JPS59111688A - Level display - 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]

[Technical Field of the Invention] The present invention relates to a level display device for displaying levels of, for example, battery voltage and temperature. Analog value > A/D (Analog/
(Digital) conversion LCD panel C: There is a more digital display. However, the conventional level display device B: above uses an A/D conversion circuit, so there is a problem that the circuit configuration becomes complicated. there were. [Object of the Invention] The present invention was made in view of the morality of the upper class. It is an object of the present invention to provide a level display device capable of displaying the actual level≦two levels with a simple configuration. [Embodiments of the Invention] An example in which the present invention is implemented in a thermometer will be described below with reference to the drawings. In FIG. 1, I is a battery, and a thermistor 2 for detecting ML degree is connected to the battery I via a resistor 3. The battery I is supplied to the waveform generation circuit 4. This waveform generating circuit 4 generates a rectangular wave signal with a constant period, and its output signal is sent directly and via the inverter 5 to the display driver 6. The output of the inverter 5 is input to flip-flops 78-7d. The output of the flip-flop 7a is 1 display driver 6
The outputs of the other flip-flops 7b to 7d are
The output of the flip-flop 8a is sent to the display driver 6, and the output of the flip-flops 8b and 8c is input to the flip-flop 9a. Further, the output of the upper HD flip-flop 9a is sent to the display driver 6, and the output of the other flip-flop 9b is sent to the display driver 6 via the flip-flop IO. Upper MO flip-flops 7a to 7d,
8a-8c. 9a, 9b, and 10 are delayed flip-flops, and the clock pulse φA [:lr+, operates in one period. ◎The upper MO display driver 6 still has a connection point C between the thermistor 2 and the resistor 3. Medium pressure V. is input to the display driver 6〇7, and the level display section II is driven to display by this fi indication driver 6◎
This level display section ZI is obtained by 1, for example, a liquid crystal panel Fg+, and as shown in FIG. 2(a), ζ: 1
A wired electrode substrate 12 (one-shaped first to fifth segment electrodes 13. to 13Ilt provided, and a common electrode 15' common to the segment electrodes 113 to 13.
Accordingly, the display driver 6 outputs a common signal cOMy based on a signal directly input from the waveform generating circuit 4, and outputs a common signal cOMy from the inverter 5. fritsubflora 17
a, 8am9a+IO outputs Segment 1 to Seg 5 according to the signal given from IO. In this case, 1 display driver 6 is 1, for example, the input voltage is 0:
operates as a common signal COM, segment signal S
The voltage level of egl~Seg5 is input ``city voltage V''. I: Develop techniques accordingly.

[Nina is here. Next, the →ρ1 operation of the above embodiment will be explained. The thermistor 2 has negative characteristics with respect to temperature changes, and as the temperature increases, the resistance value decreases. Therefore, when the temperature is low, the resistance value of thermistor 2 is large, and the pressure vo divided by thermistor 2, resistor 3, and 1 is low. As the temperature rises, the resistance value of the thermistor 2 decreases, so the above divided voltage vo is the input voltage of the display driver 6! . will also rise. - 10,000, the waveform generating circuit 4 always outputs a rectangular wave signal q with a constant period. This rectangular wave signal is sent to the 1 display driver 6, and is sent to the common fuze C shown in No. 4N (level display section as JM). Further, the rectangular signal outputted from the above-mentioned Kumigata Hatsugo [four routes and four swords] is inverted by the inverter 5 and then directly sent to the display driver 6. Flip-flops 7a-ld, 8a-8C. 9a, 9b, IOY are selectively sent to the display driver 6, and as shown in FIG. In this case, the common fuze COM outputted from the 6 display driver 6 and the 4 voltage levels of the segmentation f%segr~Beg5 are the same as the input ``4 voltage voI: equal to the segment electrodes I3m~I35 of the level display section II. and the common electrode I5.
, C(JTh-8ag2. eOM-8ag 3
, COM-8ag 4, GUM-8ag 50 military pressure waveforms are as shown in FIG. Ding nawachi. Each segment - pole I3. ~13. Effective voltage Vs Z −V s 5, V a I is the largest <, Vs, ? , Vs3. It gets smaller in the order of...
7, 1f, I width is clock pulse φA17U1m period I
: Since the ratio is 6:1, the input ゛market pressure v. Takes the following value for Vsl=V. V a 2 = (5V6': 0.91 V. V s 3 = (0.82ν0V s 4 in 1, vo)
=y'3 V6ki0.71VaV s 5 =(2V
0.58V in o. As shown in FIG. 3, the level display section II is in a non-lighting state when the effective voltage Vs is below a certain value, for example, V sL, but when it is 1 unit above VaH, it is in a lighting state (for example, it is black). ) becomes o - In this case, the above value VsL
and VsH. The zero effective brewing pressure Vs with a predetermined bottom pressure width is VsL and Vs
I (when in a transient state between
has an intermediate color (1, i is gray). However,
The straight line a-e in FIG.
9. ~13. The lighting condition is 0, which is 1 ru, which means input + 1 pressure V. is ν. If it is 1, the segment is '31-13. The effective voltage VsZ~νs5 for T
When the voltage exceeds the value VsH, the segment positive electrodes 13 and -13 are all lit up as shown in Figure 5 (al).If the input pressure Vo is v02, the effective - 'Pressure Vs
1 to VB2 are equal to or higher than the value VsH, and the effective voltage Vs5 is between the values VsL and VsH, so as shown in FIG. state. Thereafter, the input voltage vo decreases to v6J+vO4*vO5evO6 in the same manner (: Therefore, the effective 'voltage for the segment electrodes 13. to rs sequentially decreases as shown by the straight line a-e1:T in FIG. 3. Segment lighting state changes as shown in FIG.
are all below the value VsL41. In FIG. 5 1(f), the segments I31 to I31 to 13 are arranged like PoT. is in a non-lit state. As mentioned above, in response to changes in the input chamber It Vo, the segment force in the level display section II changes from 13 degrees to 13 degrees. The lighting status changes and the temperature status can be displayed at a level. In the above example, the case where the thermometer is applied is shown, but it can also be applied to other types such as a solar cell, a CdS ionizer, illuminance y+-, battery level, pressure level meter, etc. . Also. The circuit that generates the display drive message is not limited to the one described in Embodiment I above; in short, it may be any circuit that generates a plurality of drive signals with different effective values. Furthermore, the number, shape, and arrangement of the segment electrodes The method etc. can be set arbitrarily. [Effects of the Invention] As described above, the present invention has two aspects: n arrays of one display segment, and one type of drive signal ELv each having a different effective value based on the detected pressure for the display segment. The level of the detected voltage is displayed according to the lighting state of the segment.Therefore, there is no need for the conventional A/D conversion circuit, and a simple circuit configuration can be used reliably. It is possible to provide a level display device capable of displaying a level display on line II.

[Brief explanation of the drawing]

The four sides show an embodiment of the present invention; FIG. 1 is a side view of the circuit configuration, and FIG. 2 is a diagram of the electrodes in the display section. Figure 3 is a T diagram showing the relationship between the effective voltage applied to the display and the lighting state, Figure 4 is a timing chart showing the waveform of the display drive signal, and Figure 5 is the relationship between the detected voltage and the display state. FIG. I...Battery, 2...Thermistor, 4...Waveform generation circuit, 6...Display driver, 7a-7d/8a-8G
,! 9a, 9b, 10--Flip-flop. II...Level display section, 12...First stone electrode board. 1r, q, -rs,... segment electrode, 14...
Second substrate, rs... common electrode,

Claims (1)

[Claims] n display segments) 'a: l+iii obtained display r
'J', a means for displaying a level display on the sacrum; a means for displaying n types of displays with different effective values based on the detected voltage obtained by this means; 1) outputted n types of display drive values>->means for applying to the n display segments to display a level corresponding to the detected voltage; Display device 0