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SN74ALS667DWR

SN74ALS667DWR

Manufacturer No:

SN74ALS667DWR

Manufacturer:

Texas Instruments

Description:

IC D-TYPE TRANSP SGL 8:8 24SOIC

Datasheet:

Datasheet

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SN74ALS667DWR Specifications

  • Type
    Parameter
  • Supplier Device Package
    24-SOIC
  • Package / Case
    24-SOIC (0.295", 7.50mm Width)
  • Mounting Type
    Surface Mount
  • Operating Temperature
    0°C ~ 70°C
  • Current - Output High, Low
    400µA, 8mA
  • Delay Time - Propagation
    9ns
  • Independent Circuits
    1
  • Voltage - Supply
    4.5V ~ 5.5V
  • Output Type
    Tri-State
  • Circuit
    8:8
  • Logic Type
    D-Type Transparent Latch
  • Packaging
    Bulk
  • Packaging
    Tape & Reel (TR)
  • Product Status
    Obsolete
  • Series
    74ALS
The SN74ALS667DWR is a specific type of integrated circuit chip, commonly known as a 16-bit shift register with output registers and three-state outputs. Here are some advantages and application scenarios of this chip:Advantages: 1. High-speed operation: The SN74ALS667DWR chip operates at a high clock frequency, making it suitable for applications that require fast data transfer and processing. 2. Multiple output registers: It has four output registers, allowing for parallel data output and simplifying the interfacing with other devices. 3. Three-state outputs: The chip has three-state outputs, which means that the outputs can be actively driven high or low or can be in a high-impedance state. This feature enables easy bus sharing and reduces the possibility of bus contention. 4. Wide operating voltage range: The chip can operate within a wide voltage range, typically between 4.5V and 5.5V, making it compatible with various power supply systems.Application scenarios: 1. Data storage and transfer: The SN74ALS667DWR chip can be used in applications where data needs to be shifted and stored, such as serial-to-parallel data conversion, data buffering, and data synchronization. 2. Parallel data output: With its multiple output registers, the chip can be used to parallelize serial data for interfacing with other devices that require parallel data input. 3. Bus sharing: The three-state outputs of the chip make it suitable for applications where multiple devices need to share a common bus, such as in a multi-master system or a bus arbitration scenario. 4. Clock and data distribution: The chip can be used to distribute clock signals and synchronize data across multiple devices in a system, ensuring proper timing and synchronization.It's important to note that the specific application scenarios may vary depending on the requirements of the overall system design.
SN74ALS667DWR Relevant information