TOSHIBA CMOS DIGITAL INTEGRATED CIRCUIT TC74AC74P/F/FN/FS TECHNICAL DATA SILICON MONOLITHIC INTEGRATED CIRCUIT TOSHIBA DUAL D-TYPE FLIP FLOP WITH PRESET AND CLEAR The TC74AC74 is an advanced high speed CMOS D - FLIP FLOP fabricated with silicon gate and double - layer metal wiring C2MOS technology. It achieves the high speed operation similar to equivalent Bipolar Schottky TTL while maintaining the CMOS low oo. . P( DIP14 P 300) FN (SOL14P 150) power dissipation, ; Weight : 0.96g(TYP.) Weight : 0.12g (TYP.) The signal level applied to the D INPUT is transferred to Q OUTPUT during the positive going transition of the CK a ss pulse. 14 &. ee 14 CLR and PR are independent of the CK and are agees accomplished by setting the appropriate input to an L level. 1 1 All inputs are equipped with protection circuits against static F(SOPI4P300) FS(SSOP14P225) discharge or transient excess voltage. Weight :0.18g(TYP.) Weight : 0.07g (TYP.) PIN ASSIGNMENT FEATURES: High Speedsrrressccsscccsccesecesecenes f = 200MHz (typ. _ 1gh Spee MAX (typ.) 1ciR 1 14 Vec at Voc =5V _ + Low Power Dissipation-+-- loc = 4uA(Max.) at Ta=25C iD2[ [] 13 2cLR e High Noise Immunity errreeereeerreeers VNIH =VnIL = 28% Vec (Min.) 1CK 3 Ci | 12 2D Symmetrical Output Impedance---| lou | =lot = 24mA(Min.) 1PR 4 Ci | 11 2CK Capability of driving 500, 10 5 0 rT 10 2PR transmission lines. 16 6 C 7 9 20 Balanced Propagation Delays::-- tp_y=t _ nce *Op gatlo. elay pLH = tpHL GND 7 o 7 8 20 Wide Operating Voltage Range:: Voc (opr) = 2V~ 5.5V e Pin and Function Compatible with 74F74 (TOP. VIEW) TRUTH TABLE IEC LOGIC SYMBOL INPUTS OUTPUTS =$= = FUNCTION CLR | PR D CK Q Q 1PR L H Xx x L H CLEAR 1CK H L x | xX H L PRESET 1D 1CLR L L Xx Xx H H _ PR H H Lo} F L H _ 2cK H | H | H | fF | H L _2D = 2CLR H H X | LL | Qn | Qn | NO CHANGE X: Don't Care The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TC74AC74 - 1 TOSHIBA CORPORATION for any infringements of intellectual property or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any intellectual property or other rights of TOSHIBA CORPORATION or others. @ 1996 -4-22 These TOSHIBA products are intended for use in general commercial applications (office equipment, communication equipment, measuring equipment, domestic appliances, etc.). please make sure that you consult with us before you use these TOSHIBA products in equipment which requires extraordinarily high quality and/or reliability, and in equipment which may involve life threatening or critical application, including but TOSHIBA CORPORATION not limited to such uses as atomic energy control, airplane or spaceship instrumentation, traffic signals, medical instrumentation, combustion control, all types of safety devices, etc. TOSHIBA cannot accept and hereby disclaims liability for any damage which may occur in case the TOSHIBA products are used in such equipment or applications without prior consultation with TOSHIBA.INTEGRATED CIRCUIT TOSHIBA TC74AC74P/F/FN/FS TECHNICAL DATA SYSTEM DIAGRAM __s-1/13 CLR f>of>o 4/10 PR {>o-e-[eo 6/8 t+_>o_ fo Q f>o 2/12 D p>_ pt 5/9 q =: _o_o Q $ $ g 3/11 CK _{>o-_[>o_____ z ABSOLUTE MAXIMUM RATINGS PARAMETER SYMBOL VALUE UNIT *500mW in the range of Ta= Supply Voltage Range Vec 0.5~7.0 V 7 AOS 85C. From Ta=65C N5~ to 85C a derating factor o DC Input Voltage Vin 0.5~Vec + 0.5 V ~10mW/"C should be applied DC Output Voltage Vout 0.5~Vec + 0.5 V up to 300mW. Input Diode Current lik +20 mA Output Diode Current lox +50 mA DC Output Current lout +50 mA DC Ve/Ground Current lec +100 mA Power Dissipation Pp 500 (DIP)* / 180 (SOP/SSOP) | mW Storage Temperature Tstg 65~150 a @ RECOMMENDED OPERATING CONDITIONS PARAMETER SYMBOL VALUE UNIT Supply Voltage Vec 2.0~5.5 Vv Input Voltage Vin O~Vec Vv Output Voltage Vout 0~Vec Vv Operating Temperature Topr 40~85 . . O~ 100 (Vcc = 3.3 0.3V) Input Rise and Fall Time dt/dV O~ 20(vec= 5+0.5V) ns/V TC74AC74 - 2 1996 - 4-22 TOSHIBA CORPORATIONINTEGRATED CIRCUIT TOSHIBA TC7T4ACT74P/F/FN/FS TECHNICAL DATA DC ELECTRICAL CHARACTERISTICS Vv Ta =25C Ta = -40-85C PARAMETER SYMBOL TEST CONDITION cc UNIT (V)] MIN. | TYP. | MAX. | MIN. | MAX. ; 2.0| 1.50] - 1.50 | High - Level Vi 30/210 | |210}/ - | v p g 55/ 3.85 | | 385] Low - Level 2.0 | - | 050] | 0.50 Input Voltage Vit 3.0 0.90 0.90 | V p g 55] | 165] | 1.65 2.0| 1.9 | 2.0 1.9 lon=5OvA | 3.0] 2.9 | 3.0 | 2.9 High - Level Vv Vin= 45} 44 | 45 4.4 - y Output Voltage oH VicorV lou = 4mA 3.0) 2.58) | 248] - HOP Vit Jign=24mA | 4.5 | 3.94 | | 380] - lou = 75mA* 5.5 _ _ _ 3.85 _ 2.0/ - | 0.0 | 0.1 - | 0.1 Low - Level Vo Vin= 45} | 00 | 0.1 0.1 V Output Voltage Vie orV lo. = 12mA 30] | 0.36] | 0.44 IHOPVit io, =24mA 45]; |036] | 0.44 lo. = 75mA* 55] - - 1.65 Input Leakage Current lin Vin =Vec or GND 5.5 _ _ +0.1 _ + 1.0 A Quiescent Supply Current lec Vin =Vec or GND 5.5 - - 4.0 - 40.0 | * : This spec indicates the capability of driving 500 transmission lines. One output should be tested at a time for a 10ms maximum duration. TIMING REQUIREMENTS { Input t, = t; = 3ns ) TEST CONDITION Ta=25C Ta = -40~85C PARAMETER SYMBOL UNIT Vee LIMIT LIMIT Minimum Pulse Width twiL) 3.3 +0.3 7.0 7.0 (CK) tw (H) 5.0+0.5 5.0 5.0 Minimum Pulse Width two 3.3+0.3 7.0 7.0 (CLR, PR) () 5.0+0.5 5.0 5.0 . . 3.3+0.3 6.0 6.0 - t ns Minimum Set-up Time 5 5.0+05 35 35 wo. . 3.3+0.3 1.0 1.0 t Minimum Hold Time h 50405 10 10 Minimum Removal Time t 3.3+0.3 4.0 4.0 (CLR, PR) rem 5.0+0.5 2.0 2.0 TC74AC74 - 3 1996 - 4-22 TOSHIBA CORPORATIONINTEGRATED CIRCUIT TOSHIBA TC74AC74P/F/FN/FS TECHNICAL DATA AC ELECTRICAL CHARACTERISTICS ( C, = 50pF, R, = 500 0, Input t,=t;=3ns) TEST CONDITION Ta =25C Ta = 40~85C PARAMETER SYMBOL UNIT Veco (V)} MIN. TYP. MAX. MIN. | MAX. Propagation Delay Time toLH 3.3403) 8.2 | 13.9 1.0 | 16.0 (CK-Q,0) tH 5.0405] 61 | 87 | 10 | 100 | Propagation Delay Time toLH 3.340.3] 8.0 | 13.1 1.0 | 15.0 (CLR,PR-O,0) toHL 5.0405 _ 5.7 8.2 1.0 9.4 Clock Frequency MAX 5.0+0.5| 100 160 - 100 Input Capacitance Cin _ 5 10 _ 10 pF Power Dissipation Capacitance | Cpp (1) 77 Note (1) Cpp is defined as the value of the internal equivalent capacitance which is calculated from the operating current consumption without load. Average operating current can be obtained by the equation : Icc(opr.) =C pp* Vcc fin tlec/2 (per F/F) TC74AC74 - 4 1996 -4-22 TOSHIBA CORPORATIONINTEGRATED CIRCUIT TOSHIBA TC74AC74P/F/FN/FS TECHNICAL DATA DIP 14PIN OUTLINE DRAWING ( DIP14 P 300) Unit in mm ois" | wD z 6.440.2 7.62 19.75MAX 19.2540.2 4.1540.3 3.320.3 2.005TYP 440. 0.540.1 10.250) Weight : 0.96g (TYP.) SOP 14PIN (200mil BODY ) OUTLINE DRAWING ( SOP14 P 300) Unit in mm 14 a _ HEEREEE a = RF || & 1 mile in NS Spa Ei HAA 1 7 1.34TYP 0.43+0.1 [10.25 10.8MAX ae It 0.1] 0.153:45 | 0,820.2 Weight : 0.18g (TYP.) TC74AC74 - 5 1996 -4-22 TOSHIBA CORPORATIONINTEGRATED CIRCUIT TOSHIBA TC74AC74P/F/FN/FS TECHNICAL DATA SOP 14PIN (150mil BODY ) OUTLINE DRAWING ( SOL14P 150) Unit in mm 14 8 HHHHEEH =| o Oo Qo a} ie) co HH d . 1 7 0.515TYP 0.4240.07 rerasegy 1.27 8.65+0.1 nu HS nS a <8 45 (Io tls ln wo 70.1] 5 S S 0.740.3 Weight : 0.12g (TYP.) SSOP 14PIN OUTLINE DRAWING ( $SOP14 P 225) Unit in mm 14 8. onapaag NT 8 = o Oo E tS al t o NX Hu Hl obo 1 | 7 0.55TYP 0.22+0.1 tr a0 $[0.13@) 0.65 5.5MAX 5.040.2 N x 2 Lg os 39 - WT NF & 6 70.1) <8 2 QO Weight : 0.07g (TYP.) a 0.45+0.2 TC74AC74 - 6* 1996 -4-22 TOSHIBA CORPORATION