DATA SHEET DS0 0 ASSP, IC,,,,, (VS =. V.%) (VCC = 0. V ) (VR =. V.%) ( ) DIP, SIP, SOP, (DIP-P-M0) (SIP-P-M0) (FPT-P-M0)
(FRONT VIEW) (TOP VIEW) C T C T V S V REF V CC V CC V REF V S (DIP-P-M0) (FPT-P-M0) (SIP-P-M0)
VCC 00 k. V + -. A. V Comp. O + - 0 A 0 A + - VREF Comp. S + R Q VS - S 0 k Inhibit Comp.S, VS VS. V, µs,, VS Comp.O / /, / C-MOS IC, (VCC = V, 00 kω ), ( ),,, VS,
VCC VCC TPR (ms) 000 (µf) TWD (ms) 00 (µf) TWR (ms) 0 (µf) 0. µf TPR (ms) 00 (ms) TWD (ms) 0 (ms) TWR (ms) (ms) VCC VSH VSL 0. V T TPR TWD TWR TPR () () ()()() () ()() ()(9) (0) () ()
() VCC 0. V Low High µa (VCC = 0. V) () VCC VSH (. V) :, () : TPR ( High Low ) : TPR TPR (ms) 000 (µf),, : TPR, () ( ), C () (. V), (), () () ( 0. V), ( Low High ) : TWD ( ) TWD (ms) 00 (µf), TWD TWD + TWR () : TWR, (. V) TWR (ms) 0 (µf),,,, (), (), (), () () VCC VSL (. V) (9) VCC VSH VCC, VCC VSL VSH VCC : TPI (0) VCC VSH TPR,, VCC VSL () (0) (), VCC VSL () VCC 0 V, VCC 0. V
VCC 0. + V VS 0. VCC + 0. ( +) V V 0. + V, VOH 0. VCC + 0. ( +) V PD 00 (Ta C) mw Tstg + C (,, ),, VCC +. + V, IOL 0 0 ma VREF IOUT 00 + µa TWD 0. 000 ms tfc, trc 00 µs 0.00 0 µf Top 0 + C,,,,,,,
. (VCC = V, Ta = + C) ICC 00 900 µa VSL VSH VCC.0.0.0 V Ta = 0 C + C.0.0. V VCC.0.0.0 V Ta = 0 C + C..0. V VHYS VCC 0 00 0 mv VREF... V Ta = 0 C + C... V VREF VCC =. V V 0 mv VREF IOUT = 00 µa + µa + mv VTH Ta = 0 C + C 0...0 V IIH V =.0 V 0.0 µa IIL V = 0.0 V.0 0. µa ID V =.0 V 0 µa VOH VS, I = µa..9 V VOH VS = 0 V, I = µa..9 V VOL VS = 0 V, I = ma 0. 0. V VOL VS = 0 V, I = 0 ma 0. 0. V VOL VS, I = ma 0. 0. V VOL VS, I = 0 ma 0. 0. V IOL VS = 0 V, V =.0 V 0 0 ma IOL VS, V =.0 V 0 0 ma IU V =.0 V 0... µa VCCL V = 0. V, I = 0. ma 0.. V VCCL V = VCC 0. V, RL ( pin- ) = MΩ 0.. V
. (VCC = V, Ta = + C) VCC TPI VCC.0 µs TW or.0 µs T 0 µs TWD = 0. µf 0 ms TWR = 0. µf ms TPR = 0. µf, VCC 0 00 0 ms VCC TPD TPD, RL =. kω, CL = 00 pf, RL =. kω, CL = 00 pf 0 0 µs tr tf RL =. kω, CL = 00 pf RL =. kω, CL = 00 pf.0. 0. 0. µs :, 0% 90%
ICC (ma) 0. 0. 0. 0. 0. 0. Ta = + C Ta = + C Ta = -0 C = 0. mf Ta = -0 C Ta = + C Ta = + C V (V).0.0.0.0.0 Pull up. kω Ta = 0 C, + C, + C 0..0 0.0.0.0.0 0.0.0.0.0.0 0.0 0.0.0.0.0.0.0.0 VCC (V) VCC (V) (VSH, VSL).0.0 Pull up. kω.0., VSH V (V).0.0.0.0 Ta = + C Ta = + C Ta = -0 C (VSH, VSL) (V).0.0.0.00 VSL 0.0.0.0.0.0.0.0-0 -0 0 0 0 0 0 00 VCC (V) Ta ( C) VOL (mv) 00 00 00 00 Ta = -0 C Ta = + C Ta = + C = 0.mF VOL (mv) 00 00 00 00 00 Ta = -0 C Ta = + C Ta = + C = 0.mF 0.0.0.0.0 0.0.0.0.0.0 IOL (ma) 0.0.0.0.0 0.0.0.0.0.0 IOL (ma) 9
.0 = 0. mf.0 = 0. mf VOH (V). Ta = -0 C Ta = + C Ta = + C VOH (V). Ta = -0 C Ta = + C Ta = + C.0 0 - -0 - IOH (µa).0 0 - -0 - IOH (µa).. Ta = + C. = 0. mf VREF (V)..0.. Ta = + C Ta = -0 C = 0. mf VREF (V).0. Ta = + C Ta = + C Ta = -0 C..0 0.0.0.0 9.0.0.0.0.0 9.0.0 VCC (V) 0-0 -0-0 -0-00 -0 IREF (µa) VREF (V)....... -0-0 0 0 Ta ( C) 0 0 0 00 TPR (ms) 0 0 0 00 0 0 0 0 VCC = V = 0. mf -0-0 0 0 0 0 0 00 Ta ( C) 0
TWR (ms) 0 ( ) VCC = V = 0. mf -0-0 0 0 0 0 0 00 Ta ( C) TWD (ms) 0 0 VCC = V = 0. mf -0-0 0 0 0 0 0 00 Ta ( C) ( ) 0 TWD (ms) 0 0 0 0 0 0 0 0-0 - Ta = -0 C Ta = + C + C TWR (ms) 0 0 0 0 0-0 - Ta = -0 C Ta = + C + C 0-0 - 0-0 - 0 0 0 0 0 (µf) 0-0 - 0-0 - 0 0 0 0 (µf) TPR (ms) 0 0 0 0 0 0 0 0-0 - Ta = -0 C Ta = + C + C 0-0 - 0-0 - 0 0 0 0 (µf)
) V VCC ( V) ( ) VS VSH, VSL ) V ( ) VCC ( V) R R ( ) VS IC R R R R ( ) R (kω) R (kω) VSL (V) VSH (V) 0.9.. 9..9..
) ( ) a VCC SW ( ) SW ON ( ) LOW ( ) HIGH b VCC Tr 0 kw 0 kw RESIN ( ) RESIN Tr ON LOW HIGH
) (,, NMI) VCC V VCC ( V) 0 kw R 0 kw 0 kw NMI + - R R + -. kw R Comp. Comp.. kw R. kw R ( ) Comp., Comp. MB0, MB9 V V NMI Comp. ( ) (Comp. Comp. ) VCC ( V) VCC ( V) 9. V/9. V 0. V VCC VH R (R//R) VREF ( 9. V) R//R VL R R VREF ( 9. V) R VHYS VH VL
) (, ) VCC ( V) VCC ( V) 0 kw R 0 kw R 0 kw. kw R + - R Comp. + - Comp.. kw R. kw R ( ) Comp., Comp. MB0, MB9 V V (VSL) HIGH LOW ( ) (Comp., Comp. ) VCC ( V) VCC ( V) 9. V/9. V 0. V ) ( NMI)
) ( ) VCC ( V) 0 kw R 0 kw R 0 kw R + - - +. kw R Comp. Comp.. kw R. kw R ( ) Comp., Comp. MB0, MB9 0 VL VH VL VH VCC ( ) Comp., Comp. VL/VH. V/. V VL/VH.0 V/. V ) ( NMI) (Comp., Comp. ) VCC ( V)
) VCC V VCC V C ( ) VCC 0 µs (C 000 pf)
) ( ),, VREF,,,,, a, b,, c, d (a) VCC ( V) HALT R = kw R = MW NPN (b) VCC ( V) HALT R = kw R = kw PNP
(c) VCC ( V) R = MW HALT R = kw NPN (d) VCC ( V) R = kw HALT R = kw PNP 9
9) (a) TPR (b) VCC ( = V) V CC ( = V) ( ) TPR TWD TWR TPR (ms) 00 (µf) TWD (ms) 00 (µf) TWR (ms) (µf) TPR TWD TWR 0. µf TPR TPR 0 ms 00 ms TWD 0 ms 0 ms TWR. ms.0 ms 0
0) VCC ( = V) FF S FF S FF S D Q D Q D Q R Q R Q R Q R R ( ) --- FF FF Q Q NOR ( ) R R. kω 0. µf Q Q Q NOR
,,, FF, FF, FF,,,,, Q,,,,, f, f, f, Q f, + +, f0, f, f, f f0 f f f f
) VCC ( V) R R = 0 kw C Tr ( ) fh fh ( ) T C (. V) T T 0. C R VCC V, T.0 µs, T 0 µs T T C T ( ) C R T ( ) C R T 0.0 µf 0 kω 0 µs 0. µf 0 kω 00 µs
0 kω MΩ 0. V LSI P PS PF DIP, (DIP-P-M0) SIP, (SIP-P-M0) SOP, (FPT-P-M0)
DIP, (DIP-P-M0) 9.0 +0.0 0.0 +.0.0.0 PIN INDEX.0±0. (.±.00).(.)MAX.00(.)MIN 0.(.00)MIN 0.±0.0 (.0±.00) 0.±0.0 (.00±.00) +0.0 0.99 0. +0.0 0.09 0 +.0 0.9 +0. 0.0 +.0.0.0 +.0.00 0.(.00) TYP.(.00) TYP MAX C 99 FUJITSU LIMITED D000S-C- mm (inches) SIP, (SIP-P-M0) 9. +0. 0. +.00..0.±0. (.±.00) INDEX- INDEX-.0±0. (.±.00).0±0.0 (.±.0) 0.99 +0.0 0 +.0.09 0.00±0.0 (.±.0).(.00) TYP. +0.0 0 +.0.00 0 0.0±0.0 (.00±.00) 0.±0.0 (.00±.00) C 99 FUJITSU LIMITED S000S-C- mm (inches)
SOP, (FPT-P-M0) ) ) ) ) *. +0. 0.0 +.00.0.00 +0.0 0. 0.0.00 +.00.00 INDEX *.0±0.0.0±0.0 (.09±.0) (.0±.0) Details of "A" part.00 +0. 0..09 +.00.00 (Mounting height) "A" 0.(.00).(.00) 0.±0.0 (.09±.00) 0.(.00) M 0~ 0.0±0.0 (.00±.00) 0.0±0. (.0±.00) 0.0 +0.0 0.0 +.00.00.00 (Stand off) 0.0(.00) C 00 FUJITSU LIMITED F000S-c-- mm (inches)
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