Counter ICs

A Shift Register is a sequential logic device made up of a cascade of flip-flops, through which a sequence of bits are ’shifted’. These devices are commonly used to convert between serial and parallel interfaces.

How it works – basic example

In a Shift Register the output of each flip-flop is connected to the input of the next flip-flop in the cascade. With each cycle of the connected clock, the bits are ’shifted’ down the cascade by one flip-flop.

A simple analogy to understand the basic theory or operation would be to consider a glass tube with an opening both ends, and placing a ball marked ’0’ or ’1’ into one end of the tube at a regular intervals.

As each ball is placed into the tube, all the balls are ’shifted’ along by one position. The sequence in which the balls marked ’0’ and ’1’ where fed in is preserved. Also each time one ball is fed in, the ball that has been in the cascade the longest drops out. So if the tube can contain 4 balls at any one time, this could be described as a 4-bit Shift Register.

Common Types of Shift Register

• Serial-in serial-out (SISO) – In this type of Shift Register, the data input and output is serial. With each clock cycle a new bit is fed into the cascade, with the bit furthest along the cascade exiting as an output. So in a 4-bit register, the output trails the input by 4 clock cycles. This matches the simple example above, with the ball that exits the tube being the output.

• Serial-in parallel-out (SIPO) – In this configuration data is converted from serial into parallel format. As described for the SISO variant above, data is fed in serially and shifted down the cascade, the difference is that each flip-flop has an output, allowing the entire bit array to be output simultaneously as a parallel output. This may be done using a latched of buffered output.

• Parallel-in serial-out (PISO) – This variant takes a parallel input and converts into a serial output. To do this the shift register must implement a write/shift sequence. The parallel data input is (written) into each flip-flop of the array simultaneously in one clock cycle, then for the next cycles the register goes into shift mode as the bits are shifted down the flip-flop cascade, being output as serial data. The process then repeats.

• Parallel-in parallel-out (PIPO) – This type of register differs slightly from the others in that inputs and outputs of each flip-flop in the array are not interconnected. Each flip-flop takes one bit of the parallel input, stores it for a cycle, and then outputs the data simultaneously with the other flip-flops in the register, creating a parallel output that matches the input. Like the SISO type above, PIPO variants can be used to temporarily store data, or act a time delay device.

• Universal Shift Register – A configurable Shift Register that can be programmed to act as a SISO, SIPO, PISO or PIPO device, often on the fly.

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Omschrijving Prijs Package Type Logic Function Number of Stages Logic Family Mounting Type Counter Type Operation Mode Number of Elements Pin Count Minimum Operating Supply Voltage Maximum Operating Supply Voltage Dimensions Length Width
RS-stocknr. 910-1528
FabrikantnummerMIC5821YN
FabrikantMicrochip
€ 2,29
Each (In a Pack of 5)
Aantal stuks
PDIP Driver, Shift Register 8 MIC Through Hole - Serial to Serial/Parallel 1 16 - - 19.81 x 6.35 x 3.3mm 19.81mm 6.35mm
RS-stocknr. 165-4085
FabrikantnummerMIC5891YWM
FabrikantMicrochip
€ 1,91
Each (In a Tube of 47)
Aantal stuks
SOIC W Driver, Shift Register 8 MIC Surface Mount - Serial to Serial/Parallel 1 16 5 V 12 V 10.39 x 7.65 x 2.39mm 10.39mm 7.65mm
RS-stocknr. 145-9134
FabrikantnummerMIC5821YN
FabrikantMicrochip
€ 1,853
Each (In a Tube of 25)
Aantal stuks
PDIP Driver, Shift Register 8 MIC Through Hole - Serial to Serial/Parallel 1 16 - - 19.81 x 6.35 x 3.3mm 19.81mm 6.35mm
RS-stocknr. 910-1420
FabrikantnummerMIC5891YWM
FabrikantMicrochip
€ 2,36
Each (In a Pack of 5)
Aantal stuks
SOIC W Driver, Shift Register 8 MIC Surface Mount - Serial to Serial/Parallel 1 16 5 V 12 V 10.39 x 7.65 x 2.39mm 10.39mm 7.65mm
RS-stocknr. 911-2770
FabrikantnummerMIC5842YWM
FabrikantMicrochip
€ 2,476
Each (In a Pack of 5)
Aantal stuks
SOIC W Driver, Shift Register 8 MIC Surface Mount - Serial to Serial/Parallel 1 18 - - 11.55 x 7.52 x 2.26mm 11.55mm 7.52mm
RS-stocknr. 165-4195
FabrikantnummerMIC5841YN
FabrikantMicrochip
€ 2,66
Each (In a Tube of 21)
Aantal stuks
PDIP Driver, Shift Register 8 MIC Through Hole - Serial to Serial/Parallel 1 18 - - 23.37 x 6.35 x 3.3mm 23.37mm 6.35mm
RS-stocknr. 165-4112
FabrikantnummerMIC5841YWM
FabrikantMicrochip
€ 2,52
Each (In a Tube of 41)
Aantal stuks
SOIC W Driver, Shift Register 8 MIC Surface Mount - Serial to Serial/Parallel 1 18 - - 11.66 x 7.65 x 2.39mm 11.66mm 7.65mm
RS-stocknr. 910-1427
FabrikantnummerMIC5891YN
FabrikantMicrochip
€ 1,768
Each (In a Pack of 5)
Aantal stuks
PDIP Driver, Shift Register 8 MIC Through Hole - Serial to Serial/Parallel 1 16 5 V 12 V 19.81 x 6.35 x 3.3mm 19.81mm 6.35mm
RS-stocknr. 910-1414
FabrikantnummerMIC5841YWM
FabrikantMicrochip
€ 3,115
Each (In a Pack of 2)
Aantal stuks
SOIC W Driver, Shift Register 8 MIC Surface Mount - Serial to Serial/Parallel 1 18 - - 11.66 x 7.65 x 2.39mm 11.66mm 7.65mm
RS-stocknr. 165-4091
FabrikantnummerMIC5842YWM
FabrikantMicrochip
€ 2,011
Each (In a Tube of 41)
Aantal stuks
SOIC W Driver, Shift Register 8 MIC Surface Mount - Serial to Serial/Parallel 1 18 - - 11.55 x 7.52 x 2.26mm 11.55mm 7.52mm
RS-stocknr. 910-1519
FabrikantnummerMIC5841YN
FabrikantMicrochip
€ 3,115
Each (In a Pack of 2)
Aantal stuks
PDIP Driver, Shift Register 8 MIC Through Hole - Serial to Serial/Parallel 1 18 - - 23.37 x 6.35 x 3.3mm 23.37mm 6.35mm
RS-stocknr. 165-4126
FabrikantnummerMIC5891YN
FabrikantMicrochip
€ 1,435
Each (In a Tube of 25)
Aantal stuks
PDIP Driver, Shift Register 8 MIC Through Hole - Serial to Serial/Parallel 1 16 5 V 12 V 19.81 x 6.35 x 3.3mm 19.81mm 6.35mm