135 54107/74107 Dual U-K Master- Slave Flip-Flop with Clear oN Schottky TTL High-Speed TTL Low-Power Schotty TTL Standard TTL Low-Power TTL Package Package Package . Package . Package Device Type Device Type Device Type Device Type Device Type P Te TP [Mm [CFI cP |[m|cr c/P|M|cr c|P|M|cr c]P|M|cr Tl SN54L S107 2 @ ISN54107 J au SN74LS107 J OND ISN74107 JOIN FM54107/FMGNIOT D FAIRCHILD IFC74)07/F CaNI07 DOPO IMO54107 LO MOTOROLA IMC74107 LO|PO NSC. DMS54LS 107 NO} DM54107 J olNo om DM74L S107 NO DM74107 J OIN PHILIPS N74L S107 oO F JJ261/74107 $54107 FOIA) SIGNETICS N74L S107 AQ] IN74107 FO|AD SIEMENS FLJ2 o| FUJITSU TAL. S107 Mal MBA10 O|MO! M53307 HITACHI HD74L.$107 PO D24407/HD2530 OPO MITSUBISH M74LS107 PO IM53307 PO} NEC 1 PB2107 dG TOSHBA TOIM107 Po Tectei 7 . . . Electrical Characteristics SN54LS107/SN74LS107 Pin Assignment (Top View) absolute maximum ratings over operating free-air temperature range Supply voltage. VOC W Operatng free-air 7 SNSMLS =55C 10 128C Tapot vor 7 temperature range SNTALS Te Te ~ Storage tamperslure oa 65'C x 180C CLR LX 2K CLR 2x 2 - 14|_fr3}_ fiz] fii} frol_J 9 LJ s recommended operating conditions SNS4LS107 SN74LS 107 un MIN NOM MAX | MIN NOM MAX Supply voltage. Voc. as 5 5.8 | 478 $s 5.28 v Hogh-tevel output current. 1oH 400 =400 [uA Low-level output currant. IoL 4 a mA Goch high 20 20 Pulse width, te ns Prenat or clear low 25 2 Input setup time, teens High level data zat 204 Low level data 201 204 as Input Nord wme, thew os oF *s Operating tree-air temperature, Ta, ~55 125 0 0 c electrical characteristics over recommended operating Function Table free-air temperature range . See PARAMETER * TEST CONDITIONSt [MIN TYP MAX | UNIT (ib? (eee Nate 2) aT) ae aa Vin High-level input voltage 2 v a oF Vit Low-level input voltage o.8| v Hom kd ag & % & Vi Input clamp voltage Vec=MIN, 1)=18mA 1.5] V pont Adi & tooatt Vec=MIN, ViH= 2, fe 4 | Togete Soe Vou High-level output voltage ce 2.7 3.4 Vv. Vit. =0.8V. loH=MAX : . Voo=MIN. Vin=2V Functional Block Diagram Vou Low-level output voltage . . 0.25 o.4] Vv Vii =0.8V. Ilqu=4maA Input current at O.1.K o.3 ; : ! 1 Clear v MAX VI=7V 0.2 A maximum 40 MAX, = m \ aximum ypu po cc ' 03 voltage Clock 0.4 DK 20 - High-level Clear 60 MK (grieve ce Voc=MAX. W=2.7V uA Input current Preset 60 1 = x Slock ge D.LK. 04 oxox 1O7-OUAL J-K MASTHR-SLAVE FUP LOPE WITH CLEAN ; Low-level Clear Vec=MAX. V=0.4v 08} oy tu input current Preset cos yes 0.8 Clock 0.8 Short-circuit Series 545 , 20 100 oF r 8 los Voo=MAX mA output current] Series 745 20 100 clear i t K me too Supely ourren Voc=MAX, See Note 1 4 6 | ma (Average per ftio- flop) cl fmax maximum clock frequency 7 30. 45 MHz hock Voc= 5V, (STO7-DUAL JK WEGATIVE-EDGE- TRQUERED FUP-FLOPE WITH CLEAR tPLH from clear, Preset cr clock Ta = 25C, 15 20 = CL = I5pF, as to OQ or O 1PHL RL = 2k 1S 20 NOTES: 1. With all outputs open, ICC is measured with the Q and Q outputs high in turn. At tne time of measurement, the clock input is grounded. 2. H=high tevel (steady state}, L=low level (stedady state}, xirrelevant. + =transition from high to low level. QO =the level of Q before the indicated input conditions were established. TOGGLE: Each output changes to the complement of its previous level on each active transition (pulse) of the clock. t For conditions shown as MIN or MAX, use the appropriate value specified under recommended operating conditions. TAI! typical values are at Voc= 5 V.Ta=25C Not more than one output should be shorted at a time. *PLH=Propagation delay time, low to high-level output. tpHL=Propagation delay time. high to low level output. 1 1 The arrow indicates the edge of the clock pulse used for reference. t for the risinge. | for the fallig edge.