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Last Mod: Jan 2015  Paul R. Godin Shift Registers : Technician Series Registers 1.1.

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Presentation on theme: "Last Mod: Jan 2015  Paul R. Godin Shift Registers : Technician Series Registers 1.1."— Presentation transcript:

1 Last Mod: Jan 2015  Paul R. Godin Shift Registers : Technician Series Registers 1.1

2 Shift Register Applications  Shift Registers are an important Flip-Flop configuration with a wide range of applications, including:  Computer and Data Communications (Serial and Parallel)  Converting between serial and parallel applications  Multi-bit number storage  Sequencing (enabling system)  Basic arithmetic such as scaling (a serial shift to the left or right will change the value of a binary number a power of 2, like shifting a decimal point for a base-10 number)  Logical operations  Delay circuits  State machines  Parity circuits  …other applications Registers 1.2

3 Parallel versus Serial  Serial communications: provides a binary number as a sequence of binary digits, one after another, through one data line.  Parallel communications: provides a binary number as binary digits through multiple data lines at the same time. Registers 1.3

4 Shift Registers  Shift Registers are devices that store and move data bits in serial (to the left or the right), ..or in parallel, ..or a combination of serial and parallel. Registers 1.4

5 Configuration  In Shift Registers, the binary digit transfers (shifts) from the output of one flip-flop to the input of the next individual Flip-Flop at every clock edge.  Once the binary digits are shifted in, the individual Flip-Flops will each retain a bit, and the whole configuration will retain a binary number. Registers 1.5

6 Construction  Shift registers are constructed from flip-flops due to their characteristics:  Edge-triggered devices  Output state retention  Each Flip-Flop in a shift register can retain one binary digit.  For instance, if a 5-bit binary number needs to be stored and shifted, 5 flip-flops are required.  Each binary digit transfer operation requires a clock edge.  Asynchronous inputs are useful in resetting the whole configuration. Registers 1.6

7 Shift Register Construction  Shift registers are comprised of D Flip-Flops that share a common clock input. D Q Q D Q Q D Q Q Registers 1.7

8 Combinations of Data Transfer Methods  SISO: Serial In, Serial Out  SIPO: Serial In, Parallel Out  PISO: Parallel In, Serial Out  PIPO: Parallel In, Parallel Out How many clock edges are required for each operation? 10110 Registers 1.8

9 SISO Flip-Flop Shift Register  a Serial In Serial Out shift register has a single input and a single output D Q Q D Q Q D Q Q Input Output Registers 1.9

10 SIPO Flip-Flop Shift Register  a Serial In Parallel Out shift register has a single input and access to all outputs D Q Q D Q Q D Q Q Input Output Registers 1.10

11 PISO Flip-Flop Shift Register  a Parallel In Serial Out shift register requires additional gates. In this example the parallel input must revert to logic low; in other configurations steering gates are used to switch between loading and shifting operations. Input D Q Q Input Output Input D Q Q D Q Q Registers 1.11

12 PIPO Flip-Flop Shift Register  a Parallel In Parallel Out register has the simplest configuration. It represents a memory device. D Q Q Input Output D Q Q Output D Q Q Output Input Registers 1.12

13 Universal Shift Registers  Universal Shift Registers can be configured to operate in a variety of modes.  Internally use steering gates to configure:  SIPO, PIPO, SISO, PISO operations  Shift Direction  Parallel input (load)  Hold  Refer to the manufacturer specification sheets for more information. Registers 1.13

14 Registers 1.14 Universal Shift Registers  Look up the 74LS194 and describe its function by looking at the schematic. Fill in the table. S0S1Mode 00 01 10 11 In-class exercise 14

15 Application: Parallel transferring the contents of a Register to another register. Describe where this circuit combination may be used. Registers 1.15

16 JK Shift Registers J-K Shift registers are seldom used, as two inputs (J,K) are required to load the first flip-flop (note all others receive only set or reset inputs). Input Output J Q K Q J Q K Q J Q K Q Input Registers 1.16

17 Ring Counter  A ring counter takes the serial output of the last Flip-Flop of a shift register and provides it to the serial input of the first Flip-Flop.  Ring Counters are also known as re-circulating shift registers.  The display characteristics will be familiar… Registers 1.17

18 Ring Counter In Class: Build a ring counter using electronics simulation tools Registers 1.18

19 Johnson Counter  A Johnson Counter re-circulates the last flip- flop Q (inverted) output back to the input of the first Flip-Flop. It doesn’t require an initialization value, and will provide a predictable output state sequence. Registers 1.19

20 State Diagram  A State Diagram is used to describe the sequence of output states of a circuit.  The state diagram for the previous Johnson counter looks like this: 1000 1100 1110 1111 0111 0011 0001 0000 Registers 1.20

21 Ring Counter Application  Some devices require scanning. Scanning is when devices are enabled one at a time to:  check their status, or  enable their output  An example of scanning is for keyboard inputs. The ring counter enables each of the keys in turn to check on their state. Registers 1.21

22 Ring Counter used to sequence a device Registers 1.22 Ring Counter Decoder Display Commons

23 Diagram #1 Complete the timing diagram Registers 1.23

24 Diagram #2 Complete the timing diagram Registers 1.24

25 From now on you will not see the lights…you will always see a shift register. Sorry for taking away the magic.  Paul R. Godin prgodin@gmail.com Cylon from Battlestar Galactica Kitt car from Night Rider image sources: original site unknown / multiple sources Registers 1.25

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