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MAX3232IPWR

3-V to 5.5-V multichannel RS-232 line driver & receiver 16-TSSOP -40 to 85

Manufacturer Texas Instruments
Price Range $1.8400 / $2.0400

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45,912

Part Number Description Manufacturer Compare
MAX3232CPWR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver & receiver 16-TSSOP 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232CPWR
MAX3232MPWREP Drivers And Interfaces Enhanced Product 3-V To 5.5-V Multichannel Rs-232 Line Driver/Receiver W/Plus/-15-Kv Esd 16-TSSOP -55 to 125 Texas Instruments MAX3232IPWR vs MAX3232MPWREP
MAX3232EIPWR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-TSSOP -40 to 85 Texas Instruments MAX3232IPWR vs MAX3232EIPWR
MAX3232CPW Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver & receiver 16-TSSOP 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232CPW
MAX3232IPW Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver & receiver 16-TSSOP -40 to 85 Texas Instruments MAX3232IPWR vs MAX3232IPW
MAX3232EIPW Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-TSSOP -40 to 85 Texas Instruments MAX3232IPWR vs MAX3232EIPW
MAX3232ECPWR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-TSSOP 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232ECPWR
Part Number Description Manufacturer Compare
MAX3232ECDR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-SOIC 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232ECDR
MAX3232CPWR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver & receiver 16-TSSOP 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232CPWR
MAX3232CPW Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver & receiver 16-TSSOP 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232CPW
MAX3232ECPWR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-TSSOP 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232ECPWR
MAX3232EIPW Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-TSSOP -40 to 85 Texas Instruments MAX3232IPWR vs MAX3232EIPW
MAX3232EIDR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-SOIC -40 to 85 Texas Instruments MAX3232IPWR vs MAX3232EIDR
MAX3232MPWREP Drivers And Interfaces Enhanced Product 3-V To 5.5-V Multichannel Rs-232 Line Driver/Receiver W/Plus/-15-Kv Esd 16-TSSOP -55 to 125 Texas Instruments MAX3232IPWR vs MAX3232MPWREP
MAX3232EIPWR Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver and receiver with ±15-kV IEC ESD protection 16-TSSOP -40 to 85 Texas Instruments MAX3232IPWR vs MAX3232EIPWR
MAX3232IPW Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver & receiver 16-TSSOP -40 to 85 Texas Instruments MAX3232IPWR vs MAX3232IPW
MAX3232CD Drivers And Interfaces 3-V to 5.5-V multichannel RS-232 line driver & receiver 16-SOIC 0 to 70 Texas Instruments MAX3232IPWR vs MAX3232CD

Global Popularity

Popularity in Drivers And Interfaces

Popularity in Line Driver or Receivers

Popularity by Region

Very High

Medium

Good

Low

  • 1. China
    100
  • 2. United States of America
    95
  • 3. South Korea
    95
  • 4. India
    94
  • 5. Italy
    72
  • 6. Taiwan
    70
  • 7. Brazil
    68
  • 8. Canada
    66
  • 9. Finland
    65
  • 10. Spain
    65

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Texas Instruments $1.8400 Buy Now
  • 2. Newark element14 $2.0400 Buy Now

Datasheets & Reference Designs

Reference Designs

  • TIDA-00254 Accurate Point Cloud Generation for 3D Machine Vision Applications using DLP® Technology | TI.com
    TIDA-00254: The 3D Machine Vision reference design employs Texas Instruments DLP® Advanced Light Control Software Development Kit (SDK) for LightCrafter™ series controllers, which allows developers to easily construct 3D point clouds by integrating TI’s digital micromirror device (DMD) technology with cameras, sensors, motors or other peripherals. The highly differentiated 3D Machine Vision system utilizes the DLP® LightCrafter™ 4500 evaluation module (EVM), featuring the DLP4500 WXGA chipset, and enables flexible control of high resolution, accurate patterns for industrial, medical, and security applications.
  • High Resolution, Portable Light Steering Reference Design using DLP Technology
    DLP4500-C350REF: This reference design, featuring the DLP® 0.45” WXGA chipset and implemented in the DLP® LightCrafter™ 4500 evaluation module (EVM), enables flexible control of high resolution, accurate patterns for industrial, medical, and scientific applications. With a free USB-based GUI and API, developers can easily integrate TI’s innovative digital micromirror device (DMD) technology with cameras, sensors, motors, and other peripherals to create highly differentiated 3D machine vision systems, 3D printers, and augmented reality displays.
  • TIDA-00782 Portable, High Brightness HD Projection Display Reference Design using DLP® Technology | TI.com
    TIDA-00782: This reference design, featuring the DLP Pico™ 0.45-inch WXGA display chipset enables use of HD resolution for projection display applications such as accessory projectors, smart projectors, mobile Smart TV, built in projectors like projection functionality inside notebooks, laptops and hot spots. The chipset used in the design comprises of DLP4501 (.45 WXGA) DMD and DLPC6401 display controller. The external LED Driver reference design can be accessed under following link: PMP4356
  • DLP4500-C350REF High Resolution, Portable Light Steering Reference Design using DLP Technology | TI.com
    DLP4500-C350REF: This reference design, featuring the DLP® 0.45” WXGA chipset and implemented in the DLP® LightCrafter™ 4500 evaluation module (EVM), enables flexible control of high resolution, accurate patterns for industrial, medical, and scientific applications. With a free USB-based GUI and API, developers can easily integrate TI’s innovative digital micromirror device (DMD) technology with cameras, sensors, motors, and other peripherals to create highly differentiated 3D machine vision systems, 3D printers, and augmented reality displays.
  • Portable, High Brightness HD Projection Display Reference Design using DLP® Technology
    TIDA-00782: This reference design, featuring the DLP Pico™ 0.45-inch WXGA display chipset enables use of HD resolution for projection display applications such as accessory projectors, smart projectors, mobile Smart TV, built in projectors like projection functionality inside notebooks, laptops and hot spots. The chipset used in the design comprises of DLP4501 (.45 WXGA) DMD and DLPC6401 display controller. The external LED Driver reference design can be accessed under following link: PMP4356
  • RTOS-Based Configurable Serial-to-Ethernet Converter on High Performance MCUs Reference Design
    TIDM-TM4C129XS2E: Legacy products may only contain a serial port and accessing such end equipments (EEs) is increasingly becoming a challenge due to the inability to add them to a shared network and access them over long distances (like remote control stations). A Serial-to-Ethernet (S2E) converter provides a simple solution to solve the challenges posed by such EE's. This TI Design leverages an Ethernet-based TM4C129x (formerly known as Tiva) microcontroller to implement an S2E converter that allows quicker time-to-market and cost savings.
  • TIDC-SPPBLE-SW-RD UART to Bluetooth® Low Energy (BLE) Bridge Reference Design | TI.com
    TIDC-SPPBLE-SW-RD: This is a reference software solution to demonstrate how to implement a UART to BLE bridge and to communicate serial data wirelessly bidirectionally between wired UART to a device supporting BLE protocol. This will accelerate the software design process by just dropping modular code into existing and new products to enable Internet of Things (IoT) applications that connects wired serial protocols such as RS232 to BLE. The solution also includes an RS232 to UART hardware reference design.
  • UART to Bluetooth® Low Energy (BLE) Bridge Reference Design
    TIDC-SPPBLE-SW-RD: This is a reference software solution to demonstrate how to implement a UART to BLE bridge and to communicate serial data wirelessly bidirectionally between wired UART to a device supporting BLE protocol. This will accelerate the software design process by just dropping modular code into existing and new products to enable IoT applications that connects wired serial protocols such as RS232 to BLE. The solution also includes an RS232 to UART hardware reference design.
  • TIDM-TM4C129XS2E RTOS-Based Configurable Serial-to-Ethernet Converter on High Performance MCUs Reference Design | TI.com
    TIDM-TM4C129XS2E: Legacy products may only contain a serial port and accessing such end equipments (EEs) is increasingly becoming a challenge due to the inability to add them to a shared network and access them over long distances (like remote control stations). A Serial-to-Ethernet (S2E) converter provides a simple solution to solve the challenges posed by such EE's. This TI Design leverages an Ethernet-based TM4C129x (formerly known as Tiva) microcontroller to implement an S2E converter that allows quicker time-to-market and cost savings.
  • TIDM-TM4C129USBHS USB High Speed Reference Design for ARM® Cortex®-M4F Based High Speed TM4C129x MCU | TI.com
    TIDM-TM4C129USBHS: This design uses TI's high-performance ARM® Cortex®-M4F based TM4C129x microcontrollers (MCUs) with integrated USB 2.0 controller to interface with an external High Speed USB PHY. The design includes software that allows data exchange between USB high speed and Ethernet. The design also features transceivers for CAN and UART serial interfaces to connect a host to legacy RS232 machines or to interface with CAN bus. Provision for digital communication interfaces like UART, I2C and SSI to bridge external devices and aggregate data from slow interfaces to a high speed USB link has been provided in this reference design.
  • Accurate Point Cloud Generation for 3D Machine Vision Applications using DLP® Technology
    TIDA-00254: The 3D Machine Vision reference design employs Texas Instruments DLP Software Development Kit (SDK) allowing developers to easily construct 3D point clouds by integrating TI’s digital micromirror device (DMD) technology with cameras, sensors, motors or other peripherals. The highly differentiated 3D Machine Vision systems utilizes the DLP® LightCrafter™ 4500 evaluation module (EVM), featuring the DLP® 0.45” WXGA chipset, and enables flexible control of high resolution, accurate patterns for industrial, medical, and security applications.

Frequently Asked Questions (FAQ)

  • Q: How do I get started with the Sparkfun MAX3232 board?

    A: We’ve taken the SOIC package MAX3232 and broken out all the pins you need to set up your RS232 to TTL connection. We’ve also included the necessary 0.1uF charge pump capacitors. Also remember that because the MAX3232 operates at a broader voltage range than the 232 (3 - 5.5V) you can use this on both your 3.3 and 5V projects! more

  • Q: How do I wire a MAX3232 to Arduino?

    A: In this tutorial you will learn how to communicate with a computer using a MAX3323 single channel RS-232 driver/receiver and a software serial connection on the Arduino. A general purpose software serial tutorial can be found here. Insert the MAX3323 chip in the breadboard. Connect 5V power and ground from the breadboard to 5V power and ground from the microcontroller. Connect pin 15 on the MAX233 chip to ground and pins 16 and 14 - 11 to 5V. If you are using an LED connect it between pin 13 and ground. more

  • Q: Where can I find a MAX3232 circuit schematic?

    A: The driver IC used is MAX3232CSE that is pin to pin equivalent to MAX232 but can also operate at lower voltage at lower capacitor values.The power pins +/- are given on both sides of board which are connected to each other on PCB, You can use any one side of it to power the board.The arrow on PCB indicate the signal flow of serial data.The ‘must have’ board for TTL/RS323 projects! This is the RS232 converter IC that is capable of running at 3V and communicating with 5V logic. Since MAX3232 operates at a broader voltage range than the 232 (3 - 5.5V) you can use this on both your 3.3 and 5V projects! more

  • Q: Is there a MAX3232 pinout diagram?

    A: MAX3232 is basically a nice level shifting circuit designed to convert the +-12V lines from RS-232 into TTL-compatible 5V (232) or 3.0-5.5V (3232) levels. To reach the higher (and lower) voltages, it uses charge pumps and four 0.1 uF (standard MAX232 needs 1.0 uF) capacitors, plus one more for VCC stabilization. Here’s the pinout and logical diagram: more

  • Q: Where can I buy a MAX3232 board?

    A: MAX3232 enables true RS-232 performance from a 3.0V to 5.5V operating range. It is guaranteed to run at data rates of 250 kbit/s while maintaining RS-232 output levels. Board is compact and barely bigger than DB9 connector. It has high quality SMD components and prototyping connection pads which enable easy connectivity with your device. more

  • Q: How do I connect a MAX3232 with Raspberry Pi?

    A: The raspberry pi has a UART interface, with which it can send debug information to a serial console. As a basic step of Embedded Linux Development, let’s see the procedure to connect the Raspberry Pi UART to a computer.You can connect Raspberry pi to a computer using a USB to UART converter. In fact, it is the easiest way and also less risk involved. Note that, the TTL logic levels of Broadcom SOC are Logic0-0v and Logic1-3.3v. So, before purchasing a USB to UART converter, make sure that it supports UART with 3.3v TTL logic levels. more

  • Q: Where can I find a MAX3232 circuit diagram?

    A: There are several low-cost ICs designed to perform this conversion. We used a Maxim MAX3232 device [4], which uses an internal charge pump and external capacitors to generate the higher voltages required for RS-232 from the 3.3V supply. This removes the need for an additional power supply to the ProSpeckz end of the connection and allows a three-wire link to be used (TX, RX and signal ground). The schematic for the conversion circuit is shown in Fig. 3, and is taken from an example in the datasheet. more

  • Q: Can I use a USB adaptor with MAX3232?

    A: USB adaptor circuit using MAX3232 more

  • Q: How do I connect a MAX3232 to a DB9 connector?

    A: The j303 connector (red connector)is in fact a serial port. You can connect a 3.3v adaptor in making the following schema based on a MAX3232: more

  • Q: How do I use a MAX3232 driver with an RS232?

    A: UART Stands for Universal Asynchronous Transmitter Receiver. The function of UART is conversion parallel data (8 bit) to serial data. UART transmit bytes of data sequentially one bit at a time from source and receive the byte of data at the destination by decoding sequential data with control bits. As the entire processes require no clock input from source hence it is termed as asynchronous communication. more

  • Q: How do I get started with a MAX3232 converter?

    A: 3.0V to 5.5V, Low-Power, up to 1Mbps, True RS-232 Transceivers Using Four 0.1µF External Capacitors more

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