KR19980023479A - How to Drive Digitron in Electronic Devices - Google Patents

Abstract

The present invention relates to a method of driving a digitron (1) for displaying a driving state of an electronic device, comprising: determining (21) whether a signal for digitron on / off is applied; Setting a predetermined counter value (X) when the digitron on / off command is applied, and switching the on and off states of the digitron 1 (22, 23); If the digittron on / off command is not applied or the on / off state of the digitron 1 is switched, decrementing the value of the counter and determining whether the decremented value of the counter is zero (25). 26); Resetting the counter value if the counter value is 0 and reversing the on / off states of the digitron (26-30); Determining (31) whether a predetermined command for driving the electronic device is input if the value of the counter is not 0; And a step 32, 33 for resetting the value of the counter and turning the digitron 1 on when a predetermined command for driving the electronic device is applied.

That is, in the present invention, since the digitron performs the on / off operation for each predetermined time and operates in the on state when there is a predetermined key input, it is possible to easily operate the electronic device using the digitron.

Description

How to Drive Digitron in Electronic Devices

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digitron for displaying a driving state of an electronic device, and more particularly, to a method of controlling the driving of a digitron according to a time zone of the digitron.

Electronic appliances such as video cassette recorders, such as video cassette recorders, are equipped with various functions according to the advancement of the technology, and accordingly, they display through digital digitron what functions are being performed. However, these digitrons maintain a constant amount of light when driven, and thus, there is a significant difference in relative light levels at night and day. In particular, in the case of the late night there was a problem that the user can have a considerable resistance to the light of the digitron.

Conventionally, in order to solve this problem, the activator is configured to adjust the light quantity of the digitron, or the user can be configured to control the on / off of the digitron. However, the method of adjusting the light amount of the digitron has a problem in that the manufacturing cost is high at the time of implementation, and the method of controlling the on / off of the digitron may be in the off state even though the electronic device is being driven. In this case, there is a problem that the user may cause the electronic device to malfunction (for example, to turn on the electronic device again).

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide a digitron driving method of an electronic device that controls the driving of the digitron according to the driving state of the electronic device.

According to an aspect of the present invention, there is provided a method of driving a digitron of an electronic device, the method including determining whether a signal for digitron on / off is applied; Setting a predetermined counter value when the digitron on / off command is applied, and switching the on and off states of the digitron; If a digittron on / off command is not applied or if the digitron on / off state is switched, decrementing the value of the counter and determining whether the value of the reduced counter is zero; Resetting the value of the counter and reversing the on and off states of the digitron when the counter value is 0; Determining whether a predetermined command for driving the electronic device is input when the value of the counter is not 0; And resetting the value of the counter and turning on the digitron when a predetermined command for driving the electronic device is received.

1 is a block diagram of an electronic device performing a method according to the present invention.

2 is a flowchart of a digitron driving method of an electronic device according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Digitron 2: Microcomputer

3: key matrix 4: driving part

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram schematically showing a component for controlling the driving of the digitron 1 in an electronic device for carrying out the method according to the present invention.

Here, the digitron 1 is selectively driven under the control of the microcomputer 2, and the microcomputer 2 controls the driving of the digitron as described below.

On the other hand, the key matrix 3 is connected to the microcomputer 2, and the microcomputer 3 scans the pressed key among the keys of the key matrix 3, and corresponds to the pressed key of the driving unit 4 of the electronic device. And to control the drive. In order to carry out the present invention, a digitron on / off key must be further configured in the key matrix 3, and the function of the on / off key will be described later in detail. The driver 4 refers to a component that the electronic device drives under the control of the microcomputer 3. For example, the driver 4 means a tuner, a deck, or the like in the VCR.

2 shows a flowchart of a program stored in the microcomputer 2 for carrying out the present invention in such an electronic device.

As shown, the microcomputer 2 determines in step 21 whether the digitron on / off key has been driven among the keys of the key matrix 3. When the digitron on / off key is driven, the microcomputer 2 sets the internal counter to X (where X is the time when the digitron is driven and turned off as described below. Set (step 22) and proceed to step 23.

The microcomputer 2 having proceeded to step 23 switches the on / off state to the off state when the digitron 1 is on and to the on state when the digitron 1 is off.

In the microcomputer 2 of the present invention, as a result of the determination of step 21, the digitron on / off switch is not driven or proceeds to step 24 after the step 23 is performed, and the counter set in step 24 is set. The value X is decreased by a predetermined value per predetermined time. Then, it is determined whether or not the reduced counter value X is in the zero state (step 25). If it is decreased to the zero state, the process proceeds to step 26, and if not, proceeds to step 31.

In step 26, the microcomputer 2 determines whether the digitron 1 is currently on, and if the digitron 1 is on, resets the counter value to the X value and turns the digitron 1 off. Switch to step 27,28. However, when the digitron 1 is in the off state, the counter value is reset to the X value and the digitron 1 is turned on (steps 29 and 30).

However, as a result of the determination of step 25, if the counter value is not 0, the microcomputer 2 proceeds to step 31, and determines which one of the keys of the key matrix 3 is driven. If it is determined that none of the keys have been driven, the process returns to step 21, but if the keys have been driven, the process proceeds to step 32, where the counter value is reset to X and the digitron 1 is turned on. (Step 33).

That is, the microcomputer 2 of the present invention controls the on / off of the digitron 1 according to the operation of the digitron on / off key, and when there is no key input in the digitron on or off state, The digitron continues the on / off operation by X), and when there is a key input within this predetermined time X, the digitron is turned on.

As described above, according to the present invention, since the digitron performs the on / off operation for a predetermined time while the digitron is connected to the predetermined key input, the digitron operates in the on state so that the electronic device using the digitron can be easily operated.

Claims (1)

As a driving method of the digitron 1 which displays the driving state of an electronic device, Determining (21) whether a signal for digitron on / off is applied; Setting (22,23) a predetermined counter value (X) when the digitron on / off command is applied and switching the on and off states of the digitron (1); If the digittron on / off command is not applied or if the digittron 1 is switched on and off, decrementing the value of the counter and determining whether the reduced counter value is zero ( 25,26); Resetting a value of the counter when the counter value is 0 and reversing (26-30) the on and off states of the digitron (1); Determining (31) whether a predetermined command for driving the electronic device is input when the value of the counter is not 0; And (32, 33) resetting the counter value and turning on the digitron (1) when a predetermined command for driving the electronic device is applied.