Overclocking three Liu Weihong: "LED radiator overall solution" is the main direction of the future

Overclocking three Liu Weihong: "LED radiator overall solution" is the main direction of the future How to effectively improve the luminous efficacy of LED lamps and solve the problem of heat dissipation is still an important issue facing the industry.

Advocate a new concept of LED heat sink The luminous efficiency of LED is still low, resulting in increased junction temperature and reduced life. In order to reduce the junction temperature to increase the lifetime, the heat dissipation problem is extremely critical. The heat dissipation design of LEDs must start from the beginning of the chip to the entire radiator, and every link must be highly valued. Ignoring any aspect of the design can cause serious heat problems. In the past, LED lights suffered a lot of failures in long-term work. Half of them were caused by lack of heat dissipation design, and the other half were due to power failure. So we must pay full attention to the design of heat dissipation.

Last year, more than 180 domestically-researched and patented domestic famous mechanical and electrical heat-dissipating brands, Overclocking 3 Technology Co., Ltd. attacked the LED market strongly, advocating a new concept of LED heat sinks. So, the company's achievements in the field of mechanical and electrical cooling can help its development in the LED radiator market? The future of LED cooling technology trends? Aladdin lighting news network reporter visited the Shenzhen Pingshan New District Shahu Juntian Industrial Zone overclocking The three factories, and Mr. Liu Weihong, deputy general manager of the company, conducted in-depth communication and exchange on the current situation of overclocking the three current products and the development of the LED radiator industry.

Liu Weihong said that in order to meet the requirements of high-integration electronic devices and LED and other optoelectronic devices with high integration and high heat flux density, a corresponding heat dissipation scheme must be designed to immediately transfer the heat emitted by optoelectronic devices such as LEDs. For different heat flux densities and structural requirements, the use of advanced fin heat dissipation technology or heat pipe heat dissipation technology will effectively transfer the heat generated by the LED, thus ensuring the normal operation of LED and other optoelectronic devices.

Improved fin and heat pipe cooling technology According to Liu Weihong, overclocking three from the traditional PC's CPU cooling to LED cooling, will experience in the CPU field, the accumulation of patents, technology and material accumulation have rapidly expanded to the LED.

It is understood that the principle of LED heat dissipation and CPU heat dissipation and fundamentals, are the need to address the heat emitted by the chip to export, release; are to solve the heat problem of the chip as a heat source, so overclocking three can be traditional CPU heat dissipation inheritance And improve the application of LED radiator.

At present, overclocking three launched a full range of LED radiators, including cast lights, ceiling lights, spotlights, bulbs, mining lamps, downlights, candle lights, street lamps, park lights and corn lamps and other radiators, applicable fields More radiation in shopping malls, a wide range of projects, airports, subways and homes and other places.

Jointly promoted the overall LED heatsink solution and talked about the future of overclocking. In the LED field, the planning has already made recommendations to the industry. Liu Weihong said that as a national DIY brand, the name of “overclocking 3′′ rang out from north to south, looking at the current DIY market, overclocking Three everywhere, with extremely deep market channels and a loyal user base with great viscosity, let the computer industry raise the heat sink to think of overclocking three. “So, in the future, in the LED field, the three overclocking goals are the same – LED heatsink immediately thought of overclocking three." Liu Weihong said.

Then, what weapon will occupy the market and move toward this goal? Liu Weihong believes that LED is a new industry, there is no real authority on the actual combat experts, there is no one completely possesses powerful technology companies, can say a lot There is no place for any experience to learn from, but only to cross the river with stones and to explore in difficulties. Currently, there is a need for a solution from the chip to the heat sink to the power supply to the optical design integration. Therefore, Liu Weihong said that in addition to continuing to maintain quality and technical guarantees, in order to allow customers to fully utilize the features of the overclocked three radiators, the overclocking 3 will begin to look for strategic partners such as chips and power supplies to provide overall solutions and solutions to customers. Worry.

Li-Ion Battery With Smbus refers to the battery datas can be collect through equipments based on SMBUS data communication, it usually applied to the military grade battery which need higher safety level protection .but as these battery have SMBUS inside ,it also should meet these requirements as :

1.The rated voltage is high (the operating voltage of the unit is 3.7v or 3.2v), which is about equal to the series voltage of three nickel-cadmium or nickel-hydrogen charging batteries, so as to form the battery power supply group

2.The self-discharge rate is very low, which is one of the most prominent advantages of the battery. At present, it can reach less than 1% per month, less than 1/20 of the nickel hydrogen battery.



14.8V Li-ion Battery With SMBUS

Items                                  specification

Charge voltage  :                   16.8V

Nominal voltage :                   14.8V  (4S4P)

Initial impedance :                   200mΩ

Nominal capacity:                    10.4Ah

Minimum capacity :                  10.0Ah

Communication methods :        SMBUS data communication

Charge current : Standard Charging::0.5C5A (5.20A

                                Rapid charge 1.0C5A C(10.4A) Max

Standard Charging method:  5.20A(0.5C5A) CC(constant current)charge to 16.8V,then CV(constant voltage 16.8V)charge till charge current decline to ≤104mA(≈0.01C5A)

Charging time: Standard Charging:4.5hours(Ref.)

             Rapid charge:   2.5 hours(Ref.)

Max.discharge current: 10.4A(1.0C5A)

Discharge cut-off voltage: 11.0V

Shelf life:  2 years

Cycle life (0.2C5A/0.2C5A) : 500 times,≧80%DOD; 500 times,≧80%DOD

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Li-ion Battery With SMBUS

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