Product details

Function Type-C USB speed (Mbps) 480 Supply voltage (V) 2.7, 5 Rating Catalog Operating temperature range (C) -40 to 85
Function Type-C USB speed (Mbps) 480 Supply voltage (V) 2.7, 5 Rating Catalog Operating temperature range (C) -40 to 85
X2QFN (RWB) 12 3 mm² 1.6 x 1.6
  • USB Type-C™ Specification 1.1
  • Backward Compatible with USB Type-C Specification 1.0
  • Supports Up to 3 A of Current Advertisement and Detection
  • Mode Configuration
    • Host Only – DFP (Source)
    • Device Only – UFP (Sink)
    • Dual Role Port – DRP
    • Supports both Try.SRC and Try.SNK
  • Channel Configuration (CC)
    • Attach of USB Port Detection
    • Cable Orientation Detection
    • Role Detection
    • Type-C Current Mode (Default, Medium, High)
  • VBUS Detection
  • I2C or GPIO Control
  • Supports up to 400 kHz I2C
  • Role Configuration Control Through I2C
  • Supply Voltage: 2.7 V to 5 V
  • Low Current Consumption
  • Industrial Temperature Range of –40 to 85°C
  • USB Type-C™ Specification 1.1
  • Backward Compatible with USB Type-C Specification 1.0
  • Supports Up to 3 A of Current Advertisement and Detection
  • Mode Configuration
    • Host Only – DFP (Source)
    • Device Only – UFP (Sink)
    • Dual Role Port – DRP
    • Supports both Try.SRC and Try.SNK
  • Channel Configuration (CC)
    • Attach of USB Port Detection
    • Cable Orientation Detection
    • Role Detection
    • Type-C Current Mode (Default, Medium, High)
  • VBUS Detection
  • I2C or GPIO Control
  • Supports up to 400 kHz I2C
  • Role Configuration Control Through I2C
  • Supply Voltage: 2.7 V to 5 V
  • Low Current Consumption
  • Industrial Temperature Range of –40 to 85°C

The TUSB320LA and TUSB320HA devices, hereafter called TUSB320 unless otherwise noted, are Texas Instrument’s third generation Type-C configuration channel logic and port controller. The TUSB320 devices use the CC pins to determine port attach and detach, cable orientation, role detection, and port control for Type-C current mode. The TUSB320 devices can be configured as a downstream facing port (DFP), upstream facing port (UFP) or a dual role port (DRP) making them ideal for any application.

The TUSB320 devices have an alternate configuration as a DFP or UFP according to the Type-C specifications. The CC logic block monitors the CC1 and CC2 pins for pullup or pulldown resistances to determine when a USB port has been attached, the orientation of the cable, and the role detected. The CC logic detects the Type-C current mode as default, medium, or high depending on the role detected. VBUS detection is implemented to determine a successful attach in UFP and DRP modes.

The devices operate over a wide supply range and have low-power consumption. The TUSB320 is available in two versions of enable: Active low enable called TUSB320LA and active high enable called TUSB320HA. The TUSB320 family of devices are available in industrial temperature ranges.

The TUSB320LA and TUSB320HA devices, hereafter called TUSB320 unless otherwise noted, are Texas Instrument’s third generation Type-C configuration channel logic and port controller. The TUSB320 devices use the CC pins to determine port attach and detach, cable orientation, role detection, and port control for Type-C current mode. The TUSB320 devices can be configured as a downstream facing port (DFP), upstream facing port (UFP) or a dual role port (DRP) making them ideal for any application.

The TUSB320 devices have an alternate configuration as a DFP or UFP according to the Type-C specifications. The CC logic block monitors the CC1 and CC2 pins for pullup or pulldown resistances to determine when a USB port has been attached, the orientation of the cable, and the role detected. The CC logic detects the Type-C current mode as default, medium, or high depending on the role detected. VBUS detection is implemented to determine a successful attach in UFP and DRP modes.

The devices operate over a wide supply range and have low-power consumption. The TUSB320 is available in two versions of enable: Active low enable called TUSB320LA and active high enable called TUSB320HA. The TUSB320 family of devices are available in industrial temperature ranges.

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Technical documentation

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Type Title Date
* Data sheet TUSB320LAI, TUSB320HAI USB Type-C Configuration Channel Logic and Port Control datasheet (Rev. D) 02 May 2017
Technical article 4 Reasons why you should use a boost charger for 2-cell battery application 03 Apr 2019
User guide TUSB320-LA-EVM and TUSB320-HA-EVM User's Guide (Rev. A) 07 Nov 2018
Technical article USB Type-C™ power: Should your next device have USB Type-C? 14 Feb 2017
White paper USB Type-C™ represents breakthrough connectivity 04 Dec 2015
White paper Transition existing products from USB 2.0 OTG to USB Type-C 10 Jul 2015
White paper Low-cost implementation of USB Type-C 07 Jul 2015

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

TUSB320-LA-EVM — TUSB320LAI USB Type-C Configuration Channel Logic and Port Control Evaluation Module

The TUSB320-LA-EVM is designed to evaluate TUSB320LA devices.  The EVM can be configured to operate in DFP, UFP or DRP mode via DIP switch selection and/or I2C control.  All of the control inputs are also selectable via DIP Switch configuration.  The TUSB320LA devices can be used with (...)

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Simulation model

TUSB320LI IBIS MODEL

SLYM076.ZIP (67 KB) - IBIS Model
Simulation tool

PSPICE-FOR-TI — PSpice® for TI design and simulation tool

PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
Simulation tool

TINA-TI — SPICE-based analog simulation program

TINA-TI provides all the conventional DC, transient and frequency domain analysis of SPICE and much more. TINA has extensive post-processing capability that allows you to format results the way you want them. Virtual instruments allow you to select input waveforms and probe circuit nodes voltages (...)
Reference designs

PMP40496 — 2-cell boost charge system reference design with 5-V USB

This 5-V USB, 2-cell battery boost charger reference design includes a charger system and a 2-cell battery holder with a gauge that can be connected by a cable or work independently. The key components of the charger system include the BQ25883 boost charger, TUSB320LAI Type-C CC logic, MSP430FR2433 (...)
Reference designs

TIDA-03030 — USB Type-C™ Power-Path Protection With Audio Accessory Support Reference Design

The TIDA-03030 reference design provides a robust protection solution for the power path in USB Type-C™ applications. The design protects the power path from overvoltage, overcurrent, hot-plug, and reverse-current events by leveraging the TPS25923 (eFuse) and CSD17571Q2 (reverse-blocking FET (...)
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X2QFN (RWB) 12 View options

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