Design of a 4-bit absolute-value detector based on CMOS&PTL

Powered by advanced information technology, integrated circuits have been widely involved in various fields. The detection and processing of electrical signals has become one of the important steps. This paper designs a 4-bit absolute value detector using CMOS logic and Pass-Transistor Logic (PTL)....

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Bibliographic Details
Main Authors: Sun, Yimeng, Wang, Yucheng, Yu, Feiyang
Format: Conference Proceeding
Language:English
Subjects:
CMOS
Critical path
Delay
Design parameters
Energy consumption
Integrated circuits
Mathematical analysis
Transistor logic
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Summary:Powered by advanced information technology, integrated circuits have been widely involved in various fields. The detection and processing of electrical signals has become one of the important steps. This paper designs a 4-bit absolute value detector using CMOS logic and Pass-Transistor Logic (PTL). It can compare the input binary number with the set threshold, which can detect the peak signal to reduce the interference of noise and improve the detection accuracy of the signal. This paper innovatively uses the full adder to design the absolute value detection part, which can reduce the number of CMOS and reduce energy consumption. To increase driving strength and improve logic delay, the design uses a two-inverter chain as a buffer. To achieve the goal of low energy consumption and low delay, this paper calculates the minimum delay case based on the theory of logic effort and the critical path of the circuit. Through comparing only sizing, only voltage scaling and combining method, the final minimum energy consumption is calculated. The parameters for this design are 12.74 FO4 (0.933V) and 9.58 Eu (0.933V). This means that it can improve the reliability of the device and improve the signal response speed in practical applications.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0173848