JPS647364Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a circuit that uses a microcomputer to derive signals having three mutually different levels.

The output terminal of a conventional microcomputer is configured so that a signal having two levels, a low level of 0V and a high level of 5V, is derived. If we want to be able to derive from the output port a signal with a level between 0V and 5V, for example 2.5V, and thereby derive a signal with three mutually different levels, then , an RC filter having an integration function is connected to the output terminal, and the duty of the repetitive pulse signal having two levels from the output terminal is changed. In such prior art, the number of parts is large, the size is large, and the program for performing duty control is complex and long.

An object of the present invention is to provide an output circuit that can obtain three mutually different outputs with a simplified configuration and program.

The drawing is a block diagram of an embodiment of the present invention.
The microcomputer 1 has an input/output port 2. A data direction register 3 is included within the microcomputer 1 . According to the stored contents of this register 3, the input/output port 2 derives a signal having a low level of 0V and a high level of 5V and is set to output mode, and according to the other stored contents of this register 3, The input/output port 2 has a high input impedance and enters the input mode. The voltage dividing circuit 4 has a pair of voltage dividing resistors R1 and R2 connected in series, and a predetermined voltage Vcc is applied to the voltage dividing circuit 4. In this example, Vcc=5V. The input/output port 2 is connected to the connection point 5 between the voltage dividing resistors R1 and R2. The output from the connection point 5 is amplified by an amplifier circuit 7 including an operational amplifier 6 and provided to a voltmeter 8 .

Assume that information is stored in the register 3 that causes the input/output port 2 to become an output port due to a program operation of the microcomputer 1.
In this case, input/output port 2 is set to 0V or 5V according to the program operation of microcomputer 1.
A signal having a level of is derived. Therefore, voltages corresponding to 0V and 5V are displayed on the voltmeter 8 via the amplifier circuit 7.

Assume that information indicating that input/output port 2 is an input port is stored in register 3 by a program of microcomputer 1. In this case, the input impedance of the input/output port 2 becomes high. Therefore, the voltage V5 at the connection point 5 takes the value shown by the first equation.

V5=R2/R1+R2・V1...(1) In this example, the resistance values of resistors R1 and R2 are equal, and as mentioned above, V1=Vcc=5V, so
V5=2.5V. Voltmeter 8 displays a voltage corresponding to 2.5V. In this way, from connection point 5,
A signal having a total of three levels of 0V, 5V and 2.5V can be obtained.

As described above, according to the present invention, the connection point of a pair of voltage dividing resistors is connected to the input/output port of a microcomputer, and this input/output port derives signals having the first and second levels, or impedance, and thus an output having a total of three levels can be obtained. Such a voltage dividing circuit has a simple configuration. Also, programming the microcomputer to obtain a signal with three levels is simple.

[Brief explanation of drawings]

The drawing is a block diagram of an embodiment of the present invention. 1... Microcomputer, 2... Input/output port, 3... Data direction register, 4... Voltage divider circuit, 7... Amplifier circuit, 8... Voltmeter, R1, R2
……resistance.

Claims (1)

[Claims for Utility Model Registration] It has an input/output port, and according to a prestored program, signals having first and second levels are derived to the input/output port to set it to an output mode, or the input/output port A microcomputer that can be put into input mode as a high input impedance for signal reception, a predetermined voltage is applied, and the applied voltage is divided by a pair of series-connected voltage dividing resistors.
A three-value output circuit using a microcomputer, characterized in that it includes a voltage dividing circuit to which an input/output port is connected to a connection point of a voltage dividing resistor.