JPH0429568A - Microcomputer controlled system of high-frequency heater - Google Patents

Abstract

PURPOSE:To transfer data serially to an inverter control circuit from a microcomputer in synchronization with a digit signal outputted from the microcomputer, by using this digit signal as a clock signal for a fluorescent display tube. CONSTITUTION:A microcomputer 1 and an inverter control circuit 6 are connected with each other by four lines of a digit signal of 1G of a fluorescent display tube 3, a data signal and a data latch signal and a reset signal of the inverter control circuit 6. The inverter control circuit 6 takes in set power data in synchronization with the digit signal of 1G of the fluorescent display tube 3 (using it as a clock signal), and a control for driving an inverter power source 5 is conducted by the set power. According to this constitution, serial transfer of output data to the inverter control circuit from the microcomputer can be conducted without providing a clock output port for exclusive use for the microcomputer.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF INDUSTRIAL APPLICATION The present invention relates to a microcomputer control system for a high frequency heating device in which a magnetron is driven by an inverter.

Conventional technology It is being considered to effectively use the limited number of ports on a microcomputer to create a high-frequency heating device with more complete functions. Japanese Patent Application Laid-open No. 60-26 (1982-26) uses a single output port for oscillation control and manual key reading control.
Seen in Publication No. 4090.

From the viewpoint of effective use of such a microcomputer, control data is also transferred serially from the microcomputer to a control circuit that controls an inverter drive power source.

Problems to be Solved by the Invention However, in order to serially transfer control data,
The microcomputer required a dedicated port for clock output.

Means for Solving the Problems Many of the current high-frequency heating devices are equipped with a fluorescent display tube that is dynamically driven and controlled as a display device.In view of this, the present invention provides an output from a microcomputer to the fluorescent display tube. The digit signal is used as a clock signal, and data is serially transferred from the microcomputer to the inverter control circuit in synchronization with this digit signal.

The digit signal output from the microcomputer to the fluorescent display tube is used as a clock signal, making it possible to serially transfer control output data from the microcomputer to the inverter control circuit in synchronization with this digit signal. Ta.

Embodiment FIG. 1 is a block diagram of an embodiment of the present invention.
is a microcomputer, 2 is a keyboard switch connected to this microcomputer in a matrix,
3 is a fluorescent display tube which is similarly connected to the microcomputer 1 and dynamically driven to display a timer display; 4 is a magnetron; 5 is an inverter power source that drives the magnetron 4; 6 is an inverter control circuit that controls the inverter power source 5; 7 is a voltage conversion circuit. FIG. 2 is a timing diagram showing the output timing of the digit signal of the fluorescent display tube outputted from the microcomputer 1 and the control data outputted to the inverter control circuit 6. The 6-bit control data is transferred in synchronization with the digit signal.

In the figure, the microcomputer 1 and the inverter control circuit 6 are configured to control (1) the IG digit signal of the fluorescent display tube 3, (2)
) data signal, (3) data latch signal, and (4) inverter control circuit 6 reset signal. In this embodiment, since the power supply voltage of the inverter control circuit 6 and the drive voltage of the fluorescent display tube are different, a voltage conversion circuit is installed between the microcomputer 1 and the inverter control circuit 6 in order to match the voltage levels of the sub-numbers. 7 is provided. In addition, the microcomputer 1 continues to output a reset signal to the inverter control circuit 6 except when the inverter control circuit 6 is in a heating operation.
prevent malfunction.

Here, the customer now selects the keyboard switch 2's ``range''
When the key is input, the microcomputer 1 enters a state in which the standard output microwave heating is set. If you press the "Microwave" key again in this state, you will be set to low power microwave heating. In this embodiment, multiple power levels can be set in response to multiple presses of the "range" key. If the customer presses the "start" key on the keyboard switch 2 after completing the heating output setting, the microcomputer 1 cancels the reset signal output to the inverter control circuit 6 and resets the set power data. (control data) transfer starts. The inverter control circuit 6 takes in set power data in synchronization with the IG digit signal of the fluorescent display tube 3 (using it as a clock signal), and performs control to drive the inverter power supply 6 with the set power. Let's do it. In addition.

Here, in order to prevent malfunction of the inverter control circuit 6 due to external noise etc., setting power data is constantly and repeatedly transferred from the microcomputer 1 to the inverter control circuit 6 during heating. For this reason, it is possible to change the set power even during heating by inputting the "range" key.

When heating ends or is interrupted, the microcomputer 1 ends the transfer of the set power data and outputs a heliset signal to the inverter control circuit 6.

Effects of the Invention According to the present invention, it has become possible to serially transfer output data from a microcomputer to an inverter control circuit without providing a dedicated clock output port in the microcomputer.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is an output timing diagram of output data. 1... Microcomputer, 2... Keyboard switch, 3... Fluorescent display tube, 4... Magnetron,
5... Inverter power supply, 6... Inverter control circuit. Applicant: Hitachi Hometech Co., Ltd.

Claims (1)

[Claims] A magnetron (4), an inverter power supply (5) that drives this magnetron, an inverter control circuit (6) that controls this inverter power supply, and a microcomputer (1) that transfers control data to this inverter control circuit.
and a fluorescent display tube (3) that is dynamically driven and controlled by this microcomputer to perform display, in which control data outputted from the microcomputer is serially transferred to the inverter control circuit. A microcomputer control system for a high frequency heating device, characterized in that one of the digit signals outputted from the microcomputer to the fluorescent display tube is used as a clock.