MP Lighting introduces thermistor-based active cooling system for LED lamps

Apr 1st, 2010
Content Dam Leds En Ugc 2010 04 Mp Lighting Introduces Thermistor Based Active Cooling System For Led Lamps Leftcolumn Article Thumbnailimage File
Date Announced: 01 Apr 2010

Light-emitting diodes (LED), like any semiconductor, emit heat during their operation. This is because a significant portion of electrical energy (75% – 85%) is converted to thermal energy which results in an increase in the temperature of the LED. Thermally stressed LEDs lose efficiency and their valuable technical parameters. If nothing is done to control the increasing temperature of the LED, the PN junction may fail, possibly resulting in thermal runaway and catastrophic failure. Thermal management of LED lighting fixtures (or LED lamp) involves the transfer of thermal energy from printed circuit board (PCB) on which LEDs are mounted. This can generally be accomplished through the use of heat sink, which dissipates heat just by means of natural thermo convective process (passive cooling system). However, for more powerful LED lamps (in the 20 and more watt range), an additional cooling means may be required to maintain performance. This is because of limit the value of coefficient natural thermo convection which limits the thermal energy dissipated by heat sink. In this case a cooling fan which forcing air and increasing thermo convection is typically used in combination with the heat sink (active cooling system). The conventional active cooling system operates on the base classic negative-feedback control loop and typically consist of sensor of temperature (thermistor), amplifier, control circuitry (as regular, microprocessor), auxiliary power supply, filters, etc. However it is increase the number of components in the light fixture LED lamp and thereby increase manufacturing and maintenance costs, dimensions and weight of LED lamp.

That’s why the original active cooling system was developed on the base new concept using of thermistors for thermal management of LED lamp. The NTC thermistor array has been connected directly in the power line between DC power supply (the same which powering LED lamp) and fan. Being thermally coupled to heat sink of LED lamp and electrically coupled to fan the NTC thermistor array capable to perform double function in the cooling system in the same time: changing its resistance by means of changing of temperature of heat sink (acting as temperature sensor) and changing of current through fan by means of changing its resistance (acting as current regulator). As result of this negative feedback in the control loop the configuration of active cooling system is simplified significantly because of any amplifier, comparator, microprocessor and auxiliary power supply is excluded from the circuitry. It becoming possible if the parameters of NTC thermistor array (resistance and wattage) have been calculated by means of special method from parameters of LED lamp.

This active cooling system was realized as “cooling module” which integrates heat sink, fan and intermediate plate - thermo conductor (with NTC thermistor array inside) for LED’s PCB attaching.
A lot of samples of “cooling module” were prototyped and tested with various kind of LED lamp in the range of output power (10 – 40) Wt and DC fan 12V; 1Wt. Cooling system consumes power no more then (3-6)% of output power of LED lamp and provide thermo regulation of LED’s PCB in LED lamp with accuracy ( +/- 5*C) in the range (45-65) *C temperature of LED’s PCB under full load of LED lamp.

Alexander Kornich R&D Lab Manager MP Lighting


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