394 9601 Monostable Multivibrator Schottky TTL High-Speed TTL Low-Power Schottky TTL Standard TTL Low-Power TTL Pack, Package Package . Package . Package Device Type |7 Device Type ee Device Type Device Type Device Type " ype lc YP Tc] P| M|cF ype (cl P[m|cr| ype (C| P| M|cr Pe cl Pl Micr T. \ SN2960! L@ING i FMg601 ot FD FAIRCHILD F C9601 owMje@o ED MC960! La FQ) MOTOROLA MC8601 LOPa. fea DMS601 JONa] [wo [ N.S. C. DM60! Tool lwo! L PHILIPS SIGNETICS SIEMENS FUJITSU HITACHI | MITSUBISHI | | NEC TOSHIBA Electrical Characteristics SN2960! . . . _ . . Pin Assignment (Top View) absolute maximum ratings over operating free-air temperature range Suppl Itage, V 0 ting free-air upply voltage, Voc By perating f oc 10 75C {see Notes 1 and 2) temperature range Input voltage 5.5V Storage temperature range -65C to ISOC Interemitter voltage (see Note 3) 5.5V Steady-state input current range --30mA to SMA Low-level output current 50 mA recommended operating conditions SN29601 UNIT MIN NOM MAX Supply voitage, Voc 4.75 5 6.25 v High logic level 20 s Z Normalized fan-out from each output, N [Bish tog Al Az Bl 82 NC Q@ GND E Low logic level 10 Input data setup time, tsetup 40 ns Positive logic: see function table Input data hold time, thoid 49 nS (See Note A) NC =No internal connection. Width of clear pulse, tw (clear) 40 ns External timing resistance 5 50} kQ External capacitance No restriction Wiring capacitance at Reyt/Cext terminal 50| pF Function Table Operating free-air temperature, T 0 7s| Cc , A____. - |_< (See Note B) electrical characteristics over operating free-air urs OUTPUTS temperature range INP | BI B2 a A PARAMETER TEST CONDITIONS T [MIN TYP $ MAX | UNIT Al A? o8 Vin High-level input voltage 2 v H 4H x x L H Vit Low-level input voltage 0.8] Vv x x L x t Vi Input clamp voltage VOO=MIN, =l2mA =Ust v x xX x Ly} tooH Voc=MIN, lon~800#A bt x HH} LH Vv High-level output voltage . | 24 3.4 v OH 8 m 3 See Note 4 L x I i. n i L x Voo-MIN, lou =l6mA, v Low-level output volt Y 02 O04] Vv ol erie But voltage See Note 4 x L 4 , A tr x L tT Input current at I VooMAX, V,)~5.5V I A ' maximum input vottage ce | x ri " nt + H om High-level data inputs 40 MH VoCTMAX, Vy=2.4 |- input current clear input ce x 72 80 BA 4 I H Hp 1 Low-level data inputs 1.6 t H H Hise iu VecMAX. Vv) =0.4V -~ mA input current clear input 3.2 los Short-circuit output current @ Voc 7MAX, See Note 4 10 40] mA Suppi rrant tec upply Cul VoOCMAX, See Notes 5 and& 23 28) mA (quiescent or triggered) t from either A input to Q output 22 33] ns PLH " B vl Vco=5V, | Tan 2s, tPLH | from either B input to Q output c 0 R 5ka i9 28 ns NOTES = ext ~ 0, ext = , 1. Voltage valves, exoept interemitter voltage, are with respect to network gronud terminal. tPHL | from either_A input to Q output Cy = 1SpF Ry ~4000 30 40| ns 2. The maximum Vgg value of 8 volts is not the primary factor ia cetermmen he maximum Yoo whoh may be applied to a tPHL | from either B input to Q output , 27 36| ns number of interconnected devices. The voltage at a high output is approximately 1wo forward-biased-diode drops below the Vg voltage, fi 3 " tw(min) Minimum width of Q output pulse a5 5) ons vor valage 80 the riety ht cn eg tet the voltage mt any input may Ot go sbove 5.5 volts. Ths effectively } Alin Vog=5V Ta=25e 3. This ts the voltage between two emitters of a multiple-emitter transistor. This rating apphes between mputs that go directly . ' nto ha same AND or NAND gate in the functional block diagram tw Width of Q output putse Cox; (000pF, Rox, = 10k, 4, Ground Cox: to measure VoH at O. Voy at 5, of log at O. Coxy 18 open to measure VoH at O, Vor at Q, oF Ios at & ) ~I50F R, -4000 3.08 3.42 3.76] us 5. Quiescent Ic is measured (after clearing) with 2.4 V applied to all clear and A inputs, B inputs grounded, Coxy0.02xF, L pr. L Raxt = 25kO, Ape and all outputs open. 6. IG is measured in the triggered state with 2.4V applied to all clear and G mmputs, A inputs grounded. Cgx1 0.02 #F. Rext 25 k&, Rit and all outputs open. A. An oxternal timing capacitor may be connected detwoen Cayt and Reyt/Cex1 (positive) B. Hhigh level (steady state). L = low level (steady state), f transition from low to high level, | = transition from high to low level, JL ~ one bigh-level pulse, LT = one low-level pulse, X = irrelevant (any input , imoluding transitions) t For conditions shown as MIN or MAX, use the value specified under recommended operating conditions. 3 All typical values are at Vog5V, Ta25C. @ Not more than one output should be shorted at a time. #IPLH propagation delay time, low-to-high-level output. 'PHL, propagation delay time, high-to-low-level output. These conditions are recommended for use at Voc= 5V, TAa=25C.