KR910000542Y1 - Battery condition checking circuit for camcorder - Google Patents

Abstract

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Description

Battery status detection circuit of cam order

1 is a circuit diagram of the battery detection circuit of the present invention.

2 is a perspective view of the camcorder showing the state of the battery condition detection circuit of the present invention is attached.

* Explanation of symbols for main parts of the drawings

ZD1, ZD2: Zener Diode LED1 to LED3: Light Emitting Diode

R1 to R7: resistors TR1 to TR3: transistors

D4: Diode

The present invention relates to a battery condition detection circuit of a Cam Corder. In particular, a battery condition detection circuit may be added to detect a charge state of a battery that provides an operating power of a camera and a VTR. It relates to a battery condition detection circuit of a cam corer that can be replaced in advance.

In the conventional camera-integrated VTR, there is a method of using a DC converter and a method of using a charged battery using an AC power source. However, the method of using the DC converter is very inconvenient when taking outdoor shots because of the inconvenience of having an AC power source. Restricted

Therefore, when taking a picture of the outdoor mobile phone, the battery is charged and then mounted on the camcorder to be useful for a certain period of time. In this case, even if the camcorder does not recognize the battery condition or recognizes the battery condition, the character generator receives the battery low signal from the camera and displays it in the operation viewfinder. The use of expensive components of the generator has led to a high manufacturing cost.

In order to solve the above-mentioned drawbacks, the present invention provides a sufficient power supply state, sufficient and insufficient intermediate supply state using a light emitting element in the state of the battery to supply the power of the camera-integrated VTR. After that, a battery state detection circuit is added to separately detect a state in which a constant voltage cannot be supplied or a state that cannot be used as an operating power source. When the present invention is described in detail as follows.

The battery power is connected to the base terminal of the transistor TR1 through the resistor R1, the zener diode ZD1, and the resistor R2, and the anode of the yellow light emitting diode LED2 is connected through the resistor R3. It is connected to the collector terminal of the transistor TR2 through a terminal and a diode D4, and the cathode terminal of the yellow light emitting diode LED2 is connected to the collector terminal of the transistor TR1 and the red light emitting diode LED1. The battery power source is connected to the base terminal of the transistor TR2 through the green light emitting diode LED3 and the resistor R4, and the emitter terminal of the transistor TR2 through the resistor R5. The transistor terminal is connected to the collector terminal of the transistor TR3, and the base terminal of the transistor TR3 is connected to the battery power supply through the zener diode ZD2 resistor R6 and the transistor TR3 through the resistor R7. Of Meter terminal and to the ground thereby, it will be described the operation and effect of the present design constructed as above follows.

First, assuming that the circuit voltage of VTR is 6V, if the voltage of battery power installed is less than 5.2V due to power consumption, the correct power supply voltage is impossible, so it is impossible to perform VTR operation and camera operation. Replace with a completed battery.

Also, if the voltage is between 5.2V and 5.7V, there is no problem in the operation of the VTR device, but after a certain period of time, a sudden voltage drop occurs, which indicates the possibility of making the VTR operating state abnormal. It will be described that in detail by the accompanying drawings as to enable the power state of the very good as follows.

1) When the battery output voltage is less than 5.2V, the zener diode (ZD1) value is 4.5 and the voltage drop by the zener diode (ZD1) is 0.7V.When 5.2V or less is applied, the base terminal of the transistor TR1 is applied. And the transistors TR2 and TR3 are also turned off, so that the diode D4 flows between the base collector terminals of the light emitting diode LED3 resistor R4 and transistor TR2. It supports the path of a current, so the 5.2V voltage of the battery power source flows through the resistor (R3) yellow and red light emitting diodes (LED2) (LED1), so the yellow and red light emitting diodes (LED2) (LED1) ) To light up the warning.

At this time, the user needs to replace the battery.

2) When the output voltage of battery power is more than 5.2V and less than 5.7 If battery voltage is more than 5.2V, this voltage is applied to base terminal of transistor TR1 through zener diode (ZD1). The transistor TR1 is turned on, whereas the base terminals of the transistors TR2 and TR3 are respectively disposed due to the voltage drop caused by the division resistors R4, R5, and R6, R7. Since no voltage to operate TR3 is applied, the transistors TR2 and TR3 are turned off. Therefore, the battery voltage is connected to the collector terminal and emitter terminal of the resistor R3 yellow light emitting diode LED2 transistor TR1. The yellow light emitting diode (LED2) is turned on because it flows through, and the user senses that the voltage of the battery power is low.

3) When battery power is over 5.7V, battery voltage is applied to base terminal of transistor TR3 through zener diode ZD2. At this time, the transistors TR1 and TR2 also operate.

Therefore, the battery voltage BAT flows through the green light emitting diode LED3 resistor R4 to the base and emitter terminals of the transistor TR2, and also through the resistor R3 diode D4, the collector emitter of the transistor TR2. In addition, since the light flows through the collector and the emitter of the transistor TR3, the green light emitting diode LED3 is turned on to recognize the user that the power state of the battery power is very good.

As described above, the present invention adds a battery state sensing circuit composed of a light emitting diode, a zener diode, and a transistor to a battery power source, so that the battery can be visually detected by the lighting state of the light emitting diode. Since users can take pictures while observing during shooting, it can solve the problem of ruining the battery due to battery voltage during shooting. Also, it can provide the advantage that the circuit configuration is simple and can be manufactured at low price. It is.

Claims (1)

The battery power is applied to the base terminal of the transistor TR1 through the resistors R1 and R2 and the zener diode ZD1, and the anode terminal of the yellow light emitting diode LED2 is passed through the resistor R3. It is applied to the collector terminal of the transistor TR2 through the diode D4, the collector terminal of the transistor TR1 connected to the cathode terminal of the yellow light emitting diode LED2 connects the red light emitting diode LED1, A battery power source is connected to the base terminal of the transistor TR2 through the green light emitting diode LED3 and the resistor R4, and then through the resistor R5 and the emitter terminal of the transistor TR2 and the transistor TR3. The base terminal of the transistor TR3 to which the battery power is supplied via the resistor R6 and the zener diode ZD2 is connected to the resistor terminal of the resistor R7. Connected to ground via The battery state detection circuit of the cam nose in order to that the sex characteristic.