M74HC4053TTR中文资料

7474HC4052 74HC4053 74HC4060 74HC4066 74HC4075 74HC42 74HC423A 74HC4514　74HC4538A　74HC4543 74HC51 74HC521 74HC533 74HC534 74HC540 74HC541 74HC58 74HC589 74HC594 74HC595 74HC597 74HC620 74HC623 74HC640 74HC643 74HC646 74HC648 74HC688 74HC7266 74HC73 74HC74A 74HC75 74HC76 74HC85 74HC86 74HC942 74HC943 74LS00 74LS02 74LS03 74LS04 74LS05 74LS08 74LS09 74LS10 74LS109 74LS11 74LS112 74LS113 74LS114 74LS122 74LS123 74LS125 74LS160 74LS136 74LS138 74LS139 74LS14 74HC147 74HC148 74HC149 74LS151 74LS153 74LS155 74LS156 74LS157 74LS158 74LS160A　74LS161A　74LS162A　74LS163A　74LS164 74LS168 74LS169 74LS173 74LS174 74LS175 74LS190 74LS191 74LS192 74LS193 74LS194A 74LS195A 74LS20 74LS21 74LS240 74LS244 74LS245 74LS253 74LS256 74LS257 74LS258 74LS27 74LS279 74LS28 74LS283 74LS30 74LS32 74LS352 74LS367 74LS368A 74LS373 74LS76 74LS379 74LS38 74LS390 74LS393 74LS42 74LS48 74LS49 74LS51 74LS540 74LS541 74LS74 74LS682 74LS684 74LS75 74LS83A 74LS85 74LS86 74LS90 74LS95B 74LS688 74LS136 74LS651 74LS653 74LS670 74LS73A　74、74HC、74LS系列芯片资料2006-9-22 23:06系列 电平 典型传输延迟ns 最大驱动电流(-Ioh/Lol)mA AHC CMOS 8.5 -8/8AHCT COMS/TTL 8.5 -8/8HC COMS 25 -8/8HCT COMS/TTL 25 -8/8ACT COMS/TTL 10 -24/24F TTL 6.5 -15/64ALS TTL 10 -15/64LS TTL 18 -15/24注：同型号的74系列、74HC系列、74LS系列芯片，逻辑功能上是一样的。

74系列芯片标准数字电路资料-功能大全一．74系列芯片标准数字电路资料-功能大全二。

74系列芯片资料三．74HC/LS/HCT/F系列芯片的区别四．逻辑电平介绍TTL,CMOS五．74HC244与245作用与区别六．74芯片分类总汇一．74系列芯片标准数字电路资料-功能大全7400 TTL 2输入端四与非门7401 TTL 集电极开路2输入端四与非门7402 TTL 2输入端四或非门7403 TTL 集电极开路2输入端四与非门7404 TTL 六反相器7405 TTL 集电极开路六反相器7406 TTL 集电极开路六反相高压驱动器7407 TTL 集电极开路六正相高压驱动器7408 TTL 2输入端四与门7409 TTL 集电极开路2输入端四与门7410 TTL 3输入端3与非门74107 TTL 带清除主从双J-K触发器74109 TTL 带预置清除正触发双J-K触发器7411 TTL 3输入端3与门74112 TTL 带预置清除负触发双J-K触发器7412 TTL 开路输出3输入端三与非门74121 TTL 单稳态多谐振荡器74122 TTL 可再触发单稳态多谐振荡器74123 TTL 双可再触发单稳态多谐振荡器74125 TTL 三态输出高有效四总线缓冲门74126 TTL 三态输出低有效四总线缓冲门7413 TTL 4输入端双与非施密特触发器74132 TTL 2输入端四与非施密特触发器74133 TTL 13输入端与非门74136 TTL 四异或门74138 TTL 3-8线译码器/复工器74139 TTL 双2-4线译码器/复工器7414 TTL 六反相施密特触发器74145 TTL BCD—十进制译码/驱动器7415 TTL 开路输出3输入端三与门74150 TTL 16选1数据选择/多路开关74151 TTL 8选1数据选择器74153 TTL 双4选1数据选择器74154 TTL 4线—16线译码器74155 TTL 图腾柱输出译码器/分配器74156 TTL 开路输出译码器/分配器74157 TTL 同相输出四2选1数据选择器74158 TTL 反相输出四2选1数据选择器7416 TTL 开路输出六反相缓冲/驱动器74160 TTL 可预置BCD异步清除计数器74161 TTL 可予制四位二进制异步清除计数器74162 TTL 可预置BCD同步清除计数器74163 TTL 可予制四位二进制同步清除计数器74164 TTL 八位串行入/并行输出移位寄存器74165 TTL 八位并行入/串行输出移位寄存器74166 TTL 八位并入/串出移位寄存器74169 TTL 二进制四位加/减同步计数器7417 TTL 开路输出六同相缓冲/驱动器74170 TTL 开路输出4×4寄存器堆74173 TTL 三态输出四位D型寄存器74174 TTL 带公共时钟和复位六D触发器74175 TTL 带公共时钟和复位四D触发器74180 TTL 9位奇数/偶数发生器/校验器74181 TTL 算术逻辑单元/函数发生器74185 TTL 二进制—BCD代码转换器74190 TTL BCD同步加/减计数器74191 TTL 二进制同步可逆计数器74192 TTL 可预置BCD双时钟可逆计数器74193 TTL 可预置四位二进制双时钟可逆计数器74194 TTL 四位双向通用移位寄存器74195 TTL 四位并行通道移位寄存器74196 TTL 十进制/二-十进制可预置计数锁存器74197 TTL 二进制可预置锁存器/计数器7420 TTL 4输入端双与非门7421 TTL 4输入端双与门7422 TTL 开路输出4输入端双与非门74221 TTL 双/单稳态多谐振荡器74240 TTL 八反相三态缓冲器/线驱动器74241 TTL 八同相三态缓冲器/线驱动器74243 TTL 四同相三态总线收发器74244 TTL 八同相三态缓冲器/线驱动器74245 TTL 八同相三态总线收发器74247 TTL BCD—7段15V输出译码/驱动器74248 TTL BCD—7段译码/升压输出驱动器74249 TTL BCD—7段译码/开路输出驱动器74251 TTL 三态输出8选1数据选择器/复工器74253 TTL 三态输出双4选1数据选择器/复工器74256 TTL 双四位可寻址锁存器74257 TTL 三态原码四2选1数据选择器/复工器74258 TTL 三态反码四2选1数据选择器/复工器74259 TTL 八位可寻址锁存器/3-8线译码器7426 TTL 2输入端高压接口四与非门74260 TTL 5输入端双或非门74266 TTL 2输入端四异或非门7427 TTL 3输入端三或非门74273 TTL 带公共时钟复位八D触发器74279 TTL 四图腾柱输出S-R锁存器7428 TTL 2输入端四或非门缓冲器74283 TTL 4位二进制全加器74290 TTL 二/五分频十进制计数器74293 TTL 二/八分频四位二进制计数器74295 TTL 四位双向通用移位寄存器74298 TTL 四2输入多路带存贮开关74299 TTL 三态输出八位通用移位寄存器7430 TTL 8输入端与非门7432 TTL 2输入端四或门74322 TTL 带符号扩展端八位移位寄存器74323 TTL 三态输出八位双向移位/存贮寄存器7433 TTL 开路输出2输入端四或非缓冲器74347 TTL BCD—7段译码器/驱动器74352 TTL 双4选1数据选择器/复工器74353 TTL 三态输出双4选1数据选择器/复工器74365 TTL 门使能输入三态输出六同相线驱动器74365 TTL 门使能输入三态输出六同相线驱动器74366 TTL 门使能输入三态输出六反相线驱动器74367 TTL 4/2线使能输入三态六同相线驱动器74368 TTL 4/2线使能输入三态六反相线驱动器7437 TTL 开路输出2输入端四与非缓冲器74373 TTL 三态同相八D锁存器74374 TTL 三态反相八D锁存器74375 TTL 4位双稳态锁存器74377 TTL 单边输出公共使能八D锁存器74378 TTL 单边输出公共使能六D锁存器74379 TTL 双边输出公共使能四D锁存器7438 TTL 开路输出2输入端四与非缓冲器74380 TTL 多功能八进制寄存器7439 TTL 开路输出2输入端四与非缓冲器74390 TTL 双十进制计数器74393 TTL 双四位二进制计数器7440 TTL 4输入端双与非缓冲器7442 TTL BCD—十进制代码转换器74352 TTL 双4选1数据选择器/复工器74353 TTL 三态输出双4选1数据选择器/复工器74365 TTL 门使能输入三态输出六同相线驱动器74366 TTL 门使能输入三态输出六反相线驱动器74367 TTL 4/2线使能输入三态六同相线驱动器74368 TTL 4/2线使能输入三态六反相线驱动器7437 TTL 开路输出2输入端四与非缓冲器74373 TTL 三态同相八D锁存器74374 TTL 三态反相八D锁存器74375 TTL 4位双稳态锁存器74377 TTL 单边输出公共使能八D锁存器74378 TTL 单边输出公共使能六D锁存器74379 TTL 双边输出公共使能四D锁存器7438 TTL 开路输出2输入端四与非缓冲器74380 TTL 多功能八进制寄存器7439 TTL 开路输出2输入端四与非缓冲器74390 TTL 双十进制计数器74393 TTL 双四位二进制计数器7440 TTL 4输入端双与非缓冲器7442 TTL BCD—十进制代码转换器74447 TTL BCD—7段译码器/驱动器7445 TTL BCD—十进制代码转换/驱动器74450 TTL 16:1多路转接复用器多工器74451 TTL 双8:1多路转接复用器多工器74453 TTL 四4:1多路转接复用器多工器7446 TTL BCD—7段低有效译码/驱动器74460 TTL 十位比较器74461 TTL 八进制计数器74465 TTL 三态同相2与使能端八总线缓冲器74466 TTL 三态反相2与使能八总线缓冲器74467 TTL 三态同相2使能端八总线缓冲器74468 TTL 三态反相2使能端八总线缓冲器74469 TTL 八位双向计数器7447 TTL BCD—7段高有效译码/驱动器7448 TTL BCD—7段译码器/内部上拉输出驱动74490 TTL 双十进制计数器74491 TTL 十位计数器74498 TTL 八进制移位寄存器7450 TTL 2-3/2-2输入端双与或非门74502 TTL 八位逐次逼近寄存器74503 TTL 八位逐次逼近寄存器7451 TTL 2-3/2-2输入端双与或非门74533 TTL 三态反相八D锁存器74534 TTL 三态反相八D锁存器7454 TTL 四路输入与或非门74540 TTL 八位三态反相输出总线缓冲器7455 TTL 4输入端二路输入与或非门74563 TTL 八位三态反相输出触发器74564 TTL 八位三态反相输出D触发器74573 TTL 八位三态输出触发器74574 TTL 八位三态输出D触发器74645 TTL 三态输出八同相总线传送接收器74670 TTL 三态输出4×4寄存器堆7473 TTL 带清除负触发双J-K触发器7474 TTL 带置位复位正触发双D触发器7476 TTL 带预置清除双J-K触发器7483 TTL 四位二进制快速进位全加器7485 TTL 四位数字比较器7486 TTL 2输入端四异或门7490 TTL 可二/五分频十进制计数器7493 TTL 可二/八分频二进制计数器7495 TTL 四位并行输入\\输出移位寄存器7497 TTL 6位同步二进制乘法器二。

TOSHIBA CMOS Digital Integrated Circuit Silicon MonolithicTC74HC4051AP,TC74HC4051AF,TC74HC4051AFT TC74HC4052AP,TC74HC4052AF,TC74HC4052AFTTC74HC4053AP,TC74HC4053AF,TC74HC4053AFN,TC74HC4053AFTTC74HC4051AP/AF/AFT8-Channel Analog Multiplexer/DemultiplexerTC74HC4052AP/AF/AFTDual 4-Channel Analog Multiplexer/DemultiplexerTC74HC4053AP/AF/AFN/AFTTriple 2-Channel Analog Multiplexer/DemultiplexerThe TC74HC4051A/4052A/4053A are high speed CMOSANALOG MULTIPLEXER/DEMULTIPLEXER fabricated with silicon gate C 2MOS technology. They achieve the high speed operation similar to equivalent LSTTL while maintaining the CMOS low power dissipation.The TC74HC4051A has an 8 channel configuration, the TC74HC4052A has a 4 channel × 2 configuration and the TC74HC4053A has a 2 channel × 3 configuration.The digital signal to the control terminal turns “ON” the corresponding switch of each channel a large amplitude signal (V CC − V EE ) can then be switched by the small logical amplitude (V CC − GND) control signal.For example, in the case of V CC = 5 V, GND = 0 V, V EE = −5 V, signals between −5 V and +5 V can be switched from the logical circuit with a single power supply of 5 V. As the ON-resistance of each switch is low, they can be connected to circuits with low input impedance.All inputs are equipped with protection circuits against static discharge or transient excess voltage.Features• High speed: t pd = 15 ns (typ.) at V CC = 5 V, V EE = 0 V • Low power dissipation: I CC = 4 μA (max) at Ta = 25°C • High noise immunity: V NIH = V NIL = 28% V CC (min) • Low ON resistance: R ON = 50 Ω (typ.) at V CC − V EE = 9 V•High noise immunity: THD =0.02% (typ.) at V CC− V EE = 9 V • Pin and function compatible with 4051/4052/4053BNote: xxxFN (JEDEC SOP) is not available inJapan. TC74HC4051AP, TC74HC4052AP, TC74HC4053APTC74HC4051AF, TC74HC4052AF, TC74HC4053AFTC74HC4053AFNTC74HC4051AFT, TC74HC4052AFT, TC74HC4053AFTWeightDIP16-P-300-2.54A : 1.00 g (typ.) SOP16-P-300-1.27A : 0.18 g (typ.) SOL16-P-150-1.27: 0.13 g (typ.) TSSOP16-P-0044-0.65A: 0.06 g (typ.)Pin AssignmentV CC 16 2 1 0 15 14 13 12 11 10 123456775INH V EE GND3 89A B (top view)6COM4 CV CC 16 2X 1X X-COM 15 14 13 12 11 10 12345673Y 1Y INH V EE GND0X 893X A (top view) 2Y Y-COM0Y BV CC 16 Y-COM X-COM 1X 15 14 13 12 11 10 Z-COM0Z INH V EE GND0X 9A B (top view)0Y 1Z 1Y CIEC Logic SymbolTruth TableControl Inputs“ON” ChannelInhibit C* B A HC4051A HC4052A HC4053A L L L L 0 0X, 0Y 0X, 0Y, 0Z L L L H 1 1X, 1Y 1X, 0Y, 0Z L L H L 2 2X, 2Y 0X, 1Y, 0Z LLHH3 3X, 3Y1X, 1Y, 0ZL H L L 4 ― 0X, 0Y, 1Z L H L H 5 ― 1X, 0Y, 1Z L H H L 6 ― 0X, 1Y, 1Z L H H H7― 1X, 1Y, 1ZH X X X None None NoneX: Don’t care *: Except HC4052A708×(6)(9) 1 32(3)5 4 (13) (15) (1) 1 3 5 (14) (12) (5) 2 46 2 G8C 6 7(2) 7(4)0 0 MUXDMUX 0 (7)(10) (11) 0 304×(6)(9)MUXDMUX(13)(12) (15) (1) (14) (11) (5) 1 G4(3)(2) (4)(10)01X 3X 1Y 2X 0Y 2Y 3Y0X 1 32 00 (3)(6) MUXDMUX (14) (12) (13) (1) (2) (5)G2 (4) (3)0Y 0Z1X 1Y 1Z0X 10 0, 1(9)(15) (10) (11) 2 × 0 2 × 1System DiagramTC74HC4051ATC74HC4052ATC74HC4053AINHL o g i c L e v e l C o n v e r t e rIN IN OUTcOUTcINHL o g i c L e v e l C o n v e r t e rIN INOUTcOUT c INHOUT L o g i c L e v e l C o n v e r t e rININc OUT cAbsolute Maximum Ratings (Note 1)Characteristics Symbol Rating Unit Supply voltage range V CC−0.5 to 7 VSupply voltage range V CC-V EE−0.5 to 13 VControl input voltage V IN−0.5 to V CC+ 0.5 VSwitch I/O voltage V I/O V EE− 0.5 to V CC+ 0.5 VControl input diode current I ICK±20 mA I/O diode current I OK±20 mA Switch through current I T±25 mA DC V CC or ground current I CC±50 mA Power dissipation P D500 (DIP) (Note 2)/180 (SOP, TSSOP) mWStorage temperature T stg−65 to 150 °CNote 1: Exceeding any of the absolute maximum ratings, even briefly, lead to deterioration in IC performance or even destruction.Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and thesignificant change in temperature, etc.) may cause this product to decrease in the reliability significantlyeven if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolutemaximum ratings and the operating ranges.Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook(“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability testreport and estimated failure rate, etc).Note 2: 500 mW in the range of Ta =−40 to 65°C. From Ta = 65 to 85°C a derating factor of −10 mW/°C should be applied up to 300 mW.Operating Ranges (Note)Characteristics Symbol Rating Unit Supply voltage range V CC 2 to 6 VSupply voltage range V EE−6 to 0 VSupply voltage range V CC-V EE 2 to 12 VControl input voltage V IN0 to V CC VSwitch I/O voltage V I/O V EE to V CC VOperating temperature T opr−40 to 85 °CControl input rise and fall time t r, t f 0 to 1000 (V CC= 2.0 V)0 to 500 (V CC= 4.5 V)0 to 400 (V CC= 6.0 V)nsNote: The operating ranges must be maintained to ensure the normal operation of the device.Unused control inputs must be tied to either VCC or GND.Electrical Characteristics DC CharacteristicsTest Condition Ta = 25°CTa =−40 to 85°CCharacteristics SymbolV EE (V)V CC(V)Min Typ.Max Min MaxUnitHigh-level control input voltage V IHC⎯2.04.56.01.503.154.20⎯⎯⎯⎯⎯⎯1.503.154.20⎯⎯⎯VLow-level control input voltage V ILC⎯2.04.56.0⎯⎯⎯⎯⎯⎯0.501.351.80⎯⎯⎯0.501.351.80VV IN= V ILC or V IHCV I/O= V CC to V EEI I/O≤ 2 mAGND−4.5−6.04.54.56.0⎯⎯⎯855550180120100⎯⎯⎯225150125ON resistance R ONV IN= V ILC or V IHCV I/O= V CC or V EEI I/O≤ 2 mA GNDGND−4.5−6.02.04.54.56.0⎯⎯⎯⎯150705045⎯15010080⎯⎯⎯⎯⎯190125100ΩDifference of ONresistance between switches ΔR ONV IN= V ILC or V IHCV I/O= V CC to V EEI I/O≤ 2 mAGND−4.5−6.04.54.56.0⎯⎯⎯1055301210⎯⎯⎯351512ΩInput/output leakagecurrent (switch off) I OFFV OS= V CC or GNDV IS= GND or V CCV IN= V ILC or V IHCGND−6.06.06.0⎯⎯⎯⎯±60±100⎯⎯±600±1000nASwitch input leakagecurrent (switch on) I IZV OS= V CC or GNDV IN= V ILC or V IHCGND−6.06.06.0⎯⎯⎯⎯±60±100⎯⎯±600±1000nAControl input current I IN V IN= V CC or GND GND 6.0 ⎯⎯±0.1 ⎯±1.0μAQuiescent supply current I CC V IN= V CC or GNDGND−6.06.06.0⎯⎯⎯⎯4.08.0⎯⎯40.080.0μAAC Characteristics (C L = 50 pF, input: t r = t f = 6 ns, GND = 0 V)Test Condition Ta = 25°CTa =−40 to 85°CCharacteristics SymbolV EE (V)V CC(V)Min Typ.Max Min MaxUnitPhase difference between input and output φI/O AlltypesGNDGNDGND−4.52.04.56.04.5⎯⎯⎯25654601210⎯⎯⎯⎯⎯751513⎯ns 4051 (Note1)GNDGNDGND−4.52.04.56.04.5⎯⎯⎯641815182254538⎯⎯⎯⎯⎯2805648⎯4052 (Note1)GNDGNDGND−4.52.04.56.04.5⎯⎯⎯641815182254538⎯⎯⎯⎯⎯2805648―Output enable time t pZLt pZH4053 (Note1)GNDGNDGND−4.52.04.56.04.5⎯⎯⎯501412142254538⎯⎯⎯⎯⎯2805648⎯ns 4051 (Note1)GNDGNDGND−4.52.04.56.04.5⎯⎯⎯1003328292505043⎯⎯⎯⎯⎯3156354⎯4052 (Note1)GNDGNDGND−4.52.04.56.04.5⎯⎯⎯1003328292505043⎯⎯⎯⎯⎯3156354⎯Output disable time t pLZt pHZ4053 (Note1)GNDGNDGND−4.52.04.56.04.5⎯⎯⎯953026262254538⎯⎯⎯⎯⎯2805648⎯nsControl input capacitance C IN Alltypes ⎯⎯⎯ 5 10 ⎯ 10 pFCOMMON terminal capacitance C IS405140524053−5.0 5.0⎯⎯⎯361911704020⎯⎯⎯704020pFSWITCH terminal capacitance C OS405140524053−5.0 5.0⎯⎯⎯777151515⎯⎯⎯151515pFFeedthrough capacitance C IOS405140524053−5.0 5.0⎯⎯⎯0.950.850.75222⎯⎯⎯222pFPower dissipation capacitance C PD40514052 (Note2)4053GND 5.0⎯⎯⎯707167⎯⎯⎯⎯⎯⎯⎯⎯⎯pFNote 1: R L= 1 kΩNote 2: C PD is defined as the value of the internal equivalent capacitance of IC which is calculated from the operating current consumption without load.Average operating current can be obtained by the equation:I CC (opr)= C PD·V CC·f IN+ I CCAnalog Switch Characteristics (GND = 0 V, Ta = 25°C) (Note 1)Test ConditionCharacteristics Symbol VEE(V)V CC(V)Typ.UnitSine wave distortion (T.H.D) R L= 10 kΩ,C L= 50 pFf IN= 1 kHzV IN= 4.0 V p-pV IN= 8.0 V p-pV IN= 11.0 V p-p−2.25−4.5−6.02.254.56.00.0250.0200.018%All (Note2) 1204051 (Note3) 454052 704053−2.25 2.2595All (Note2) 1904051 (Note3) 704052 1104053−4.5 4.5150All (Note2) 2004051 (Note3) 854052 140Frequency response (switch on) f maxAdjust f IN voltage to obtain0dBm at V OSIncrease f IN frequency untildB meter reads −3dBR L= 50 Ω, C L= 10 pFf IN = 1 MHz, sine wave4053−6.0 6.0190MHzFeed through attenuation (switch off) V IN is centered at (V CC− V EE)/2Adjust input for 0dBmR L= 600 Ω, C L= 50 pFf IN= 1 MHz, sine wave−2.25−4.5−6.02.254.56.0−50−50−50dBCrosstalk(control input to signal output) R L= 600 Ω, C L= 50 pFf IN= 1 MHz, square wave (t r= t f= 6 ns)−2.25−4.5−6.02.254.56.060140200mVCrosstalk(between any switches) Adjust V IN to obtain 0dBm at inputR L= 600 Ω, C L= 50 pFf IN= 1 MHz, sine wave−2.25−4.5−6.02.254.56.0−50−50−50dBNote 1: These characteristics are determined by design of devices. Note 2: Input COMMON terminal, and measured at SWITCH terminal. Note 3: Input SWITCH terminal, and measured at COMMON terminal.Switching Characteristics Test Circuits1. t pLZ , t pHZ , t pZL , t pZH2. Cross Talk (control input-switch output) f IN = 1 MHz duty = 50% t r = t f = 6 ns3. Feedthrough AttenuationV CCGNDV OH V OL V OHV OL90%t pHZt pLZ 10%t pZLt pZH50%50%50%90%10%V CV O/I(S 1 = V CC , S 2 = GND)V O/I(S 1 = GND, S 2 = V CC )1 k Ω 2GNDV EEV CCC S 1from P.GO/I I/O CC50 p FCC GNDfrom P.G 600 Ω50 p F600 Ω−V CCGNDV EEV CCC O/II/O CC 0.1 μF600 Ω50 p F600 ΩV INGNDV EEV CCCO/II/O4. C IOS , C IS , C OS5. Cross Talk (between any two switches)6. Frequency Response (switch on)V CCC O SCOMMONSWITCHC I SC GNDV EEV CCCO/I I/O V INCC 600 ΩGNDV EE 600 Ω50 p F 0.1 μF 600 Ω 50 p FO/II/O600 ΩC V CCCO/II/OCC 0.1 μF50 Ω10 p FV INGNDV EE V CCCO/I I/OWeight: 1.00 g (typ.)Weight: 0.18 g (typ.)Package Dimensions (Note)Note: This package is not available in Japan. Weight: 0.13 g (typ.)Package DimensionsWeight: 0.06 g (typ.)RESTRICTIONS ON PRODUCT USE20070701-EN GENERAL •The information contained herein is subject to change without notice.•TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.• The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.).These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in his document shall be made at the customer’s own risk.•The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations.• The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patents or other rights of TOSHIBA or the third parties.• Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.。

To all our customersRegarding the change of names mentioned in the document, such as Hitachi Electric and Hitachi XX, to Renesas Technology Corp.The semiconductor operations of Mitsubishi Electric and Hitachi were transferred to Renesas Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog and discrete devices, and memory chips other than DRAMs (flash memory, SRAMs etc.) Accordingly, although Hitachi, Hitachi, Ltd., Hitachi Semiconductors, and other Hitachi brand names are mentioned in the document, these names have in fact all been changed to Renesas Technology Corp. Thank you for your understanding. Except for our corporate trademark, logo and corporate statement, no changes whatsoever have been made to the contents of the document, and these changes do not constitute any alteration to the contents of the document itself.Renesas Technology Home Page: Renesas Technology Corp.Customer Support Dept.April 1, 2003CautionsKeep safety first in your circuit designs!1. Renesas Technology Corporation puts the maximum effort into making semiconductor products betterand more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage.Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or mishap.Notes regarding these materials1. These materials are intended as a reference to assist our customers in the selection of the RenesasTechnology Corporation product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Renesas Technology Corporation or a third party.2. Renesas Technology Corporation assumes no responsibility for any damage, or infringement of anythird-party's rights, originating in the use of any product data, diagrams, charts, programs, algorithms, or circuit application examples contained in these materials.3. All information contained in these materials, including product data, diagrams, charts, programs andalgorithms represents information on products at the time of publication of these materials, and are subject to change by Renesas Technology Corporation without notice due to product improvements or other reasons. It is therefore recommended that customers contact Renesas Technology Corporation or an authorized Renesas Technology Corporation product distributor for the latest product information before purchasing a product listed herein.The information described here may contain technical inaccuracies or typographical errors.Renesas Technology Corporation assumes no responsibility for any damage, liability, or other loss rising from these inaccuracies or errors.Please also pay attention to information published by Renesas Technology Corporation by various means, including the Renesas Technology Corporation Semiconductor home page().4. When using any or all of the information contained in these materials, including product data, diagrams,charts, programs, and algorithms, please be sure to evaluate all information as a total system before making a final decision on the applicability of the information and products. Renesas Technology Corporation assumes no responsibility for any damage, liability or other loss resulting from theinformation contained herein.5. Renesas Technology Corporation semiconductors are not designed or manufactured for use in a deviceor system that is used under circumstances in which human life is potentially at stake. Please contact Renesas Technology Corporation or an authorized Renesas Technology Corporation product distributor when considering the use of a product contained herein for any specific purposes, such as apparatus or systems for transportation, vehicular, medical, aerospace, nuclear, or undersea repeater use.6. The prior written approval of Renesas Technology Corporation is necessary to reprint or reproduce inwhole or in part these materials.7. If these products or technologies are subject to the Japanese export control restrictions, they must beexported under a license from the Japanese government and cannot be imported into a country other than the approved destination.Any diversion or reexport contrary to the export control laws and regulations of Japan and/or thecountry of destination is prohibited.8. Please contact Renesas Technology Corporation for further details on these materials or the productscontained therein.HD74HC4052/HD74HC4053Dual 4-channel Analog Multiplexers/DemultiplexersTriple 2-channel Analog Multiplexers/DemultiplexersADE-205-536 (Z)1st. EditionSep. 2000 DescriptionHD74HC4052: This device connects together the outputs of 4 switches in two sets, thus achieving a pair of 4 channel multiplexers. The binary code placed on the A, and B select lines determine which switch in each 4 channel section is “on”, connecting one of the four inputs in each section to its common output. This enables the implementation of a 4 channel differential multiplexer.HD74HC4053: This device contains 6 switches whose outputs are connected together in pairs, thus implementing a triple 2 channel multiplexer, or the equivalent of 3 single-pole-double throw configuration. Each of the A, B, or C select lines independently controls one pair of switches, selecting one of the two switches to be “on”.Features• High Speed Operation• Wide Operating Voltage• Low Quiescent Supply CurrentHD74HC4052/HD74HC40532Function TableControl InputsSelectON Switch Inhibit C*1B A HD74HC4052HD74HC4053L L L L Y 0X 0Z 0Y 0X 0L L L H Y 1X 1Z 0Y 0X 1L L H L Y 2X 2Z 0Y 1X 0L L H H Y 3X 3Z 0Y 1X 1L H L L Z 1Y 0X 0L H L H Z 1Y 0X 1L H H L Z 1Y 1X 0L H H H Z 1Y 1X 1H XXX——Note:1.Not applicable for HD74HC4052X = Dont’t CarePin ArrangementHD74HC4052HD74HC4052/HD74HC4053 HD74HC4053Block DiagramHD74HC40523HD74HC4052/HD74HC40534HD74HC4053Absolute Maximum RatingsItemSymbol Rating Unit Supply voltage V CC–0.5 to +7.0V V CC – V EE –0.5 to +7.0V Control input voltage V IN GND – 0.5 to V CC + 0.5V Switch I/O voltage V I/O V EE –0.5 to V CC + 0.5V Supply current(V CC )I CC +50mA (GND)I GND –50mA Switch I/O current (per pin)I I/O ±25mA Control input diode current I IK ±20mA Switch I/O diode current I IOK ±20mA Power dissipationP T 500mW Storage temperature rangeTstg–65 to +150°CHD74HC4052/HD74HC40535Recommended Operating RangeItemSymbol Min Typ Max Unit Supply voltage V CC – V EE 2—6V GND – V EE –4—0V Control input voltage V IN 0—V CC V Switch I/O voltage V I/O V EE —V CC V Operating temperature Topr –40—+85°C Input rise/fall timeV CC = 2.0 V t r , t f0—1000ns V CC = 4.5 V 0—500ns V CC = 6.0 V—400nsHD74HC4052/HD74HC40536DC Characteristics (V EE = GND)Ta = 25°CTa = –40 to +85°C ItemSymbolV CC (V)Min Typ Max Min Max Unit Test ConditionsControl input voltage V IH2.0 1.5—— 1.5—V4.5 3.15—— 3.15—6.04.2—— 4.2—V IL2.0——0.5—0.5V 4.5—— 1.35— 1.356.0—— 1.8— 1.8ON resistanceR ON2.0—20005000—6250ΩV INH = V IL4.5—120180—225V I/O = V CC to V EE 6.0—100170—210I I/O ≤ 2 mA 2.0—200800—1000ΩV INH = V IL4.5—80150—190V I/O = V CC to V EE 6.0—70140—175V I/O ≤ 2 mA ∆ON resistance ∆R ON2.0—50———ΩV INH = V ILbetween any two 4.5—1340—50V I/O = V CC to V EE channels 6.0—1020—25I I/O ≤ 2 mA OFF channel leakage current (switch off)I S (OFF) 6.0——±0.1—±1.0µA V INH = V ILOFF channel leakage current (switch on)I S (ON)6.0——±0.1—±1.0µAV INH = V ILControl input current Iin6.0——±0.1—±1.0µA Vin = V CC or GND Quiescent supply currentI CC6.0——4.0—40µAVin = V CC or GNDHD74HC4052/HD74HC40537AC Characteristics (C L = 50 pF, Input t r = t f = 6 ns, V EE = GND)Ta = 25°CTa = –40 to +85°C ItemSymbol V CC (V)Min Typ Max Min Max Unit Test Conditions Propagation delay t PLH2.0—2560—75nsR L = 10 k Ωtime4.5—612—15Switch input to 6.0—510—13switch outputt PHL 2.0—2560—75ns 4.5—612—156.0—510—13Propagation delay t PLH2.0—50153—191nsR L = 10 k Ωtime4.5—1630—38Control input to 6.0—1426—33switch outputt PHL 2.0—50153—191ns 4.5—1630—386.0—1426—33Output enable t ZH2.0—50153—191nsR L = 1 k Ωtime4.5—1430—386.0—1226—33t ZL 2.0—50153—191ns 4.5—1430—386.0—1226—33Output disable t HZ2.0—40153—191nsR L = 1 k Ωtime4.5—1730—386.0—1426—33t LZ 2.0—40153—191ns 4.5—1730—386.0—1426—33Control input capacitance Cin ——510—10pF Switch input capacitance Cin 5.0—5———pF Output capacitance Cout5.0—12———pFHD74HC4052(Common pin) 5.0—6———HD74HC4053Feed through Cin–out 5.0—0.6———pF HD74HC4052capacitance5.0—0.5———HD74HC4053HD74HC4052/HD74HC40538AC Characteristics (C L = 50 pF, Input t r = t f = 6 ns, V EE = GND) (cont)Ta = 25°CTa = –40 to +85°C ItemSymbol V CC (V)Min Typ Max Min Max Unit Test ConditionsPower dissipation C PD5.0—32.0———pFHD74HC4052capacitance 5.0—17.0———HD74HC4053Sine wave distortion 4.5—0.1———%f in = 1 kHz, Vin = 4 V P-P R L = 10 k Ω, C L = 50 pF Frequency response channel “ON”(Sine wave input) 4.5—95———MHz f in = 1 MHz,20 log 10 V OS /V IS = –3 dB R L = 50 Ω, C L = 10 pF Feed through attenuation 4.5—–50———dB R L = 600 Ω, C L = 50 pF,f in = 1 MHzCross talk between 2.0—25———mVR L = 600 Ω, C L = 15 pF,control input and 4.5—50———f in = 1 MHzswitch I/O6.0—75———Cross talk between any two switches 4.5—–50———dB R L = 600 Ω, C L = 50 pF,f in = 1 MHzMaximum control 2.0—20———MHzR L = 1 k Ω, C L = 15 pF frequency4.5—30———Vout = 1/2 (V CC )6.0—30———AC Characteristics Test CircuitMaximum Control FrequencyCross talk (Between Any Two Switches)(Control Input to Switch Output)Cross talkCin, Cout, Cin–out (Input, Output and Feed through Capacitance)R: ON ResistanceON(OFF): OFF Channel Leakage Current (Switch OFF) IS(Switch ON) (ON): OFF Channel Leakage CurrentISt PLH , tPHL: Propagation Delay Time (Switch Input to Switch Output)t PLH , tPHL: Propagation Delay Time (Control Input to Switch Output)t ZH , tZL/tHZ, tLZ: Output Enable and Disable TimePackage DimensionsCautions1.Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent,copyright, trademark, or other intellectual property rights for information contained in this document.Hitachi bears no responsibility for problems that may arise with third party’s rights, includingintellectual property rights, in connection with use of the information contained in this document.2.Products and product specifications may be subject to change without notice. Confirm that you have received the latest product standards or specifications before final design, purchase or use.3.Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,contact Hitachi’s sales office before using the product in an application that demands especially high quality and reliability or where its failure or malfunction may directly threaten human life or cause risk of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,traffic, safety equipment or medical equipment for life support.4.Design your application so that the product is used within the ranges guaranteed by Hitachi particularly for maximum rating, operating supply voltage range, heat radiation characteristics, installationconditions and other characteristics. Hitachi bears no responsibility for failure or damage when used beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such as fail-safes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other consequential damage due to operation of the Hitachi product.5.This product is not designed to be radiation resistant.6.No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without written approval from Hitachi.7.Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor products.Hitachi, Ltd.Semiconductor & Integrated Circuits.Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan Tel: Tokyo (03) 3270-2111 Fax: (03) 3270-5109Copyright © Hitachi, Ltd., 2000. All rights reserved. Printed in Japan.Hitachi Asia Ltd. Hitachi Tower16 Collyer Quay #20-00, Singapore 049318Tel : <65>-538-6533/538-8577 Fax : <65>-538-6933/538-3877URL : .sg URLNorthAmerica : /Europe : /hel/ecg Asia : Japan : http://www.hitachi.co.jp/Sicd/indx.htmHitachi Asia Ltd.(Taipei Branch Office)4/F, No. 167, Tun Hwa North Road, Hung-Kuo Building, Taipei (105), Taiwan Tel : <886>-(2)-2718-3666 Fax : <886>-(2)-2718-8180 Telex : 23222 HAS-TPURL : Hitachi Asia (Hong Kong) Ltd. Group III (Electronic Components) 7/F., North Tower, World Finance Centre,Harbour City, Canton Road Tsim Sha Tsui, Kowloon, Hong KongTel : <852>-(2)-735-9218 Fax : <852>-(2)-730-0281URL : Hitachi Europe Ltd.Electronic Components Group.Whitebrook ParkLower Cookham Road MaidenheadBerkshire SL6 8YA, United Kingdom Tel: <44> (1628) 585000Fax: <44> (1628) 585160Hitachi Europe GmbHElectronic Components Group Dornacher Stra βe 3D-85622 Feldkirchen, Munich GermanyTel: <49> (89) 9 9180-0Fax: <49> (89) 9 29 30 00Hitachi Semiconductor (America) Inc.179 East Tasman Drive,San Jose,CA 95134 Tel: <1> (408) 433-1990Fax: <1>(408) 433-0223For further information write to:Colophon 2.0。

TOSHIBA CMOS Digital Integrated Circuit Silicon MonolithicTC74VHC4051AF,TC74VHC4051AFT,TC74VHC4051AFKTC74VHC4052AF,TC74VHC4052AFT,TC74VHC4052AFKTC74VHC4053AF,TC74VHC4053AFT,TC74VHC4053AFK TC74VHC4051AF/AFT/AFK8-Channel Analog Multiplexer/DemultiplexerTC74VHC4052AF/AFT/AFKDual 4-Channel Analog Multiplexer/DemultiplexerTC74V4053AF/AFT/AFKTriple 2-Channel Analog Multiplexer/DemultiplexerThe TC74VHC4051A/4052A/4053A are high-speed, low-voltage drive analog multiplexer/demultiplexers using silicon gate CMOS technology. In 3 V and 5 V systems these can achieve high-speed operation with the low power dissipation that is a feature of CMOS.The TC74VHC4051A/4052A/4053A offer analog/digital signal selection as well as mixed signals. The 4051A has an 8-channel configuration, the 4052A has an 4-channel × 2 configuration, and the 4053A has a 2-channel × 3 configuration.The switches for each channel are turned ON by the control pin digital signals.All control inputs are equipped with a newly developed input protection circuit that avoids the need for a diode on the plus side (forward side from the input to the V CC). As a result, for example, 5.5 V signals can be permitted on the inputs even when the power supply voltage to the circuits is off. As a result of this input power protection, the TC74VHC4051A/4052A/4053A can be used in a variety of applications, including in the system which has two power supplies, and in battery backup circuits.Features•Low ON resistance: R on = 45Ω (typ.) (V CC = 3 V)R on = 24Ω (typ.) (V CC = 4.5 V)•Low power dissipation: I CC= 2.0 μA (max) (Ta = 25°C) •Input level: V IL= 0.8V (max) (V CC = 3 V) V IH= 2.0V (min) (V CC = 3 V)•Power down protection is provided on all control inputs TC74VHC4051AF, TC74VHC4052AF,TC74VHC4053AFTC74VHC4051AFT, TC74VHC4052AFT,TC74VHC4053AFTTC74VHC4051AFK, TC74VHC4052AFK,TC74VHC4053AFKSOP16-P-300-1.27A : 0.18 g ( typ.) TSSOP16-P-0044-0.65A : 0.06 g ( typ.) VSSOP16-P-0030-0.50 : 0.02 g ( typ.)Pin Assignment (top view)Truth TableControl Inputs“ON” ChannelInhibit C *BA VHC4051A VHC4052A VHC4053AL L L L 0 0X, 0Y 0X, 0Y, 0Z L L L H 1 1X, 1Y 1X, 0Y,0Z L L H L 2 2X, 2Y 0X, 1Y, 0Z LLHH33X, 3Y1X, 1Y, 0ZL H L L 4 ⎯ 0X, 0Y, 1Z L H L H 5 ⎯ 1X, 0Y, 1Z L H H L 6 ⎯ 0X, 1Y,1Z L H H H7⎯ 1X, 1Y, 1ZH X X X None None NoneX: Don't care, *: Except VHC4052AFT1 14 0 3 A B C13 12 11 10 915 4 6 COM 7 5 INH GND 2 816 GND V CC 1X 14 X-COM 0X 3X A B13 12 11 10 915 0Y 12345672Y Y-COM 3Y 1Y INH GND 816 GND V CC X-COM 14 1X 0X A B C13 12 11 10 915 1Y 0Y 1Z Z-COM 0Z INH GND Y-COM 816 GND V CCSystem DiagramTC74VHC4051ATC74VHC4052ATC74VHC4053ACOM 01 2 3 45 67X-COM0X 1X 2X 3X 0Y 1Y 2Y3Y Y-COMX-COM0X 1X0Y 1Y0Z 1Z Z-COMY-COMAbsolute Maximum Ratings (Note)Characteristics Symbol Rating Unit Power supply voltage V CC−0.5~7.0 VControl input voltage V IN−0.5~7.0 VSwitch I/O voltage V I/O − 0.5~V CC+ 0.5VInput diode current I IK−20 mAI/O diode current I IOK±25 mASwitch through current I T±25 mADC V CC or ground current I CC±50 mAmW Power dissipation P D 180Storage temperature T stg−65~150 °CNote : Exceeding any of the absolute maximum ratings, even briefly, may lead to deterioration in IC performance or even destruction.Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and thesignificant change in temperature, etc.) may cause this product to decrease in the reliability significantlyeven if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolutemaximum ratings and the operating ranges.Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook(“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability testreport and estimated failure rate, etc).Operating Range (Note)Characteristics Symbol Rating Unit Power supply voltage V CC2~5.5 VInput voltage V IN 0~5.5 VSwitch I/O voltage V I/O 0~V CC VOperating temperature T opr−40~85 °C0~200 (V CC= 2.5 ± 0.2 V)ns/VInput rise and fall time dt/dv0~100 (V CC= 3.3 ± 0.3 V)0~20 (V CC= 5 ± 0.5 V)Note: The operating ranges must be maintained to ensure the normal operation of the device.Unused control inputs must be tied to either V CC or GND.Electrical Characteristics DC Electrical CharacteristicsTa = 25°C Ta = −40~85°CCharacteristics Symbol Test ConditionV CC (V)MinTyp.Max Min Max Unit2.0 1.5 ⎯⎯ 1.5 ⎯ 3.0 2.0 ⎯ ⎯2.0⎯ 4.5 3.15 ⎯ ⎯ 3.15 ⎯ High-level V IH⎯5.5 3.85⎯ ⎯ 3.85 ⎯ 2.0⎯ ⎯ 0.5 ⎯ 0.5 3.0 ⎯ ⎯0.8⎯0.8 4.5 ⎯ ⎯ 1.35 ⎯ 1.35Input voltageLow-level V IL⎯5.5⎯ ⎯ 1.65 ⎯ 1.65V2.3 ⎯ 200⎯⎯⎯ 3.0 ⎯ 45 86 ⎯ 108V IN = V IL or V IH V I/O = V CC to GNDI I/O = 2 mA 4.5 ⎯ 24 37 ⎯ 46 2.3 ⎯ 28 73 ⎯ 84 3.0 ⎯ 22 38 ⎯ 44 ON resistanceR ONV IN = V IL or V IH V I/O = V CC or GND I I/O = 2 mA4.5 ⎯ 17 27 ⎯ 31 Ω 2.3 ⎯ 10 25 ⎯ 35 3.0 ⎯ 5 15 ⎯ 20 Difference of ON resistance between switchesΔR ON V IN = V IL or V IHV I/O = V CC to GNDI I/O = 2 mA 4.5⎯5 13 ⎯18Ω Input/Output leakagecurrent(switch OFF)I OFFV OS = V CC or GNDV IS = GND to V CC V IN = V IL or V IH5.5⎯⎯±0.1 ⎯ ±1.0μAInput/Output leakage current(switch ON, output open) I I/O V OS = V CC or GND V IN = V IL or V IH 5.5 ⎯ ⎯ ±0.1 ⎯ ±1.0μA Control input current I IN V IN = V CC or GND 5.5 ⎯ ⎯±0.1 ⎯ ±1.0μA Quiescent supply currentI CCV IN = V CC or GND5.5⎯⎯2.0⎯20.0μAAC Electrical Characteristics (Input: t r = t f = 3 ns)Ta = 25°C Ta = −40~85°CCharacteristics SymbolTest ConditionV CC (V)Min Typ.Max Min MaxUnit2.5±0.2⎯ 1.2 10 ⎯ 16 3.3±0.3⎯ 0.8 6 ⎯ 10 C L = 15 pFR L = 1 k Ω5.0±0.5⎯ 0.3 4 ⎯ 7ns2.5±0.2⎯ 2.6 12 ⎯ 183.3±0.3⎯ 1.5 9 ⎯ 12 Phase difference between input and outputφI/OC L = 50 pF R L = 1 k Ω5.0±0.5⎯ 0.6 6 ⎯ 8 2.5±0.2⎯ 3.3 15 ⎯ 20 3.3±0.3⎯ 2.3 11 ⎯ 15 C L = 15 pF R L = 1 k ΩFigure 15.0±0.5⎯ 1.6 7 ⎯ 10ns 2.5±0.2⎯ 4.2 25 ⎯ 32 3.3±0.3⎯ 3.0 18 ⎯ 22 Output enable timet pZL t pZHC L = 50 pF R L = 1 k ΩFigure 15.0±0.5⎯ 2.1 12 ⎯ 16 2.5±0.2⎯ 6 15 ⎯ 23 3.3±0.3⎯ 4.5 11 ⎯ 15 C L = 15 pF R L = 1 k ΩFigure 15.0±0.5⎯ 3.2 7 ⎯ 10ns 2.5±0.2⎯ 9.6 25 ⎯ 32 3.3±0.3⎯ 7.2 18 ⎯ 22 Output disable timet pLZ t pHZC L = 50 pF R L = 1 k ΩFigure 15.0±0.5⎯ 5.1 12 ⎯ 16 Control input capacitance C IN All types⎯⎯3⎯⎯10 pF4051A 23.44052A 13.1COMMON terminal capacitanceC IS4053A Figure 2⎯ ⎯ 8.2⎯ ⎯ ⎯ pF4051A 5.74052A 5.6SWITCH terminalcapacitanceC OS4053A Figure 2⎯ ⎯ 5.6 ⎯ ⎯ ⎯ pF 4051A 0.54052A 0.5Feedthrough capacitanceC IOS4053A Figure 2⎯ ⎯ 0.5 ⎯ ⎯ ⎯ pF 4051A 154052A 24Power dissipationcapacitanceC PD4053A Figure 2(Note)⎯ ⎯ 12⎯ ⎯ ⎯ pF Note: C PD is defined as the value of the internal equivalent capacitance of IC which is calculated from theoperating current consumption without load.Average operating current can be obtained by the equation: I CC (opr) = C PD ･V CC ･f IN + I CCAnalog Switch Characteristics (Ta = 25°C ) (Note)Characteristics Test ConditionV CC (V)Typ. UnitV IN = 2.0 V p-p 3.0 0.1Sine Wave Distortion (T.H.D)R L = 10 kΩ, C L = 50 pF, f IN = 1 kHzV IN = 4.0 V p-p 4.5 0.03%4051A 150 4052A 200 4053A3.0 2404051A 180 4052A 230 Frequency response(switch ON)V IN is centered at (V CC /2). Adjust input for 0dBm.Increase f IN frequency until dB meter reads −3dB.R L = 50 Ω, C L = 10 pF,sine wave Figure 34053A4.5 280 MHz3.0 -45V IN is centered at (V CC /2). Adjust input for 0dBm.R L = 600 Ω, C L = 50 pF, f IN = 1 MHz, sine wave Figure 44.5 -45 3.0 -65 Feed through attenuation(switch OFF)R L = 50 Ω, C L = 10 pF, f IN = 1 MHz, sine wave 4.5 -65dB 3.0 60Crosstalk(control input to signal output)R L = 600 Ω, C L = 50 pF, f IN = 1 MHz, square wave (t r = t f = 6 ns) Figure 54.5 100 mV 3.0 -45 Crosstalk(between any switches)VIN is centered at (VCC/2). Adjust input for 0dBm. R L = 600 Ω, C L = 50 pF, f IN = 1 MHz, sine wave Figure 64.5 -45 dBNote: These characteristics are determined by design of devices.AC Test CircuitFigure 2 C IOS , C IS , C OSFigure 1 t pLZ , t pHZ , t pZL , t pZHV CCGND V CV OH V OL V OH V OLV O/I(S 1 = V CC , S 2 =V O/I(S 1= GND, S 2 =S2Figure 3 Frequency Response (switch on)1/2V CCFigure 4 FeedthroughV IN 1/2V CCFigure 5 Cross Talk (control input to output signal)V Figure 6 Cross Talk (between any two switches)V IN1/2V CCPackage DimensionsWeight: 0.18 g (typ.)Weight: 0.06 g (typ.)Weight: 0.02 g (typ.)RESTRICTIONS ON PRODUCT USE20070701-EN •The information contained herein is subject to change without notice.•TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.• The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.).These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in his document shall be made at the customer’s own risk.•The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations.• Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.。

常用74系列芯片功能速查技术天地 2008-08-10 09:10 阅读1148 评论0字号：大中小7400 TTL 2输入端四与非门7401 TTL 集电极开路2输入端四与非门7402 TTL 2输入端四或非门7403 TTL 集电极开路2输入端四与非门7404 TTL 六反相器7405 TTL 集电极开路六反相器7406 TTL 集电极开路六反相高压驱动器7407 TTL 集电极开路六正相高压驱动器7408 TTL 2输入端四与门7409 TTL 集电极开路2输入端四与门7410 TTL 3输入端3与非门74107 TTL 带清除主从双J-K触发器74109 TTL 带预置清除正触发双J-K触发器7411 TTL 3输入端3与门74112 TTL 带预置清除负触发双J-K触发器7412 TTL 开路输出3输入端三与非门74121 TTL 单稳态多谐振荡器74122 TTL 可再触发单稳态多谐振荡器74123 TTL 双可再触发单稳态多谐振荡器74125 TTL 三态输出高有效四总线缓冲门74126 TTL 三态输出低有效四总线缓冲门7413 TTL 4输入端双与非施密特触发器74132 TTL 2输入端四与非施密特触发器74133 TTL 13输入端与非门74136 TTL 四异或门74138 TTL 3-8线译码器/复工器74139 TTL 双2-4线译码器/复工器7414 TTL 六反相施密特触发器74145 TTL BCD—十进制译码/驱动器7415 TTL 开路输出3输入端三与门74150 TTL 16选1数据选择/多路开关74151 TTL 8选1数据选择器74153 TTL 双4选1数据选择器74154 TTL 4线—16线译码器74155 TTL 图腾柱输出译码器/分配器74156 TTL 开路输出译码器/分配器74157 TTL 同相输出四2选1数据选择器74158 TTL 反相输出四2选1数据选择器7416 TTL 开路输出六反相缓冲/驱动器74160 TTL 可预置BCD异步清除计数器74161 TTL 可予制四位二进制异步清除计数器74162 TTL 可预置BCD同步清除计数器74163 TTL 可予制四位二进制同步清除计数器74164 TTL 八位串行入/并行输出移位寄存器74165 TTL 八位并行入/串行输出移位寄存器74166 TTL 八位并入/串出移位寄存器74169 TTL 二进制四位加/减同步计数器7417 TTL 开路输出六同相缓冲/驱动器74170 TTL 开路输出4×4寄存器堆74173 TTL 三态输出四位D型寄存器74174 TTL 带公共时钟和复位六D触发器74175 TTL 带公共时钟和复位四D触发器74180 TTL 9位奇数/偶数发生器/校验器74181 TTL 算术逻辑单元/函数发生器74185 TTL 二进制—BCD代码转换器74190 TTL BCD同步加/减计数器74191 TTL 二进制同步可逆计数器74192 TTL 可预置BCD双时钟可逆计数器74193 TTL 可预置四位二进制双时钟可逆计数器74194 TTL 四位双向通用移位寄存器74195 TTL 四位并行通道移位寄存器74196 TTL 十进制/二-十进制可预置计数锁存器74197 TTL 二进制可预置锁存器/计数器7420 TTL 4输入端双与非门7421 TTL 4输入端双与门7422 TTL 开路输出4输入端双与非门74221 TTL 双/单稳态多谐振荡器74240 TTL 八反相三态缓冲器/线驱动器74241 TTL 八同相三态缓冲器/线驱动器74243 TTL 四同相三态总线收发器74244 TTL 八同相三态缓冲器/线驱动器74245 TTL 八同相三态总线收发器74247 TTL BCD—7段15V输出译码/驱动器74248 TTL BCD—7段译码/升压输出驱动器74249 TTL BCD—7段译码/开路输出驱动器74251 TTL 三态输出8选1数据选择器/复工器74253 TTL 三态输出双4选1数据选择器/复工器74256 TTL 双四位可寻址锁存器74257 TTL 三态原码四2选1数据选择器/复工器74258 TTL 三态反码四2选1数据选择器/复工器74259 TTL 八位可寻址锁存器/3-8线译码器7426 TTL 2输入端高压接口四与非门74260 TTL 5输入端双或非门74266 TTL 2输入端四异或非门7427 TTL 3输入端三或非门74273 TTL 带公共时钟复位八D触发器74279 TTL 四图腾柱输出S-R锁存器7428 TTL 2输入端四或非门缓冲器74283 TTL 4位二进制全加器74290 TTL 二/五分频十进制计数器74293 TTL 二/八分频四位二进制计数器74295 TTL 四位双向通用移位寄存器74298 TTL 四2输入多路带存贮开关74299 TTL 三态输出八位通用移位寄存器7430 TTL 8输入端与非门7432 TTL 2输入端四或门74322 TTL 带符号扩展端八位移位寄存器74323 TTL 三态输出八位双向移位/存贮寄存器7433 TTL 开路输出2输入端四或非缓冲器74347 TTL BCD—7段译码器/驱动器74352 TTL 双4选1数据选择器/复工器74353 TTL 三态输出双4选1数据选择器/复工器74365 TTL 门使能输入三态输出六同相线驱动器74365 TTL 门使能输入三态输出六同相线驱动器74366 TTL 门使能输入三态输出六反相线驱动器74367 TTL 4/2线使能输入三态六同相线驱动器74368 TTL 4/2线使能输入三态六反相线驱动器7437 TTL 开路输出2输入端四与非缓冲器74373 TTL 三态同相八D锁存器74374 TTL 三态反相八D锁存器74375 TTL 4位双稳态锁存器74377 TTL 单边输出公共使能八D锁存器74378 TTL 单边输出公共使能六D锁存器74379 TTL 双边输出公共使能四D锁存器7438 TTL 开路输出2输入端四与非缓冲器74380 TTL 多功能八进制寄存器7439 TTL 开路输出2输入端四与非缓冲器74390 TTL 双十进制计数器74393 TTL 双四位二进制计数器7440 TTL 4输入端双与非缓冲器7442 TTL BCD—十进制代码转换器74352 TTL 双4选1数据选择器/复工器74353 TTL 三态输出双4选1数据选择器/复工器74365 TTL 门使能输入三态输出六同相线驱动器74366 TTL 门使能输入三态输出六反相线驱动器74367 TTL 4/2线使能输入三态六同相线驱动器74368 TTL 4/2线使能输入三态六反相线驱动器7437 TTL 开路输出2输入端四与非缓冲器74373 TTL 三态同相八D锁存器74374 TTL 三态反相八D锁存器74375 TTL 4位双稳态锁存器74377 TTL 单边输出公共使能八D锁存器74378 TTL 单边输出公共使能六D锁存器74379 TTL 双边输出公共使能四D锁存器7438 TTL 开路输出2输入端四与非缓冲器74380 TTL 多功能八进制寄存器7439 TTL 开路输出2输入端四与非缓冲器74390 TTL 双十进制计数器74393 TTL 双四位二进制计数器7440 TTL 4输入端双与非缓冲器7442 TTL BCD—十进制代码转换器74447 TTL BCD—7段译码器/驱动器7445 TTL BCD—十进制代码转换/驱动器74450 TTL 16:1多路转接复用器多工器74451 TTL 双8:1多路转接复用器多工器74453 TTL 四4:1多路转接复用器多工器7446 TTL BCD—7段低有效译码/驱动器74460 TTL 十位比较器74461 TTL 八进制计数器74465 TTL 三态同相2与使能端八总线缓冲器74466 TTL 三态反相2与使能八总线缓冲器74467 TTL 三态同相2使能端八总线缓冲器74468 TTL 三态反相2使能端八总线缓冲器74469 TTL 八位双向计数器7447 TTL BCD—7段高有效译码/驱动器7448 TTL BCD—7段译码器/内部上拉输出驱动74490 TTL 双十进制计数器74491 TTL 十位计数器74498 TTL 八进制移位寄存器7450 TTL 2-3/2-2输入端双与或非门74502 TTL 八位逐次逼近寄存器74503 TTL 八位逐次逼近寄存器7451 TTL 2-3/2-2输入端双与或非门74533 TTL 三态反相八D锁存器74534 TTL 三态反相八D锁存器7454 TTL 四路输入与或非门74540 TTL 八位三态反相输出总线缓冲器7455 TTL 4输入端二路输入与或非门74563 TTL 八位三态反相输出触发器74564 TTL 八位三态反相输出D触发器74573 TTL 八位三态输出触发器74574 TTL 八位三态输出D触发器74645 TTL 三态输出八同相总线传送接收器74670 TTL 三态输出4×4寄存器堆7473 TTL 带清除负触发双J-K触发器7474 TTL 带置位复位正触发双D触发器7476 TTL 带预置清除双J-K触发器7483 TTL 四位二进制快速进位全加器7485 TTL 四位数字比较器7486 TTL 2输入端四异或门7490 TTL 可二/五分频十进制计数器7493 TTL 可二/八分频二进制计数器7495 TTL 四位并行输入\输出移位寄存器7497 TTL 6位同步二进制乘法器常用74系列标准数字电路的中文名称资料器件代号器件名称74 74LS 74HC00 四2输入端与非门√ √ √01 四2输入端与非门(OC) √ √02 四2输入端或非门√ √ √03 四2输入端与非门(OC) √ √04 六反相器√ √ √05 六反相器(OC) √ √06 六高压输出反相器(OC,30V) √ √07 六高压输出缓冲,驱动器(OC,30V) √ √ √08 四2输入端与门√ √ √09 四2输入端与门(OC) √√ √10 三3输入端与非门√ √ √11 三3输入端与门√ √12 三3输入端与非门(OC) √ √ √13 双4输入端与非门√ √ √14 六反相器√ √ √15 三3输入端与门(OC) √ √16 六高压输出反相器(OC,15V) √17 六高压输出缓冲,驱动器(OC,15V) √20 双4输入端与非门√ √ √21 双4输入端与门√ √ √22 双4输入端与非门(OC) √ √25 双4输入端或非门(有选通端) √ √ √26 四2输入端高压输出与非缓冲器√ √ √27 三3输入端或非门√ √ √28 四2输入端或非缓冲器√ √ √30 8输入端与非门√ √ √32 四2输入端或门√ √ √33 四2输入端或非缓冲器(OC) √ √37 四2输入端与非缓冲器√ √38 四2输入端与非缓冲器(OC) √ √40 双4输入端与非缓冲器√ √ √42 4线-10线译码器(BCD输入) √ √43 4线-10线译码器(余3码输入) √44 4线-10线译码器(余3葛莱码输入) √48 4线-7段译码器√49 4线-7段译码器√50 双2路2-2输入与或非门√ √ √51 2路3-3输入,2路2-2输入与或非门√ √ √52 4路2-3-2-2输入与或门√53 4路2-2-2-2输入与或非门√54 4路2-3-3-2输入与或非门√ √55 2路4-4输入与或非门√60 双4输入与扩展器√ √61 三3输入与扩展器√62 4路2-3-3-2输入与或扩展器√64 4路4-2-3-2输入与或非门√65 4路4-2-3-2输入与或非门(OC) √70 与门输入J-K触发器√71 与或门输入J-K触发器√72 与门输入J-K触发器√74 双上升沿D型触发器√ √78 双D型触发器√ √85 四位数值比较器√86 四2输入端异或门√ √ √87 4位二进制原码/反码√95 4位移位寄存器√101 与或门输入J-K触发器√102 与门输入J-K触发器√107 双主-从J-K触发器√108 双主-从J-K触发器√109 双主-从J-K触发器√110 与门输入J-K触发器√111 双主-从J-K触发器√ √112 双下降沿J-K触发器√113 双下降沿J-K触发器√114 双下降沿J-K触发器√116 双4位锁存器√120 双脉冲同步驱动器√121 单稳态触发器√ √ √122 可重触发单稳态触发器√ √ √123 可重触发双稳态触发器√ √ √125 四总线缓冲器√ √ √126 四总线缓冲器√ √ √128 四2输入端或非线驱动器√ √ √132 四2输入端与非门√ √ √。

M54/74HC4020M54/74HC4040March 1993HC404012STAGE BINARY COUNTERHC402014STAGE BINARY COUNTER B1R(Plastic Package)ORDER CODES :M54HCXXXF1R M74HCXXXM1R M74HCXXXB1R M74HCXXXC1RF1R(Ceramic Package)M1R(Micro Package)C1R (Chip Carrier)PIN CONNECTION (top view).HIGH SPEEDf MAX =73MHz (TYP.)at V CC =5V .LOW POWER DISSIPATIONI CC =4µA (MAX.)at T A =25oC .HIGH NOISE IMMUNITYV NIH =V NIL =28%V CC (MIN.).OUTPUT DRIVE CAPABILITY 10LSTTL LOADS.SYMMETRICAL OUTPUT IMPEDANCE |I OH |=I OL =4mA (MIN.).BALANCED PROPAGATION DELAYS t PLH =t PHL.WIDE OPERATING VOLTAGE RANGE V CC (OPR)=2V to 6V.PIN AND FUNCTION COMPATIBLE WITH 4020B/4040BDESCRIPTIONThe M54/74HC4020/HC4040are high speedCMOS 14/12-STAGE BINARY COUNTER fabricated in silicon gate C 2MOS technology.They have the same high speed performance of LSTTL combined with true CMOS low consumption.A clear input is used to reset the counter to the all low level state.A high level on CLEAR accomplishes the reset function.A negative transition on the CLOCK input increments the counter by one.For HC4020twelve kind od divided output are provided;1st and 4th stage to 14th stage.The maximum division available at last stage is 1/16384x f IN at clock.For HC4040each division stage has an output;the final frequency is 1/4096x f IN .All inputs are equipp ed with protection circuits against static discharge and transient excess voltage.HC4020HC4040HC4020HC40401/13INPUT AND OUTPUT EQUIVALENT CIRCUITPIN DESCRIPTION (HC4020)PIN No SYMBOL NAME AND FUNCTION 9,7,6,5,3,2,4,13,12,14,15,1Q1,Q4to Q14Parallel Outputs10CLOCK Clock Input (LOW to HIGH,edge triggered)11CLEAR Reset Inputs8GND Ground (0V)16V CCPositive Supply VoltageIEC LOGIC SYMBOLSPIN DESCRIPTION (HC4040)PIN No SYMBOL NAME AND FUNCTION 9,7,6,5,3,2,4,13,12,14,15,1Q1to Q12Parallel Outputs10CLOCK Clock Input (LOW to HIGH,edge triggered)11CLEAR Reset Inputs8GND Ground (0V)16V CCPositive Supply VoltageTRUTH TABLECLOCK CLEAR OUTPUT STATE XH ALL OUTPUTS =”L”L NO CHANGE LADVANCE TO NEXT STATEHC4020HC4040M54/M74HC4020/40402/13M54/M74HC4020/4040 LOGIC DIAGRAM(HC4020)3/13M54/M74HC4020/4040 LOGIC DIAGRAM(HC4040)4/13ABSOLUTE MAXIMUM RATINGSSymbol Parameter Value Unit V CC Supply Voltage-0.5to+7V V I DC Input Voltage-0.5to V CC+0.5V V O DC Output Voltage-0.5to V CC+0.5VI IK DC Input Diode Current±20mAI OK DC Output Diode Current±20mAI O DC Output Source Sink Current Per Output Pin±25mAI CC or I GND DC V CC or Ground Current±50mAP D Power Dissipation500(*)mW T stg Storage Temperature-65to+150o C T L Lead Temperature(10sec)300o C Absolute Maximum Ratings are those values beyond whichdamage to the device may occu r.Functiona l ope ration und er these cond ition isnotimplied. (*)500mW:≅65o C derate to300mW by10mW/o C:65o C to85o CRECOMMENDED OPERATING CONDITIONSSymbol Parameter Value Unit V CC Supply Voltage2to6V V I Input Voltage0to V CC V V O Output Voltage0to V CC VT op Operating Temperature:M54HC SeriesM74HC Series -55to+125-40to+85o Co Ct r,t f Input Rise and Fall Time V CC=2V0to1000nsV CC=4.5V0to500V CC=6V0to400M54/M74HC4020/40405/13DC SPECIFICATIONSSymbol ParameterTest Conditions ValueUnit V CC(V)T A=25o C54HC and74HC-40to85o C74HC-55to125o C54HCMin.Typ.Max.Min.Max.Min.Max.V IH High Level InputVoltage 2.0 1.5 1.5 1.5V 4.5 3.15 3.15 3.156.0 4.2 4.2 4.2V IL Low Level InputVoltage 2.00.50.50.5V 4.5 1.35 1.35 1.356.0 1.8 1.8 1.8V OH High LevelOutput Voltage 2.0V I=V IHorV ILI O=-20µA1.92.0 1.9 1.9V 4.5 4.4 4.5 4.4 4.46.0 5.9 6.0 5.9 5.94.5I O=-4.0mA 4.18 4.31 4.13 4.106.0I O=-5.2mA 5.68 5.8 5.63 5.60V OL Low Level OutputVoltage 2.0V I=V IHorV ILI O=20µA0.00.10.10.1V 4.50.00.10.10.16.00.00.10.10.14.5I O=4.0mA0.170.260.330.406.0I O=5.2mA0.180.260.330.40I I Input LeakageCurrent 6.0V I=V CC or GND±0.1±1±1µAI CC Quiescent SupplyCurrent 6.0V I=V CC or GND44080µAM54/M74HC4020/4040 6/13AC ELECTRICAL CHARACTERISTICS(C L=50pF,Input t r=t f=6ns)Symbol ParameterTest Conditions ValueUnit V CC(V)T A=25o C54HC and74HC-40to85o C74HC-55to125o C54HCMin.Typ.Max.Min.Max.Min.Max.t TLH t THL Output TransitionTime2.0307595110ns4.581519226.07131619t PLH t PHL PropagationDelay Time(Qn-Qn+1)2.020506575ns4.551013156.0491113t PLH t PHL PropagationDelay Time(CLOCK Q1)2.0for HC402076145180220ns4.5212936446.018253138t PLH t PHL PropagationDelay Time(CLOCK Q1)2.0for HC404048145180220ns4.5172936446.013253138t PHL PropagationDelay Time(CLEAR-Qn)2.0for HC402060140175210ns 4.5182835426.015243036t PHL PropagationDelay Time(CLEAR-Qn)2.0for HC404056140175210ns 4.5182835426.015243036f MAX Maximum ClockFrequency 2.0 6.015 4.84MHz 4.5306524206.035702824t W(H) t W(L)Minimum PulseWidth(CLOCK)2.0407595110ns4.581519226.07131619t W(H)Minimum PulseWidth(CLEAR)2.0for HC4020327595110ns 4.581519226.07131619t W(H)Minimum PulseWidth(CLEAR)2.0for HC404070175220265ns 4.5193544536.016303745t REM MinimumRemoval Time 2.0for HC4020000ns 4.50006.0000t REM MinimumRemoval Time 2.0for HC4040253040ns 4.55686.0557C IN Input Capacitance51010pFC PD(*)Power DissipationCapacitance 34pF(*)C PD is defined as the value of the IC’s internal equivalent capac itanc e which is calculated from the operating current con sump tion without load. (Refer to Test Circuit).Average operting current can be obtained by the following equ ation.I CC(opr)=C PD•V CC•f IN+I CC/2(per FLIP/FLOP)M54/M74HC4020/40407/13M54/M74HC4020/4040SWITCHING CHARACTERISTICS TEST WAVEFORMTEST CIRCUIT I CC(Opr.)INPUT WAVEFORM IS THE SAME AS THAT IN CASE OF SWITCHING CHARACTERISTICS TEST. 8/13M54/M74HC4020/4040 Plastic DIP16(0.25)MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX.a10.510.020B0.77 1.650.0300.065b0.50.020b10.250.010D200.787E8.50.335e 2.540.100e317.780.700F7.10.280I 5.10.201L 3.30.130Z 1.270.050P001C9/13M54/M74HC4020/4040Ceramic DIP16/1MECHANICAL DATAmm inch DIM.MIN.TYP.MAX.MIN.TYP.MAX.A200.787 B70.276D 3.30.130E0.380.015e317.780.700F 2.29 2.790.0900.110G0.40.550.0160.022H 1.17 1.520.0460.060L0.220.310.0090.012 M0.51 1.270.0200.050 N10.30.406 P7.88.050.3070.317 Q 5.080.200P053D 10/13M54/M74HC4020/4040 SO16(Narrow)MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX.A 1.750.068a10.10.20.0040.007a2 1.650.064b0.350.460.0130.018b10.190.250.0070.010C0.50.019c145°(typ.)D9.8100.3850.393E 5.8 6.20.2280.244e 1.270.050e38.890.350F 3.8 4.00.1490.157G 4.6 5.30.1810.208L0.5 1.270.0190.050M0.620.024S8°(max.)P013H11/13M54/M74HC4020/4040PLCC20MECHANICAL DATAmm inch DIM.MIN.TYP.MAX.MIN.TYP.MAX.A9.7810.030.3850.395 B8.899.040.3500.356D 4.2 4.570.1650.180d1 2.540.100d20.560.022E7.378.380.2900.330e 1.270.050e3 5.080.200F0.380.015G0.1010.004 M 1.270.050M1 1.140.045P027A 12/13M54/M74HC4020/4040 Information furnished is believed to be accurate and reliable.However,SGS-THOMSON Microelectronics assumes no responsability for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may results from its use.No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.Specificationsmentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.SGS-THOMSON Microelectronics products are not authorized for use ascritical components in life support devices or systems without express written approval of SGS-THOMSON Microelectonics.©1994SGS-THOMSON Microelectronics-All Rights ReservedSGS-THOMSON Microelectronics GROUP OF COMPANIESAustralia-Brazil-France-Germany-Hong Kong-Italy-Japan-Korea-Malaysia-Malta-Morocco-The Netherlands-Singapore-Spain-Sweden-Switzerland-Taiwan-Thailand-United Kingdom-U.S.A13/13。

1/11August 2001sHIGH SPEED:t PD = 12ns (TYP .) at V CC = 6V sLOW POWER DISSIPATION:I CC = 4µA(MAX.) at T A =25°C sHIGH NOISE IMMUNITY:V NIH = V NIL = 28 % V CC (MIN.)sSYMMETRICAL OUTPUT IMPEDANCE:|I OH | = I OL = 6mA (MIN)sBALANCED PROPAGATION DELAYS:t PLH ≅ t PHLsWIDE OPERATING VOLTAGE RANGE:V CC (OPR) = 2V to 6VsPIN AND FUNCTION COMPATIBLE WITH 74 SERIES 533DESCRIPTIONThe M74HC533 is an high speed CMOS OCTAL LATCH WITH 3-STATE OUTPUTS fabricated with silicon gate C 2MOS technology.This 8-BIT D-Type latches is controlled by a latch enable input (LE) and output enable input (OE).While the LE input is held at a high level, the Q outputs will follow the data input. When the LE is taken, the Q outputs will be latched at the logic level of D input data.While the OE input is at low level, the eight outputs will be in a normal logic state (high or low logic level) and while high level the outputs will be in a high impedance state.The 3-State output configuration and the wide choice of outline make bus organized system simple.All inputs are equipped with protection circuits against static discharge and transient excess voltage.M74HC533OCTAL D-TYPE LATCHWITH 3 STATE OUTPUT INVERTINGPIN CONNECTION AND IEC LOGIC SYMBOLSORDER CODESPACKAGE TUBE T & RDIP M74HC533B1R SOP M74HC533M1RM74HC533RM13TR TSSOPM74HC533TTRM74HC5332/11INPUT AND OUTPUT EQUIVALENT CIRCUITPIN DESCRIPTIONTRUTH TABLEX: Don’t CareZ: High Impedance(*): Q Outputs are latched at the time when the LE input is taken low logic level.LOGIC DIAGRAMPIN No SYMBOL NAME AND FUNCTION 1OE 3 State Output Enable Input (Active LOW)2, 5, 6, 9, 12, 15, 16, 19 Q0 to Q7 3 State Outputs 3, 4, 7, 8, 13, 14, 17, 18D0 to D7Data Inputs11LE Latch Enable Input 10GND Ground (0V)20V CCPositive Supply VoltageINPUTSOUTPUTSOE LE D QH X X ZL L X NO CHANGE (*)L H L H LHHLM74HC5333/11ABSOLUTE MAXIMUM RATINGSAbsolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is not implied(*) 500mW at 65 °C; derate to 300mW by 10mW/°C from 65°C to 85°CRECOMMENDED OPERATING CONDITIONSSymbol ParameterValue Unit V CC Supply Voltage -0.5 to +7V V I DC Input Voltage -0.5 to V CC + 0.5V V O DC Output Voltage -0.5 to V CC + 0.5V I IK DC Input Diode Current ± 20mA I OK DC Output Diode Current ± 20mA I O DC Output Current ± 35mA I CC or I GND DC V CC or Ground Current± 70mA P D Power Dissipation 500(*)mW T stg Storage Temperature -65 to +150°C T LLead Temperature (10 sec)300°CSymbol ParameterValue Unit V CC Supply Voltage 2 to 6V V I Input Voltage 0 to V CC V V O Output Voltage 0 to V CC V T op Operating Temperature -55 to 125°C t r , t fInput Rise and Fall TimeV CC = 2.0V 0 to 1000ns V CC = 4.5V 0 to 500ns V CC = 6.0V0 to 400nsM74HC5334/11DC SPECIFICATIONSSymbolParameterTest ConditionValue UnitV CC (V)T A = 25°C -40 to 85°C -55 to 125°C Min.Typ.Max.Min.Max.Min.Max.V IHHigh Level Input Voltage2.0 1.5 1.5 1.5V 4.53.15 3.15 3.156.04.24.24.2V ILLow Level Input Voltage2.00.50.50.5V4.5 1.35 1.35 1.356.0 1.81.81.8V OHHigh Level Output Voltage2.0I O =-20 µA 1.9 2.0 1.9 1.9V4.5I O =-20 µA 4.4 4.5 4.4 4.46.0I O =-20 µA5.96.0 5.9 5.94.5I O =-6.0 mA 4.18 4.31 4.13 4.106.0I O =-7.8 mA 5.685.8 5.635.60V OLLow Level Output Voltage2.0I O =20 µA 0.00.10.10.1V 4.5I O =20 µA 0.00.10.10.16.0I O =20 µA 0.00.10.10.14.5I O =6.0 mA 0.170.260.330.406.0I O =7.8 mA 0.180.260.330.40I I Input Leakage Current6.0V I = V CC or GND ± 0.1± 1± 1µA I OZHigh Impedance Output Leakage Current6.0V I = V IH or V IL V O = V CC or GND ± 0.5± 5± 10µA I CCQuiescent Supply Current6.0V I = V CC or GND44080µAM74HC5335/11AC ELECTRICAL CHARACTERISTICS (C L = 50 pF, Input t r = t f = 6ns)CAPACITIVE CHARACTERISTICS1) C PD is defined as the value of the IC’s internal equivalent capacitance which is calculated from the operating current consumption without load. (Refer to Test Circuit). Average operating current can be obtained by the following equation. I CC(opr) = C PD x V CC x f IN + I CC /8 (per Flip Flop) and the C PD when n pcs of Flip Flop operate, can be gained by the following equation: C PD(TOTAL) = 22 + 16 x n (pF)SymbolParameterTest ConditionValue UnitV CC (V)C L (pF)T A = 25°C -40 to 85°C -55 to 125°C Min.Typ.Max.Min.Max.Min.Max.t TLH t THL Output TransitionTime 2.05025607590ns 4.571215186.06101315t PLH t PHL Propagation DelayTime(LE, D - Q)2.05042125155190ns4.5142531386.0122126322.015057175220265ns4.5193544536.016303745t PZL t PZH High ImpedanceOutput Enable Time2.050R L = 1 K Ω39125155190ns4.5132531386.0112126322.0150R L = 1 K Ω54175220265ns4.5183544536.015303745t PLZ t PHZ High ImpedanceOutput Disable Time 2.050R L = 1 K Ω30125155190ns4.5142531386.013212632t W(H)Minimum Pulse Width (LE) 2.050157595110ns4.561519226.06131619t sMinimum Set-up Time2.05016506575ns4.541013156.0391113t hMinimum Hold Time2.050555ns4.55556.0555SymbolParameterTest ConditionValue UnitV CC (V)T A = 25°C -40 to 85°C -55 to 125°C Min.Typ.Max.Min.Max.Min.Max.C IN Input Capacitance 5101010pF C OUT OutputCapacitance10pF C PDPower Dissipation Capacitance (note 1)38pFM74HC5336/11TEST CIRCUITC L = 50pF/150pF or equivalent (includes jig and probe capacitance)R 1 = 1K Ω or equivalentR T = Z OUT of pulse generator (typically 50Ω)WAVEFORM 1: LE TO Qn PROPAGATION DELAYS, LE MINIMUM PULSE WIDTH, Dn TO LE SETUP AND HOLD TIMES (f=1MHz; 50% duty cycle)TESTSWITCH t PLH , t PHL Open t PZL , t PLZ V CC t PZH , t PHZGNDM74HC5337/11WAVEFORM 2: OUTPUT ENABLE AND DISABLE TIMES (f=1MHz; 50% duty cycle)WAVEFORM 3: PROPAGATION DELAY TIMES(f=1MHz; 50% duty cycle)M74HC533 Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© The ST logo is a registered trademark of STMicroelectronics© 2000 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - Malaysia - Malta - MoroccoSingapore - Spain - Sweden - Switzerland - United Kingdom© 11/11芯天下--/。

ｗｗｗ．ｆｐｇａ－ａｒｍ．ｃｏｍ54/7403四2输入与非门（OC ）简要说明03为集电集开路输出的四组2输入端与非门（正逻辑），共有54/7403、54/74S03、54/74LS03三种线路结构型式，其主要电特性的典型值如下：型号t PLHt phlP D54/7403 35ns 8ns 40mW 54/74S03 5ns 4.5ns 65mW 54/74LS03 17ns 15ns 8mW引出端符号1A －4A 输入端 1B －4B 输入端 1Y －4Y 输出端逻辑图双列直插封装极限值电源电压 …………………………………………. 7V 输入电压54/7403、54/74S03………………………………. 5.5V 54/74LS03 ………………………………………. 7V A －B 间电压54/7403、54/74S03………………………………. 5.5V 输出截止态电压……………………………………. 7V 工作环境温度ｒｍ．ｃｏｍ54XXX ……………………………………………. -55~125℃ 74XXX………… ……………………………… 0~70℃ 存储温度 …………………………………………. -65~150℃功能表:[1]: 测试条件中的“最小”和“最大”用推荐工作条件中的相应值。

动态特性(T A =25℃)‘03 ‘S03 ‘LS03 参 数测 试 条 件最大最大 最大单位ｗｗｗ．ｆｐｇａ－ａｒｍ．ｃｏｍt PLH 输出由低到高传输延迟时间 45 7.5 32 ns t PHL 输出由高到低传输延迟时间Vcc =5V ,C L =15Pf,R L =400Ω(‘S03为280Ω，‘LS03为2K Ω)15 7 28 ns。

1/10July 2001sHIGH SPEED:t PD = 15ns (TYP .) at V CC = 6V sLOW POWER DISSIPATION:I CC = 4µA(MAX.) at T A =25°C sHIGH NOISE IMMUNITY:V NIH = V NIL = 28 % V CC (MIN.)sSYMMETRICAL OUTPUT IMPEDANCE:|I OH | = I OL = 4mA (MIN)sBALANCED PROPAGATION DELAYS:t PLH ≅ t PHLsWIDE OPERATING VOLTAGE RANGE:V CC (OPR) = 2V to 6VsPIN AND FUNCTION COMPATIBLE WITH 74 SERIES 238DESCRIPTIONThe M74HC238 is an high speed CMOS 3 TO 8LINE DECODER fabricated with silicon gate C 2MOS technology.If the device is enabled, 3 binary select inputs (A,B and C) determine which one of outputs will go high. When enable input G1 is held "Low" or either G2A or G2B is held "High" decoding function isinhibited and all the 8 outputs go low. Three enable inputs are provided to ease cascade connection and application of this address decoder in memory systems.All inputs are equipped with protection circuits against static discharge and transient excess voltage.M74HC2383 TO 8 LINE DECODERPIN CONNECTION AND IEC LOGIC SYMBOLSORDER CODESPACKAGE TUBE T & RDIP M74HC238B1R SOP M74HC238M1RM74HC238RM13TR TSSOPM74HC238TTRM74HC2382/10INPUT AND OUTPUT EQUIVALENT CIRCUITPIN DESCRIPTIONTRUTH TABLEX : Don’t CareLOGIC DIAGRAMPIN No SYMBOL NAME AND FUNCTION 1, 2, 3A, B, C Data Inputs4, 5 G2A G2B Enable Input (Active LOW)6G1Data Enable Input (Active HIGH)15, 14, 13, 12, 11, 10, 9,7Y0 to Y7Outputs8GND Ground (0V)16V CCPositive Supply VoltageINPUTSOUTPUTS SELECTED OUTPUTENABLE SELECTG2B G2A G1C B A Y0Y1Y2Y3Y4Y5Y6Y7X X L X X X L L L L L L L L NONE X H X X X X L L L L L L L L NONE H X X X X X L L L L L L L L NONE L L H L L L H L L L L L L L Y0L L H L L H L H L L L L L L Y1L L H L H L L L H L L L L L Y2L L H L H H L L L H L L L L Y3L L H H L L L L L L H L L L Y4L L H H L H L L L L L H L L Y5L L H H H L L L L L L L H L Y6LLHHHHLLLLLLLHY7M74HC2383/10ABSOLUTE MAXIMUM RATINGSAbsolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is not implied(*) 500mW at 65 °C; derate to 300mW by 10mW/°C from 65°C to 85°CRECOMMENDED OPERATING CONDITIONSSymbol ParameterValue Unit V CC Supply Voltage -0.5 to +7V V I DC Input Voltage -0.5 to V CC + 0.5V V O DC Output Voltage -0.5 to V CC + 0.5V I IK DC Input Diode Current ± 20mA I OK DC Output Diode Current ± 20mA I O DC Output Current ± 25mA I CC or I GND DC V CC or Ground Current± 50mA P D Power Dissipation 500(*)mW T stg Storage Temperature -65 to +150°C T LLead Temperature (10 sec)300°CSymbol ParameterValue Unit V CC Supply Voltage 2 to 6V V I Input Voltage 0 to V CC V V O Output Voltage 0 to V CC V T op Operating Temperature -55 to 125°C t r , t fInput Rise and Fall TimeV CC = 2.0V 0 to 1000ns V CC = 4.5V 0 to 500ns V CC = 6.0V0 to 400nsM74HC2384/10DC SPECIFICATIONSAC ELECTRICAL CHARACTERISTICS (C L = 50 pF, Input t r = t f = 6ns)SymbolParameterTest ConditionsValue UnitV CC (V)T A = 25°C -40 to 85°C -55 to 125°C Min.Typ.Max.Min.Max.Min.Max.V IHHigh Level Input Voltage2.0 1.5 1.5 1.5V 4.53.15 3.15 3.156.04.24.24.2V ILLow Level Input Voltage2.00.50.50.5V4.5 1.35 1.35 1.356.0 1.81.81.8V OHHigh Level Output Voltage2.0I O =-20 µA 1.9 2.0 1.9 1.9V4.5I O =-20 µA 4.4 4.5 4.4 4.46.0I O =-20 µA5.96.0 5.9 5.94.5I O =-4.0 mA 4.18 4.31 4.13 4.106.0I O =-5.2 mA 5.685.8 5.635.60V OLLow Level Output Voltage2.0I O =20 µA 0.00.10.10.1V 4.5I O =20 µA 0.00.10.10.16.0I O =20 µA 0.00.10.10.14.5I O =4.0 mA 0.170.260.330.406.0I O =5.2 mA 0.180.260.330.40I I Input Leakage Current6.0V I = V CC or GND ± 0.1± 1± 1µA I CCQuiescent Supply Current6.0V I = V CC or GND44080µA SymbolParameterTest ConditionsValue UnitV CC (V)T A = 25°C -40 to 85°C -55 to 125°C Min.Typ.Max.Min.Max.Min.Max.t TLH t THL Output TransitionTime 2.0307595110ns 4.581519226.07131619t PLH t PHL Propagation DelayTime (A, B, C - Y) 2.050150190225ns4.5173038456.015263238t PLH t PHL Propagation DelayTime (G1 - Y) 2.050150190225ns4.5173038456.015263238t PLH t PHL Propagation DelayTime (G2 - Y)2.050150190225ns4.5173038456.015263238M74HC2385/10CAPACITIVE CHARACTERISTICS1) C PD is defined as the value of the IC’s internal equivalent capacitance which is calculated from the operating current consumption without load. (Refer to Test Circuit). Average operating current can be obtained by the following equation. I CC(opr) = C PD x V CC x f IN + I CCTEST CIRCUITL R T = Z OUT of pulse generator (typically 50Ω)SymbolParameterTest ConditionsValue UnitV CC (V)T A = 25°C -40 to 85°C -55 to 125°C Min.Typ.Max.Min.Max.Min.Max.C IN Input Capacitance 5.05101010pF C PDPower Dissipation Capacitance (note 1)5.053pFM74HC2386/10WAVEFORM 1: PROPAGATION DELAY TIMES(f=1MHz; 50% duty cycle)M74HC238Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© The ST logo is a registered trademark of STMicroelectronics© 2001 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - Malaysia - Malta - MoroccoSingapore - Spain - Sweden - Switzerland - United Kingdom© 10/10。