SN74ACT7201LA35NP

SN74ACT7201LA35NP

Manufacturer No:

SN74ACT7201LA35NP

Manufacturer:

Texas Instruments

Description:

IC FIFO ASYNC 512X9 35NS 28DIP

Datasheet:

Datasheet

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SN74ACT7201LA35NP Specifications

  • Type
    Parameter
  • Supplier Device Package
    28-DIP
  • Package / Case
    28-DIP (0.300", 7.62mm)
  • Mounting Type
    Through Hole
  • Operating Temperature
    0°C ~ 70°C
  • FWFT Support
    No
  • Retransmit Capability
    Yes
  • Programmable Flags Support
    No
  • Expansion Type
    Depth, Width
  • Bus Directional
    Uni-Directional
  • Current - Supply (Max)
    80mA
  • Voltage - Supply
    4.5 V ~ 5.5 V
  • Access Time
    35ns
  • Data Rate
    22.22MHz
  • Function
    Asynchronous
  • Memory Size
    4.5K (512 x 9)
  • DigiKey Programmable
    Not Verified
  • Packaging
    Bulk
  • Product Status
    Active
  • Series
    -
The SN74ACT7201LA35NP is a specific model of integrated circuit chip manufactured by Texas Instruments. It is a 32-bit universal bus transceiver with 3-state outputs. Here are some advantages and application scenarios of this chip:Advantages: 1. High-speed operation: The SN74ACT7201LA35NP operates at a high-speed of 35 nanoseconds, making it suitable for applications that require fast data transfer. 2. 3-state outputs: The chip has 3-state outputs, which means it can be put into a high-impedance state, allowing multiple devices to share the same bus without interfering with each other. 3. Wide operating voltage range: It can operate within a wide voltage range of 4.5V to 5.5V, making it compatible with various power supply systems. 4. Low power consumption: The chip is designed to consume low power, making it suitable for battery-powered devices or applications where power efficiency is crucial.Application scenarios: 1. Data communication systems: The SN74ACT7201LA35NP can be used in various data communication systems, such as UART (Universal Asynchronous Receiver-Transmitter) interfaces, where it can facilitate the transmission of data between different devices. 2. Microprocessor systems: It can be used in microprocessor-based systems to enable communication between the microprocessor and other peripherals, such as memory modules or input/output devices. 3. Bus interfaces: The chip can be used as a bus transceiver in systems that require multiple devices to share a common bus, such as in industrial automation, automotive electronics, or networking equipment. 4. Embedded systems: It can be used in embedded systems where fast and efficient data transfer is required, such as in robotics, control systems, or IoT (Internet of Things) devices.It's important to note that the specific advantages and application scenarios may vary depending on the requirements of the project and the overall system design.