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TCAN5102-Q1

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CAN FD Light Responder to SPI/UART/I2C/GPIO Controller

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Data sheet

TCAN5102-Q1

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Data sheet Order now

Product details

Protocols CAN FD, CAN FD Light Number of channels 0 Supply voltage (V) 3 to 5.5 Signaling rate (max) (Mbps) 0 Rating Automotive
Protocols CAN FD, CAN FD Light Number of channels 0 Supply voltage (V) 3 to 5.5 Signaling rate (max) (Mbps) 0 Rating Automotive
HVSSOP (DGQ) 20 24.99 mm² 5.1 x 4.9
  • AEC-Q100: Qualified for automotive applications
  • CAN FD Light Responder meets ISO 11898-1:202x
  • Supports CAN FD Light data rates up to 5Mbps when using TCAN4562-Q1 CAN FD Light Commander
  • Ability to control external CAN transceiver such as: TCAN1162x-Q1, TCAN1043A, TCAN1463A
  • Programmable via CAN bus
  • 3.3V to 5V Supply voltage
  • SPI controller support for up to 20MHz with up to 8 chip selects
  • UART controller support for up to 2.5 Mbaud
  • I2C controller supports fast mode plus (1MHz)
  • 13 GPIOs which can be muxed with other functionality
  • Programmable PWM output with trapezoidal ramp profile support for motor control
  • 20-pin VSSOP (DGQ) package
  • AEC-Q100: Qualified for automotive applications
  • CAN FD Light Responder meets ISO 11898-1:202x
  • Supports CAN FD Light data rates up to 5Mbps when using TCAN4562-Q1 CAN FD Light Commander
  • Ability to control external CAN transceiver such as: TCAN1162x-Q1, TCAN1043A, TCAN1463A
  • Programmable via CAN bus
  • 3.3V to 5V Supply voltage
  • SPI controller support for up to 20MHz with up to 8 chip selects
  • UART controller support for up to 2.5 Mbaud
  • I2C controller supports fast mode plus (1MHz)
  • 13 GPIOs which can be muxed with other functionality
  • Programmable PWM output with trapezoidal ramp profile support for motor control
  • 20-pin VSSOP (DGQ) package

The TCAN5102-Q1 is a Control Area Network (CAN) Flexible Data (FD) Light responder device compatible with CiA 604-1 and ISO 11898-1:2024, capable of supporting up to 5Mbps data rate when a dedicated CAN FD light commander is used. The device is designed to support CAN FD light responder node applications in a commander - responder architecture which does not require a responder node processor. All control to the responder node is through the CAN bus from the commander node processor which eliminates the need for responder node processor and software.

The device receives data and/or commands from a CAN FD light commander node which translates these to either Serial Peripheral Interface (SPI) controller, UART controller, I2C controller, and/or GPIO pins communication to the device and/or peripheral devices the TCAN5102-Q1 is controlling. PWM output channels also support trapezoidal ramp profiles in hardware for controlling stepper motors. Ramping of duty cycle or frequency is possible. No external crystal or clock is required. The device controls the external TCAN1162x-Q1, TCAN1043A-Q1 or TCAN1463A-Q1 CAN FD (SIC) transceivers for system level flexibility. The device relys upon the CAN FD transceiver/SBC to control the node power and communicate a wake up signal to the TCAN5102-Q1 by latching the CAN RXD (CRXD) pin low.

The TCAN5102-Q1 is a Control Area Network (CAN) Flexible Data (FD) Light responder device compatible with CiA 604-1 and ISO 11898-1:2024, capable of supporting up to 5Mbps data rate when a dedicated CAN FD light commander is used. The device is designed to support CAN FD light responder node applications in a commander - responder architecture which does not require a responder node processor. All control to the responder node is through the CAN bus from the commander node processor which eliminates the need for responder node processor and software.

The device receives data and/or commands from a CAN FD light commander node which translates these to either Serial Peripheral Interface (SPI) controller, UART controller, I2C controller, and/or GPIO pins communication to the device and/or peripheral devices the TCAN5102-Q1 is controlling. PWM output channels also support trapezoidal ramp profiles in hardware for controlling stepper motors. Ramping of duty cycle or frequency is possible. No external crystal or clock is required. The device controls the external TCAN1162x-Q1, TCAN1043A-Q1 or TCAN1463A-Q1 CAN FD (SIC) transceivers for system level flexibility. The device relys upon the CAN FD transceiver/SBC to control the node power and communicate a wake up signal to the TCAN5102-Q1 by latching the CAN RXD (CRXD) pin low.
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* Data sheet TCAN5102-Q1 Automotive Self-supplied CAN FD Light Responder to SPI, UART, or I2 C Controller datasheet PDF | HTML 30 Sep 2025
Certificate TCAN5102EVM EU Declaration of Conformity (DoC) 10 Oct 2025
EVM User's guide TCAN5102-Q1 Automotive Self-supplied CAN FD Light Responder to SPI, UART, or I2C Controller PDF | HTML 30 Sep 2025

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Evaluation board

TCAN5102EVM — TCAN5102-Q1 evaluation module

The TCAN5102-Q1 EVM provides users with the ability to evaluate TCAN5102-Q1 CAN FD (Controller Area Network with Flexible Data Rate) Light Responder. The EVM is configurable for use with both 8-pin and 14-pin CAN transceiver families by populating the transceiver and setting the appropriate jumpers (...)

User guide: PDF | HTML
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