IC-Bausteine

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Eine Übersicht über die gängigen IC-Typen. IC integrated circuit (integrierter Schaltkreis)

DIP-Bauform

7400er Familie

Baureihen

  • TTL (Transistor Transistor Logic, Logik auf Transistorbasis)
    • 74 = TTL (veraltet)
    • 74H = Highspeed TTL (veraltet)
    • 74ALS = Advanced Low Power Schottky TTL
    • 74AS = Advanced Schottky TTL
    • 74F = Fast TTL
    • 74L = Low Power TTL (veraltet)
    • 74LS = Low Power Schottky TTL (Ersatz für 74 und 74L)
    • 74S = Schottky TTL
  • CMOS (Complementary Metal Oxide Semiconductor, Halbleiter mit gegensätzlicher Polarität)
    • 74AC = Advanced CMOS
    • 74ACT = AC mit TTL-kompatiblen Eingängen
    • 74HC = High Speed CMOS
    • 74HCT = HC mit TTL-kompatiblen Eingängen
    • 74AHC = Advanced High-Speed CMOS
    • 74AHCT = AHC mit TTL-kompatiblen Eingängen
    • 74VHC = Very High Speed CMOS
    • 74VHCT = VHC mit TTL-kompatiblen Eingängen
    • 74LV = Low-Voltage CMOS
  • ECL (Emitter Coupled Logic, Emittergekoppelte Logik)
    • 74ECL
    • 74ECTL
  • Langsame störsichere Logik
    • 74LSL
    • 74SZL
  • BICMOS Bus-Interface-Logik (CMOS und Bipolartechnik kombiniert)
    • 74BCT
    • 74ABT

Typen

Name
Pins
Anzahl
Logische Funktion
7400 14 4 2 Input NAND
7401 14 4 2 Input NAND (OC=Open Collector)
7402 14 4 2 Input NOR
7403 14 4 2 Input NAND (OC) Andere Belegung als 7401
7404 14 6 Inverter
7405 14 6 Inverter (OC)
7406 14 6 Inverter Buffer/Treiber (OC)
7407 14 6 Buffer/Treiber (OC)
7408 14 4 2 Input AND
7409 14 4 2 Input AND (OC)
7410 14 3 3 Input NAND
7411 14 3 3 Input AND
7412 14 3 3 Input NAND (OC)
7413 14 2 4 Input NAND Schmitt-Trigger
7414 14 6 Inverter Schmitt-Trigger
7415 14 3 3 Input AND (OC)
7416 14 6 Inverter Treiber (OC)
7417 14 6 Treiber (OC)
7418 14 2 4 Input NAND Schmitt-Trigger
7419 14 6 Inverter Schmitt-Trigger
7420 14 2 4 Input NAND
7421 14 2 4 Input AND
7422 14 2 4 Input NAND (OC)
7424 14 4 2 Input NAND Schmitt-Trigger
7425 14 2 4 Input NOR
7426 14 4 2 Input NAND (OC)
7427 14 3 3 Input NOR
7428 14 4 2 Input NOR
7430 14 1 8 Input NAND
7431 16 - Verzögerungs-Element (je 2 Non-Inverting, Inverting, 2 Input NAND)
7432 14 4 2 Input OR
7433 14 4 2 Input NOR (OC)
7434 14 6 Treiber
7435 14 6 Treiber (OC)
7436 14 4 2 Input NOR
7437 14 4 2 Input NAND
7438 14 4 2 Input NAND (OC)
7439 14 4 2 Input NAND Treiber (OC)
7440 14 2 4 Input NAND
7441 16 - BCD -> Decimal Decoder (OC)
7442 16 - BCD -> Decimal Decoder
7443 16 - Excess-3 -> Decimal Decoder
7444 16 - Excess-3-Gray -> Decimal Decoder
7445 16 - BCD -> Decimal Decoder (OC)
7446 16 - BCD -> 7-Segment Decoder (OC)
7447 16 - BCD -> 7-Segment Decoder (OC)
7448 16 - BCD -> 7-Segment Decoder (OC)
7449 14 - BCD -> 7-Segment Decoder (OC)
7450 14 - Dual 2-Wide 2-Input AND-OR-INVERT (1 expandable)
7451 14 2 AND-OR-INVERT
7452 14  ? Expandable AND-OR
7453 14 1 Expandable 4-Wide AND-OR-INVERT
7454 14 1 3-2-2-3 Input AND-OR-INVERT
7455 14 1 2-Wide 4-Input AND-OR-INVERT
7473 14 2 JK Flip Flop with clear
7474 14 2 D Flip Flop with preset & clear
7475 16 - 4-Bit Bistable Latch
7476 14 2 JK Flip Flop with preset & clear
7478 14 2 JK Flip Flop
7486 14 4 2 Input XOR
7490 14 - Decade Counter
7492 14 - Divide By-Twelve Couter
7493 14 - 4-Bit Binary Counter
7495 14 - 4 Bit Parallel Access Shift Register
74121 14 - Monostable Multivibrator With Schmitt-Trigger
74122 14 - Retriggerable Monostable Multivibrator
74123 16 2 Retriggerable Monostable Multivibrator
74125 14 4 Tri-State Buffer
74126 14 4 Tri-State Buffer
74132 14 4 2 Input NAND Schmitt-Trigger
74133 14 1 13 Input NAND
74136 14 4 2 Input XOR
74137 16 1 3-to-8 line decoder / demultiplexer with address latches, low-active outputs
74138 16 1 3-to-8 line decoder / demultiplexer , low-active outputs
74139 16 2 2-to-4 line decoder / demultiplexer , low-active outputs
74146 16 - BCD -> Decimal Decoder (OC)
74147 16 - 10-Line -> 4-Line BCD Priority Encoder
74148 16 - 8-Line -> 3-Line Priority Encoder
74151 16 1 8:1 Multiplexer
74154 24 1 4-Line -> 16-Line Decoder/Demultiplexer
74155 16 2 2-Line -> 4-Line Decoder/Demultiplexer
74156 16 2 2-Line -> 4-Line Decoder/Demultiplexer (OC)
74157 16 4 2:1 Multiplexer
74158 16 4 2:1 Multiplexer , inverted outputs
74161 16 - Sync 4 Bit Binary Counter Async Reset
74164 14 - 8 Bit Serial Shift Register
74177 14 - Presetable Binary Counter/Latch
74191 16 - 4-Bit Up/Down Binary Converter
74193 16 - 4-Bit Up/Down Binary Counter
74221 16 2 Monostable Multivibrator with Reset
74238 16 1 3-to-8 line decoder / demultiplexer , high-active outputs
74239 16 2 2-to-4 line decoder / demultiplexer , high-active outputs
74240 20 - 8-Bit Tri-State Buffer/Line Driver (invertierend)
74241 20 - 8-Bit Tri-State Buffer/Line Driver
74242 14 - 4-Bit Bus Transceiver (invertierend)
74243 14 - 4-Bit Bus Transceiver (nicht invertierend)
74244 20 - 8-Bit Tri-State Buffer/Line Driver (nicht invertierend)
74245 20 - 8-Bit Bus Transceiver
74251 16 - 8-Bit Input Multiplexer; 3-State
74259 16 - 8-Bit Adressable Latch
74260 14 2 5 Input NOR
74266 14 4 2 Input Exclusive NOR (OC)
74366 16 6 Tri-State Inverting Buffer
74367 16 6 Tri-State Buffer
74373 20 - 8-Bit Transparent Latch
74541 20 - 8-Bit Tri-State Buffer/Line Driver
74573 20 - 8-Bit Tri-State D-Type Latch
74574 20 8 Tri-State Flip Flop
74590 16 - 8-Bit binary counter, 3-state output register
74595 16 - 8-Bit Serial -> Parallel (SIPO) Shift Register

4000er Familie

Baureihen

Typen

Name
Pins
Anzahl
Logische Funktion
4000 14 2 3er NOR-Gatter und 1 Inverter
4001 14 4 NOR-Gatter mit 2 Eingängen
4002 14 2 NOR-Gatter mit 4 Eingängen
4006 14 1 18 Bit statisches Schieberegister
4007 14 2 Komplementäreingänge und Inverter
4008 16 1 4 Bit Volladdierer mit Parallelübertragausgang
4009 16 6 Inverter / Puffer
4010 16 6 Puffer
4011 14 4 NAND-Gatter mit 2 Eingängen
4012 14 2 NAND-Gatter mit 4 Eingängen
4013 14 2 D-Flipflop mit Set/Reset-Eingang
4014 16 4 8 Bit statisches Schieberegister mit Synchron-Parallel-Serienausgang
4015 16 2 4 Bit statisches Schieberegister mit Synchron-Parallel-Serienausgang
4016 14 4 Bilateralere Analog-Schalter
4017 16 1 Dekadenzähler mit 10 dekodierten Dezimalausgängen
4018 16 1 Programmierbarer 1/n-Teiler
4019 16 4 AND/OR-Kombinationsgatter
4020 16 1 14 Bit Binärzähler/Frequenzteiler
4021 16 1 8 Bit statisches schieberegister
4022 16 1 Zähler/Teiler mit 8fachem Teilerverhältnis und 8 dekodierten Dezimalausgängen
4023 14 3 NAND-Gatter mit 3 Eingängen
4024 14 1 7 Bit Binärzähler / Frequenzteiler
4025 14 3 NOR-Gatter mit 3 Eingängen
4026 16 1 Dezimalzähler mit 7-Segment-Decoder
4027 16 2 JK-Flipflop mit Set / Reset-Eingang
4028 16 1 BCD / Dezimal-Decoder
4029 16 1 Programmierbarer 4 Bit vorwärtz / Rückwärts Zahler
4030 14 4 Exclusiv-OR-Gatter
4031 16 1 64 Bit statisches Schieberegister
4032 16 2 Serienaddierer (positiv)
4033 16 1 Programmierbarer Dezimalzähler mit 7-Segment-Decoder
4035 16 1 Statisches 4 Bit Schieberegister
4036 24 4 4 Bit statisches Schieberegister mit Synchron-Parallel-Serienausgang
4037 14 3 AND / OR Zweiphasenpaar
4038 16 3 Serieller Addierer (negativ)
4039 24 4 8 Bit Speicher Register
4040 16 1 12 Bit Binärzähler / Frequenzteiler
4041 14 4 Tune / Complement-Buffer
4042 16 4 Latch
4043 16 4 NOR-RS Latch
4044 16 4 NAND-RS Latch
4045 16 1 21 stufiger zähler/Frequenzteiler
4046 16 1 PLL-Schaltkreis
4047 14 1 Monostabiler / astabiler Multivibrator
4048 16 1 Multifunktionsgatter mit 8 Eingängen
4049 16 6 Pegelkonverter invertiert
4050 16 6 Pegelkonverter
4051 16 1 8 Knanal Multiplexer / Demultiplexer
4052 16 1 4 Knanal Differenz Multiplexer / Demultiplexer
4053 16 3 2 Kanal Multiplexer / Demultiplexer
4054 16 1 4-segment Flüssigkristall-Treiber
4055 16 1 BCD / 7-Segment Decoder für Multiplex
4056 16 1 BCD / 7-Segment Decoder mit Latch
4057 28 1 4 Bit LSI-Arithmetik-Einheit
4059 16 1 Programmierbarer Zähler / Teiler
4060 16 1 14 stufiger Zähler / Teiler / Oszillator
4061 16 1 Vollkodiertes 256x1 Bit Ram
4062 16 1 Dynamisches 200-Stufenregister
4063 16 1 4 Bit Größen-Komperator (Vergleicher)
4066 14 4 Bilaterale Schalter
4067 24 1 16 Kanal Multiplexer / Demultiplexer
4068 14 1 NAND-Gatter mit 8 Eingängen
4069 14 6 Inverter
4070 14 4 Exclusiv-OR-Gatter
4071 14 4 OR-Gatter mit 2 Eingängen
4073 14 3 AND-Gatter mit 3 Eingängen
4075 14 3 OR-Gatter mit 3 Eingängen
4076 16 4 D-Latches
4077 14 4 Exclusiv-NOR-Gatter
4078 14 1 NOR-Gatter mit 8 Eingängen
4081 14 4 AND-Gatter mit 2 Eingängen
4082 14 2 AND-Gatter mit 4 Eingängen
4085 14 4 AND / OR-Gatter mit 2 Eingängen
4086 14 4 Expander AND / OR-Inverter-gatter mit 2 Eingängen
4089 16 1 Binärer Multiplizierer
4093 14 1 NAND Schmitt-Trigger mit 2 Eingängen
4094 16 1 8 Bit Universal-Busregister
4095 14 1 J-K-Master-Slave Flipflop
4096 14 1 J-K-Master-Slave Flipflop
4097 24 1 8 Kanal Multiplexer / Demultiplexer
4098 16 2 Monostabile Multivibratoren
4099 16 1 8 Bit addressiertes Latch

4500er Familie

Baureihen

Typen

Name
Pins
Anzahl
Logische Funktion
4501 16 1 24 stufiger Frequenzteiler
4502 16 6 Puffer mit 3-State-Ausgängen
4503 16 6 Puffer mit 3-State-Ausgängen
4504 16 6 TTL / CMOS-Pegelkonverter
4505 14 1 64x1 Bit statisches RAM
4506 14 2 AND / OR-Gatter, erweiterbar
4508 24 2 4 Bit Latches
4510 16 1 BCD vorwärts / rückwärts Zähler
4511 16 1 BCD 7 7-Segment-Latch, Decoder, Treiber
4512 16 1 8-Kanal Datenselektor
4513 18 1 BCD / 7-Segment-Decoder / Speicher /LED-Treiber
4514 24 1 4 / 16-Demultiplexer mit Latch
4515 16 1 4 / 16-Demultiplexer mit Latch
4516 16 1 4 Bit vorwärts / rückwärts-Zähler
4517 16 2 4 Bit vorwärts / rückwärts-Zähler
4518 16 2 BCD Vorwärtszähler
4519 16 1 4 Bit AND / OR-Selector
4520 16 1 2fach Binär Vorwärtszähler
4521 16 1 24 stufiger Frequenzteiler
4522 16 1 Programmierbarer 4 Bit-Binärzähler
4526 16 1 Synchroner programmierbarer 4 Bit-Binärzähler
4527 16 1 BCD Multiplizierer
4528 16 2 Monostabiler Multivibrator
4529 16 2 2-Kanal Analog-Multiplexer
4530 16 2 Majoritätslogik-Gatter, 5 Eingänge
4531 16 1 12 Bit-Prioritätsencoder
4532 16 1 8 Bit-Prioritätsencoder
4534 24 1 5-stelliger Echtzeitszähler
4536 16 2 programmierbarer Zeitgeber
4538 16 2 monostabiler Präzisions-Multivibrator
4539 16 2 4- zu 1-Multiplexer
4541 14 1 programmierbarer Oszillator / Zeitgeber
4543 16 1 BCD / 7-Segment Latch, Decoder, Treiber
4547 16 1 7-Segment-Decoder, Leistungstreiber
4548 16 2 retriggerbare Monoflops
4549 16 1 8 Bit Register / A/D-Wandler
4551 16 4 2-Kanal Analog Multiplexer
4553 16 1 3-stelliger BCD-Zähler
4554 16 2 2 Bit parallell Multiplexer
4555 16 2 2- zu 4-Demultiplexer
4556 16 2 2- zu 4-Demultiplexer
4557 16 1 Schieberegister mit 1 bis 64 Bit
4558 16 1 BCD zu 7-Segment Dekoder
4559 16 1 8-Bit Register in A/D wandeln
4560 16 1 4 Bit BCD-Addierer
4561 14 1 9er Komplementierer
4562 14 1 128 Bit Schieberegister parallel
4566 16 1 Zeitbasis-Generator
4568 16 1 Phasenkomperator und Zähler mit Preset
4569 16 2 schnelle 4 Bit Rückwärtszähler
4572 16 4 Inverter, 1 Nor, 1 Nand, 2 Eingänge
4580 24 1 4x4 Bit Multiport-Register
4581 24 1 4 Bit arithmetische / logische Einheit
4582 16 1 Einheit zur Übertragsbildung
4583 16 2 Schmitt-Trigger mit Hysterese
4584 14 6 invertierende Schmitt-Trigger
4585 16 1 4 Bit Vergleicher
4597 16 1 8 Bit D-Latch, Zähler, buskompatibel
4598 16 1 8 Bit D-Latch adressierbar, buskompatibel
4599 18 1 8 Bit adressierbares D-Latch

Definitionen

Strom

ICC Quiescent power supply current; the current flowing into the VCC supply terminal.
D ICC Additional quiescent supply current per input pin at a specified input voltage and VCC
IGND Quiescent power supply current; the current flowing into the GND terminal.
II Input leakage current; the current flowing into a device at a specified input voltage and VCC.
IIK Input diode current; the current flowing into a device at a specified input voltage.
IO Output source or sink current; the current flowing into a device at a specified output voltage.
IOK Output diode current; the current flowing into a device at a specified output voltage.
IOZ OFF-state output current; the leakage current flowing into the output of a 3-state device in the OFF-state, when the output is connected to VCC or GND.
IS Analog switch leakage current; the current flowing into an analog switch at a specified voltage across the switch and VCC.

Spannung

GND Supply voltage; for a device with a single negative power supply, the most negative power supply, used as the reference level for other voltages; typically ground.
VCC Supply voltage; the most positive potential on the device.
VEE Supply voltage; one of two (GND and VEE) negative power supplies.
VH Hysteresis voltage; difference between the trigger levels, when applying a positive and a negative-going input signal.
VIH HIGH level input voltage; the range of input voltages that represents a logic HIGH level in the system.
VIL LOW level input voltage; the range of input voltages that represents a logic LOW level in the system.
VOH HIGH level output voltage; the range of voltages at an output terminal with a specified output loading and supply voltage. Device inputs are conditioned to establish a HIGH level at the output.
VOL LOW level output voltage; the range of voltages at an output terminal with a specified output loading and supply voltage. Device inputs are conditioned to establish a LOW level at the output.
VT+ Trigger threshold voltage; positive-going signal.
VT- Trigger threshold voltage; negative-going signal.

Analog

RON ON-resistance; the effective ON-state resistance of an analog switch, at a specified voltage across the switch and output load.
D RON D ON-resistance; the difference in ON-resistance between any two switches of an analog device at a specified voltage across the switch and output load.

Kapazitäten

CI Input capacitance; the capacitance measured at a terminal connected to an input of a device.
CI/O Input/Output capacitance; the capacitance measured at a terminal connected to an I/O-pin(e.g. a transceiver).
CL Output load capacitance; the capacitance connected to an output terminal including jig and probe capacitance.
CPD Power dissipation capacitance; the capacitance used to determine the dynamic power dissipation per logic function, when no extra load is provided to the device.
CS Switch capacitance; the capacitance of a terminal to a switch of an analog device.

Parameter

fi Input frequency; for combinatorial logic devices the maximum number of inputs and outputs switching in accordance with the device function table. For sequential logic devices the clock frequency using alternate HIGH and LOW for data input or using the toggle mode, whichever is applicable.
fo Output frequency; each output.
fmax Maximum clock frequency; clock input waveforms should have a 50 % duty factor and such as to cause the outputs to be switching from 10 % VCC to 90 % VCC in accordance with the device function table.
th Hold time; he interval immediately following the active transition of the timing pulse (usually the clock pulse) or following the transition of the control input to its latching level, during which interval the data to be recognized must be maintained at the input to ensure their continued recognition. A negative hold time indicates that the correct logic level may be released prior to the timing pulse and still be recognized.
tr, tf Clock input rise and fall times; 10 % and 90 % values.
tPHL Propagation delay; the time between the specified reference points, normally the 50 % points for 74HC and 74 HCU devices on the input and output waveforms and the 1.3 V points for the 74HCT devices, with the output changing from the defined HIGH level to the defined LOW level.
tPLH Propagation delay; the time between the specified reference points, normally the 50 % points for 74HC and 74 HCU devices on the input and output waveforms and the 1.3 V points for the 74HCT devices, with the output changing from the defined LOW level to the defined HIGH level.
tPHZ 3-state output disable time; the time between the specified reference points, normally the 50 % points for 74HC and 74 HCU devices and the 1.3 V points for the 74HCT devices on the output enable input voltage waveform and a point representing 10 % of the output swing on the output voltage waveform of a 3-state device, with the output changing from a HIGH level (VOH) to a high impedance OFF-state (Z).
tPLZ 3-state output disable time; the time between the specified reference points, normally the 50 % points for 74HC devices and the 1.3 V points for the 74HCT devices on the output enable input voltage waveform and a point representing 10 % of the output swing on the output voltage waveform of a 3-state device, with the output changing from a LOW level (VOL) to a high impedance OFF-state (Z).
tPZH 3-state output enable time; the time between the specified reference points, normally the 50 % points for 74HC devices and the 1.3 V points for the 74HCT devices on the output enable input voltage waveform and the 50 % point on the output voltage waveform of a 3-state device, with the output changing from a high impedance OFF-state (Z) to a HIGH level (VOH).
tPZL 3-state output enable time; the time between the specified reference points, normally the 50 % points for 74HC devices and the 1.3 V points for the 74HCT devices on the output enable input voltage waveform and the 50 % point on the output voltage waveform of a 3-state device, with the output changing from a high impedance OFF-state (Z) to a LOW level (VOL).
trem Removal time; the time between the end of an overriding asynchronous input, typically a clear or reset input, and the earliest permissible beginning of a synchronous control input, typically a clock input, normally measured at the 50 % points for 74HC devices and the 1.3 V points for the 74HCT devices on both input voltage waveforms.
tsu Set-up time; the interval immediately preceding the active transition of the timing pulse (usually the clock pulse) or preceding the transition of the control input to its latching level, during which interval the data to be recognized must be maintained at the input to ensure their recognition. A negative set-up time indicates that the correct logic level may be initiated sometime after the active transition of the timing pulse and still be recognized.
tTHL Output transition time; the time between the two specified reference points on a waveform, normally 90 % and 10 % points, that is changing from HIGH-to-LOW.
tTHL Output transition time; the time between the two specified reference points on a waveform, normally 90 % and 10 % points, that is changing from LOW-to-HIGH.
tW Pulse width; the time between the 50 % amplitude points on the leading and trailing edges of a pulse for 74HC and 74HCU devices and at the 1.3 V points for 74HCT devices.

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