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Texas Instruments FlatLink™ series Interface - Drivers, Receivers, Transceivers

Introduction, stock information and FAQs of FlatLink™ series Drivers Interface ICs

In this article, you will be informed about the characteristics, uses, PDF documents, alternative items, and the most recent inventory and pricing data of Texas Instruments FlatLink™ series Drivers Interface ICs.

Applications

  • Medical
  • Building automation
  • Infotainment & cluster
Associated Products

Part NumberDescriptionStockRFQ
SN65HVD96DSymPol Transceiver 8-SOIC -40 to 8517BUY
SN75LVDS83ADGGIC FLATLINK TRANSMITTER 56TSSOP55RFQ
SN75LVDS82DGG1C, FLATLINK TRANSMITTER ((NS))5000RFQ
SN75LVDS83DGGIC DRIVER 5/0 56TSSOP1RFQ
SN75LVDS84ADGGTEXAS INSTRUMENTS SN75LVDS84ADGG IC, LINE TRANSMITTER, 197MBPS, 48TSSOP624RFQ
SN75LVDS83ADGGRIC FLATLINK TRANSMITTER 56TSSOP1RFQ
SN75LVDS84ADGGRFlatLink? Transmitter 48-TSSOP 0 to 706280BUY
SN75LVDS86ADGGRIC FLATLINK(TM) RCVR 48-TSSOP178RFQ
SN75LVDS86ADGGTEXAS INSTRUMENTS SN75LVDS86ADGG IC, FLATLINK (TM) RCVR 48-TSSOP2RFQ
SN65LVDS84AQDGGRTEXAS INSTRUMENTS - SN65LVDS84AQDGGR - FLATLINK TRANSMITTER, 3.6V, TSSOP-481635RFQ
SN75LVDS84DGGRG4IC FLATLINK(TM) XMITTER 48-TSSOP22BUY
SN75LVDS84DGGG4IC FLATLINK(TM) XMITTER 48-TSSOP15BUY
SN75LVDS82DGGG4IC FLATLINK(TM) RCVR 56-TSSOP20BUY
SN75LVDS86ADGGRG4IC FLATLINK (TM) RCVR 48-TSSOP5050BUY
SN75LVDS86DGGRLVDS Receiver 48-Pin TSSOP T/R10RFQ
TFP410MPAPREPG4IC TRANSMITTER DGTL 64HTQFP11420RFQ
SN75LVDS83BDGGTEXAS INSTRUMENTS SN75LVDS83BDGG Specialized Interface, Parallel, Serial4RFQ
SN75LVDS86ADGGG4IC FLATLINK (TM) RCVR 48-TSSOP20BUY
SN65HVD253DTEXAS INSTRUMENTS SN65HVD253D CAN Bus, Transceiver, CAN, 1, 1, 4.75 V, 5.25 V, SOIC82566602BUY
SN75LVDS83BZQLRTEXAS INSTRUMENTS SN75LVDS83BZQLR FlatLink&trade11968RFQ
Technical Documents

Texas Instruments FlatLink™ series Interface - Drivers, Receivers, Transceivers is a family of high-performance, low-power, low-cost interface solutions for a wide range of applications. The FlatLink series provides a complete solution for connecting devices to a variety of buses, including I2C, SPI, UART, and CAN. The FlatLink series is designed to provide a reliable, low-power, and cost-effective solution for connecting devices to a variety of buses. The FlatLink series is available in a variety of packages, including surface mount, through-hole, and connectorized versions. The FlatLink series is designed to provide a robust, reliable, and cost-effective solution for connecting devices to a variety of buses.


Features


• Low power consumption

• High speed data rates up to 5 Mbps

• Low EMI/RFI emissions

• High noise immunity

• Hot pluggable

• Low voltage operation

• Low cost

• Small form factor


Applications


• Automotive infotainment systems

• Industrial automation

• Medical equipment

• Home automation

• Building automation

• Security systems

• Lighting control

• Networking and communication systems

• Automotive diagnostics

• Automotive body control systems

• Automotive safety systems


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Frequently Asked Questions

What are the Alternative Products of Texas Instruments FlatLink™ series Interface - Drivers, Receivers, Transceivers?

1. NXP Semiconductors PCA82C250 CAN Transceiver 2. Microchip Technology MCP2551 CAN Transceiver 3. STMicroelectronics MCP2515 CAN Transceiver 4. Silicon Labs CP2102 USB to UART Bridge 5. FTDI FT232RL USB to Serial UART Interface IC 6. Maxim Integrated MAX3232 RS-232 Transceiver 7. Analog Devices ADM2587E RS-485/RS-422 Transceiver 8. Texas Instruments SN65HVD230 CAN Transceiver 9. NXP Semiconductors SN65HVD72 CAN Transceiver 10. Microchip Technology MCP2561 CAN Transceiver

What are the differences between the types of Texas Instruments FlatLink™ series Interface - Drivers, Receivers, Transceivers?

Drivers: Drivers are used to drive a signal from a microcontroller to a device. They are typically used to drive LEDs, relays, and other devices.  Receivers: Receivers are used to receive a signal from a device and convert it into a digital signal that can be read by a microcontroller.  Transceivers: Transceivers are used to both send and receive signals. They are typically used to communicate between two devices, such as between a microcontroller and a sensor.

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