JPH06202581A - Large size plasma display device - Google Patents

Abstract

PURPOSE:To improve display quality by evading the fact that the luminance is different from each other at every plasma display unit in the case of controlling so that no current consumption becomes the prescribed value or above of power source capacity. CONSTITUTION:Respective plasma display units UA1-UAN are provided with power sources 14, current detectors 15 detecting the current consumption of the power sources 14 and control circuits 13 controlling the display luminance according to a brightness control signal BC. Further, this device is provided with a maximum value selection circuit 21 selecting a maximum value Imax among the current consumption I1-IN a setting device 17 setting the prescribed value IA and an auto power control circuit 16 supplying the common brightness control signal BC to the control circuits 13 of the plasma display units UA 1-UAN so that no maximum value Imax exceeds the prescribed value IA in the outside of the plasma display units UA1-UAN.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a large-sized plasma display device in which a plurality of plasma display units are arranged.

[0002]

2. Description of the Related Art Since a plasma display device has advantages such as being thin and having a flat screen, a large plasma display device having a plurality of plasma display units U1 to U12 arranged in a matrix as shown in FIG. Is used. Each of the plasma display units U1 to U12 has the same configuration, and the configuration of the plasma display unit is shown in FIG.
Shown in.

This plasma display unit is, for example, an AC
It is a discharge memory type, and the X driver 11 and the Y driver 12 are provided to the column electrodes and the row electrodes of the plasma display panel 10, respectively.
The output end of is connected. The display control circuit 13 uses the brightness control signal BC, the display data and the synchronization signal supplied from the outside, and the X driver 11 and the Y driver.
A write voltage, a sustain voltage and an erase voltage are supplied to the plasma display panel 10 via the driver 12 to display data. Each plasma display unit includes a power supply 14 for supplying its output to each component.

Here, the current consumption I changes according to the lighting rate of the plasma display panel 10 as shown in FIG. 11 (A). The alternate long and short dash line in the figure shows the case where the brightness adjustment is not performed. It is uneconomical to use a large-capacity power supply 14 in order to always maintain a constant high-luminance display regardless of the lighting rate because the power supply 14 becomes expensive and large.

Therefore, the current detector 15 detects the consumed current I, and the auto power control circuit 16 detects the consumed current I, the specified value I _A set in the setter 17 and the horizontal synchronizing signal * HSYNC based on FIG. A brightness control signal BC as shown in FIG.
Supply to. The display control circuit 13 sets the display to low brightness and high brightness at the low level and the high level of the brightness control signal BC, respectively. For example, at low brightness, lighting control is performed twice during 1H (1 horizontal scanning time),
At high brightness, lighting control is performed 8 times during 1H. By changing the ratio n / (m + n) of the high-brightness period nH and one cycle (m + n) H, that is, the duty ratio of the brightness control signal BC, the brightness is adjusted in multiple steps between the high-brightness and the low-brightness. be able to.

In FIG. 11, the auto power control circuit 16 always sets the brightness control signal BC to a high level to maximize the brightness when I≤I _A ,
When the consumption current I exceeds the specified value I _A , the brightness control signal BC having a duty ratio such that I = I _A is output. By such control, when the lighting rate exceeds a certain value, the brightness decreases as shown in FIG.

[0007]

However, since the lighting rates of the plasma display units U1 to U12 shown in FIG. 8 are generally different from each other, the brightness of the plasma display units U1 to U12 varies, and the display quality deteriorates. If a large capacity power supply 14 is used to avoid this, it becomes uneconomical as described above.

In view of the above problems, an object of the present invention is to prevent display brightness from varying from plasma display unit to display display quality when controlling the current consumption so as not to exceed the specified value of the power supply capacity. It is to provide a large-sized plasma display device that can be improved.

[0009]

A large-sized plasma display device according to the present invention will be described with reference to the reference numerals of corresponding constituent elements in the embodiments.

In the first invention, for example, as shown in FIG. 1, a plurality of plasma display units U1 to UN are arranged, and each plasma display unit U1 to UN has a power source 14 and a power source 14.
In the large-sized plasma display device including the current detector 15 for detecting the current consumption of the plasma and the control means 13 for controlling the display brightness according to the brightness control signal BC, the consumption detected by each of the plasma display units U1 to UN. a maximum value selecting means 21 for selecting the maximum value I _max of the current I ₁ ~I _N, and setting means 17 for setting a prescribed value I _a, sorted maximum value I _max is a prescribed value I _a Control means 1 of each plasma display unit U1 to UN so as not to exceed
3 and an automatic power control means 16 for supplying a common brightness control signal BC.

According to the first aspect of the invention, the plasma display units UA1 to UAN have the same brightness, and
Since the brightness is adjusted so that the current consumption of the plasma display unit having the maximum lighting rate does not exceed the specified value I _A , it is possible to improve the display quality by avoiding the difference in brightness between the plasma display units.

In the second invention, for example, as shown in FIG. 3, a plurality of plasma display units UB1 to UBN are arranged, and each of the plasma display units UB1 to UBN controls the display brightness according to the brightness control signal BC. In a large-sized plasma display device equipped with
Power source 1 common to each plasma display unit UB1 to UBN
4A and a current detector 15 for detecting the current consumption I of the power supply 14A, a specified value setting means for setting the I _B, each detected plasma display as consumption current I does not exceed the prescribed value I _B It has an auto power control means 16 for supplying a common brightness control signal BC to the control means 13 of the units U1 to UN.

According to the second aspect of the invention, the plasma display unit UB1 is arranged so that the total current consumption I does not exceed the specified value I _B.
Since the luminances of UBN to UBN are adjusted and the luminances of the plasma display units UB1 to UBN are made equal to each other, it is possible to improve the display quality by avoiding the different luminances of the plasma display units.

Further, the plasma display units UB1 to UB
Since the brightness is adjusted based on the total current consumption I of N, the capacity of the power source 14A is the N power sources 14 of the first invention.
When it is equal to the total capacity of, the brightness can be made higher than in the case of the first invention. However, in the first invention, the power supply 14 having a constant capacity may be provided regardless of the number of plasma display units.
It is superior to the invention in that it is simpler.

In the third invention, for example, as shown in FIG. 4, first to Nth plasma display units UC1 to UCN are arranged, and each jth plasma display unit Uj where j = 1 to N.
Is the j-th power supply 14 and the j-th consumption current I _{j of} the j-th power supply 14.
The j-th current detector 15 for detecting the display brightness, and the j-th brightness control signal BC _j for controlling the display brightness according to the j-th brightness control signal BC j.
The large-sized plasma display device including the control means 13 has a setting means 17 for setting a prescribed value I _A , and the j-th plasma display unit Uj has a j−1-th consumption current (where j = 1). (The Nth consumption current) and the jth consumption current, whichever has the larger value does not exceed the specified value I _A , the jth brightness control signal BC is supplied to the jth control means 13. The automatic power control means 16 is provided.

Jth auto power control means 16
Is configured as shown in FIG. 5 or FIG. 6, for example. The first to Nth plasma display units UC1 to UCN are
For example, the connection may be made as shown in FIG.

According to the third aspect of the invention, the brightness of the plasma display unit UCj is determined by the plasma display unit UCj-1.
(However, when j = 1, the Nth plasma display unit)
As a result, the brightness of the plasma display units UC1 to UCN becomes equal to each other, and the brightness of the plasma display unit having the maximum display rate becomes equal to the brightness of each plasma display unit. It is possible to avoid the difference and improve the display quality.

When the setting means 17 is provided in each of the plasma display units UC1 to UCN, it is not necessary to provide a special circuit for adjusting the brightness outside the plasma display units UC1 to UCN, but simply the plasma display unit UC1.
Since the UCN to UCN may be connected in a loop, it is possible to easily configure a large-sized plasma display device using an arbitrary number of plasma display units. When the setting means 17 is common to the plasma display units UC1 to UCN, the setting means 17 and the plasma display unit U are further provided.
Although it is necessary to connect between C1 and UCN, the setting means 17 can be commonly used, and in this case also, it is possible to easily configure a large-sized plasma display device using an arbitrary number of plasma display units. You can

[0019]

Embodiments of the present invention will be described below with reference to the drawings.

[First Embodiment] FIG. 1 shows a large-sized plasma display device according to the first embodiment.

In this device, plasma display units UA1 to UAN having the same structure are arranged in a matrix as shown in FIG. The plasma display units UA1 to UAN do not include the auto power control circuit 16 and the setting device 17, unlike FIG. 9, but include the auto power control circuit 16 and the setting device 17 in the brightness adjusting circuit 20. Brightness adjustment circuit 20 further includes a maximum value selection circuit 21, a maximum value selecting circuit 21, the current consumption I ₁ ~I _N detected by the current detector 15 of the plasma display unit UA1~UAN is supplied . The maximum value selection circuit 21 determines the maximum current consumption I _max is the maximum value of the consumption current I ₁ ~I _N, and supplies it to the automatic power control circuit 16. The auto power control circuit 16 has a maximum current consumption I _max and a setting device 17.
Specified value I _A and horizontal sync signal * HSYNC
The brightness control signal BC is generated based on the above, and is supplied commonly to the display control circuits 13 of the plasma display units UA1 to UAN.

As a result, the plasma display unit UA1
~ The current consumption I of the plasma display unit at which the luminance of UAN is the same as each other and the lighting rate is maximum is the specified value I.
_The brightness is adjusted so that it does not exceed _A.

A configuration example of the auto power control circuit 16 is shown in FIG.

The astable multivibrator 30 includes a circuit 3
1, for example, manufactured by Fujitsu, model MB74LS123M-G
The capacitors C1 and C2 and the variable resistor 32 connected in series are externally attached. The variable resistor 32 has its tap connected to the power supply line V _CC , and the resistor R is divided into a resistor R1 and a resistor R2 on both sides of the tap. The output pulse of the circuit 31 has a period T of 0.7 (C1R1 + C2
R2), and the duty ratio is C1R1 / (C1R1 +
C2R2). C1 = C2 and R = R1 + R2
Is constant, the cycle T = 0.7C1R is constant and the duty ratio is R1 / R.

The output of the circuit 31 is the D flip-flop 34.
Is supplied to the data input terminal D of. D flip-flop 3
The horizontal synchronizing signal * HSYNC is applied to the clock input terminal CK of 4
Then, the Q of the D flip-flop 34 outputs the brightness control signal BC as shown in FIG. 10 synchronized with the horizontal synchronizing signal * HSYNC.

The resistance adjusting circuit 33 compares the specified value I _A with the maximum current consumption I _max, and if I _max ≤I _A , R1 =
When the variable resistor 32 is adjusted so that R, that is, the brightness control signal BC is always at a high level, and the maximum current consumption I _max is about to exceed the specified value I _A , I _max =
The variable resistor 32 is adjusted so that it becomes I _A.

[Second Embodiment] FIG. 3 shows a large-sized plasma display device according to a second embodiment. The same components as those in FIG. 1 are designated by the same reference numerals and the description thereof will be omitted.

This device is equipped with plasma display units UB1 to UBN having a structure in which the power supply 14 and the current detector 15 of FIG. 1 are removed from the plasma display units UA1 to UAN. The power supply 14A is a plasma display unit UB1 to U
Commonly used for BN, the total current consumption I is the current detector 15
Detected in. The auto power control circuit 16
Total supply current I, based on the set specified value I _B and the horizontal synchronizing signal * HSYNC the setter 17, the first embodiment and in the same manner to generate a brightness control signal BC, which plasma display unit UB1~UBN Are commonly supplied to the respective display control circuits 13.

Thus, the brightness of the plasma display units UB1 to UBN is adjusted so that the total current consumption I does not exceed the specified value I _B , and the plasma display units UB1 to UB1 to
The brightnesses of the UBNs are made equal to each other.

In this second embodiment, since the brightness is adjusted based on the total current consumption I of the plasma display units UB1 to UBN, the capacity of the power supply 14A is equal to the total capacity of the N power supplies 14 in FIG. In this case, the brightness can be made higher than in the case of FIG. However, in the first embodiment, since the power supply 14 having a constant capacity may be provided regardless of the number of plasma display units UB1 to UBN, the design of the large-sized plasma display device is easier than that of the second embodiment. Are better.

[Third Embodiment] FIG. 4 shows a large-sized plasma display device according to the third embodiment.

This device is provided with plasma display units UC1 to UCN having the same configuration as each other. Plasma display units UCj (j = 1 to N) are shown in FIG. 5 (A) instead of the auto power control circuit 16 of FIG. An automatic power control circuit 16A as shown is used. This circuit is shown in that the output terminal Q of the D flip-flop 34 is connected to one input terminal of the AND gate 35 and the signal B _j0 is supplied to this, and the output of the AND gate 35 is used as the brightness control signal BC _j . 2 is different from the auto power control circuit 16 of FIG. A brightness control signal BC _j-1 from the plasma display unit UC j-1 (UCN when j = 1) is supplied to the other input terminal of the AND gate 35, and as shown in FIG. UC1 to UCN are connected in a loop.

When the brightness control signal BC _j-1 and the signal BC _j0 have the waveforms shown in FIGS. _5B and _5C, for example, the brightness control signal BC _j
j becomes as shown in FIG. That is, the brightness of the plasma display unit UCj depends on the plasma display unit UC.
It is never greater than the brightness of j−1, and as a result,
The luminances of the plasma display units UC1 to UCN are equal to each other, and are equal to the luminance of the plasma display unit having the maximum display rate.

In the third embodiment, it is not necessary to provide a special circuit for adjusting the brightness outside the plasma display units UC1 to UCN, but simply the plasma display units UC1 to U.
Since the CNs may be connected in a loop, a large-sized plasma display device using an arbitrary number of plasma display units can be easily configured.

Contrary to the above case, when the brightness control signal is low level, high brightness control is shown, and when it is high level, low brightness control is shown.
An OR gate may be used instead of 5. Further, the setting device 17 may include only one common to each of the plasma display units UC1 to UCN.

[Fourth Embodiment] FIG. 6 shows an automatic power control circuit 16B according to a fourth embodiment.

This automatic power control circuit 16B
Is used instead of the automatic power control circuit 16A of the large-sized plasma display device of FIG. The automatic power control circuit 16B differs from the automatic power control circuit 16A in that a maximum value selection circuit 36 is used instead of the AND gate 35 in FIG. The maximum value selection circuit 36 uses the current consumption I _j-1 and j of the j−1th (where N = 1 when j = 1) plasma display unit.
The current consumption I _{j of the} second plasma display unit UCj is compared, the larger one is selected, and this is supplied to the resistance adjusting circuit 33.

By using such an auto power control circuit 16B, the brightness of the j-th plasma display unit does not become larger than the brightness of the j-1-th plasma display unit as in the third embodiment. As a result, the luminances of the plasma display units UC1 to UCN are equal to each other, and are equal to the luminance of the plasma display unit having the maximum display rate.

[Fifth Embodiment] FIG. 7 shows a large-sized plasma display device according to a fifth embodiment.

In this device, in the plasma display units U11 to Upq arranged in a matrix, the plasma display units U11 to U19 in the first row, the plasma display units U21 to U29 in the second row, ..., The p-th row. The groups of the plasma display units Up1 to Upq are connected in a loop in the same manner as in FIG. Plasma display units Uij other than the first column, i = 1 to p, j = 2
q has the same configuration as each other, and has the same configuration as the plasma display unit UC1 of FIG. In addition, the plasma display units U11 to Up1 in the first row have the same configuration,
4 except that the AND gate 35 in FIG. 5 has 3 inputs.
The plasma display unit UC1 has the same configuration. The plasma display units U11 to Up1 have one of these three inputs.
One of them is connected in a loop like FIG.

According to such a large-sized plasma display device, even if the number of plasma display units is large, the brightness of the plasma display units in each row quickly converges to the minimum value, and the brightness in the column direction also has the minimum value. Since it converges at high speed, the brightness as a whole converges at an optimum value at high speed. That is, as a result, the plasma display unit U1
The operations in which the luminances 1 to Upq are equal to each other and are equal to the luminance of the plasma display unit having the maximum display rate are performed at high speed.

[0042]

As described above, according to the large-sized plasma display device of the first invention, the current consumption of the plasma display unit is such that the plurality of plasma display units have the same brightness and the maximum lighting rate. Since the brightness is adjusted so as not to exceed the specified value, it is possible to improve the display quality while avoiding the brightness different for each plasma display unit.

According to the large-sized plasma display device of the second invention, the brightness of the plasma display unit is adjusted so that the total current consumption of the plurality of plasma display units does not exceed the specified value, and the brightness of each plasma display unit is adjusted. Since they are the same as each other, there is an excellent effect that the display quality can be improved while avoiding the difference in brightness for each plasma display unit.

Since the brightness is adjusted based on the total current consumption of the plurality of plasma display units, when the power supply capacity is equal to the total capacity of all the power supplies of the first invention, the first
The effect that the brightness can be made higher than in the case of the invention is exerted. However, the first invention is excellent in that the design of the large-sized plasma display device is simpler than that of the second invention because the power supply having a constant capacity may be provided regardless of the number of plasma display units.

According to the large-sized plasma display device of the third invention, the luminance of the j-th plasma display unit is higher than that of the j-1 plasma display unit (however, when j = 1, the N-th plasma display unit). Never grows,
As a result, the brightness of each plasma display unit becomes equal to each other and the brightness of the plasma display unit at which the display rate becomes maximum, so that it is possible to improve the display quality by avoiding the difference in brightness between plasma display units. It has an excellent effect that .

When each plasma display unit is provided with the setting means, it is not necessary to provide a special circuit for adjusting the brightness outside the plasma display unit, and the plasma display units can be simply connected in a loop. Since it is good, a large-sized plasma display device using an arbitrary number of plasma display units can be easily configured, and when the setting means is common to each plasma display unit, the setting means and each plasma display unit can be further added. Although it is necessary to connect between the units, since the setting means can be commonly used, it is possible to easily configure a large-sized plasma display device using an arbitrary number of plasma display units in this case as well. Produce an effect.

[Brief description of drawings]

FIG. 1 is a block diagram of a large-sized plasma display device according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a configuration example of an auto power control circuit in FIG.

FIG. 3 is a block diagram of a large-sized plasma display device according to a second embodiment of the present invention.

FIG. 4 is a block diagram of a large-sized plasma display device according to a third embodiment of the present invention.

5 is a diagram showing a configuration example of an auto power control circuit in FIG.

FIG. 6 is a diagram showing an automatic power control circuit according to a fourth embodiment of the present invention.

FIG. 7 is a block diagram of a large-sized plasma display device according to a fifth embodiment of the present invention.

FIG. 8 is a layout view of plasma display units of a large-sized plasma display device.

FIG. 9 is a block diagram of a conventional plasma display unit.

10 is a time chart showing the operation of the auto power control circuit in FIG.

FIG. 11 is a diagram showing a relationship between a lighting rate and brightness adjustment.

[Explanation of symbols]

U1-U12, UA1-UAN, UB1-UBN, UC
1 to UCN plasma display unit 10 plasma display panel 11 X driver 12 Y driver 13 display control circuit 14, 14A power supply 15 current detector 16, 16A, 16B auto power control circuit 17 setter 20 brightness adjustment circuit 21, 36 maximum value selection circuit

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Akira Yamamoto 1015 Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa Fujitsu Limited

Claims (3)

[Claims] 1. A plasma display unit (UA1 to UA
N) are arranged, and each plasma display unit controls display brightness according to a power supply (14), a current detector (15) for detecting current consumption of the power supply, and a brightness control signal (BC). in large plasma display device and a control unit (13), a maximum value selection means (21) for selecting the maximum value of the consumption current detected by the said plasma display unit, the prescribed value (I _a) And a power control means (16) for supplying a common brightness control signal to the control means of each plasma display unit so that the maximum value does not exceed the specified value. ) And a large plasma display device. 2. A plasma display unit (UB1 to UB)
N), a plurality of plasma display units are provided, and each plasma display unit includes a control means (13) for controlling display brightness according to a brightness control signal (BC). beyond the power (14A), a current detector for detecting the consumption current of the power source (15), the specified value and setting means for setting the (I _B) (17), digested costs current to該規value 1. A large-sized plasma display device comprising: an auto power control means (16) for supplying the brightness control signal common to the control means of each plasma display unit so as not to exist. 3. A first to Nth plasma display unit (UC1)
~ UCN) are arranged, and each of the j-th plasma display units with j = 1 to N has a j-th power supply (14) and a j-th current detector (15) for detecting a j-th consumption current of the j-th power supply. If j-th brightness control signal at a large plasma display device and a j-th control means (13) for controlling the display brightness in response to (BCJ), setting means for setting a prescribed value (I _a) ( 17), the j-th plasma display unit has the j-th plasma display unit when j ≧ 2.
The j-th brightness control signal is supplied to the j-th control means so that the larger one of the 1-th consumption current and the j-th consumption current does not exceed the specified value, and j =
When it is 1, the first consumption current and the first consumption current having a larger value do not exceed the specified value.
A large-sized plasma display device comprising: j-th auto power control means (16) for supplying the first brightness control signal to the control means.