4-channels of short-to-VBUS overvoltage protection (CC1, CC2, SBU1, SBU2): 63VDC tolerant
4-channels of IEC 61000-4-2 ESD protection (CC1, CC2, SBU1, SBU2)
CC1 and CC2 overvoltage protection FETs for passing VCONN power
±65V surge protection on CC pins
+65V/-35V surge protection on SBU pins
Integrated VBUS divider circuit with enable for dividing down EPR level VBUS
Integrated FET driver for control of external EPR blocking FET
CC dead battery resistors integrated for handling dead battery use case in mobile devices
3mm × 3mm QFN package

4-channels of short-to-VBUS overvoltage protection (CC1, CC2, SBU1, SBU2): 63VDC tolerant
4-channels of IEC 61000-4-2 ESD protection (CC1, CC2, SBU1, SBU2)
CC1 and CC2 overvoltage protection FETs for passing VCONN power
±65V surge protection on CC pins
+65V/-35V surge protection on SBU pins
Integrated VBUS divider circuit with enable for dividing down EPR level VBUS
Integrated FET driver for control of external EPR blocking FET
CC dead battery resistors integrated for handling dead battery use case in mobile devices
3mm × 3mm QFN package

The TPD4S480 is a single-chip USB Type-C port protection device that provides 48V Short-to-VBUS overvoltage and IEC ESD protection.

Since the release of the USB Type-C connector, many products and accessories for USB Type-C have been released that do not meet the USB Type-C specification. One example of this is USB Type-C Power Delivery adapters that only place high voltage on the VBUS line. Another concern for USB Type-C is that mechanical twisting and sliding of the connector could short pins due to the close proximity they have in this small connector. This can cause 48V VBUS to be shorted to the CC and SBU pins. Also due to the proximity of the pins in the Type-C connector, there is a heightened concern that debris and moisture will cause the 48V VBUS pin to be shorted to the CC and SBU pins.

These non-ideal equipment and mechanical events make it necessary for the CC and SBU pins to be 48V tolerant, even though the pins only operate at 5V or lower. The TPD4S480 enables the CC and SBU pins to be 48V tolerant without interfering with normal operation by providing over-voltage protection on the CC and SBU pins. The device places high voltage FETs in series on the SBU and CC lines. When a voltage above the OVP threshold is detected on these lines, the high voltage switches are opened up, isolating the rest of the system from the high voltage condition present on the connector.

The integrated VBUS divider circuit and FET driver, allow PD controllers not rated for EPR operation to safely operate in EPR voltage ranges. When enabled by GPIO or automatically when VBUS exceeds 24V, the TPD4S480 disables the optional external blocking FET and enables the voltage divider. This action protects 20V rated PD controllers and allows the use of existing VBUS sense circuits.

Finally, most systems require IEC 61000-4-2 system level ESD protection for external pins. The TPD4S480 integrates IEC 61000-4-2 ESD protection for the CC1, CC2, SBU1, and SBU2 pins, eliminating the need to place high voltage TVS diodes externally on the connector.

The TPD4S480 is a single-chip USB Type-C port protection device that provides 48V Short-to-VBUS overvoltage and IEC ESD protection.

Since the release of the USB Type-C connector, many products and accessories for USB Type-C have been released that do not meet the USB Type-C specification. One example of this is USB Type-C Power Delivery adapters that only place high voltage on the VBUS line. Another concern for USB Type-C is that mechanical twisting and sliding of the connector could short pins due to the close proximity they have in this small connector. This can cause 48V VBUS to be shorted to the CC and SBU pins. Also due to the proximity of the pins in the Type-C connector, there is a heightened concern that debris and moisture will cause the 48V VBUS pin to be shorted to the CC and SBU pins.

These non-ideal equipment and mechanical events make it necessary for the CC and SBU pins to be 48V tolerant, even though the pins only operate at 5V or lower. The TPD4S480 enables the CC and SBU pins to be 48V tolerant without interfering with normal operation by providing over-voltage protection on the CC and SBU pins. The device places high voltage FETs in series on the SBU and CC lines. When a voltage above the OVP threshold is detected on these lines, the high voltage switches are opened up, isolating the rest of the system from the high voltage condition present on the connector.

The integrated VBUS divider circuit and FET driver, allow PD controllers not rated for EPR operation to safely operate in EPR voltage ranges. When enabled by GPIO or automatically when VBUS exceeds 24V, the TPD4S480 disables the optional external blocking FET and enables the voltage divider. This action protects 20V rated PD controllers and allows the use of existing VBUS sense circuits.

Finally, most systems require IEC 61000-4-2 system level ESD protection for external pins. The TPD4S480 integrates IEC 61000-4-2 ESD protection for the CC1, CC2, SBU1, and SBU2 pins, eliminating the need to place high voltage TVS diodes externally on the connector.

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*	Data sheet	TPD4S480 USB Type-C® 48V EPR Port Protector: Short-to-VBUS Overvoltage and IEC ESD Protection datasheet	PDF \| HTML	22 Nov 2024

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TPS26750EVM — TPS26750 evaluation module

The TPS26750 single port USB Type-C™ and Power Delivery evaluation module (EVM) is specifically intended for evaluating USB Power Delivery extended power range. It allows the user to develop various power profiles and debug existing USB Type-C and Power Delivery systems.

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PMP41115 — 240W integrated USB Type-C and USB PD3.1 charger reference design

This reference design is an integrated USB Type-C and USB power delivery (PD) charger for 10 to 12 cell batteries for applications such as e-bikes, high-capacity power banks, and portable power station applications. The design incorporates USB PD3.1 controllers TPS26750 and TPD4S480, a 48V extended (...)

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TPD4S480

USB Type-C™ 48V EPR port protector with short-to-VBUS overvoltage and IEC ESD protection

TPD4S480

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