ZHCSAT5F January 2013 – January 2015 TPD4S214
PRODUCTION DATA.
NOTE
Information in the following applications sections is not part of the TI component specification, and TI does not warrant its accuracy or completeness. TI’s customers are responsible for determining suitability of components for their purposes. Customers should validate and test their design implementation to confirm system functionality.
A USB OTG device’s one and only connector is the AB receptacle, which accepts either an A or B plug. When an A-plug is inserted, the OTG device is called the A-device and when a B-plug is inserted it is called the B-device. A-device is often times referred to as “Targeted Host” and B-device as “USB peripheral”. TPD4S214 supports an OTG device when TPD4S214’s system is acting as an A-device and powering the USB interface. The TPD4S214 may also be used in non-OTG applications where it resides on the current source side.
The TPD4S214 is placed next to the USB connector to provide over voltage, over current, and ESD protection for the OTG 5-V source and USB Controller.
An example using TPD4S214 to protect an OTG 5-V source and USB 2.0 Controller is shown below. This USB Controller does not utilize VBUS detection with the DET pin, so DET is tied to GND. TPD4S214 is placed in the transmitter channel immediately adjacent to the USB connector. The D+, D-, ID pins on TPD4S214 are interchangeable so that each can protect either of the D+, D-, ID pins on the USB connector, the naming convention is just a suggestion.
*COTG and CBUS have minimum recommended values of 1 µF each
For this example, use the following table as input parameters:
Design Parameters | Example Value |
---|---|
Signal range on VOTG_IN | 3.8 V – 5.5 V |
Signal range on VBUS | 0 V – 5.3 V nominal, withstand -7 V to 30 V |
IBUS_MAX | 500 mA |
RADJ | 100 kΩ |
Drive EN low (disabled) | 0 V – 0.4 V |
Drive EN high (enabled) | 1.2 V – 5.5 V |
To begin the design process, determine the maximum current expected under normal usage. In this example, the maximum expected current is 500 mA so an RADJ of 100 kΩ was selected to begin current limiting at around 550 mA and protect the OTG system. Fault conditions are monitored by the USB controller by using the FLT Pin. DET is not used and is grounded and can optionally be left floating instead.
An example using TPD4S214 to protect an OTG 5-V source and USB 2.0 Controller is shown below. This USB Controller monitors VBUS detection with the DET pin. This can be advantageous when a peripheral with an Embedded Host is attached. In this case, if there is a valid voltage present on VBUS there is no need to provide OTG power, so the USB Controller can be programmed to disable the OTG 5-V source, resulting in a power savings. The D+, D-, ID pins on TPD4S214 are interchangeable so that each can protect either of the D+, D-, ID pins on the USB connector, the naming convention is just a suggestion.
*COTG and CBUS each have minimum recommended values of 1 µF
For this example, use the following table as input parameters:
Design Parameters | Example Value |
---|---|
Signal range on VOTG_IN | 3.8 V – 5.5 V |
Signal range on VBUS | 0 V – 5.3 V nominal, withstand –7 V to 30 V |
IBUS_MAX | 500 mA |
RADJ | 100 kΩ |
Drive EN low (disabled) | 0 V – 0.4 V |
Drive EN high (enabled) | 1.2 V – 5.5 V |
To begin the design process, determine the maximum current expected under normal usage. In this example, the maximum expected current is 500 mA so an RADJ of 100 kΩ was selected to begin current limiting at around 550 mA and protect the OTG system. Fault conditions are monitored by the USB controller by using the FLT Pin. DET Pin is used to facilitate detecting between a USB host and peripheral device on VBUS.
Refer to Application Curves for related application curves.
An example using TPD4S214 to protect an OTG 5-V source and USB 3.0 Controller is shown below. This USB Controller does not utilize VBUS detection with the DET pin, so it is tied to GND. The D+, D-, ID pins on TPD4S214 are interchangeable so that each can protect either of the D+, D-, ID pins on the USB connector, the naming convention is just a suggestion.
For this example, use the following table as input parameters:
Design Parameters | Example Value |
---|---|
Signal range on VOTG_IN | 3.8 V – 5.5 V |
Signal range on VBUS | 0 V – 5.3 V nominal, withstand –7 V to 30 V |
IBUS_MAX | 900 mA |
RADJ | 56 kΩ |
Drive EN low (disabled) | 0 V – 0.4 V |
Drive EN high (enabled) | 1.2 V – 5.5 V |
To begin the design process, determine the maximum current expected under normal usage. In this example, the maximum expected current is 900 mA so an RADJ of 56 kΩ was selected to begin current limiting at around 1 A and protect the OTG system. Fault conditions are monitored by the USB controller by the FLT Pin. DET is not used and is grounded and can optionally be left floating instead.
Refer to Application Curves for related application curves.