barcode reader code in asp.net c# Select the proper inputs for a 4-input multiplexer in Software

Encoding QR in Software Select the proper inputs for a 4-input multiplexer

1359 Select the proper inputs for a 4-input multiplexer
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to implement the function f (A, B, C) = ABC + ABC + AC Assume the inputs I0 , I1 , I2 , and I3 correspond to AB, AB, AB, and AB, respectively, and that each input may be 0, 1, C, or C
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Figure P1355
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1356 The circuit of Figure P1356 can operate as a
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4-to-16 decoder Terminal EN denotes the enable input Describe the operation of the 4-to-16 decoder What is the role of logic variable A
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1360 Select the proper inputs for an 8-bit multiplexer
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to implement the function f (A, B, C, D) = (2, 5, 6, 8, 9, 10, 11, 13, 14)10 Assume the inputs I0 through I7 correspond to ABC, ABC, ABC, ABC, ABC, ABC, ABC, and ABC, respectively, and that each input may be 0, 1, D, or D
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Figure P1356
4 Bit Grey code in
Digital Systems
he rst half of 14 continues the analysis of digital circuits that was begun in 13 by focusing on sequential logic circuits, such as ip- ops, counters, and shift registers The second half of the chapter is devoted to an overview of the basic functions of microcontrollers and microcomputers During the last decade, microcomputers have become a standard tool in the analysis of engineering data, in the design of experiments, and in the control of plants and processes No longer a specialized electronic device to be used only by appropriately trained computer engineers, today s microcomputer perhaps more commonly represented by the ubiquitous personal computer is a basic tool in the engineering profession The common thread in its application in various engineering elds is its use in digital data acquisition instruments and digital controllers Modern microcomputers are relatively easy to program, have signi cant computing power and excellent memory storage capabilities, and can be readily interfaced with other instruments and electronic devices, such as transducers, printers, and other computers The basic functions performed by the microcomputer in a typical digital data acquisition or control application are easily described: input signals (often analog, sometimes already in digital form) are acquired by the computer and processed by means of suitable software to produce the desired result (ie, they undergo some kind of mathematical manipulation), which is then outputted to either a display or a storage device, or is used in controlling a process,
14
Digital Systems
a plant, or an experiment The objective of this chapter is to describe these various processes, with the aim of giving the reader enough background information to understand the notation used in data books and instruction manuals Upon completing this chapter you should be able to:
Analyze sequential circuits including RS, D, and JK ip- ops Understand the operation of binary, decade, and ring counters Design simple sequential circuits using state transition diagrams Understand the basic architecture of microprocessors and microcomputers
SEQUENTIAL LOGIC MODULES
The discussion of logic devices in 13 focuses on the general family of combinational logic devices The feature that distinguishes combinational logic devices from the other major family sequential logic devices is that combinational logic circuits provide outputs that are based on a combination of present inputs only On the other hand, sequential logic circuits depend on present and past input values Because of this memory property, sequential circuits can store information; this capability opens a whole new area of application for digital logic circuits Latches and Flip-Flops The basic information-storage device in a digital circuit is called a ip- op There are many different varieties of ip- ops; however, all ip- ops share the following characteristics: 1 A ip- op is a bistable device; that is, it can remain in one of two stable states (0 and 1) until appropriate conditions cause it to change state Thus, a ip- op can serve as a memory element 2 A ip- op has two outputs, one of which is the complement of the other
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