JPH09322432A - Battery power supply - Google Patents

Abstract

(57) 【Abstract】 PROBLEM TO BE SOLVED: To use a single battery for portability, to prevent loss of diodes and the like used when using a plurality of batteries for long-term use, and to replace the battery according to use. And to provide a power supply device using a battery that notifies the user by displaying those operations by immediately selecting a battery that has a potential lower than the reference potential. SOLUTION: A of a plurality of batteries BT1, BT2,
The b terminals supply power to the load via the backflow prevention diodes D1 and D2, respectively, but one of the diodes is short-circuited to the point C via the contact A or the contact B of the relay RL1 to prevent power loss on the main supply side. The comparator IC1 detects the potential difference between a and b, and the output is the transistor Q.
1 to drive the relay RL1. When the potential of a is high, the relay contact is connected to the A side and the diode D1 is short-circuited.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery power supply device, and more particularly to a camera-integrated VT.
The present invention relates to a device that can be applied to a wide range of portable devices such as R driven by a battery.

[0002]

2. Description of the Related Art In portable equipment or the like which is supplied with power by a battery, there are various cases in which it may be operated for a short time, but it is required to be light and portable, or if it is desired to be used for a long time. Products are made with a certain degree of compromise in order to cope with cases where the size is small, the weight, and the battery drive time vary greatly depending on the usage conditions. That is, since the duration of the battery is lengthened to some extent, the battery is made larger and tends to fall into a halfway state. Also, there is a method of connecting batteries in parallel to increase the operating time, but if batteries with different capacities and voltages are simply paralleled, an excessive current will flow from one battery to the other due to the difference in voltage, It is extremely dangerous and cannot be adopted because of its reliability. In order to prevent such backflow, it is necessary to supply a voltage from each battery in parallel to the load via a diode or the like. However, this method is very inefficient in a system in which a low voltage is driven due to loss of a diode or the like. Further, a technique of using a plurality of batteries and switching to another battery when the potential drops below a certain potential is disclosed in Japanese Utility Model Laid-Open No. 23716/1990 and Japanese Utility Model Publication No.
As disclosed in Japanese Patent Laid-Open No.-65050, in either case, simply switching to another battery when the potential becomes low, or simply displaying the operating battery by a lamp, the portable device using a battery power source is disclosed. It has not been devised according to the usage conditions.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems in the prior art. When importance is attached to portability even for a short time, one battery is mounted,
When it is necessary to use it for a long time, or when it is driven continuously without turning off the power, use multiple batteries, and if it can be applied to a wide range of battery-powered portable devices such as camera-integrated VTRs. To tighten. Also, in order to prevent the loss of the above-mentioned diodes when using multiple batteries and to replace the battery, select the battery to prevent the battery from running out immediately, and immediately charge the battery below the reference potential. It is an object to be solved to provide a power supply device using a battery that notifies the user by enabling the operation and displaying those operations.

[0004]

The invention according to claim 1 comprises a diode connected to each of a plurality of batteries,
In a power supply device using a battery that supplies power to a load from a common terminal connected to each anode of the diode, a potential detection unit that detects a potential on the cathode side of each diode, and a switch unit between the anode and the cathode. For each of the diodes, by operating the switch means based on the output of the potential detecting means, the anode and the cathode can be short-circuited to reduce the power loss.

According to a second aspect of the invention, in the first aspect of the invention, a comparing means is provided for comparing the detection outputs of the respective batteries by the potential detecting means, and the battery having a higher potential from the comparison result of the comparing means. By performing a short-circuiting operation of the switch means, it is possible to operate even with one battery, and in the case of a plurality of batteries, it is possible to automatically select a battery with a high potential and continue supplying power. Is.

According to a third aspect of the invention, in the first aspect of the invention, the (first) comparing means for comparing the detection outputs of the respective batteries by the potential detecting means, and the detection output of the respective batteries by the potential detecting means. Is provided with a reference value, and a short-circuiting operation of the switch means is performed for the battery having a lower potential from the comparison result of the (first) comparison means, and the second comparison means Based on the comparison result, the battery limit is judged and another battery is short-circuited so that the spare battery maintains a relatively sufficient potential and the used time after replacement is relatively long. It was done.

According to a fourth aspect of the present invention, a display means is provided for notifying whether or not the short-circuit operation is performed for each of the batteries and whether or not the usage limit judged by the second comparing means has been reached. In this way, it is possible to replace the battery without stopping the supply of electric power to the load while avoiding an unexpected situation.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION In the following, in a power supply battery device according to the present invention, when power is supplied by connecting batteries in parallel, a device is provided with new means for eliminating loss of a diode for preventing backflow. The form will be described with reference to the drawings. FIG. 1 shows a specific circuit diagram of this embodiment of the present invention. In FIG. 1, BT1 and BT2 are a plurality of batteries for supplying electric power, and are adapted to supply electric power to a device as a load through each terminal of a to d. a and b are positive pole terminals, and c and d are negative terminals. The terminals a and b are designed to supply power to the load via the diodes D1 and D2, respectively, but here, one of these diodes is short-circuited to the point C via the contact A or the contact B of the relay RL1. It is configured to. On the other hand, the input terminals of a and b are led to + and − of the comparator IC1, respectively, and R1,
By the hysteris circuit composed of R2 and R3, a, b
The potential difference of the output voltage is detected and the output potential controls the transistor Q1 via R4 and R5 to drive the relay RL1.

In such a state, for example, when only the battery BT1 on the a side is connected, the potential of the a is high, the potential of the plus input is high in the comparator IC1, and the output of the comparator IC1 becomes "H". Since Q1 is turned on to drive the relay RL1, the contact of this relay is connected to the A side and the diode D1 is short-circuited, so that power can be supplied to the load without loss of the diode D1.

Further, when two batteries are mounted, even if one battery has an extremely low electric potential and the other has a high electric potential, a backflow is prevented by the diode, which causes a problem in reliability. It won't happen. Even if the electric potentials of the batteries are almost the same, since the relay RL1 is connected to any contact, a large amount of electric power is supplied from the connected contact side. Normally, the contact of the relay RL1 is connected to the higher potential of either a or b.
Power is supplied and the voltage gradually drops,
When this potential becomes lower than the other potential, the input potential of the comparator IC1 is inverted and its output is inverted, whereby the drive of the relay RL1 is inverted and the short circuit of the diode is changed to the other. By such an operation, it is possible to construct a system that operates so that electric power is always supplied from the higher potential side of the battery.

The results of the two modes of operation of the system described above are clarified as operating characteristics. FIG. 2 shows the discharge characteristics of one battery, and FIG. 2 is a graph showing the discharge time when a constant load is connected on the horizontal axis and the battery voltage at that time on the vertical axis. As shown in this graph, the voltage of the battery supplies power to the load and also has a certain drooping characteristic.

FIG. 3 is a graph for explaining discharge characteristics when two batteries are connected in parallel to supply electric power. Here, for example, in FIG.
If the contacts of the relay RL1 are connected to the A side, assuming that the batteries BT1 and BT2 have substantially the same potential,
The potential on the positive side of the comparator IC1 is high, and accordingly, the transistor Q1 continues to be in the ON state, the relay is driven, and the connection of the contact to the A side is continued. In this state, when the discharge from the battery BT1 progresses and the potential difference between both batteries becomes v volt, that is, t1 in FIG.
At that time, the input potential of the comparator IC1 is inverted and its output is inverted. Then, the drive current of the relay RL1 via the transistor Q1 disappears, and the contact is connected to the B side, whereby the power supply from the battery BT2 becomes the main and the potential of the battery BT2 gradually decreases from now on. Go. After that, similarly to the above, when the potential difference between the batteries BT1 and BT2 becomes v volt, the operation reverse to the above is performed, and the comparator IC1
Output is inverted, a drive current flows through the relay RL1, and its contact is connected to the A side. It is possible to construct a system that operates so as to effectively extract electric power by repeating such operations.

FIG. 4 is a diagram showing another embodiment of the battery power supply device of the present invention. In FIG.
A portion surrounded by a broken line is a portion different from that of FIG. 1, but other than that, a portion basically having the same configuration as that of FIG. 1 is shown. Contrary to the embodiment of FIG. 1, the broken line portion P of FIG. 4 constitutes a circuit means for enabling the battery having the lower potential to be used preferentially. This circuit will be described below. The circuit includes a circuit for determining whether or not the potentials of a plurality of batteries are higher or lower than a reference potential, and the level comparison circuit 1 determines the level of a plurality of battery potentials. , The potentials of the batteries BT1 and BT2 are compared, and the comparison and determination circuit 2 determines the high and low potentials of the batteries BT1 and BT2 via the CPU 4, and the determination result is applied to the relay switching circuit 5, thereby the transistor Q1.
Is turned on / off to control the relay RL1 to select either the contact A or B of the switch. Here, the battery side having the lower potential is selected. By preferentially using the battery with the lower potential, the spare battery will maintain a relatively sufficient potential, and the usage time when replacing the battery will be relatively long, which is unexpected for the user. There is a merit that the situation can be avoided.

Further, the relay RL1 is a double-break switch for connecting both the middle points so that the power supply is not stopped for a moment when the battery is switched. The contacts A'and B'are
When it is located at the midpoint, it is always closed, and the supply voltage from the batteries BT1 and BT2 is applied to the load.
When switching the battery, either of the contacts A and B is closed. At that time, the contacts A'and B'maintain the closed state until either of the contacts A and B is closed, and then the contacts are opened. As a result, the drive voltage is applied to the load from either one of the batteries having the higher potential. By inserting resistors R6 and R7 between the anode sides of the backflow preventing diodes D1 and D2 and the contacts A ′ and B ′, the diodes D1 and
Even when the internal resistance of D2 is low, it is possible to prevent potential fluctuations on the cathode side. As a result, it is possible to stably compare the potential levels on the cathode side.

Further, in order to avoid a situation where the battery runs out immediately after replacement, a reference value comparison circuit 3 is provided to determine whether or not there is a potential enough to operate the load as a minimum reference, and from the beginning. Check that the electric potential is insufficient. A broken line portion L in FIG. 4 is a display circuit including a lamp such as an LED (light emitting diode), and the circuit is a relay RL.
The LED 1 and the LED 2 are turned on according to the operating state of No. 1 to notify the user. The control of lighting here is in accordance with the operating state of the relay, and based on the comparison of the voltages of the batteries BT1 and BT2 and the determination of the result, as in the case of the relay operation, for example, the battery that is supplying power. Is performed by driving the LED turn-on / off circuit 6 from the CPU 4 by a method of turning on. As described above, since the supply states of the batteries BT1 and BT2 can be easily discriminated from the outside by turning on the LEDs 1 and LED2, it becomes possible to replace the battery that is not involved in the supply, without turning off the power of the load. If it is possible to replace the battery, it will be possible to provide a very convenient and useful system.

Further, based on the comparison result of the reference value comparison circuit 3, when each battery is below the reference value, the LED1 or LED2 is turned on. At the time of lighting, a negative voltage is applied to the anode side of each LED so that the LED is turned on regardless of the operation of the transistor Q1. In this case, in order to distinguish from the normal display, each L
It is good to flush the ED.

[0017]

【The invention's effect】

The effect of claim 1: By checking the potential of each battery in a plurality of batteries connected in parallel,
It is possible to construct a system that efficiently supplies electric power to a load without impairing reliability and without causing power loss. Effect of claim 2: In addition to the effect of claim 1, it is possible to operate even with one battery, and in the case of a plurality of batteries, it is possible to automatically select a battery with a high potential and continue supplying power. . Effect of claim 3: In addition to the effect of claim 1, the usable limit of each battery is judged and the next usable battery is selected, so that the use time is relatively long and the potential is also used. It is possible to maintain within the limit. Effect of claim 4: In addition to the effect of claim 1, whether or not there is a potential at which the load can be operated as a minimum standard in order to avoid a situation where the battery runs out immediately after replacement. Make a decision and inform it to avoid unexpected situations. And by making it possible to distinguish the battery that is supplying power from the outside with an LED, etc., it becomes possible to replace the battery that is not operating while supplying power to the load. It was necessary to turn off the power, but this system enables continuous operation and provides a very useful system.

[Brief description of drawings]

FIG. 1 shows a specific circuit diagram as an embodiment of a power supply device using a battery of the present invention.

FIG. 2 is a graph showing a discharge characteristic of one battery.

FIG. 3 is a graph showing a discharge characteristic when two batteries are connected in parallel to supply electric power in the present invention.

FIG. 4 is a view showing another embodiment of the battery power supply device of the present invention.

[Explanation of symbols]

BT1, BT2 ... battery, D1, D1 ... blocking diode, IC1 ... comparator, Q ₁ ... transistor, RL1 ... relay, R1 to R12 ... resistance, LED1,
LED2 ... Light emitting diode, 1 ... Level comparison circuit, 2 ...
Comparison / determination circuit, 3 ... Reference value comparison circuit, 4 ... CPU, 5 ...
Relay switching circuit, 6 ... LED turn-on / off circuit.

Continuation of front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location H02J 7/00 302 H02J 7/00 302C 9/00 9/00 R

Claims (4)

[Claims] 1. A battery power supply device comprising a diode connected to each of a plurality of batteries and supplying power to a load from a common terminal connected to each anode of the diode, wherein a potential on the cathode side of each diode. And a switch means between the anode and the cathode, and by operating the switch means based on the output of the potential detection means for each of the diodes, the anode and the cathode are short-circuited. The power supply device using a battery is characterized in that the power loss is reduced. 2. A comparison means for comparing detection outputs of the respective batteries by the potential detection means is provided, and a short circuit operation of the switch means is performed for a battery having a higher potential from the comparison result of the comparison means. The power supply device according to claim 1, wherein the power supply device is a battery. 3. A first comparing means for comparing the detection outputs of the batteries by the potential detecting means with each other, and a second comparing means for comparing the detection outputs of the batteries by the potential detecting means with a reference value, From the comparison result of the first comparison means, the battery having a lower potential is short-circuited with the switch means, and the comparison result of the second comparison means determines the use limit of the battery to determine another battery. The power supply device using a battery according to claim 1, wherein an operation of short-circuiting is performed. 4. A power supply to a load is provided for each battery by providing a display means for notifying whether the short-circuit operation is being performed and whether or not the usage limit judged by the second comparing means has been reached. The battery power supply device according to any one of claims 1 to 3, wherein the battery can be replaced without stopping the supply even when the battery is being supplied.