KR100302702B1 - Idle speed control circuit for compensating air amount - Google Patents

Abstract

PURPOSE: An idle speed control circuit for compensating an air amount is provided to optimize idle speed control by controlling a gate in a transistor according to the variation of a current amount flowing in an idle speed control coil, compensating the current amount flowing in the idle speed control coil, and then, controlling an air amount. CONSTITUTION: A resistor(3) detects a current flowing in an idle speed control coil(6). An integrating circuit(4) receives the current flowing in the resistor, and integrates the current. An analog to digital converter(7) converts an analog signal output from the integrating circuit to a digital signal. A controller(10) compares the digital signal from the analog to digital converter with a reference data, and then outputs a duty control signal of an air amount. An opening/closing unit(20) makes a current flow in the idle speed control coil by the duty control signal output from the controller.

Description

Idle speed control circuit for air compensation

1 is a circuit diagram showing a idle speed control circuit according to the prior art,

2 is a circuit diagram showing an idle speed control circuit according to the present invention,

3 is a signal diagram illustrating a control signal according to FIG. 2.

The present invention relates to an idle speed control circuit, and more particularly, to connect a direct current alternator and an integrating circuit to detect a current flowing through a coil of a stroke adjusting screw and to constantly correct a detected amount of current. It relates to an idle speed control circuit for correcting the amount of air sucked from the air cleaner.

In general, the idle speed control circuit is a circuit for controlling the throttle adjustment screw and detects the position of the throttle adjustment screw to maintain a small amount of air flowing into the bypass passage to maintain the idle state with the throttle valve closed. It is a circuit of the throttle position sensor.

Then, a conventional idle speed control device will be described in more detail with reference to the accompanying drawings.

1 is a circuit diagram showing an idle speed control apparatus according to the prior art.

As shown in FIG. 1, the conventional idle speed control circuit uses idle speed control (ISC) (hereinafter referred to as idling) through a control means 10 for outputting a DUTY control signal and a duty control signal output from the control means 10. And control means 20 including a transistor for allowing a current to flow through the coil.

In this case, the control means 10 includes a microcomputer 1, and the microcomputer is input with a corresponding DUTY control signal. And the opening and closing means 10 is composed of a transistor (5) for operating the on / off (ON / OFF) through the gate the current flowing in the end gate 2 and the idle speed control coil 6 for supplying a stable signal It is.

In the conventional idle speed control device, a corresponding duty control signal input to the microcomputer 1 is output, and the output signal is turned on / off using a current flowing through the idle speed control coil by using the gate of the transistor 5. At idle, the amount of air flowing through the bypass passage is controlled.

However, such a conventional idle speed control device has a idle speed according to a change in the voltage applied to the idle speed control coil and a change in the internal resistance of the idle speed control coil according to the external temperature while the duty control signal input to the microcomputer is constant. Since the amount of current flowing through the control coil is changed and the amount of air is changed by the changed amount of current, there is a problem in that optimal idling control cannot be performed.

An object of the present invention is to solve this problem, the amount of air supplied by controlling the gate of the transistor in accordance with the change in the amount of current flowing through the idle speed control coil changes according to an arbitrary external condition to correct the amount of current flowing through the idle speed control coil The purpose is to optimize the idling control by adjusting.

An idle speed control device according to the present invention for achieving the above object includes a resistor for detecting a current flowing through the idle speed control coil, an integration circuit for receiving the current flowing through the resistor and integrating the current, and the integration An analog-to-digital converter for converting into a digital signal output from a circuit, control means for receiving a digital signal output from the analog-to-digital converter and outputting a corresponding air quantity duty control signal by comparing with reference data; And opening / closing means for allowing a current to flow in the idle speed control coil through the duty control signal output from the controller.

In the idle speed control device according to the present invention, the amount of current flowing through the idle speed control coil is integrated into a voltage through an integrating circuit, and the integrated signal is converted into a signal having a certain period through an analog-digital converter and has a constant period. Is inputted to the microcomputer and compared with the reference data input to the microcomputer, and changes the duty of the control signal according to the compared difference to output the corrected duty so that the gate of the transistor connected to the idle speed control coil is turned on / off. Done.

Then, with reference to the accompanying drawings will be described in detail such that an embodiment of the idle control device according to the present invention can be easily implemented by those skilled in the art.

2 is a circuit diagram showing an idle speed control circuit according to the present invention, Figure 3 is a signal diagram showing a control signal according to FIG.

As shown in FIG. 2, the idling speed control device according to an embodiment of the present invention receives the current flowing through the resistor 3 and the resistor 3 for detecting the current flowing in the idling speed control coil 6, and receives the current. The digital signal output from the analog-to-digital converter 7 and the analog-to-digital converter 7 for converting an analog circuit output from the integration circuit 4 and an analog signal output from the integration circuit 4 into a digital signal Control means 10 for receiving input and outputting a corresponding air amount duty control signal compared to the reference data and opening and closing means for flowing a current to the idle speed control coil 6 through the duty control signal output from the control means (20) )

The idle speed control device initially outputs a duty control signal according to the reference data input to the microcomputer 1 to turn on the gate of the transistor 5 so that a current flows in the idle speed control coil 6. Adjust the amount of air flowing through the path. The current flowing through the transistor 5 is integrated through the integrating circuit 4, and then converted into a signal having a certain period through the analog-to-digital converter 7 and input to the microcomputer 1, and the input signal is As shown in FIG. 3, the difference between the input data and the input data is corrected by a. As shown in FIG. 3, the microcomputer 1 outputs the corrected duty control signal and outputs the corrected duty control signal. Turn on / off the gate of the transistor.

Therefore, the idling control device according to the present invention may add an analog-digital converter and an integrating circuit to detect a current flowing in the idling control coil and output a corrected duty control signal to optimize control at idling.

Claims (1)

A resistor for detecting a current flowing through the idle speed control coil, an integration circuit for receiving the current flowing through the resistor and integrating the current, an analog-digital converter for converting the digital signal output from the integration circuit; Control means for receiving a digital signal output from the analog-to-digital converter and output a corresponding air volume duty control signal by comparing with the reference data, and a current flows through the idle speed control coil through the duty control signal output from the control means Idle control device comprising an opening and closing means to.