National Semiconductor Digital Shift Registers 9

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Part RoHS Manufacturer Logic IC Type Temperature Grade Terminal Form No. of Terminals Package Code Package Shape Total Dose (V) Package Body Material Schmitt Trigger Surface Mount No. of Functions Maximum Frequency At Nominal Supply Technology Screening Level No. of Bits Packing Method Nominal Supply Voltage / Vsup (V) Power Supplies (V) Load Capacitance (CL) Package Style (Meter) Package Equivalence Code Propagation Delay (tpd) Maximum I (ol) Sub-Category Terminal Pitch Maximum Operating Temperature Count Direction Output Characteristics Trigger Type Minimum Operating Temperature Terminal Finish Terminal Position Minimum fmax JESD-30 Code Moisture Sensitivity Level (MSL) Maximum Supply Voltage (Vsup) Maximum Seated Height Width Qualification Output Polarity Minimum Supply Voltage (Vsup) Maximum Power Supply Current (ICC) Additional Features JESD-609 Code Maximum Time At Peak Reflow Temperature (s) Peak Reflow Temperature (C) Length Family

MM74HC165N

National Semiconductor

PARALLEL IN SERIAL OUT

INDUSTRIAL

THROUGH-HOLE

16

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

8

21000000 Hz

CMOS

1

5

2/6

50 pF

IN-LINE

DIP16,.3

189 ns

Shift Registers

2.54 mm

85 Cel

RIGHT

POSITIVE EDGE

-40 Cel

Tin/Lead (Sn/Pb)

DUAL

25 MHz

R-PDIP-T16

6 V

5.08 mm

7.62 mm

Not Qualified

COMPLEMENTARY

2 V

CLOCK INHIBIT

e0

19.305 mm

HC/UH

MM74HC589N

National Semiconductor

PARALLEL IN SERIAL OUT

INDUSTRIAL

THROUGH-HOLE

16

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

8

CMOS

1

5

2/6

50 pF

IN-LINE

DIP16,.3

280 ns

Shift Registers

2.54 mm

85 Cel

RIGHT

3-STATE

POSITIVE EDGE

-40 Cel

Tin/Lead (Sn/Pb)

DUAL

28 MHz

R-PDIP-T16

6 V

5.08 mm

7.62 mm

Not Qualified

TRUE

2 V

e0

19.305 mm

HC/UH

DM74LS273N

National Semiconductor

PARALLEL IN PARALLEL OUT

COMMERCIAL

THROUGH-HOLE

20

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

1

30000000 Hz

TTL

8

5

5

15 pF

IN-LINE

DIP20,.3

24 ns

8 Amp

FF/Latches

2.54 mm

70 Cel

POSITIVE EDGE

0 Cel

Tin/Lead (Sn/Pb)

DUAL

30 MHz

R-PDIP-T20

5.25 V

5.08 mm

7.62 mm

Not Qualified

TRUE

4.75 V

27 mA

e0

26.075 mm

LS

CD4094BCWM

National Semiconductor

SERIAL IN PARALLEL OUT

INDUSTRIAL

GULL WING

16

SOP

RECTANGULAR

PLASTIC/EPOXY

YES

1

CMOS

8

5

5/15

50 pF

SMALL OUTLINE

SOP16,.4

840 ns

Shift Registers

1.27 mm

85 Cel

RIGHT

3-STATE

POSITIVE EDGE

-40 Cel

Tin/Lead (Sn/Pb)

DUAL

1.5 MHz

R-PDSO-G16

15 V

2.65 mm

7.5 mm

Not Qualified

TRUE

3 V

PARALLEL OUTPUT IS LATCHED; UNLATCHED SERIAL SHIFT RIGHT OUTPUT

e0

10.3 mm

4000/14000/40000

74F323PC

National Semiconductor

PARALLEL IN PARALLEL OUT

COMMERCIAL

THROUGH-HOLE

20

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

1

70000000 Hz

TTL

8

5

5

50 pF

IN-LINE

DIP20,.3

10 ns

Shift Registers

2.54 mm

70 Cel

BIDIRECTIONAL

3-STATE

0 Cel

Tin/Lead (Sn/Pb)

DUAL

70 MHz

R-PDIP-T20

5.5 V

5.08 mm

7.62 mm

Not Qualified

TRUE

4.5 V

95 mA

HOLD MODE; COMMON I/O PINS; TOTEMPOLE SERIAL SHIFT RIGHT & SHIFT LEFT OUTPUTS; GATED OUTPUT CONTROL

e0

26.075 mm

F/FAST

MM74HC594N

National Semiconductor

SERIAL IN PARALLEL OUT

INDUSTRIAL

THROUGH-HOLE

16

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

1

4800000 Hz

CMOS

8

4.5

2/6

IN-LINE

DIP16,.3

185 ns

Shift Registers

2.54 mm

85 Cel

RIGHT

POSITIVE EDGE

-40 Cel

Tin/Lead (Sn/Pb)

DUAL

28 MHz

R-PDIP-T16

6 V

5.08 mm

7.62 mm

Not Qualified

TRUE

2 V

e0

19.305 mm

HC/UH

CD4094BCN

National Semiconductor

SERIAL IN PARALLEL OUT

INDUSTRIAL

THROUGH-HOLE

16

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

1

CMOS

8

5

5/15

50 pF

IN-LINE

DIP16,.3

840 ns

Shift Registers

2.54 mm

85 Cel

RIGHT

3-STATE

POSITIVE EDGE

-40 Cel

Tin/Lead (Sn/Pb)

DUAL

1.5 MHz

R-PDIP-T16

15 V

5.08 mm

7.62 mm

Not Qualified

TRUE

3 V

PARALLEL OUTPUT IS LATCHED; UNLATCHED SERIAL SHIFT RIGHT OUTPUT

e0

19.34 mm

4000/14000/40000

DM8300N

National Semiconductor

COMMERCIAL

THROUGH-HOLE

16

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

1

30000000 Hz

TTL

4

5

5

IN-LINE

DIP16,.3

Shift Registers

2.54 mm

70 Cel

BIDIRECTIONAL

0 Cel

Tin/Lead (Sn/Pb)

DUAL

R-PDIP-T16

Not Qualified

e0

DM8570N

National Semiconductor

COMMERCIAL

THROUGH-HOLE

14

DIP

RECTANGULAR

PLASTIC/EPOXY

NO

1

25000000 Hz

TTL

8

5

5

IN-LINE

DIP14,.3

Shift Registers

2.54 mm

70 Cel

RIGHT

0 Cel

Tin/Lead (Sn/Pb)

DUAL

R-PDIP-T14

Not Qualified

e0

Digital Shift Registers

Digital shift registers are electronic circuits that can store and shift data in a serial-in, serial-out (SISO) or parallel-in, serial-out (PISO) fashion. They are commonly used in digital systems for data storage, data transfer, and signal processing applications.

Shift registers can be designed using various types of flip-flops, such as D flip-flops, JK flip-flops, and T flip-flops. They can also be designed using various technologies, including transistor-transistor logic (TTL), complementary metal-oxide-semiconductor (CMOS), and field-programmable gate arrays (FPGAs).

Digital shift registers can be classified into various types based on their operation mode and the direction of data shift. The most common types of shift registers include:

1. Serial-in, serial-out (SISO) shift registers: These shift registers have one serial input and one serial output. They can shift data in one direction, either left or right, and can be used for data storage, delay generation, and signal processing applications.

2. Parallel-in, serial-out (PISO) shift registers: These shift registers have multiple parallel inputs and one serial output. They can shift data from multiple inputs to a single output in a serial fashion and can be used for data transfer and signal processing applications.

3. Serial-in, parallel-out (SIPO) shift registers: These shift registers have one serial input and multiple parallel outputs. They can shift data from a single input to multiple outputs in a parallel fashion and can be used for data storage and signal processing applications.

4. Parallel-in, parallel-out (PIPO) shift registers: These shift registers have multiple parallel inputs and multiple parallel outputs. They can shift data from multiple inputs to multiple outputs in a parallel fashion and can be used for data transfer and signal processing applications.

Digital shift registers are used in various applications, including serial-to-parallel conversion, parallel-to-serial conversion, data storage, data transfer, and signal processing. They are essential components of digital systems and can be found in many electronic devices, such as computers, mobile phones, and digital cameras.