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VOOZH | about |
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VOOZH | about |
Digital circuits are constructed by using different logic gates, so when we use different ICs, we have to produce different logic gates using different technologies. For the fabrication of ICs, we use semiconductor devices-bipolar and unipolar. Based on the devices, digital ICs are made which are then commercially available. When we use a bipolar device, like a transistor in the IC fabrication technology, it is known as bipolar technology. In unipolar technology, we make use of unipolar devices. e.g., MOSFETs. A group of compatible ICs with the same logic level and supply voltages for performing various logic functions which have been fabricated using specified configuration, is referred to as a logic family.
Table of Content
The branch of electronics that deals with the research, development, and utilization of qualitatively new electronic devices is known as integrated microcircuits. This is the semiconductor based chip which consist of set of digital circuitry.
Integrated microcircuits generally known as integrated circuits a low-cost electronic circuits consisting of active and passive components that are joined together on a single crystal chip of silicon. These interconnected components that make an IC are called integrated circuit elements. In Digital ICs, information is represented by binary digits, e.g. microprocessors, etc.
The classification is based on the complexity of the circuit:
The main elements of a bipolar IC are diodes and transistors. In this classification, they are further divided into two types based on the BJT (Bipolar junction transistor) operating mode.
MOS devices are unipolar devices and only MOSFETs are employed in these MOS logic circuits. The MOS logic families are PMOS, NMOS, and CMOS.
On moving towards the characteristics - they are temperature sensitive in nature and the rest other are Some important characteristics or parameters are given as follows:
The speed of a digital circuit is expressed in terms of propagation delay. The input and output waveforms are shown in Fig.1(a) and Fig.1(b). The delay times are measured between the 50% voltage levels of input and output.Fig.1(a) shows that when we apply an input to a logic gate, output occurs after some time i.e. propagation delay.Fig.1(b) shows the input and output waveform.
The two propagation delay times are defined as follows:
Any digital circuit requires some power for operation. This is the amount of power dissipated in an IC. It is determined by the current an IC draws from the VCC supply, it is expressed by VCC ✖ ICC. This power is specified in milliwatts.
It is shown in Fig.2 that when the gate is in the HIGH output as shown in Fig.2(a), the current drawn by the gate is represented by ICCH. Similarly, in the LOW output, the current drawn by ICCL is in Fig.2(b).
The power of the circuit is the product of the supply voltage and current drawn by the circuit when the input is applied to the gate as shown in Fig.2, the output changes between logic 1 and logic 0 which means the supply current changes between ICCH and ICCL. So the average current drawn by the circuit will be
ICC (avg) = (ICCH+ICCL)/2
We take the average of both currents because the power dissipation depends on the duty cycle and is generally specified for a duty cycle of 50%. So, the average power dissipation of the circuit is
P(avg) = VCC ✖ ICC(avg)
P(avg) = VCC ✖ [(ICCH + ICCL)/2]
If an IC has four gates, then the power dissipated will be four times the power dissipated by each gate.
The figure of merit is defined as the product of speed and power. The speed of the logic circuit is specified in terms of propagation delay, so the figure of merit is specified in milliwatts.
Figure of merit = propagation delay ✖ power
Fanout is the maximum number of similar logic gates that a gate can drive without any degrading in voltage levels. High fanout is advantageous because the need for additional drivers to drive more gates is less. It is used to derive the logical inputs for the working and it means the maximum number of standard logic inputs which an be derive efficiently.
It is defined as the number of inputs that can be connected to a gate. For example, 7400 represents two input NAND gates, therefore fan-in of 7400 is 2. So it is basically the number of input it can handle properly for the procedure or working.
Current and voltage parameters are very important in designing a digital system.Fig.3(a) and Fig.3(b) show the current and voltage in the two logic gates.
It is the current that flows into an input when a specified low-level voltage is applied to that input.
It is the current that flows from output in the logic 1 state under specified load conditions.
It is the current that flows from an output in the logic 0 state under specified load conditions.
The input and output levels of a digital circuit are specified by a voltage level.Fig.4 shows the input and output voltage levels. Some unwanted voltage might be induced due to electric and magnetic field, known as noise. This may cause the voltage at the input of a logic circuit to drop below VIH or rise above VIL and may produce undesired operation. Noise immunity is the maximum noise voltage that may appear at the input of a logic gate without changing the logical state of its input.
State 1 noise margin - VOH - VIH
State 0 noise margin - VIL - VOL
All IC gates are semiconductor devices. They are temperature-sensitive by nature. The operating temperature ranges of an IC vary from 0℃ to + 70℃ for consumer and industrial applications, temperature ranges from -55℃ to +125℃ for military applications.
The digital circuits works on this property also which have only two values to represent the low and high voltage level: in binary terms we say it- 0 and 1. This feature helps to process the correct form of data and represent it accurately so we can say that the characteristics of the discrete signal level helps the digital circuit to improve its efficiency.
In order to store the data, a variety of components have been used by the digital circuits ,these components are based on the short term and long term storage also in which we can include the example of the flip flop, register , RAM , flash memory ,etc. The storage components depend that how much space is needed for the data to set and accordingly the component is used for that , so for both short and long term storage areas are available in digital ICs.
Integrated circuits are used in different forms with different shapes and sizes. The uses of the integrated circuit include:
Integrated circuits are among the most important inventions of the 20th century. They have revolutionized nearly every industry, and there's no end in sight. In fact, it's likely that we will see more and more uses of the ICs as time goes on. Integrated circuits have changed our world in countless ways. They have made our lives easier, more efficient, and more connected than they ever were before. And they continue to do so.
Integrated circuits have become an essential tool for electrical engineers working with applications as diverse as consumer electronics, aerospace systems, and medical equipment. ICs offer many benefits, including small size, low cost, and increased reliability, some drawbacks are associated with their use, such as complexity, vulnerability to damage, and security concerns.
