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Initially, the 4000 series was slower than the popular 7400 TTL chips, but had the advantage of much lower power consumption, the ability to operate over a much wider range of supply voltages, and simpler circuit design due to the vastly increased fanout. However their slower speed (initially only capable of about 1 MHz operation, compared with TTL's 10MHz) meant that their applications were limited to static or slow speed designs. Later, new fabrication technology largely overcame the speed problems, while retaining backward compatibility with most circuit designs - a circuit could be made much faster by simply dropping in the newer chips. Eventually, the advantages of the 4000 series edged out the older TTL chips, but at the same time ever increasing LSI techniques edged out the modular chip approach to design. The 4000 series is still widely available, but perhaps less important than it was two decades ago.

The 4000 series permits the use of " cookbook" design, where standard circuit elements can be created and shared, and connected to other circuits with few, if any, connection difficulties. This greatly speeds up the design of new hardware by reusing standard approaches to circuit design. In contrast, TTL circuits, while similarly modular, often reqired much more careful interfacing, since the limited fanout (and fan-in) meant that loading of each output had to be carefully considered. It is also much easier to prototype LSI designs using the 4000 series and get repeatable and transferrable results when moving to the more integrated design.

The series was extended in the late 1970s and 1980s to include new types which implemented new or more greatly integrated functions, or were better versions of existing chips in the 4000 series. Most of these newer chips were given 45xx and 45xxx designations, but are usually still regarded by engineers as part of the 4000 series.

Example common 4000 series chips

• 4000 - dual 3-input NOR gate + 1 NOT
• 4001 - quad 2-input NOR gate
• 4002 - dual 4-input OR gate
• 4008 - 4 bit Full adderIn electronics, an adder is a device which will perform the addition, S, of two numbers. In computing the adder is part of the ALU, and some ALUs contain multiple adders. Although adders can be constructed for many numerical representations, such as BCD o
• 4011 - quad 2-input NAND gate
• 4012 - dual 4-input NAND gate
• 4013 - dual D-type flip-flopThis article is about the electronic component. For other meanings, see flip-flop (disambiguation). In electronics and computing, the flip-flop or bistable multivibrator is a pulsed digital circuit capable of serving as a one- bit memory. A flip-flop typi
• 4015 - dual 4-bit shift registerIn digital circuits a shift register is a group of registers set up in a linear fashion which have their inputs and outputs connected together in such a way that the data is shifted down the line when the circuit is activated. Types Shift registers can ha
• 4017 - decade counterThis article is about the term counter used in electronics and computing. For other meanings of counter, see counter (disambiguation In general, a counter is a device which stores (and sometimes displays) the number of times a particular event or process with decoded outputs
• 4022 - 4-bit binaryThe binary or base-two numeral system is a system for representing numbers in which a radix of two is used; that is, each digit in a binary numeral may have either of two different values. Typically, the symbols 0 and 1 are used to represent binary number up/down counter
• 4023 - triple 3-input NAND gate
• 4025 - triple 3-input NOR gate
• 4026 - dacade counter with 7-segment display driver
• 4030 - quad 2-input XOR gate (obsoleted by 4070)
• 4038 - dual monostable timer
• 4040 - 12-stage divider/counter
• 4044 - 7-segment display decoder/ LCD driver
• 4049 - hex NOT gate (6 NOT gates) (unusual pin configuration, capable of directly driving 74-series TTL)
• 4050 - hex BUFFER (6 non-inverting buffers) (unusual pin configuration, capable of directly driving 74-series TTL)
• 4068 - 8-input NAND/ AND gate
• 4069 - hex NOT gate (6 NOT gates)
• 4070 - quad 2-input XOR gate
• 4071 - quad 2-input OR gate
• 4072 - dual 4-input OR gate
• 4073 - triple 3-input AND gate
• 4075 - triple 3-input OR gate
• 4077 - quad 2-input XNOR gate
• 4081 - quad 2-input AND gate
• 4082 - dual 4-input AND gate
• 4093 - quad 2-input NAND gate Schmitt trigger