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MAX3001EEWP+T

MAX3001EEWP+T

Manufacturer No:

MAX3001EEWP+T

Description:

IC TRANSLTR BIDIRECTIONAL 20WLP

Datasheet:

Datasheet

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MAX3001EEWP+T Specifications

  • Type
    Parameter
  • Voltage - VCCB
    1.65 V ~ 5.5 V
  • Voltage - VCCA
    1.2 V ~ 5.5 V
  • Supplier Device Package
    20-WLP
  • Package / Case
    20-WFBGA, WLBGA
  • Mounting Type
    Surface Mount
  • Features
    Auto-Direction Sensing, Power Supply Decoupling
  • Operating Temperature
    -40°C ~ 85°C (TA)
  • Data Rate
    4Mbps
  • Output Type
    Tri-State, Non-Inverted
  • Output Signal
    -
  • Input Signal
    -
  • Channels per Circuit
    8
  • Number of Circuits
    1
  • Channel Type
    Bidirectional
  • Translator Type
    Voltage Level
  • Packaging
    Cut Tape (CT)
  • Packaging
    Tape & Reel (TR)
  • Product Status
    Obsolete
  • Series
    -
The M74HC299RM13TR is a high-speed 8-bit shift register with parallel input and output. Some advantages and application scenarios of this integrated circuit chip include:Advantages: 1. High-speed operation: The M74HC299RM13TR chip operates at high speed, making it suitable for applications where quick data transfer or processing is required. 2. Parallel input and output: It has parallel input and output capabilities, allowing for simultaneous data transfer between multiple devices or registers. 3. Serial-in, parallel-out (SIPO) operation: The chip can receive data serially and output it in parallel, enabling efficient serial-to-parallel data conversion. 4. Wide voltage range: The M74HC299RM13TR chip operates within a wide voltage range, making it compatible with various power supply levels. 5. Low power consumption: It consumes minimal power, making it suitable for battery-powered devices or applications where power efficiency is crucial.Application Scenarios: 1. Serial data storage: The chip can be used for serial data storage, as it can shift in data serially and then latch and hold it in parallel outputs until required. 2. Data multiplexing: Multiple M74HC299RM13TR chips can be cascaded to create a larger shift register for multiplexing applications, where data from multiple sources can be combined and selected. 3. LED matrix control: It can be used to control LED matrices by converting serially inputted data to parallel output, allowing for efficient control and display of patterns or messages on the LED matrix. 4. Data communication: The chip can be utilized in serial data communication applications where data from one device needs to be converted into parallel format before being processed or transmitted. 5. Memory expansion: It can be used in systems requiring memory expansion, where it can be used to add additional storage capacity by cascading multiple chips to create a larger shift register for data storage.Note: It is always advised to consult the manufacturer's datasheet and application notes for detailed specifications and guidelines specific to the M74HC299RM13TR integrated circuit chip.
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