Flip-Flop Applications - KMUTTwebstaff.kmutt.ac.th/~auapong.yai/ENE232/FlipFlopApps.pdf · Binary...

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Flip-Flop Applications

Registers

Registers

a register is a collection of flip-flops basic function is to hold information a shift register is a register that

moves information on the clock signal serial-in/serial-out serial-in/parallel-out parallel-in/serial-out parallel-in/parallel-out

Serial-in, serial-out unidirectional shift register.Figure 6.26

Serial-in, parallel-out unidirectional shift register.Figure 6.27

Parallel-in unidirectional shift register.Figure 6.28

Universal shift register. (a) Logic diagram. (b) Mode control.(c) Symbol.Figure 6.29

Flip-Flop Applications

Counters

Counters

Also called pattern generatorsFunction: produce a specified output

pattern sequenceTypes of counters Binary ripple counters (asynchronous counters) Synchronous counters

State diagram of a counter.Figure 6.30

Binary Ripple Counters

also called asynchronous binarycounters

the LSB flip-flop recieves clock inputfrom a clock source

the ith flip-flop recieves clock inputfrom output of the ith-1 flip-flop

Four-bit binary ripple counter. (a) Logic diagram. (b) Timingdiagram. (c) Counting sequence.Figure 6.31

Synchronous Binary Counters

Solve the settling time problem of theripple counters

Every flip-flop changes on clock inputsimultaneously

Large number of flip-flops can causeloading complications

Four-bit synchronous binary counter.Figure 6.32

Four-bit synchronous binary counter variation.Figure 6.33

Four-bit synchronous binary counter with parallel loadinputs. (a) Logic diagram. (b) Symbol.Figure 6.34

Synchronous mod-10 counter. (a) Connections. (b) Countingsequence.Figure 6.35

8-bit synchronous binary counter constructed from two 4-bitsynchronous binary counters.Figure 6.36

Counters Based on Shift Registers

Nonbinary counters a ring counter: a circular shift register

where only one flip-flop is in 1-state andthe rest are in 0-state

a switch-tail counter (twisted-ringcounter or Johnson counter):complement of the rightmost flip-flopbecomes input of the leftmost flip-flop

Mod-4 ring counter. (a) Logic diagram. (b) Countingsequence.Figure 6.37

Mod-8 twisted-ring counter. (a) Logic diagram. (b) Countingsequence.Figure 6.38

Mod-7 twisted-ring counter. (a) Logic diagram. (b) Countingsequence.Figure 6.39

Synchronous Counter Design

To design a synchronous counter,perform the following steps

Decide the counting sequence Draw an excitation table, which

consists of 3 partsPresent state| Next state| flip-flop inputs

(flip-flop inputs can be obtained from an applicationtable of the selected flip-flop)

Determine inputs of each flip-flop

General structure of a synchronous mod-6 counter usingpositive-edge-triggered JK flip-flops.Figure 6.40

Determination of the minimal-sum expressions for asynchronous mod-6 counter using clocked JK flip-flops.Figure 6.41

Logic diagram of a synchronous mod-6 counter.Figure 6.42

Determination of the minimal-sum expressions for asynchronous mod-6 counter using clocked D flip-flops.Figure 6.43

Determination of the minimal-sum expressions for asynchronous mod-6 counter using clocked T flip-flops.Figure 6.44

Determination of the minimal-sum expressions for asynchronous mod-6 counter using clocked SR flip-flops.Figure 6.45

Complete state diagram for the synchronous mod-6 counterof Fig. 6.42.Figure 6.46