KR0116333Y1 - Lamp stable circuit - Google Patents

Abstract

The present invention relates to the stabilization control of the lamp, in particular to a method of correcting the error generated during the use of the lamp by digitalizing the feedback signal (Feedback Signal) for the stabilization of the lamp used in electronic devices (light projection apparatus, etc.) It relates to a lamp stabilization circuit with improved efficiency.

The lamp stabilization circuit of the present invention as described above has a lamp current, a voltage detector for detecting a different voltage and a value of a current from a time of initial lighting of the lamp, and an output value of the lamp current and the voltage detector by A / D conversion. A microcomputer unit for calculating the power consumption of the microcomputer unit and outputting the D / A conversion, a display unit for displaying the output signal of the microcomputer unit for external recognition, and an output signal of the microcomputer unit by comparing the output signal with an internal reference waveform. Duty) High or low of the lamp by comparing the PWM circuit unit for determining the time, the switching circuit unit for switching the lamp ON, OFF by the output signal of the PWM circuit unit, and the output signal of the lamp current voltage detection unit with a reference value (Low) It consists of a comparison output section that judges the output state and outputs it to the PWM circuit section.

Description

Lamp stabilization circuit

1 is a block diagram of a conventional lamp stabilization circuit

2 is a graph showing the state of the current voltage over time.

(b) is a graph showing the state of each factor until the lamp is initially normalized

(c) is a graph showing the error of power consumption according to the lamp usage time

3 is a block diagram of the lamp stabilization circuit

4 is a detailed block diagram of the microcomputer section of this paper.

* Explanation of symbols for main parts of the drawings

30 lamp current and voltage detector 31 microcomputer unit

32: P.W.M circuit part 33: switching circuit part

34: comparison output unit 35: display unit

40: calculation means 41: D / A conversion unit

42: display control unit 43: first A / D conversion unit

44: second A / D conversion unit

The present invention relates to the stabilization control of the lamp, in particular a lamp stabilization circuit that improves the efficiency of the lamp by digitalizing the feedback signal (Feedback Signal) for the stabilization of the lamp used in electronic devices to compensate for errors occurring during lamp use It is about.

Hereinafter, a conventional lamp stabilization circuit will be described with reference to the accompanying drawings.

1 is a block diagram of a conventional lamp stabilization circuit.

First, the lamp current and the voltage detector 1 for detecting the voltage and the value of the lamp and the detected values of the lamp current and the voltage detector 1 are compared with Vref and the error is proportional to R ₁ and R ₂ . An error amplifier 2 for amplifying the amplifier, a PWM circuit 3 for comparing the amplified signal of the error amplifier 2 with a triangle waveform in a circuit by changing a pulse width, and the PWM circuit 3 And a switching circuit portion 4 for controlling the switching duty ratio by means of a comparison output signal of.

The conventional lamp stabilization circuit as described above has the following electrical characteristics. In the normal lighting state of the lamp, as shown in FIG. 2 (a), which is a graph showing the state of the current voltage over time, as the lamp is used, the voltage increases and the current decreases to increase the resistivity. In this case, the difference between the power consumption initially adjusted by the analog feedback value and the resistance of the control circuit is a graph showing the error of power consumption according to the usage time of the lamp as the use time elapses. As shown in), the power consumption of the lamp rises or falls, and the life of the lamp decreases due to overload, or the light output characteristic changes due to the low load, and the error of the change value is fed back to prevent the lamp from stabilizing. It becomes a factor.

As shown in FIG. 1 (b), which is a graph showing the state of each factor until the initial normalization of the lamp, the power consumption curve of the lamp rises together with the voltage curve from the beginning to the normal lighting, which is the current at the initial stage of lighting. And the error of the voltage is different from the normal lighting time, the error amplifier sends a large value to the PWM circuit at the start-up, therefore, the duty of the switching circuit is very large so that the lamp can exceed the appropriate settling time.

In the conventional lamp stabilization circuit as described above, there is a problem in that it is difficult to effectively correct an error in power consumption, so that it is difficult to effectively maintain the light efficiency and optical characteristics, and the lighting settling time is long.

In order to solve the problems of the conventional lamp stabilization circuit as described above, this proposal is to digitalize the feedback signal (Feedback Singnal) for the stabilization of the lamp, a method of correcting the error that occurs during the use of the lamp The purpose is to provide a lamp stabilization circuit with improved efficiency.

In order to achieve the above object, the lamp stabilization circuit of the present invention provides a lamp current, a voltage detector, and an output value of the lamp current and the voltage detector that detect voltage and current values over time from the initial lighting time of the lamp. A microcomputer unit for calculating the power consumption of the lamp by D conversion and outputting a D / A conversion, a display unit for displaying the output signal of the microcomputer unit externally, and comparing the output signal of the microcomputer unit with an internal reference waveform Comparing the output signal of the lamp current voltage detection unit with a reference value to the high voltage of the lamp by comparing the PWM circuit unit for determining the switching duty time, the switching circuit unit for switching the lamp ON and OFF according to the output signal of the PWM circuit unit, It is characterized by consisting of a comparison output unit for outputting to the PWM circuit unit to determine the high or low output state.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the lamp stability circuit of the present invention.

FIG. 3 is a block diagram of the lamp stabilization circuit of the present invention, and FIG. 4 is a detailed block diagram of the microcomputer unit of the present invention.

In the lamp stabilization circuit of the present invention, as shown in FIG. 3, the lamp current voltage detector 30 detects the voltage and the value of the current over time from the initial lighting time of the lamp, and receives the lamp current and voltage A A microcomputer unit 31 that calculates power consumption of the lamp by D / D conversion, and outputs by D / A conversion, and a display unit which displays the output signal of the microcomputer unit 31 so as to be recognized from the outside ( 35) and a PWM circuit 32 for determining a switching duty time by comparing the output signal of the microcomputer 31 with an internal reference waveform, and the lamp by the output signal of the PWM circuit 32. The switching circuit unit 33 for switching on and off and the output signal of the lamp current and the voltage detector are compared with a reference value to determine a high and low output state of the lamp to prevent the lamp underload and overload 34 It is configured to include).

Referring to the configuration of the microcomputer 31 in the lamp stabilization circuit of the present configuration configured as described above in detail as follows.

First, the first A / D conversion unit 43 for digitally changing the voltage value fed back to the detection circuit by the lamp current and voltage detector 30 and the second A / D conversion 44 for digitally converting the current value fed back. And an arithmetic means unit 40 for calculating the power consumption of the lamp by calculating the output values of the first and second A / D converters 43 and 44, and the output of the arithmetic means unit 40. And a D / A converter 41 for logarithmic conversion and output.

In the lamp stabilization circuit of the present invention configured as described above, the current and voltage of the lamp are fed back by the lamp current and voltage detector 30, and digitally converted by the first and second A / D converters 43 and 44 to In order to calculate the power consumption, it is calculated by the calculating means 40 and again analog converted by the D / A converter 41 and output to the PWM circuit 32.

At this time, the digitally converted current and voltage values are controlled in the display mode by the display control unit 42 so that the user can recognize the correct power consumption of the lamp from the outside.

When the lamp is turned on, the lamp lighting detection unit sends a start signal to the timer. The reason for using the timer is that a certain amount of time is consumed from the initial stage of the lamp to the normal light. In the meantime, the current goes down to a normal value.

Therefore, it is meaningless to compare the reference value and the detected current value before normal lighting.

Therefore, after the lamp is normally turned on by the timer, the high and low outputs are compared by the comparison output unit 34.

At this time, when the lamp is high output, the current rises by that much, and when the lamp is low, the lamp current decreases, and the high output is compared with the high reference current value, and the low output is compared with the low reference current value to determine the high and low output power. Output will turn off the lamp.

As described above, the lamp stabilization circuit of the present invention achieves constant power regardless of the specific resistance value that changes with the use time due to the digitalization of the feedback signal. It is effective in preventing the lifespan of the lamp and the change of light output efficiently.

In addition, since the current and voltage values of the lamp are displayed on the outside, the user can efficiently respond to changes in the electrical characteristics of the lamp.

Claims (2)

In the light projection apparatus using a lamp, A lamp current and voltage detector for detecting a value of a voltage and a current different from the time elapsed from the initial lighting time of the lamp. A microcomputer unit for calculating the power consumption of the lamp by A / D conversion of the output value of the lamp current and the voltage detector, and a display unit for displaying the output signal of the microcomputer unit so as to be recognized externally; A P.W.M circuit portion for determining a switching duty time by comparing the output signal of the microcomputer portion with a reference waveform therein; A switching circuit section for switching the lamp on and off by an output signal to the P.W.M circuit section; And a comparison output unit configured to compare the output signal of the lamp current voltage detection unit with a reference value to determine a high or low output state of the lamp and output the P / W.M circuit unit. According to claim 1, wherein the microcomputer unit A first A / D converter for digitally converting the voltage value detected and fed back by the lamp current voltage detector, a second A / D converter for digitally converting the current value; A display controller which controls the output values of the first and second A / D converters in a display mode and outputs them to a display unit; Calculating means for calculating power consumption of the lamp by calculating output values of the first and second A / D converters; And a D / A converter configured to perform analog conversion on the output of the calculation means.