Basics of eFuses

 eFuses serve as integrated power path protection devices designed to limit circuit currents and voltages to safe levels during fault conditions. These components offer numerous advantages to the system, including protection features that can be challenging to implement using discrete components. In contrast, discrete solutions tend to be bulky, inefficient, and lack thermal protection, necessitating more components and occupying additional board space. These factors can raise concerns about the robustness and reliability of protection circuits.

While various types of eFuses are available in the market, I particularly favour TPS259271 from TI. 

 This eFuse provides a robust defence against overloads, short circuits, voltage surges, excessive inrush current, and reverse current. Additionally, it offers Controlled Power Down, Over-Temperature Protection, and Health Monitoring and Reporting features.

Electronic Load Fundamentals

 

What is an electronic load?

An electronic load is a test instrument designed to sink current and absorb power out of a power source. If a power supply is used to power a device, an electronic load is used to test the power supply by emulating the device under test (DUT).

An electronic load is a programmable instrument that offers the user various modes of control such as constant voltage (CV), constant current (CC), constant power (CP), or constant resistance (CR).

Who uses electronic loads?

Device manufacturers and design engineers use electronic loads to test numerous power devices such as power supplies, DC-DC converters, chargers, adapters, batteries, solar panels, fuel cells, and more.

Why do engineers use electronic loads instead of a fixed-value power resistor?

In situations where you need a purely resistive load and no closed-loop control is required, it is sufficient to use a fixed-value power resistor. A fixed-value resistor presents many limitations. It is not adequate for loading and testing power sources that have complex testing requirements. Such tasks require sophisticated electronic load features to validate the various states of operation.

Constant current operation mode

Constant current (CC) is the most frequent mode in which an electronic load is used. In constant current mode, the load will sink the programmed current independently from the output voltage which is typically forced by the voltage source connected to it (for example a battery).

Constant voltage operation mode

In constant voltage (CV) mode the electronic load sets a fixed programmable voltage across its terminals independently from the input current. In CV mode, the current is set by the current source connected to it – for example, a current charging circuit or LED current driver. The load adjusts its resistance dynamically to attain the programmed voltage at any current established by the current source under test.

Constant resistance operation

In constant resistance (CR) mode, the load acts as a fixed programmable power resistor. An electronic load’s CR mode is well-suited for loading a power source that is either a voltage or current source. When the load connects to a voltage source it sinks a current equal to the source potential divided by the programmed resistance value.