Abstract:
An electronic apparatus comprises a phase signal generator for generating mutually different phase signals, one of which is selectively supplied to plurality means driven by a time-division drive.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to an electronic apparatus improved in the connection between an object device to be driven in accordance with a time-division driving scheme and a drive circuit for driving said object device. 
     2. Description of the Prior Art 
     As an example of a display device according to a time-division driving scheme there has been known a liquid crystal display device, which has progressively been improved in the response performance, so that the duty ratio of the drive pulses from 1/2 to 1/3, and further to 1/4 is reduced. 
     Such improvement has enabled a reduction in the number of terminals for connecting between the display device and a drive circuit. For example in case of a numerical display according to a time-division driving scheme on an array of plural display elements each having 7 bar segments and a dot segment, there are required, for each display element, four terminals for supplying time-division signals for a drive with a duty ratio of 1/4 and two information signal terminals for supplying numerical information. 
     However, in order to increase the number of displayable symbols by providing additional mark segments, there will be required three information signal terminals for each display element since the duty ratio cannot be reduced. For example in case of driving a 10-digit display device each having 9 segments with drive pulses of a duty ratio of 1/4, there will be required 3×10+4=34 segments. 
     SUMMARY OF THE INVENTION 
     The object of the present invention is to provide an electronic apparatus capable of reducing the number of terminals connecting an object device to be driven by a time-division drive and a drive circuit therefor. 
     Another object of the present invention is to provide an electronic apparatus capable of increasing the number of displayable symbols without altering the duty ratio and without a significant increase in the number of terminals. 
     Still another object of the present invention is to provide an electronic apparatus comprising means for generating mutually different phase signals, one of which is selectively supplied to plural object devices to be driven by a time-division control. 
     Still other objects of the present invention will be made apparent from the following description of the preferred embodiments taken in conjunction with the attached drawings. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a view of disply elements embodying the present invention; 
     FIG. 2 is a diagram showing the selection of segments; 
     FIG. 3 is a block diagram of an embodiment of the present invention; 
     FIG. 3A is a block diagram of another embodiment of the present invention; 
     FIG. 4 is a block diagram of a display information signal output circuit; 
     FIG. 5 is a wave-form chart of various signals; and 
     FIG. 6 is an external view of another display device. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Referring to FIG. 1 showing an example of display elements embodying the present invention, there are shown common terminals COM1-COM6 for supplying time-division signals, and information signal terminals Xi, Yi (i=1, 2) for supplying the signals representing the information to be displayed on the display elements. 
     The numerical information may be represented by seven bar segments in the figure   and a dot segment on each display element mentioned above, and alphabetical information may be represented by eight bar segments in the figure   and a dot segment. Accordingly, both the numerical and alphabetical information may be selectively represented by provision of nine segments including eight bar segments in figure   and one dot segment in accordance with switching of signal application to the common terminals. 
     In FIG. 1 the 9 segments including said dot segment are driven with a duty ratio of 1/4. Said terminals COM1-COM6 are common to all the display elements, wherein the terminals COM1-COM4 receive the time-division signals repeated cyclically in the conventional manner, while the terminals COM5 and COM6 occasionally receive the signal to be supplied to the terminal COM4. Also the terminals Xi, Yi (i=1, 2) receive the signals corresponding to the information to be displayed on each digit. 
     FIG. 2 shows the relation between the terminals Xi, Yi (i=1, 2), the common terminals COM1-COM6 and the segments SA-SH, SP. More specifically the segment SF is lighted upon receipt of signals by the terminals Xi and COM1, similarly the segment SA by the terminals Yi and COM1, the segment SE by the terminals Xi and COM2, the segment SB by the terminals Yi and COM2, the segment SD by the terminals Xi and COM3, the segment SG by the terminals Yi and COM3, the segment SC by the terminals Yi and COM4, the segment SH by the terminals Xi and COM5, and the segment SP by the terminals Xi and COM6. 
     The above-mentioned display element is composed of a liquid crystal material sandwiched between glass plates which are respectively provided thereon with transparent segment electrodes SA-SH, SP and transparent common electrodes COM1-COM6. 
     FIG. 3 is a block diagram of an embodiment of the present invention in which there are shown a signal generator SG for generating four time-division signals in a cyclic manner, and AND gates AG1, AG2 for supplying the signal applied to the terminal COM4 also to the terminals COM5 and COM6 selectively according to mode signals A and B, respectively standing for an alphabet display mode and a numeral display mode. 
     Said mode signal may be obtained by manual actuation of manual switches SW1, SW2 as shown in FIG. 3, or may be obtained by information included in the information to be displaced as shown in FIGS. 3A, which is applied to the AND gate AG2 through the AND gate AG1 or an inverter I. 
     FIG. 4 shows a circuit for generating signals Xi, Yi to be supplied to the display elements shown in FIG. 1, wherein MEM is a memory storing the information to be displayed. In the illustrated example the memory stores two information in a binary code. CPG is a character pattern generator for converting the information stored in said memory MEM into the information of a display pattern and supplies the thus converted information to the terminals Xi and Yi. The illustrated embodiment is designed for the display of two characters, but the structure is expandable for the display of a larger number of characters. 
     The function of the foregoing embodiment is explained in the following. In case of the display of a numeral a mode signal B is supplied to open the AND gate AG2 thereby enabling to drive the segment SP, while in the alphabetical display for example of a character &#34;Q&#34; the AND gate AG1 is selected to distribute the signal to the terminal COM4 also to the terminal COM5 thereby driving the segment SH. 
     Now let us assume that a numerical information &#34;1.2&#34; is stored in the memory MEM for the display, and a mode signal B is supplied to apply the time-division signal to the common terminal COM6 through the AND gate AG2. Also it is assumed that the dot information is memorized in the same memory address as that for the numeral &#34;1&#34;. In order to display &#34;1.&#34; on the display element CD1, the character pattern generator CPG releases the signals X1, Y1 shown by ND in FIG. 5. The display &#34;1.&#34; is performed by lighting the segments SB, SC and SP. Consequently said character pattern generator CPG releases said signals X1 and Y1 in synchronization with the time-division signals for driving said segments SB, SC and SP, whereby the display &#34;1.&#34; being performed by the coincidence of said time-division signals and the display information signals. Likewise the display &#34;2&#34; is performed by the coincidence of time-division signals and the display information signals X2, Y2, shown by ND in FIG. 5, released by the character pattern generator CPG for driving the segments SA, SB, SG and SE. 
     Also in case of the display of &#34;QR&#34; respectively by the display elements CD1 and CD2, the memory MEM stores the corresponding coded information and a mode signal A opens the AND gate AG1 to supply the time-division signal to the terminal COM5. In this case the character pattern generator CPG generates the signals X1, Y1 shown by AD in FIG. 5 to drive the segments SA, SB, SC, SD, SE, SF and SH whereby the display &#34;Q&#34; being performed by the coincidence of the time-division signal and said signals X1, Y1, in the display element CD1. Likewise the character pattern generator CPG generates the signals X2, Y2 shown by AD in FIG. 5 to drive the segments SA, SB, SE, SF, SG and SH, whereby the display &#34;R&#34; being performed by the coincidence of the time-division signal and said signals X2, Y2 in the display element CD2. 
     Thus, as explained in the foregoing, it is render possible to reduce the number of terminals for connecting the display device with the drive circuit by supplying the time-division signals also to other display elements. 
     Although the foregoing explanation is limited to the display of numerical information and alphabetical information, it is also possible to obtain a display device capable, in a similar manner, of displaying numerical information and time information. For example the day of the week is to be displayed under each digit, the segment SH is placed as shown in FIG. 6 and the display device can be structured to display a result of calculation or a time information in the first mode and to display the information on the year, month, day and the day of the week in the second mode. 
     As detailedly explained in the foregoing, the present invention enables to reduce the number of terminals in total by using, for a display with a duty ratio of 1/N, common terminals of a number in excess of N.