TCPP01-M12USB Type-C Power Delivery interface for Sink application up to 100 W | Surge Suppression ICs | 1 | Active | The TCPP01-M12 (Type-C port protection) is a single chip solution for USB Type-C™ port protection that facilitates the migration from USB legacy connectors type-A or type-B to USB Type-C™ connectors. The TCPP01-M12 features 22 V tolerant ESD protection as per IEC61000-4-2 level 4 on USB Type-C™ connector configuration channel (CC) pins. For a safe and reliable USB Type-C™ implementation, the TCPP01-M12 provides overvoltage protection on CC1 and CC2 pins when these pins are subjected to short circuit with the VBUS pin that may happen when removing the USB Type-C™ cable from its receptacle. For sink applications, TCPP01-M12 triggers an external N-MOSFET on the VBUS line when a defective power source applies a voltage higher than selected OVP threshold. Also, the TCPP01-M12 integrates a "dead battery" management logic that is compliant with the latest USB power delivery specification. The MCU 3.3 V GPIO provides the power supply of the TCPP01-M12 for sink applications operated with a battery in order to drop the power consumption in "cable not attached" condition down to 0 nA. This low-power mode extends the battery operating life when no source equipment is attached.
The TCPP01-M12 can also be used to protect source (provider) applications, and it can support a programmable power supply feature from the USB Type-C™ power delivery specification. |
TCPP02-M18USB Type-C Power Delivery interface for Source application up to 100 W | Surge Suppression ICs | 1 | Active | The TCPP02-M18 is a MCU companion chip enabling cost-effective USB-C source solution. It provides protections and functionalities to safely comply with the USB-C specification.
On provider path, TCPP02-M18 drives external N-channel MOSFET to ensure overcurrent protection on VBUS pin, as well as a discharge path. It features an analog current sense and amplifier with an output accessible for a MCU ADC, thus minimizing system cost.
The TCPP02-M18 features 24 V tolerant ESD protection as per IEC61000-4-2 level 4 on USB Type-C™ connector communication channel pins (CC). Also, it provides overvoltage protection on CC1 and CC2 pins when these pins are subjected to short circuit with the VBUS pin that may happen when removing the USB Type-C™ cable from its receptacle.
TCPP02-M18 embeds I2C slave registers with two possible addresses, ideal for dual-port chargers or multiple port applications. |
TCPP03-M20USB Type-C Power Delivery interface for Dual Role Power application up to 100 W | Surge Suppression ICs | 1 | Active | The TCPP03-M20 manages power delivery in accordance with USB Power Delivery revision 3.1 up to 100 W (20 V – 5 A, SPR) and PPS for fast charging.
The TCPP03 is a microcontroller companion chip enabling USB Type-C® PD for:
It provides a solution to interface and protect USB Type-C ports on a power delivery side and has been developed to be used with the STM32 family embedding UCPD (USB Type-C and power delivery).
By reusing the STM32 of the application, it is the more cost effective solution as it requires only a few devices to be added:
It provides over voltage and over current protections on VBUS and CC pins.
Software is available and could be adapted for other microcontrollers. |
| Voltage Regulators - Special Purpose | 2 | Obsolete | |
| Special Purpose Regulators | 1 | Obsolete | |
TD310Triple IGBT/MOS driver with current sense | Gate Drivers | 2 | Active | The TD310 is designed to drive one, two or three Power IGBT/MOS and has driving capability for pulse transformer. So it is perfectly suited to interface control IC with Power Switches in low side or half-bridge configuration.
TD310 includes a current sense comparator which inhibit the output drivers in case of overcurrent. An alarm output signals the even to a controller.
TD310 also includes an uncommitted op-amp which can be used for current measurement (as an amplifier before the A/D input of a microcontroller) of for other general purpose.
Programmable undervoltage lockout and standby mode make TD310 suitable for a large area of environment and application
Typical applications are low side IGBT and power MOSFET drive in three phase systems, pulse transformer drive, and general purpose pulse drive. |
TD350Advanced IGBT/MOSFET driver | Integrated Circuits (ICs) | 3 | Active | The TD350E device is an advanced gate driver for IGBTs and power MOSFETs. Control and protection functions are included and allow the design of high reliability systems.
The innovative active Miller clamp function eliminates the need for negative gate drive in most applications and allows the use of a simple bootstrap supply for the high side driver.
The device includes a two-level turn-off feature with adjustable level and delay. This function protects against excessive overvoltage at turn-off in case of overcurrent or short-circuit conditions. The same delay set in the two-level turn-off feature is applied at turn-on to prevent pulse width distortion.
The device also includes IGBT desaturation protection and a FAULT status output, and is compatible with both pulse transformer and optocoupler signals. |
TD351Advanced IGBT/MOSFET driver | Gate Drivers | 2 | Active | This device is an advanced gate driver for IGBT and power MOSFETs. Control and protection functions are included and allow the design of high reliability systems.
The innovative active Miller clamp function eliminates the need for negative gate drive in most applications and allows the use of a simple bootstrap supply for the high side driver.
The TD351 includes a two-level turn-off feature with adjustable level and delay. This function protects against excessive overvoltage at turn-off in case of overcurrent or short-circuit conditions. The same delay is applied at turn-on to prevent pulse width distortion.
The TD351 is compatible with both pulse transformer and optocoupler signals. |
TD352Advanced IGBT/MOSFET driver | Power Management (PMIC) | 2 | Active | This device is an advanced gate driver for IGBTs and power MOSFETs. Control and protection functions are included and allow the design of high reliability systems.
The innovative active Miller clamp function eliminates the need for negative gate drive in most applications and allows the use of a simple bootstrap supply for the high side driver.
The TD352 includes an adjustable turn-on delay. This feature can be used to implement reliable deadtime between high and low sides of a half bridge. An external resistor and capacitor are used to provide accurate timing. |
| Sensor and Detector Interfaces | 1 | Obsolete | |
