ON Semiconductor Expands Constant Current Regulator Offering For Solid State Lighting Systems
ON Semiconductor (Nasdaq:
a premier supplier of high performance silicon solutions for energy
efficient electronics, has introduced the new NSIC20xx series of linear
Constant Current Regulators (CCR) designed...
ON Semiconductor (Nasdaq: ONNN), a premier supplier of high performance silicon solutions for energy efficient electronics, has introduced the new NSIC20xx series of linear Constant Current Regulators (CCR) designed for use in solid state lighting systems. The new NSIC20XXseries of CCRs offer a maximum voltage rating of 120 Volts (V), 3 Watts (W) and are capable of withstanding the high peak voltages of alternating current (AC) off-line HBLED lighting applications, including digital signage systems, lighting panels and decorative illumination. These new CCRs protect against the sudden surges that are commonplace in such lighting applications. Based on self-biased transistor (SBT) technology, the NSIC20XX series of devices are capable of current regulation over a very wide voltage range, while their negative temperature coefficient helps to protect the LEDs from thermal runaway at extreme voltage and current levels. “As the demand for solid state lighting continues to grow, design engineers must be confident that the LEDs utilized are not in danger of being damaged by extreme temperatures or excessive current and that the long-term operation of the lighting system is assured,” said Dan Huettl, general manager and senior director of ON Semiconductor’s Small Signal products. “Featuring voltage surge suppression and negative temperature coefficient, the higher breakdown voltage capable NSIC20XX series of CCRs provide the protection mechanisms needed to support the most demanding lighting application environments.” The NSIC20XX series of CCRs provide a far simpler, more reliable and more cost-effective option of regulating the current of LEDs than conventional circuit design methodologies that rely on discrete and passive components. Because these devices do not require the specification of any external components, they can serve as either high or low side regulators, thus offering a streamlined solution that makes the development process more straightforward and maximizes design flexibility.