74LS283 Series
4-Bit Binary Full Adders With Fast Carry
Manufacturer: Texas Instruments
Link to Manufacturer Page: https://www.ti.com/
Catalog
4-Bit Binary Full Adders With Fast Carry
| Part | Operating Temperature [Max] | Operating Temperature [Min] | Package / Case | Package / Case | Logic Type | Supplier Device Package | Number of Bits | Supply Voltage [Max] | Supply Voltage [Min] | Mounting Type |
|---|---|---|---|---|---|---|---|---|---|---|
Texas Instruments SN74LS283D | 70 ░C | 0 °C | 16-SOIC | 0.154 in, 3.9 mm Width | Binary Full Adder with Fast Carry | 16-SOIC | 4 | 5.25 V | 4.75 V | Surface Mount |
Texas Instruments SN74LS283N | 70 ░C | 0 °C | 16-DIP | 0.3 in, 7.62 mm | Binary Full Adder with Fast Carry | 16-PDIP | 4 | 5.25 V | 4.75 V | Through Hole |
Texas Instruments SN74LS283NS | ||||||||||
Texas Instruments SN74LS283DR | 70 ░C | 0 °C | 16-SOIC | 0.154 in, 3.9 mm Width | Binary Full Adder with Fast Carry | 16-SOIC | 4 | 5.25 V | 4.75 V | Surface Mount |
Texas Instruments SN74LS283NG4 | 70 ░C | 0 °C | 16-DIP | 0.3 in, 7.62 mm | Binary Full Adder with Fast Carry | 16-PDIP | 4 | 5.25 V | 4.75 V | Through Hole |
Key Features
• Full-Carry Look-Ahead Across the Four BitsSystems Achieve Partial Look-Ahead Performance with the Economy of Ripple CarrySupply Voltage and Ground on Corner Pins to Simplify P-C Board LayoutFull-Carry Look-Ahead Across the Four BitsSystems Achieve Partial Look-Ahead Performance with the Economy of Ripple CarrySupply Voltage and Ground on Corner Pins to Simplify P-C Board Layout
Description
AI
The '283 and 'LS283 adders are electrically and functionally identical to the '83A and 'LS83A, respectively; only the arrangement of the terminals has been changed. The 'S283 high performance versions are also functionally identical.
These improved full adders perform the addition of two 4-bit binary words. The sum () outputs are provided for each bit and the resultant carry (C4) is obtained from the fourth bit. These adders feature full internal look-ahead across all four bits generating the carry term in ten nanoseconds, typically, for the '283 and 'LS283, and 7.5 nanoseconds for the 'S283. This capability provides the system designer with partial look-ahead performance at the economy and reduced package count of a ripple-carry implementation.
The adder logic, including the carry, is implemented in its true form. End around carry can be accomplished without the need for logic or level inversion.
Series 54, Series 54LS, and Series 54S circuits are characterized for operation over the full temperature range of -55°C to 125°C. Series 74, Series 74LS, and Series 74S circuits are characterized for 0°C to 70°C operation.
The '283 and 'LS283 adders are electrically and functionally identical to the '83A and 'LS83A, respectively; only the arrangement of the terminals has been changed. The 'S283 high performance versions are also functionally identical.
These improved full adders perform the addition of two 4-bit binary words. The sum () outputs are provided for each bit and the resultant carry (C4) is obtained from the fourth bit. These adders feature full internal look-ahead across all four bits generating the carry term in ten nanoseconds, typically, for the '283 and 'LS283, and 7.5 nanoseconds for the 'S283. This capability provides the system designer with partial look-ahead performance at the economy and reduced package count of a ripple-carry implementation.
The adder logic, including the carry, is implemented in its true form. End around carry can be accomplished without the need for logic or level inversion.
Series 54, Series 54LS, and Series 54S circuits are characterized for operation over the full temperature range of -55°C to 125°C. Series 74, Series 74LS, and Series 74S circuits are characterized for 0°C to 70°C operation.