JPS60131597A - Display driver - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a display driving device, and more particularly to a display driving device for household microcomputer-applied equipment.

Conventional configurations and their problems Conventionally, home electronic devices using microcomputers have had a limited number of input/output ports, and 7
In large cases, the light-emitting diode was dynamically driven to drive the numeric display of the segment, and a method called scanning, phone, and g was generally used.In other words, the + side terminal of the power supply and A switching element is connected to the one side terminal, and this switch and the switching element are sequentially driven like a ring counter, and when the one side terminal and each switching element connected to the one side terminal become conductive at the same time, - power is applied. The method for lighting up the light-emitting element for display was generally the same.However, the pulse width of the light-emitting element for display, which conducts the light, has a duty of about 1/3.
There is a drawback that the brightness of the display light-emitting element decreases, and when a display light-emitting element of class -2- or higher is used, the brightness changes.

Purpose of the Invention The present invention aims to reduce variations in brightness as much as possible when simultaneously scanning a 7-segment, numeric display and a high-intensity display light emitting element to produce a 5-dynamic dot. The present invention provides an easy-to-read display driving device.

Structure of the Invention The display driving device of the present invention includes a 10th switching element group connected to terminals 11 and 11 of a power source and sequentially turned on by one scan signal; The display light emitting element is composed of a second switching element group that is turned on by the scan signal and a display light emitting element connected in a square relationship between the first and second switching element groups. The brightness adjustment resistor is all connected in series with a high brightness type display light emitting element.

Description of Example 11 An example of the present invention □ will be described below. ``The first point is that an example of using a display drive device in a fully automatic washing machine is shown in Figure 2, which shows the specific circuit configuration.'' In Figure 1, 1 is a process display, 2 is a is the remaining time indicator.The process indicator 1 indicates whether the fully automatic washing machine is in operation, and has light-emitting elements for displaying soaking, washing, rinsing, and spin-drying. 0 When the power switch is turned on, all display light emitting elements light up.When the start button is pressed, the soak display light emitting element blinks and the other display light emitting elements remain lit. Remaining time display 2 Displays the remaining time or indicates that soaking is in progress.

FIG. 2 shows a drive circuit for the display shown in FIG. The first scanning switching element group connected to the + side terminal of the power supply includes transistors Qi3゜Q14. It consists of Q16 and is turned on and off at 1/6 duty by the signal from the microcontroller and the user 30. Seven switching elements Q16-22 are connected to one side terminal of the power supply for driving a seven-segment numeric display constituting the remaining time display 2. -10 for scanning transistor Q13
A 7-segment display 21 for the 10th place is connected to the transistor Q14, and a 7-segment display 2o for the 10th place is connected to the transistor Q14. A process display light emitting element is connected between the transistor Q16 and second switching elements 916 to 22 connected to one side terminal of one power source. For example, when the microcomputer 30 is powered up, the transistor Q13.1'
4.16 become conductive in sequence. When it is outputted to the microphone in synchronization with the scan signal, the transistor Q17 becomes conductive through a resistor R47, and the soak display light emitting element 7 lights up. When the transistor Q1'4 is in the on state - when the transistor Q17i is turned on, the segment b2 of the 7-segment display 20 in the 1's digit lights up.

At this time, current I'b 2 u' flowing through segment b2
Power supply voltage Vsi) Collector resistance R of transistor Q17
55T division - y value X'b2°='V'a/Rss 'f
4ru0 When the transistor Q"'1g is turned on - When the transistor Q17 is turned on, the soak display light emitting element 7
The current IL7 flowing through i is -ve/(myo+a6s'), which is smaller than 'Ib2. This is because the light emitting element 7 for process display, for example, the light emitting element 7 for soak display, is of the high brightness type, and in order to achieve the same level of brightness, the current of the light emitting element of the high brightness type must be reduced. Segment~
This increases the leakage current of the optical element.

That is, by connecting a resistor in series with a high brightness type light emitting element, the forward current is increased compared to a low brightness type light emitting element. A resistor R71 is connected in series to the light-emitting element 8 for washing display, a resistor R72 is connected to the light-emitting element 9 for rinsing surface yarn, and a resistor R73 is connected in series to the light-emitting element 10 for dehydration display. Note that the emitter terminals of the transistors Q16 to Q22 are commonly connected and connected to the collector of the transistor Q12. transistor Q
The on/off of 12 is controlled by one signal r. When transistor Q12 is off, none of the light emitting elements light up.

Effects of the Invention As mentioned above (,"'- Akira Yamanashi is high brightness, Eve. When a light emitting element for display and a light emitting element for display with normal brightness are connected to the same scan circuit, the brightness balance will be improved. In order to obtain high brightness, a resistor is connected in series with the display light-emitting element □...,'11.

The current of a high brightness type light emitting element is relatively reduced compared to the forward current of a conventional type light emitting element. Therefore, the forward current of the display light emitting element having normal brightness is increased, and the brightness of the display light emitting element can be balanced.

[Brief explanation of the drawing]

FIGS. 1(a) and fb) show a fully automatic washing machine according to an embodiment of the present invention! A front view of the Iso process indicator and remaining time indicator - Fig. 2 is a 11-way diagram of the drive device for each indicator. 1...Progress indicator-2...Remaining time indicator-7
... Light emitting element for soak indication, 8... Light emitting element for washing indication, 9... Light emitting element for rinse indication -10.
...Light emitting element for dehydration display -20,21...7 segment display -Q13. Q14. QlB...First switching element-QlB, Q17. QlB, Q1
9゜Q20, Q21, Q22...Second switching element + R70, R71, R72, R73...
··resistance.

Claims (1)

[Claims] ° A first switching element group that is connected to the + side terminal of the power supply and becomes conductive in sequence according to one scan signal; and a second switching element group that is connected to the one side terminal of the power supply and becomes conductive by applying the same paste to the above scan signal. and a display light emitting element connected between the first switching element group and the second switching element group, and a resistor connected in series with the high brightness display light emitting element of the display light emitting element. Display driver.