REVERSE RECOVERY PROTECTION IN A SWITCHING VOLTAGE CONVERTER

Organization Name

texas instruments incorporated

Inventor(s)

Indumini W Ranmuthu of Plano TX (US)

Michael T Direnzo of Coppell TX (US)

REVERSE RECOVERY PROTECTION IN A SWITCHING VOLTAGE CONVERTER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240113620 titled 'REVERSE RECOVERY PROTECTION IN A SWITCHING VOLTAGE CONVERTER

Simplified Explanation

The voltage regulator control circuit described in the abstract includes a transistor input controller that adjusts the output based on changes in load conditions. The circuit also includes a driver that controls the current provided to the transistor based on the state of the control signals.

• Transistor input controller forces a slew control signal and an on signal to specific states based on load conditions.
• First transistor has control input and current terminals, while a second transistor couples to the first transistor.
• Driver adjusts the current provided to the first transistor based on the states of the control signals.

Potential Applications

This technology could be used in various electronic devices that require stable voltage regulation, such as power supplies, battery chargers, and voltage converters.

Problems Solved

This technology addresses the issue of maintaining a consistent voltage output despite changes in the load conditions, ensuring the proper functioning of electronic devices.

Benefits

The voltage regulator control circuit ensures stable and reliable voltage output, prolonging the lifespan of electronic components and improving overall system performance.

Potential Commercial Applications

Potential commercial applications of this technology include power supply units for computers, mobile devices, and other electronic equipment.

Possible Prior Art

One possible prior art for this technology could be existing voltage regulator circuits used in electronic devices and power supplies.

What are the specific load conditions that trigger a change in the control signals in this circuit?

The specific load conditions that trigger a change in the control signals in this circuit are not explicitly mentioned in the abstract. However, it can be inferred that any significant change in the load connected to the circuit would prompt the transistor input controller to adjust the slew control signal and on signal accordingly.

How does the driver determine the amount of current to provide to the first transistor?

The driver determines the amount of current to provide to the first transistor based on the states of the slew control signal and the on signal. When the slew control signal is in a first logic state and the on signal is in a first state, the driver provides a higher current to the first control input. Conversely, when the slew control signal is in a second state and the on signal is in a first state, the driver provides a lower current to the first control input.

Original Abstract Submitted

a voltage regulator control circuit includes a transistor input controller. the transistor input controller forces a slew control signal on its slew control output to a state responsive to a change in a load condition and forces an on signal to a state on its first transistor control output. a first transistor has a first control input and first and second current terminals. a second transistor couples to the first transistor. a driver has a slew control input, a driver input, and a driver output. the driver input couples to the first transistor control output. the driver output couples to the first control input. responsive to a first logic state of the slew control signal and a first state of the on signal, the driver provides a higher current to the first control input, and responsive to a second state of the slew control signal and a first state of the on signal, the driver provides a lower current to the first control input.