JPH029426Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field] The present invention relates to a dry battery-type display circuit used in a hot water temperature indicator of a solar hot water supply system.

[Background technology]

Conventional electronic thermometers that use a 100V power source have the disadvantage of requiring a large transformer to obtain the low voltage needed to operate display devices and light emitting diodes. On the other hand, using dry batteries has the advantage of being smaller and lighter, but if the battery voltage drops due to prolonged use or if the battery is left unused for a long time, the integrated circuit used may malfunction, causing the necessary It is possible that the temperature display may be incorrectly displayed. In addition, as a means to prevent such problems, a battery (power supply) confirmation circuit was required, making the circuit complex and requiring two switch inputs: one for battery confirmation and one for temperature display.

[Purpose of invention]

The present invention was developed in view of the above points, and by cutting off the power to the display circuit and eliminating the display function when the voltage of the battery power supply drops,
It is an object of the present invention to provide a battery-operated display circuit which doubles as a power supply confirmation circuit and which is designed to prevent malfunctions and display errors.

[Disclosure of invention]

The configuration of the present invention will be explained below using examples.
The attached drawing shows a dry battery-powered temperature display circuit which is an embodiment of the present invention.
A first series closed circuit is formed between the ZD and the push button switch SW, between the base and emitter of the transistor Tr, and the dry battery power supply 1, and the temperature display circuit 2
and between the collector and emitter of the transistor Tr,
A second series closed circuit is formed with the dry battery power source 1, and the Zener voltage of the Zener diode ZD is such that when the battery voltage is normal, a Zener current flows between the base and emitter of the transistor when the push button switch SW is turned on, and the Zener voltage of the Zener diode ZD is When the voltage drops, the voltage is set to such a value that the zener current does not flow even when the push button switch SW is turned on. A current limiting resistor R ₁ is connected in series with the Zener diode ZD to prevent excessive voltage from being applied between the base and emitter of the transistor Tr when the battery voltage is high. In addition, a bypass circuit consisting of a series circuit of a diode _D1 and a resistor _R2 is connected in parallel between the base and emitter of the transistor Tr, and when the voltage between the base and emitter is too high, the base current is bypassed to protect the transistor Tr. There is. Diode _D2 is also for protecting transistor Tr. When the push button switch SW is turned on, if the battery voltage of the dry cell power supply 1 is normal, the Zener diode ZD is turned on.
Current flows between the base and emitter of the transistor Tr, turning on the transistor Tr. When the transistor Tr is turned on, the temperature display circuit 2 is connected to the dry battery power supply 1 via the collector and emitter of the transistor Tr, and performs a temperature display operation. The temperature display circuit 2 includes a temperature measurement circuit 3 including a thermistor Th,
The temperature display control circuit 4 is composed of an integrated circuit or the like. The battery voltage of the dry battery power source 1 is applied to the thermistor Th via a series resistor _R3 and between the collector and emitter of the transistor Tr. The voltage across the thermistor Th is input to the temperature display control circuit 3. Further, the operating power for the temperature display control circuit 3 is supplied from the dry battery power supply 1 via the collector and emitter of the transistor Tr. A capacitor C connected in parallel to the series resistor _R3 of the thermistor Th is for noise prevention. The temperature display control circuit 3 displays the temperature according to the voltage across the thermistor Th. The thermistor Tr is provided, for example, in a hot water storage tank of a solar hot water supply system. In the above temperature display circuit, when the battery voltage of the dry battery power source 1 decreases, the Zener diode ZD will not turn on even if the push button switch SW is pressed, and the transistor Tr will turn off because the base current does not flow. . Therefore, the present invention can prevent malfunctions of the temperature display control circuit 3 due to a drop in power supply voltage, and can notify the user that the battery is running out by not displaying the temperature when the battery voltage is low. be.

[Effect of idea]

The present invention is constructed as described above, and the first series closed circuit is formed by the series circuit of the Zener diode with the push button switch, the base-emitter of the transistor, and the dry battery power supply, and the measurement display circuit and the transistor. A second series closed circuit is formed between the collector and emitter of the transistor and the dry battery power supply, and when the battery voltage is normal, the Zener voltage of the Zener diode is such that when the push button switch is turned on, the Zener current flows between the base and emitter of the transistor. The voltage value is set to such a level that the zener current does not flow even when the push button switch is turned on when the battery voltage is low and the battery voltage is low, so the measurement display operation is performed only when the push button switch is pressed. , it is possible to create a low power consumption type display circuit, and by providing a Zener diode in series with the base circuit of the transistor, the display operation by the measurement display circuit is no longer performed when the battery voltage drops. It is possible to easily know when the battery is running low, and it is also possible to prevent malfunctions of integrated circuits for measurement and display, which conventionally occur when the voltage is low, and to improve the reliability of display accuracy. As an application example of this circuit, it can be used in any circuit as a means for preventing malfunction due to a drop in battery voltage in electronic circuits that do not have a stabilized power source.

[Brief explanation of the drawing]

The attached drawings show an embodiment of the present invention, in which 1 is a dry battery power supply, 2 is a temperature display circuit, ZD is a Zener diode, SW is a push button switch, and Tr is a transistor.

Claims (1)

[Scope of utility model registration request] A first series closed circuit is formed by the series circuit of the Zener diode and the push button switch, between the base emitter of the transistor, and the dry battery power supply, and a second series closed circuit is formed by the measurement display circuit, between the collector and emitter of the transistor, and the dry battery power supply. The Zener voltage of the Zener diode forms a series closed circuit, and the Zener voltage of the Zener diode causes a Zener current to flow between the base and emitter of the transistor when the push button switch is turned on when the battery voltage is normal.
In addition, when the battery voltage drops, the voltage value is such that the zener current does not flow even when the push button switch is turned on.