CN203708582U - LED COB temperature-controllable system - Google Patents

Abstract

The utility model provides an LED COB temperature-controllable system. The LED COB temperature-controllable system includes a substrate and substrate circuit lines disposed on the substrate; the substrate circuit lines include an LED chip circuit and a temperature sensing current control circuit which are packaged on the substrate through a packaging adhesive, wherein the temperature sensing current control circuit monitors the overall temperature of the LED chip circuit; when the work temperature of the LED chip circuit exceeds a designed value, the temperature sensing current control circuit automatically senses the change of the temperature and adjusts the circuit to reduce current, and restores the current when the temperature of the LED chip circuit is reduced to the designed value. The LED COB temperature-controllable system has the advantages of simple structure and convenient production. With the LED COB temperature-controllable system adopted, the work temperature of a product can be set in a reliable range according to the use environment and service life of the product, and therefore, influence of temperature on an LED COB can be greatly reduced, and the reliability and performance of the LED COB can be greatly improved, and the service life of the LED COB can be greatly prolonged.

Description

A kind of LED COB controllable temperature system

Technical field

The utility model relates to LED COB technical field, particularly, relates to a kind of LED COB controllable temperature system.

Background technology

Existing LED as the 4th generation light source, relatively low because of its energy-saving and environmental protection, long-life, cost, have development prospect etc. advantage.But because the general character of LED is very responsive to temperature, LED adopts blue chip to apply fluorescent material to manufacture white light technology, this technology is the good white light that can tell in principle, but in use due to the adaptive capacity of environment a little less than, cause the difference of theory and practice product, the generation of this species diversity is to a great extent because the hot accumulated temperature of LED produces the impact of chip, fluorescent material, glue.

The junction temperature of LED can affect life-span, light efficiency, photochromic (wavelength), colour temperature, light shape (luminous intensity distribution) and colourity, electric parameter, the reliability etc. of chip while rising.The carrying temperature that LED working temperature exceedes chip will make the luminous efficiency fast reducing of LED, produces obvious light decay, and causes damage.The life-span of LED shows as its light decay, and namely the time has been grown, and brightness is just more and more lower, to the last extinguishes.The more traditional LED light source of COB light source is compared, and more powerful, luminous density is higher, and caloric value is larger, and temperature is very large on its properties of product impact, therefore controls particularly important to the working temperature of LED COB light source.

With current illumination application development both domestic and external, in lighting, be provided with the product design complexity of temperature sensing system processed, cost is higher, cannot spread.

Utility model content

In order to overcome the deficiencies in the prior art, the utility model provides a kind of LED COB controllable temperature system.This LED COB controllable temperature system configuration is simple, convenient for production, can the working temperature of product be set in confidence band according to product environment for use and life requirements, reduce to a great extent the impact of temperature on LED COB, greatly promoted LED COB product reliability, performance and life-span.

The technical solution of the utility model is as follows: a kind of LED COB controllable temperature system, and comprise substrate and be arranged at the substrate circuit circuit on substrate, described substrate circuit circuit comprises LED luminescence chip circuit and temperature sensing flow control circuit; Described LED luminescence chip circuit and described temperature sensing flow control circuit are packaged on substrate by packaging plastic; Wherein, LED luminescence chip circuit bulk temperature described in the circuit supervision of described temperature sensing flow control, when described LED luminescence chip circuit working temperature exceedes the monitor temperature value of setting, the variation of described temperature sensing flow control circuit automatic sensing temperature also starts regulating circuit and reduces electric current, in the time that temperature is reduced to the monitor temperature value of setting, restoring current.

Described temperature sensing flow control circuit has current limliting IC wafer, this current limliting IC wafer is communicated with described substrate circuit circuit with metal lead wire bonding, described current limliting IC wafer has 3 electrode tips: input, output and control end, described control end is provided with series resistance and regulates described output port output current.

The series resistance of described control end is made up of fixed resistance in parallel and thermistor; Described fixed resistance regulates the maximum input of product, output current; Described thermistor is placed in the thermo-responsive region of described LED luminescence chip circuit, and controls product working temperature limit; Described thermistor is semistor, described LED luminescence chip circuit working temperature exceedes the monitor temperature value of setting, described thermistor resistance presents the increase of step evolution, thereby reduce the output current of described LED COB controllable temperature system, reduce heating thereby reduce system input power.

Described LED luminescence chip circuit and described temperature sensing flow control circuit are connected in series, and the input power of the adjusting of electric current being controlled to whole system by described temperature sensing flow control circuit reaches the object of controlling temperature.

Described LED luminescence chip circuit consists of the form of going here and there and connect with metal lead wire LED blue chip.

Described packaging plastic is fluorescence silica gel.Described LED luminescence chip circuit and described temperature sensing flow control circuit use described fluorescence silica gel to add fluorescent powder packaging, and described packaging plastic is in order to protect each circuit on described substrate.

LED luminescence chip circuit is evenly distributed on substrate circuit circuit centered by substrate.

The beneficial effects of the utility model are: LED COB controllable temperature system described in the utility model, inside is provided with that temperature sensing flow control circuit monitoring external voltage fluctuations changes and thermal change that the change of power consumption that causes produces.In the time that system temperature exceedes the monitor temperature value of setting, the control end of temperature sensing flow control circuit starts regulating circuit, increase resistance and reduce electric current, until system temperature and setting monitor temperature value balance time, electric current slowly recovers.In LED COB controllable temperature system described in the utility model, to finely tune these two actions are the steps of simultaneously working, thereby the requirement of avoiding lamp pearl environment for use to exceed junction temperature by the variation of control system temperature causes and accelerates light sorrow for temperature monitoring and circuit, ensure greatly the performance safety of this product in application process, can have been risen to more than 100,000 hours the useful life of this product completely.LED COB controllable temperature system configuration described in the utility model is simple, convenient for production, can the working temperature of product be set in confidence band according to product environment for use and life requirements, reduce to a great extent the impact of temperature on LED COB, greatly promoted LED COB product reliability, performance and life-span.

Brief description of the drawings

Fig. 1 is the structural plan figure of LED COB controllable temperature system described in the utility model.

Fig. 2 is the section of structure of LED COB controllable temperature system described in the utility model.

Fig. 3 is the degree perception flow control circuit diagram of LED COB controllable temperature system described in the utility model.

Embodiment

In order better to understand the technical solution of the utility model, describe below in conjunction with accompanying drawing the embodiment that the utility model provides in detail.

As depicted in figs. 1 and 2, a kind of LED COB controllable temperature system, comprises substrate and is located at the substrate circuit circuit 1 on substrate; Described substrate circuit circuit is provided with LED luminescence chip circuit 2 and temperature sensing flow control circuit 3.Described LED luminescence chip circuit 2 and described temperature sensing flow control circuit 3 are packaged on substrate by packaging plastic 4.

Wherein, described temperature sensing flow control circuit 3 is controlled the electric current of whole described LED COB controllable temperature system.Electric current is first by described temperature sensing flow control circuit 3, then process LED luminescence chip circuit 2 is normally worked described LED COB controllable temperature system.When in described LED luminescence chip circuit 2 course of normal operation, when the circuit temperature of described LED COB controllable temperature system exceedes the monitor temperature value of setting, the variation of described temperature sensing flow control circuit 3 automatic sensing temperature, and start regulating circuit and reduce electric current, in the time of the monitor temperature value balance of circuit temperature and setting, electric current slowly recovers.It is the steps of simultaneously working that the temperature monitoring of described temperature sensing flow control circuit 3 and circuit are finely tuned these two actions.

In LED COB controllable temperature system described in the utility model, described LED luminescence chip circuit 2 is connected in series with described temperature sensing flow control circuit 3, and the input power of the adjusting of electric current being controlled to whole system by described temperature sensing flow control circuit 3 reaches the object of controlling temperature.Described LED luminescence chip circuit 2 consists of the form of going here and there and connect with metal lead wire LED blue chip.LED luminescence chip circuit 2 is evenly distributed on substrate circuit circuit 1 centered by substrate 1, and such design is that illuminating effect is more comfortable in order to make LED light source luminous density enough even.

As shown in Figure 3, described temperature sensing flow control circuit 3 has current limliting IC wafer 301.This current limliting IC wafer 301 use adhesives bond on substrate, are communicated with metal lead wire bonding with substrate circuit circuit 1.Described current limliting IC wafer 301 has 3 electrode tips: input 302, output 304 and control end 303.Described control end 303 is provided with series resistance and regulates described output port output current.Described series resistance is made up of fixed resistance in parallel 305 and thermistor 306.Described fixed resistance 305 uses conductive viscose agent to bond to be communicated with on substrate and with current limliting IC wafer 301 and regulates the maximum input of product, output current; Described thermistor 306 is placed in the thermo-responsive region of described LED luminescence chip circuit, uses conductive viscose agent to bond to be communicated with on substrate and with current limliting IC wafer 301 and control product working temperature limit.Described current limliting IC wafer 301, fixed resistance 305 and the common composition temperature sensing of thermistor 306 flow control circuit 3.

Continuous current first passes through described temperature sensing flow control circuit 3, and electric current is inputted from current limliting IC wafer 301 inputs 302, and output 304 is exported, and the signal deciding that the size of electric current is received by control end 303 increases by one in substrate temperature sensitizing range _semistordevice 306, as shown in Figure 3, this _thermistor306 is in parallel with output fixed resistance 305, and the resistance after parallel connection regulates the output current of the output 304 of current limliting IC301, controls temperature by the form of controlling product input power.

The resistance calculations formula of control end 303 is as follows:

$R_{303}=\frac{R_{305}*R_{306}}{R_{305}+R_{306}}\left(\mathrm{\Ω}\right)$

The Current calculation formula of output 304 is as follows:

$I_{304}=\frac{0.6v}{\frac{R_{305}*R_{306}}{R_{305}+R_{306}}}\left(A\right)$

In sum, the overall input power of this product is as follows:

$P=I_{304}*V=\frac{V*0.6v}{\frac{R_{305}*R_{306}}{R_{305}+R_{306}}}---\left(W\right)$

According to by above formula, the Primary Component of regulating circuit input power is fixed resistance 305 Hes of control end 303 _thermistor306, fixed resistance 305 is fixed value, _thermistor306 are _semistor, operation principle be when product exceed certain temperature ( _thermistor306 Curie temperature) time, its resistance value is along with the rising of temperature is increasing of step evolution.According to above principle, product is chosen fixed resistance 305 Hes by suitable _thermistor306 parameter, in the time that working temperature exceedes design temperature, _thermistor306 resistance increase, due to fixed resistance 305 Hes _{heat quick resistance}306 parallel connections, the resistance of control end 303 increases by a small margin, electric current with this to process current limliting IC301 regulates, by above formula, product input current regulates and reduces, and product input voltage is constant, input power will correspondingly reduce, the relation being directly proportional to the power of LED according to the thermal effect of LED again, corresponding can the minimizing of heat that product produces, so by corresponding can the reduction of heat radiation working temperature of self, finally reach balance, it is the steps of simultaneously working that temperature monitoring and circuit are finely tuned these two actions, and final equilibrium temperature must be in scope of design.

In the present embodiment, LED luminescence chip circuit 2 is made up of by the form of metal lead wire string connection LED blue chip, and be fixed in the bowl cup that the high reflecting material on described substrate is bottom, this structure has extremely good heat-conducting effect, the high reflecting material of bowl cup bottom can reflect institute's light emitting source of LED bowl cup to greatest extent, greatly promotes the light extraction efficiency of COB product;

In the present embodiment, LED luminescence chip circuit 2 uses packaging plastic 4 to add fluorescent powder packaging with temperature sensing flow control circuit 3, and described packaging plastic 4 is in order to protect each circuit on described substrate.

Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, its framework form can be flexible and changeable, can subseries product.Just make some simple deduction or replace, all should be considered as belonging to the utility model by the definite scope of patent protection of submitted to claims.

Claims (7)

1. a LED COB controllable temperature system, comprises substrate and is arranged at the substrate circuit circuit on substrate, it is characterized in that, described substrate circuit circuit comprises LED luminescence chip circuit and temperature sensing flow control circuit; Described LED luminescence chip circuit and described temperature sensing flow control circuit are packaged on substrate by packaging plastic; Wherein, LED luminescence chip circuit bulk temperature described in the circuit supervision of described temperature sensing flow control, when described LED luminescence chip circuit working temperature exceedes the monitor temperature value of setting, the variation of described temperature sensing flow control circuit automatic sensing temperature also starts regulating circuit and reduces electric current, in the time that temperature is reduced to the monitor temperature value of setting, restoring current.

2. LED COB controllable temperature system as claimed in claim 1, it is characterized in that, described temperature sensing flow control circuit has current limliting IC wafer, this current limliting IC wafer is communicated with described substrate circuit circuit with metal lead wire bonding, described current limliting IC wafer has 3 electrode tips: input, output and control end, described control end is provided with series resistance and regulates described output port output current.

3. LED COB controllable temperature system as claimed in claim 2, is characterized in that, the series resistance of described control end is made up of fixed resistance in parallel and thermistor; Described fixed resistance regulates the maximum input of product, output current; Described thermistor is placed in the thermo-responsive region of described LED luminescence chip circuit, and controls product working temperature limit; Described thermistor is semistor, described LED luminescence chip circuit working temperature exceedes design load, and described thermistor resistance presents the increase of step evolution, thereby reduces the output current of described LED COB controllable temperature system, reduces heating thereby reduce system input power.

As arbitrary in claim 1-3 to as described in LED COB controllable temperature system, it is characterized in that, described LED luminescence chip circuit and described temperature sensing flow control circuit are connected in series, thereby by described temperature sensing flow control circuit, the adjusting of electric current are controlled the input power control circuit temperature of whole system.

5. LED COB controllable temperature system as claimed in claim 2, is characterized in that, described LED luminescence chip circuit consists of the form of going here and there and connect with metal lead wire LED blue chip.

6. LED COB controllable temperature system as claimed in claim 1, is characterized in that, described packaging plastic is fluorescence silica gel.

7. LED COB controllable temperature system as claimed in claim 1, is characterized in that, LED luminescence chip circuit is evenly distributed on substrate circuit circuit 1 centered by substrate.