 2 pci clocks. w83194r-39/-39a preliminary publication release date: may 1998 - 18 - revision 0.20 11.0 operation of dual fuction pins pins 2, 7, 8, 25, and 26 are dual function pins and are used for selecting different functions in this device (see pin description). during power up, these pins are in input mode (see fig1), therefore, and are considered input select pins. when vdd reaches 2.5v, the logic level that is present on these pins are latched into their appropriate internal registers. once the correct information are properly latched, these pins will change into output pins and will be pulled low by default. at the end of the power up timer (within 3 ms) outputs starts to toggle at the specified frequency. within 3ms input output output tri-state output pull-low 2.5v output tri-state output pull-low #7 pciclk_f/mode #46 ref1/fs2 #25 24/fs1 #26 48/fs0 all other clocks vdd each of these pins are a large pull-up resistor ( 250 k w @3.3v ) inside. the default state will be logic 1, but the internal pull-up resistor may be too large when long traces or heavy load appear on these dual function pins. under these conditions, an external 10 k w resistor is recommended to be connected to vdd if logic 1 is expected. otherwise, the direct connection to ground if a logic 0 is desired. the 10 k w resistor should be place before the serious terminating resistor. note that these logic will only be latched at initial power on. if optional emi reducing capacitor are needed, they should be placed as close to the series terminating resistor as possible and after the series terminating resistor. these capacitor has typical values ranging from 4.7pf to 22pf. w83194r-39/-39a preliminary publication release date: may 1998 - 19 - revision 0.20 device pin vdd ground ground 10k series terminating resistor clock trace emi reducing cap 10k w w optional device pin vdd pad ground pad programming header series terminating resistor clock trace emi reducing cap ground 10k w optional w83194r-39/-39a preliminary publication release date: may 1998 - 20 - revision 0.20 13.0 ordering information part number package type production flow w83194r-39/-39a 48 pin ssop commercial, 0 c to +70 c 14.0 how to read the top marking w 8 3 1 9 4 r - 3 9 2 8 0 5 1 2 3 4 8 1 4 g b b w 8 3 1 9 4 r - 3 9a 2 8 0 5 1 2 3 4 8 1 4 g b b 1st line: winbond logo and the type number: w83194r-39/-39a 2nd line: tracking code 2 8051234 2 : wafers manufactured in winbond fab 2 8051234 : wafer production series lot number 3rd line: tracking code 814 g b b 814 : packages made in ' 98 , week 14 g : assembly house id; a means ase, s means spil, g means gr bb : ic revision all the trade marks of products and companies mentioned in this data sheet belong to their respective owners . w83194r-39/-39a preliminary publication release date: may 1998 - 21 - revision 0.20 15.0 package drawing and dimensions headquarters no. 4, creation rd. iii science-based industrial park hsinchu, taiwan tel: 886-35-770066 fax: 886-35-789467 www: http://www.winbond.com.tw/ taipei office 11f, no. 115, sec. 3, min-sheng east rd. taipei, taiwan tel: 886-2-7190505 fax: 886-2-7197502 tlx: 16485 wintpe winbond electronics (h.k.) ltd. rm. 803, world trade square, tower ii 123 hoi bun rd., kwun tong kowloon, hong kong tel: 852-27516023-7 fax: 852-27552064 winbond electronics (north america) corp. 2730 orchard parkway san jose, ca 95134 u.s.a. tel: 1-408-9436666 fax: 1-408-9436668 please note that all data and specifications are subject to change without notice. all the trade marks of products and companies mentioned in this data sheet belong to their respective owners . these products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. winbond customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify winbond for any damages resulting from such improper use or sale. |
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