JP2786185B2 - LCD drive circuit - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display driving circuit, and more particularly to a static driving type liquid crystal display driving circuit. [Summary of the Invention] The present invention relates to a liquid crystal display driving circuit that performs a display method in which the number of lit segments is smaller than the number of lit segments, and illuminates the drive voltage amplitude of the lit segments. By reducing the amplitude of the drive voltage of the segment that is turned off, noise from the segment that is turned off is suppressed, and the influence of noise disturbance on, for example, a radio receiver or the like that uses this circuit is prevented. [Prior Art] As a conventional liquid crystal display drive circuit, for example, the one shown in FIG. 5 has been proposed. In FIG. 5, (1) is a liquid crystal panel in which, for example, 40 segments are arranged side by side by a static drive method, and (2) is a driving voltage supplied to each segment electrode Seg1 to Seg40 of the liquid crystal panel (1). (3) is, for example, a 40-bit latch circuit,
(4) and (5) are, for example, 20-bit shift registers. The data from the data terminal (7) is sequentially shifted by the shift clock from the clock terminal (6).
And (5), and when the 40-bit data is taken into the shift registers (4) and (5), the data of the shift registers (4) and (5) are received by the load signal from the load terminal (8). Are latched by the latch circuit (3). A common signal having a duty of 50% is applied to the terminal (9). The common signal is supplied to the common electrode of the liquid crystal panel (1) to COM and to the DF terminal of the driver (2). The driver (2) generates a voltage for each segment electrode Seg1-Seg40 of the liquid crystal panel (1) according to the truth table of FIG. That is, the driver (2) is connected to the latch circuit (3).
When the latch data is “H” and the signal supplied from the terminal (9) to the DF terminal is “H”, V ₃ (= ground potential) is generated as the output voltage. When the signal at the terminal is “L”, V _DD is generated as the output voltage.
A segment voltage as shown in FIG. That is,
In this case, a voltage applied to the segment electrode when the segment is turned on is generated. The driver (2) outputs V ₁ (= V _DD) as the output voltage when the latch data from the latch circuit (3) is “L” and the signal supplied from the terminal (9) to the DF terminal is “H”. ),
When the latch data is “L” and the signal at the DF terminal is “L”, V ₂ (= ground potential) is generated as an output voltage, and as a result, FIG.
A segment voltage is generated as shown in FIG. That is, at this time, a voltage applied to the segment electrode when the segment is turned off is generated. In this way, in the case of the liquid crystal display drive circuit of the static drive system, in order to light each segment of the liquid crystal panel (1), the peak value (amplitude) as shown in FIG. A common voltage of _DD is applied, and a segment voltage having the same peak value as that of the common voltage but of the opposite phase is applied to the segment electrode as shown in FIG. 7B. At this time, the voltage between the common electrode and the segment electrode is the seventh voltage.
Considering the common voltage in FIG. A as a reference, it is represented by a voltage whose amplitude is doubled as shown in FIG. 7C. In order to turn off each segment of the liquid crystal panel (1), a common voltage COM having a peak value of V _DD as shown in FIG. 8A similar to FIG. As shown in FIG. 8B, a segment voltage having the same peak value as the common voltage and the same phase is applied. At this time, the voltage between the common electrode and the segment electrode is represented by a voltage having an amplitude of zero as shown in FIG. 8C, based on the common voltage in FIG. 8A. [Problems to be Solved by the Invention] By the way, in the case of a conventional circuit having a configuration as shown in FIG.
Both the lit segment and the unlit segment are driven by rectangular waves having the same amplitude, that is, the segment voltage at the time of lighting (FIG. 7B) and the segment voltage at the time of turning off (FIG. 8B) are the same. Amplitude. Therefore, liquid crystal noise is emitted from each segment, and the electronic equipment using such a liquid crystal display driving circuit is affected by noise interference when, for example, a radio receiver or the like is used. In particular, in a radio receiver having a dial display device using a liquid crystal panel, when displaying a pointer for a frequency scale plate on this liquid crystal panel, only one of the juxtaposed segments is turned on. That is, if there are 40 segments, for example, 26 segments are sequentially arranged from top to bottom corresponding to the frequency, and this is sequentially switched and displayed in 26 stages with a cursor-like pointer display, At that time, when one frequency is displayed, one segment corresponding thereto is turned on, but the remaining 25 segments are kept turned off. Here, the remaining 14 segments of the 40 segments is used in the band display _{(SW 1 ~SW 12, MW /} LW, FM), What this case as well is obtain cloud. In the case where the number of lit segments is smaller than the number of lit segments in this manner, noise from the lit segments jumps into the receiver, causing noise interference. The present invention has been made in view of such a point, and when the number of turned-on segments is smaller than the number of turned-off segments, a liquid crystal that can prevent noise disturbance from the turned-off segments A display driving circuit is provided. [Means for Solving the Problems] The present invention applies a common voltage having an amplitude V _{DD to} a common electrode and applies a drive voltage to each of a plurality of segment electrodes to turn on or off each segment, thereby turning on and off the light. In a liquid crystal display drive circuit that performs a display mode in which the number of segments that are turned on is smaller than the number of segments that are turned off, for example, as shown in FIG. 1 and FIG. The first, second, and third resistors (10), (11), and (12) having resistance values R ₁ , R _2, and R ₁ connected in series, respectively, and a potential V from a power supply terminal + B.
Supply voltage _DD is supplied to the liquid crystal driving voltage V _DD terminal, the first
The voltage of the first potential V ₂ is supplied to the V ₂ terminal from the connection point between the resistor (10) and the second resistor (11), and the second resistor (11) and the third resistor The second potential from the connection point with (12)
Voltage V ₁ is being supplied to the V ₁ terminal, a liquid crystal panel (1)
Using the power supply voltage and the voltage of the ground potential V ₃ of the potential V _DD as the drive voltage to be applied to the segment electrode of a segment that are lit among the segment electrodes Seg1~Seg40 of, applied to the segment electrode of a segment that are off as the drive voltage using the voltage and the voltage potential V ₂ of the potentials V ₁ and drive means (2), 0 when expressed _{R 2 = 2nR 1 / (1} -n) and
The resistance values R ₁ and R ₂ are set so as to satisfy ≦ n <1, and the drive voltage amplitude Vp = V ₁ −V ₂ of the turned-off segment The drive voltage amplitude V _{DD of the} turned-on segment It is characterized by being smaller. [Operation] The drive means (2) uses the power supply voltage of the potential V _{DD and} the voltage of the ground potential V ₃ as the drive voltage applied to the segment electrodes of the lit segments, while the segment electrodes of the unlit segments are used. Potentials V ₁ and V obtained by dividing the power supply voltage by resistors (10) to (12) as the drive voltage applied to
A voltage of ₂ is used. As a result, the drive voltage (segment voltage) of the lit segment has an amplitude of V _DD , whereas the drive voltage of the unlit segment has an amplitude of V _DD.
The Vp = V ₁ -V _2. Therefore, by setting the resistance values R ₁ and R ₂ so that 0 ≦ n <1 when R ₂ = 2nR ₁ / (1−n), the amplitude Vp of the drive voltage of the turned-off segment is set. = V ₁ of the drive voltage of the segment a -V ₂ is lit can be made smaller than the amplitude V _DD, and can be arbitrarily set the amplitude Vp. As a result, noise from a large number of unlit segments is suppressed, and noise disturbance to a radio receiver or the like is prevented. Embodiment An embodiment of the present invention will be described in detail below with reference to FIGS. 1 to 4. FIG. 1 shows a circuit configuration of the present embodiment. In FIG. 1, parts corresponding to those in FIG. 5 are denoted by the same reference numerals, and detailed description thereof will be omitted. In this embodiment, a resistor (1) is connected between the positive power supply terminal + B and the ground.
0), (11) and (12) are connected in series, one end (+ B side) of the resistor (10) is connected to the liquid crystal drive voltage V _DD terminal of the driver (2), and the resistors (10) and ( the connection point 11) driver (connected to V ₁ terminal 2), the resistor (11) and (the connection point 12) connected to the V ₂ terminal of the driver (2), the resistor (12) the other end (the ground side) is connected to the V ₃ terminals of driver (2). Other configurations are the same as those in FIG. In this embodiment, in a radio receiver having a dial display device using a liquid crystal panel, a plurality of segments are arranged in parallel, and when these segments are sequentially switched to display a pointer, the segments that are lit are turned off. Noting that there are many segments, the voltage (segment voltage) of the drive waveform of the segment that is turned off is given as follows. That is, the level V ₂ of the third lower level V ₁ of the higher segment voltage waveform shown in Figure B And Here, n = 0 to 1. As a result, the amplitude Vp of the drive waveform of the segment that is turned off is as follows. Vp = V ₁ −V ₂ = nV _DD ‥‥‥ (3) The voltage Vs between the common electrode and the segment electrode at this time
Considering the common voltage in FIG. 3A as a reference, FIG.
Is expressed as shown in FIG. 3C and the above equation (2). Becomes Here, if n = 0, from the above equations (1) and (2),
Since V ₁ = V _DD / 2 = V ₂ and Vp = 0 from the above equation (3), the segment voltage at this time can be represented as shown in FIG. 4B. In addition, the voltage between the electrodes at this time is Vs = _VDD from the above equation (4), and can be expressed as shown in FIG. 4C. The relationship between Vp and Vs when n = 0, n = 1/3, and n = 1 is obtained as shown in FIG. Since the common voltage and the segment voltage of the lit segment are the same as those in FIG. 7, the inter-electrode voltage Vs is always constant at 2 V _DD . In FIG. 2, the off-segment represents a turned-off segment, and the on-segment represents a turned-on segment. 2, n = 1 is the case of the conventional example described with reference to FIGS. 7 and 8, and n = 0, n = 1/3 is the case of the present invention. When n = 0, that is, in the case of FIG. 4, the amplitude of the drive voltage (segment voltage) of the unlit segment can be made zero, and noise emission from the unlit segment can be suppressed. However, since the voltage ratio between the electrodes when the light is turned off and when the light is turned on is small, the contrast between turning on and off the segment is slightly deteriorated. However, this is not enough to cause a problem in use. Therefore, n is set to 0 ≦ within a range where the contrast is not deteriorated.
By selecting a value within the range of n <1, it is possible to suppress noise emission from the segments that are turned off. It should be noted that the voltages V ₁ , V represented by the above equations (1) and (2)
₂ can be generated by the connection configuration of the resistors (10) to (12) in FIG. That is, if the resistance values of the resistors (10) and (12) are both R ₁ and the resistance value of the resistor (11) is R ₂ , Is represented by If n = 0 when R ₁ is the value R ₂ = 0
Therefore, V ₁ = V ₂ , which corresponds to the case of FIG. By setting R ₁ and R ₂ in this manner, V ₁ and V ₂ can be set to arbitrary values. In the above-described embodiment, the present invention is applied to a radio receiver having a dial display device using a liquid crystal panel. However, the present invention is not limited to this. It can also be applied to watches and the like. [Effects of the Invention] As described above, according to the present invention, in a display manner in which the number of lit segments is smaller than the number of lit segments, the drive voltage amplitude of the lit segments is turned on. Since the amplitude of the drive voltage of the segment is smaller than that of the segment, the noise emitted from the unlit segment can be suppressed, and the influence of noise disturbance on, for example, a radio receiver using the present circuit can be prevented. Also,
The amplitude of the drive voltage of the segment that is turned off can be arbitrarily set as long as the contrast between lighting and turning off does not deteriorate.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit diagram showing one embodiment of the present invention, FIGS. 2 to 4 are diagrams for explaining the operation of FIG. 1, and FIG. FIG. 6 to FIG. 8 are diagrams for explaining the operation of FIG. (1) is a liquid crystal panel, (2) is a driver, (3) is a latch circuit, (4) and (5) are shift registers, and (10) to (1)
2) is a resistor.

Claims (1)

(57) [Claims] By applying a common voltage to the common electrode and applying a drive voltage to each of the plurality of segment electrodes, each segment is turned on or off, and the number of lit segments is smaller than the number of turned off segments. In the liquid crystal display drive circuit that performs the method, each resistance value connected in series between the power supply terminal and the ground
A _first , _second, and third resistor of R ₁ , R _2, and R ₁ , and a power supply voltage is supplied to the liquid crystal drive voltage terminal from the power supply terminal, and the first resistor and the second resistor are provided. And a voltage of a first potential is supplied to a first terminal from a connection point with the second terminal.
A second potential voltage is supplied to a second terminal from a connection point between the resistor and the third resistor, and the power supply voltage and the drive voltage to be applied to the segment electrode of the lit segment A driving unit that uses the voltage of the ground potential and uses the voltage of the first potential and the voltage of the second potential as the driving voltage to be applied to the segment electrodes of the segments that are turned off, and R ₂ = 2nR ₁ / When expressed as (1-n), 0 ≦ n <1
The resistance values R ₁ and R ₂ are set so that the amplitude of the drive voltage of the turned-off segment is smaller than the amplitude of the drive voltage of the turned-on segment. Drive circuit.