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CD74HC4049NSRG4 - 16-SO

CD74HC4049NSRG4

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Texas Instruments

HIGH SPEED CMOS LOGIC HEX INVERTING BUFFERS 16-SO -55 TO 125

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CD74HC4049NSRG4 - 16-SO

CD74HC4049NSRG4

Active
Texas Instruments

HIGH SPEED CMOS LOGIC HEX INVERTING BUFFERS 16-SO -55 TO 125

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Technical Specifications

Parameters and characteristics commom to parts in this series

SpecificationCD74HC4049NSRG474HC4049 Series
Current - Output High, Low5.2 mA, 5.2 mA5.2 mA
Logic TypeInverting, BufferInverting, Buffer
Mounting TypeSurface MountSurface Mount, Through Hole
Number of Bits per Element11
Number of Elements66
Operating Temperature [Max]125 °C125 °C
Operating Temperature [Min]-55 °C-55 °C
Output TypePush-PullPush-Pull
Package / Case16-SOIC (0.209", 5.30mm Width)16-TSSOP, 16-SOIC (0.209", 5.30mm Width), 16-SOIC, 16-DIP
Package / Case-0.173 "
Package / Case-4.4 mm
Package / Case-0.154 - 7.62 mm Width
Supplier Device Package16-SO16-TSSOP, 16-SO, 16-SOIC, 16-PDIP
Voltage - Supply [Max]6 V6 V
Voltage - Supply [Min]2 V2 V

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

74HC4049 Series

IC BUFFER INVERT 6V 16TSSOP

PartOutput TypeNumber of ElementsCurrent - Output High, LowMounting TypeVoltage - Supply [Min]Voltage - Supply [Max]Supplier Device PackageOperating Temperature [Min]Operating Temperature [Max]Number of Bits per ElementPackage / Case [x]Package / CasePackage / Case [x]Logic TypePackage / Case
Texas Instruments
CD74HC4049PW
The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types. The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types.
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-TSSOP
-55 °C
125 °C
1
0.173 "
16-TSSOP
4.4 mm
Buffer, Inverting
Texas Instruments
CD74HC4049NS
The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types. The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types.
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-SO
-55 °C
125 °C
1
16-SOIC (0.209", 5.30mm Width)
Buffer, Inverting
Texas Instruments
CD74HC4049PWR
The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types. The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types.
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-TSSOP
-55 °C
125 °C
1
0.173 "
16-TSSOP
4.4 mm
Buffer, Inverting
Texas Instruments
CD74HC4049M96
The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types. The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types.
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-SOIC
-55 °C
125 °C
1
16-SOIC
Buffer, Inverting
0.154 in, 3.9 mm Width
Texas Instruments
CD74HC4049PWT
Buffer, Inverting 6 Element 1 Bit per Element Push-Pull Output 16-TSSOP
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-TSSOP
-55 °C
125 °C
1
0.173 "
16-TSSOP
4.4 mm
Buffer, Inverting
Texas Instruments
CD74HC4049E
The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types. The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types.
Push-Pull
6
5.2 mA, 5.2 mA
Through Hole
2 V
6 V
16-PDIP
-55 °C
125 °C
1
16-DIP
Buffer, Inverting
0.3 in, 7.62 mm
Texas Instruments
CD74HC4049M
The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types. The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types.
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-SOIC
-55 °C
125 °C
1
16-SOIC
Buffer, Inverting
0.154 in, 3.9 mm Width
Texas Instruments
CD74HC4049NSRG4
Buffer, Inverting 6 Element 1 Bit per Element Push-Pull Output 16-SO
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-SO
-55 °C
125 °C
1
16-SOIC (0.209", 5.30mm Width)
Buffer, Inverting
Texas Instruments
CD74HC4049M96G4
Buffer, Inverting 6 Element 1 Bit per Element Push-Pull Output 16-SOIC
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-SOIC
-55 °C
125 °C
1
16-SOIC
Buffer, Inverting
0.154 in, 3.9 mm Width
Texas Instruments
CD74HC4049MT
The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types. The ’HC4049 and ’HC4050 are fabricated with high-speed silicon gate technology. They have a modified input protection structure that enables these parts to be used as logic level translators which convert high-level logic to a low-level logic while operating off the low-level logic supply. For example, 15-V input pulse levels can be down-converted to 0-V to 5-V logic levels. The modified input protection structure protects the input from negative electrostatic discharge. These parts also can be used as simple buffers or inverters without level translation. The ’HC4049 and ’HC4050 are enhanced versions of equivalent CMOS types.
Push-Pull
6
5.2 mA, 5.2 mA
Surface Mount
2 V
6 V
16-SOIC
-55 °C
125 °C
1
16-SOIC
Buffer, Inverting
0.154 in, 3.9 mm Width

Description

General part information

74HC4049 Series

Buffer, Inverting 6 Element 1 Bit per Element Push-Pull Output 16-SO

Documents

Technical documentation and resources