74ls47 DIP IC

25.00

SKU: 000790 Categories: , Tags: , ,

Description

The 74LS47 BCD to 7-Segment Decoder/Driver DIP IC is an integral component in digital electronics that simplifies the process of displaying numerical information on 7-segment LED displays. This versatile IC takes Binary-Coded Decimal (BCD) input and efficiently converts it into signals that illuminate the appropriate segments of a 7-segment display. This results in clear and accurate numeric representation, making it an invaluable tool for projects requiring numerical output.

Key Features:

BCD to 7-Segment Decoding: The 74LS47 expertly translates BCD input into signals that activate the corresponding segments of a 7-segment display, producing numeric digits from 0 to 9.

Hexadecimal Output: The IC generates hexadecimal output for driving common-cathode 7-segment displays, simplifying connections.

Lamp Test and Blanking Functions: Integrated lamp test and blanking features allow for display testing and control.

Display Enable/Disable: The IC includes a display enable/disable function, granting control over when the display is active.

Low Power Consumption: Designed with power efficiency in mind, the 74LS47 ensures minimal power consumption.

DIP Package: Housed in a standard Dual In-Line Package (DIP), it is suitable for breadboarding and easy integration into various circuits.

Applications:

Digital Counters: Use the 74LS47 to display counts and measurements in various types of counters.
Digital Clocks: Implement it in digital clock projects for time display.
Measurement Equipment: Employ the IC to indicate measurements in instruments and devices.
Scoreboards and Displays: Utilize it in sports scoreboards, electronic signage, and other visual displays.
The 74LS47 BCD to 7-Segment Decoder/Driver DIP IC is a fundamental component for digital displays, enabling precise numeric representation in a wide range of applications. Its decoding capabilities and compatibility with 7-segment displays make it an excellent choice for hobbyists, engineers, and electronic enthusiasts seeking accurate numerical output in their projects.