Timing diagrams are used in digital electronics to show the operation of various circuits through graphs. In most situations, logic signals applied to the inputs of logic devices are not at stationary levels. Instead, they are voltages that change continuously between two states. To illustrate how logic gates respond to input signals in relation to time, timing diagram have been developed. It is often used to describe the operation of digital devices because its visual characteristics are much easier to understand than a wordy explanation. Here, a logic circuit is shown in Figure 1.1. B (a) B.

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Draw the sequence of patterns that appear in the 7-segment display for the timing
diagram gathered from (b) from time 1 to 10 if the outputs C, D, E, F and G are
connected to the 7-segment display as shown in Figure 1.1. Here, common
cathode type display is used.
Transcribed Image Text:Draw the sequence of patterns that appear in the 7-segment display for the timing diagram gathered from (b) from time 1 to 10 if the outputs C, D, E, F and G are connected to the 7-segment display as shown in Figure 1.1. Here, common cathode type display is used.
Timing diagrams are used in digital electronics to show the operation of various circuits
through graphs. In most situations, logic signals applied to the inputs of logic devices
are not at stationary levels. Instead, they are voltages that change continuously between
two states. To illustrate how logic gates respond to input signals in relation to time,
timing diagram have been developed. It is often used to describe the operation of digital
devices because its visual characteristics are much easier to understand than a wordy
explanation. Here, a logic cireuit is shown in Figure 1.1.
(b)
Figure 1.1 Logic circuit (a) connected to 7-segment display (b) separate
Transcribed Image Text:Timing diagrams are used in digital electronics to show the operation of various circuits through graphs. In most situations, logic signals applied to the inputs of logic devices are not at stationary levels. Instead, they are voltages that change continuously between two states. To illustrate how logic gates respond to input signals in relation to time, timing diagram have been developed. It is often used to describe the operation of digital devices because its visual characteristics are much easier to understand than a wordy explanation. Here, a logic cireuit is shown in Figure 1.1. (b) Figure 1.1 Logic circuit (a) connected to 7-segment display (b) separate
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