Electronic logic gates can be produced using several different production technologies. In practice we refer to integrated circuits with logic gates produced using a certain production technology as belonging to a logic family of devices. In electronics and digital circuits, a logic gate is an arrangement of switches used to calculate operations in Boolean algebra. ...

The beginning

The list of logic families can be divided into eight main categories, listed here in rough chronological order of introduction along with their usual abbreviations:

• Diode logic (DL)
• Resistor-transistor logic (RTL)
• Diode-transistor logic (DTL)
• Transistor-transistor logic (TTL)
• Emitter coupled logic (ECL)
• Complementary Metal-Oxide Semiconductor logic (CMOS)
• N-type Metal Oxide Semiconductor logic and P-type Metal Oxide Semiconductor logic (NMOS) and (PMOS)
• Bipolar Complementary Metal-Oxide Semiconductor logic (BiCMOS)

Of these eight families, only the last five are currently still in widespread use. ECL is only rarely used for special very high speed applications because of its exorbitant price and power demands, while NMOS and PMOS logic is mainly used in VLSI (Very Large Scale Integrated Circuits) applications such as CPUs and memory chips which fall outside of the scope of this article. Resistor-transistor logic (RTL) is a class of digital circuits built from bipolar junction transistors (BJT), and resistors; it is the earliest transistorized digital logic used. ... Diode-transistor logic (DTL) is a class of digital circuits built from bipolar junction transistors (BJT), diodes and resistors; it is the direct ancestor of transistor-transistor logic. ... A Motorola 68000-based computer with various TTL chips. ... In electronics, emitter coupled logic (or ECL) is a design which uses transistors to steer current through gates which compute logical functions (as does every logic family). ... Static CMOS Inverter CMOS (pronounced see-moss), which stands for complementary metal-oxide-semiconductor, is a major class of integrated circuits. ... NMOS logic uses n-type metal-oxide-semiconductor field effect transistors (MOSFETs) to implement logic gates and other digital circuits. ... See MOSFET ... In integrated circuit design, BiCMOS refers to the integration of bipolar junction transistors and CMOS technology into a single device. ... Very-large-scale integration (VLSI) of systems of transistor-based circuits into integrated circuits on a single chip first occurred in the 1980s as part of the semiconductor and communication technologies that were being developed. ...

Simple "building block" logic gate ICs (the "glue" used to interconnect larger, more complex chips) are responsible for the plethora of all the other logic families in use, and these are based on the TTL, CMOS, and BiCMOS families.

TTL

The oldest family, Transistor-Transistor Logic uses bipolar transistors to form its integrated circuits. TTL has changed significantly over the years, with newer versions replacing the older types. The schematic symbols for PNP- and NPN- type BJTs. ...

Here is a list of TTL logic, again in rough chronological order:

• Transistor-transistor logic (TTL)
• Schottky TTL logic (S)
• Low Power Schottky TTL logic (LS)
• Fast TTL logic (F)
• Advanced Low Power Schottky TTL logic (ALS)

The part numbers for TTL logic devices often use the following naming convention, though specifics vary between manufacturers: First a two or three letter prefix which indicates the manufacturer of the device, immediately followed by a two figure secondary prefix, of which the two most common are '74', indicating a commercial temperature range device and '54', indicating an extended (often military) temperature range. Then up to three letters describing the logic family (for example ALS for 'Advanced Low Power Schottky TTL'). A Motorola 68000-based computer with various TTL chips. ...

Then a number of figures arbitrarily assigned for each device. There are hundreds of different devices in each family but when this number is the same, the function and pin-out of the chip is nearly always the same regardless of manufacturer -- exceptions include some flat-pack devices, surface-mount devices, and at least one low-power TTL device has a different pin-out than the regular series part. Pinout is a term used in electronics to describe how a connector is wired. ...

Additional suffix letters and numbers may be attached to indicate the package type, quality grade, or other information but this varies widely by manufacturer.

For example SN74ALS245 means this is a device made by Texas Instruments, it is a commercial (not a military) temperature range TTL device, and it is a bi-directional eight bit buffer. Texas Instruments (NYSE: TXN), better known in the electronics industry as TI, is a company based in Dallas, Texas, renowned for developing and commercializing semiconductor and computer technology. ...

However TTL has a problem: it dissipates a lot of energy and its switching speed is relatively low compared to more modern designs.

LS TTL

The German physicist Walter H. Schottky formulated a theory predicting the Schottky effect, which led to the Schottky diode and later Schottky transistors. Schottky transistors have a much higher switching speed than conventional transistors, leading to faster switching gates. The only problem is that gates built with Schottky transistors use even more power than normal TTL. This was later alleviated somewhat with the low power Schottky (LS) version, which draws much less power than the original Schottky logic, but still more than regular TTL, in addition to being slightly slower. But with the introduction of Advanced Low Power(ALS) most of these problems were overcome. A faster logic family called 'Fast TTL' (F) was also introduced that was even faster than normal Schottky TTL. Walter H. Schottky (July 23, 1886, Zürich, Switzerland - March 4, 1976, Pretzfeld, West Germany) was a German physicist who invented the screen-grid vacuum tube in 1915 and the tetrode in 1919 while working at Siemens. ... The Schottky diode (named after German physicist Walter H. Schottky) is a semiconductor diode with a low forward voltage drop and a very fast switching action. ... A Schottky barrier is a metal-semiconductor junction which has rectifying characteristics, suitable for use as a diode. ...

CMOS

Meanwhile, because of the still relatively large power demand of LS-TTL, another technology gained acceptance as a low power alternative. This technology does not use regular bipolar transistors, but employs Field effect transistors instead. Because the technology used a complementary pair of FET's (a N-MOS and a P-MOS FET) it was called CMOS (Complementary Metal Oxide Semiconductor logic). The field-effect transistor (FET) is a transistor that relies on an electric field to control the shape and hence the conductivity of a channel in a semiconductor material. ... NMOS logic uses n-type metal-oxide-semiconductor field effect transistors (MOSFETs) to implement logic gates and other digital circuits. ... Static CMOS Inverter CMOS (pronounced see-moss), which stands for complementary metal-oxide-semiconductor, is a major class of integrated circuits. ...

In contrast to TTL logic, CMOS uses almost no power in the static state (i.e. when inputs are not changing). When the gate switches states, current is drawn from the power supply to charge the stray capacitance at the output of the gate. This means that current draw of CMOS devices increases with clock speed.

The first family of CMOS logic carried the prefix 'CD' followed by four digits beginning with a 4, leading to its description as the 4000 series of logic gates, also known as the CD4K logic family. The 4000 series is the general classification used to refer to the industry standard integrated circuits which implement a variety of logic functions using CMOS technology. ...

The initial family of CMOS logic was slower than LS-TTL; however, because the logic thresholds of CMOS were proportional to the power supply voltage, CMOS devices were well-adapted to battery-operated systems with simple power supplies. CMOS gates can also tolerate much wider voltage ranges than TTL gates.

Lowering the power supply voltage

One very important feature of CMOS chips is that they work with a broader range of power supply voltages. While TTL ICs all require a power supply voltage of 5V (+/- 0.5V), CMOS works with a wider range of power supply voltage -- usually anywhere from 3 to 15V. This trait was also shared with the NMOS and PMOS logic used in VLSI devices such as microprocessors. Lowering the supply voltage reduces the current required to charge stray capacitance, and so reduces the current drawn by complex microprocessors. This in turn reduces the heat dissipation of the processor. By lowering the power supply from 5V to 3.3V, they could cut the dissipated power by almost 60 percent (power dissipation is proportional to the square of the supply voltage). Newer CPUs have lowered their power supply voltages even further. A power supply unit (sometimes abbreviated power supply or PSU) is a device that supplies electrical power to a device or group of devices. ... This article may be too technical for most readers to understand. ... Microprocessors, including an Intel 80486DX2 and an Intel 80386 A microprocessor (abbreviated as µP or uP) is an electronic computer central processing unit (CPU) made from miniaturized transistors and other circuit elements on a single semiconductor integrated circuit (IC) (aka microchip or just chip). ...

HC logic

Because of the incompatibility of the CD4000 series of chips with the previous TTL family, a new standard emerged which combined the best of the TTL family with the advantages of the CD4000 family. It was known as the 74HC family of devices and used the pinout of the 74LS family with an improved version of CMOS technology inside the chip. And it could be used together with other logic devices which used 3.3V power supplies (and thus 3.3V logic levels), and in designs that used 5V power supplies and devices that used TTL logic levels. Pinout is a term used in electronics to describe how a connector is wired. ... Digital circuits are electric circuits based on a number of discrete voltage levels. ...

The logic level problem

There was however a problem when combining CMOS and TTL logic. CMOS inputs inherently recognize other electrical voltages as a valid '0' (low voltage) and a valid '1' (high voltage) than TTL does. Where TTL needs to see a voltage lower than 0.8 volt to recognize a valid a '0' and voltages above 2.0 volts to recognize a valid '1' (all voltages in-between 0.8 and 2.0 are 'forbidden' as logic levels) CMOS devices (working with a 5 V power supply) recognize all voltages below 1.5 V as '0' and all voltages above 3.5 V as '1'. Additionally, a TTL output pin does not rise above about 2.4 V for a logic '1' (it drops below 0.4 V for a logic '0'). This causes a problem when a TTL device tries to drive a CMOS device that works with a 5 V power supply. The output level of the TTL chip when outputting a logic '1' level does not reach a level that the CMOS device recognize as a valid '1'.

This was solved by the invention of the 74HCT family of devices that uses CMOS technology but TTL logic levels. These devices only work with a 5V power supply. They form a perfect drop-in replacement for TTL logic, although HCT is even slower than original TTL (HC logic has about the same speed as original TTL).

Improved versions

With HC and HCT logic and LS-TTL logic competing in the market it became clear that even further improvements were needed to create the 'ideal' logic device that combined high speed, with low power dissipation and compatibility with older logic families. A whole range of newer families has emerged that use CMOS technology. A short list of the most important family designators of these newer devices includes:

• LV logic (lower supply voltage)
• LVT logic (lower supply voltage while retaining TTL logic levels)
• ALVT logic (and 'advanced' version of LVT logic)

But there are many others including AC/ACT logic, AHC/AHCT logic, ALVC logic, AUC logic, AVC logic, CBT logic, CBTLV logic, FCT logic, LVC logic and LVC logic.

BiCMOS

One major improvement was to combine CMOS inputs and TTL drivers to form of a new type of logic devices called BiCMOS logic, of which the LVT and ALVT logic families are the most important. But even the BiCMOS family has many members, The current list includes ABT logic, ALB logic, ALVT logic, BCT logic and LVT logic. In integrated circuit design, BiCMOS refers to the integration of bipolar junction transistors and CMOS technology into a single device. ...

Conclusion

At the moment the most important families still are the LS-TTL and the HC and HCT families, although BCT logic also is starting to become popular. There is no consensus yet which low voltage logic family is 'winning' although AHC logic seems to gain some popularity. But the 'race is still on', especially because not every manufacturer supports every logic family, and some logic families only support a small subset of the complete list of LS-TTL devices available. List of 7400 series TTL integrated circuits: 7400: Quad 2-input NAND Gate 7401: Quad 2-input NAND Gate with Open Collector Outputs 7402: Quad 2-input NOR Gate 7403: Quad 2-input NAND Gate with Open Collector Outputs (different pinout than 7401) 7404: Hex Inverter 7405: Hex Inverter with...