People have been predicting the demise of low-drop-out linear regulators in cars for many years. Yet low-drop-out (LDO) regulators continue to survive and even thrive because they're cheap and easy to ...

We often use linear regulators in our designs. They are cheap and simple – you put the regulator chip itself on the board, add two capacitors, and get a voltage. Linear regulators are imperfect, of ...

The regulator circuit is being used with devices with solar panel to efficiently power lower voltage devices with or without batteries. A variable input voltage can produce a steady output voltage ...

SAN JOSE, Calif.--(BUSINESS WIRE)--Power management leader, Kinetic Technologies, is expanding its DC-DC Conversion portfolio with the introduction of KTB8400 OptiComp™ buck switching regulator.

The LM2698 switch regulator sports current-mode control (without the need for a sense resistor) and employs pulse width modulation. The regulator features a 0.2-*,1.3-A internal switch; a 2.2- to 12-V ...

In the past few years, the pitch on digital control of switching regulators has been rising steadily. In a typical analog implementation, a pulse-width-modulated (PWM) switching regulator is built ...

Reducing a power system’s size while increasing overall system efficiency requires reducing the number of conversion stages, higher conversion ratios, and increased throughput power. A new ZVS buck ...

Electronic systems often require multiple voltages to power the various internal circuits. Non-isolated regulators are a common and easy way to convert one voltage to another. Regulators typically ...

36-V, 2.1-MHz regulators enable designers to meet tough requirements such as low EMI, high power density and deep drop-out conditions Texas Instruments Texas Instruments (TI) (NASDAQ: TXN) introduced ...