KR19980044884A - Temperature compensation circuit - Google Patents

Abstract

The present invention relates to a temperature compensation circuit that is easy to convert the temperature compensation range, the conventional temperature compensation circuit has a problem that the use efficiency is reduced by converting a complex internal program of the microcomputer for temperature compensation. In view of the above problems, the present invention provides a power supply voltage of 5V through a resistor, and a temperature processor in which the resistance thereof changes linearly according to an external temperature; A resistor unit connected in parallel to the temperature sensor; The microcomputer measures the voltage applied to the temperature sensor and the resistor unit through a capacitor connected in parallel to the temperature sensor and adjusts the temperature according to the measured value, so that the microcomputer is applied to the temperature sensor and the resistor unit. By judging by the voltage applied to the temperature sensor by adjusting the temperature compensation range without changing the internal program and replacement of the resistance, there is an effect of increasing the use efficiency.

Description

Temperature compensation circuit

The present invention relates to a temperature compensating circuit, and more particularly to a temperature compensating circuit for converting a temperature control range of a microcomputer in a temperature compensating circuit in which a microcomputer controls temperature using a temperature sensor.

In the conventional temperature compensation circuit, in order to change the temperature control range recognized and controlled by the microcomputer, the internal program of the microcomputer is changed or the temperature sensor is replaced with a temperature sensor having a different characteristic. When described in detail with reference to the accompanying drawings as follows.

1 is a conventional temperature compensation circuit diagram, as shown therein, a temperature sensor TS1 receiving a power supply voltage of 5V through a resistor R1 and whose resistance value changes linearly with external temperature; The microcomputer MC1 measures the voltage applied to the temperature sensor TS1 through the capacitor C1 connected in parallel to the temperature sensor TS1 and adjusts the temperature according to the measured value. 2 is a detailed view of the temperature sensor TS1 in the conventional temperature compensation circuit. As shown therein, both ends (a) and (b) of the temperature sensor TS1 are connected to the contacts a ', It consists of the housing | casing 1 connected to (b ').

The operation of the conventional temperature compensation circuit configured as described above will be described below.

First, the temperature sensor TS1 changes its resistance value according to the ambient temperature, and as the resistance value of the temperature sensor TS1 changes, the voltage value applied to the temperature sensor TS1 recognized by the microcomputer also changes. . That is, if the resistance value of the current temperature sensor TS1 is Rx, the voltage applied to the temperature sensor TS1 is 5V according to the ratio of the resistance Rx of the temperature sensor and the total resistance (Rx + R1) according to the power supply voltage of 5V. Is multiplied by the power supply voltage of [Rx / (Rx + R1) × 5V]. In the above formula, if the value of Rx is changed, the voltage value applied to the temperature sensor TS1 is changed.

Next, the microcomputer MC1 recognizes the voltage value applied to the temperature sensor TS1, compares the set temperature with the voltage value, and compensates the temperature.

However, in the conventional temperature compensation circuit, in order to control the temperature by adjusting the magnitude of the voltage recognized by the microcomputer, it is necessary to change a complicated internal program of the microcomputer or replace the resistor connected to the board with a resistor having a different resistance value. Therefore, since it is not easy to change the temperature compensation range of the temperature compensation circuit, there is a problem that the use efficiency decreases.

It is an object of the present invention to provide a temperature compensation circuit capable of changing the temperature compensation range of a temperature compensation circuit without replacing the internal program or resistance of the microcomputer.

1 is a conventional temperature compensation circuit diagram.

Figure 2 is a detailed view of the temperature sensor in Figure 1;

3 is a temperature compensation circuit diagram according to the present invention.

4 is a detailed view of a temperature sensor and a resistor in FIG. 3;

* Description of the symbols for the main parts of the drawings *

1: housing 2: vinyl tube

3: Connector 10: Resistance

MC1: Microcomputer TS1: Temperature sensor

R1: resistance R2: compensation resistance

C1: Capacitor

The above object is achieved by reducing a voltage value recognized by a microcomputer by connecting a resistor to a temperature sensor in parallel. The operation of the temperature compensation circuit according to the present invention will be described in detail with reference to the accompanying drawings. same.

3 is a temperature compensation circuit diagram according to the present invention, and as shown therein, a 5 V power supply voltage is applied through a resistor R1, and a temperature sensor TS1 whose resistance value changes linearly with an external temperature; A resistance unit 10 connected in parallel with the temperature sensor TS1; It is composed of a microcomputer (MC1) for measuring the voltage applied to the temperature sensor (TS1) through a capacitor (C1) connected in parallel to the temperature sensor (TS1) to adjust the temperature according to the measured voltage value, 3 is a detailed view of the temperature sensor TS1 and the resistance unit 10 in the temperature compensation circuit according to the present invention. As shown therein, a vinyl tube 2 for preventing moisture from entering and a compensation resistor ( A resistor (1) having a connector (3) connecting R2 to an electric wire and both ends (a) and (b) of the temperature sensor TS1 are connected to the connection points a 'and (b') of the temperature compensation circuit. It consists of the housing 1 to connect.

Hereinafter, the operation of the temperature compensation circuit according to the present invention configured as described above will be described.

First, when the resistance value Rx of the temperature sensor TS1 is determined by the ambient temperature, the microcomputer MC1 determines the voltage applied to the temperature sensor TS1 and the resistor unit 10 by the temperature sensor TS1. Recognize the voltage applied to. At this time, the voltage applied to the temperature sensor TS1 by the microcomputer MC1 by the compensation resistor R2 provided in the resistor unit 10 and protected by the high frequency fused vinyl tube 2 to prevent moisture from penetrating. The voltage value recognized as is lowered. That is, the value of the voltage recognized by the microcomputer MC1 corresponds to the resistance R1 of the parallel resistance value RxR2 '(Rx + R2) of the voltage value Rx of the temperature sensor TS1 and the voltage value of the resistor 10. ) And the resistance value Rx of the temperature sensor TS1 and the parallel resistance value [[RxR2 / (Rx + R2)] of the resistance value of the resistor 10 added together ([RxR2 / (Rx + R2)]] The ratio of + R1) is multiplied by a voltage supply of 5V.

Next, the microcomputer MC1 recognizing the voltage applied to the temperature sensor TS1 and the resistor unit 10 as the voltage value applied to the temperature sensor TS1 is a difference between the set temperature and the measured temperature according to an internal program. The current temperature is increased or decreased to compensate for the set temperature. At this time, the microcomputer MC1 continuously measuring the compensated actual temperature through the temperature sensor TS1 continuously increases or decreases the actual temperature until the measured value and the set value are the same. In addition, the temperature recognized by the microcomputer MC1 is different from the actual temperature, and the compensated temperature is also different from the set temperature.

As described above, the temperature compensation circuit according to the present invention connects a parallel resistor to a temperature sensor without changing a complicated internal program of the micro computer and replacing a resistance, so that the micro computer recognizes a temperature different from the actual temperature and compensates the temperature. By doing so, there is an effect of increasing the use efficiency.

Claims (3)

A temperature sensor TS1 that receives a power supply voltage of 5 V through the resistor R1 and whose resistance value changes linearly with the external temperature; A resistance unit 10 connected in parallel with the temperature sensor TS1; The microcomputer MC1 measures the voltage applied to the temperature sensor TS1 through a capacitor C1 connected in parallel to the temperature sensor TS1 and adjusts the temperature according to the measured voltage value. Temperature compensation circuit characterized in that. 2. The temperature compensation according to claim 1, characterized by comprising a connector (3) connecting the compensation resistor (R2) to the electric wire and a vinyl tube (2) for preventing moisture from penetrating the compensation resistor (R2). Circuit. The temperature compensation circuit according to claim 1 or 2, wherein the vinyl tube (2) is made of high frequency fusion to prevent moisture from penetrating.