RU2435337C1 - Apparatus for controlling radiation of light-emitting diode array - Google Patents

Abstract

FIELD: physics. ^ SUBSTANCE: apparatus for controlling radiation of a light-emitting diode array, having M switches whose control inputs are connected to outputs of a control system, has an M by N array of light-emitting diodes which form groups consisting of 1 i,Çk.i, ÇN.i light-emitting diodes. The apparatus is fitted with a unit of high-precision current stabilisers, the input of which is connected to the output of the control system through a data bus, and the output is connected to the cathodes of the light-emitting diodes of the corresponding group of light-emitting diodes, wherein anodes of each group of light-emitting diodes of the array are connected to corresponding power electrodes of M current switches, while other power electrodes of these current switches are connected to the positive terminal of a power supply, and cathodes of each group of light-emitting diodes of the array are connected to each other. ^ EFFECT: increase in the number of displayed brightness levels while preserving design of the device and power consumption level. ^ 3 dwg

Description

The invention relates to automation and computer technology and can be used in systems for processing and displaying information on LED panels.

Advantageously, the invention relates to devices for controlling light sources, not included in other subclasses, and can be used in visual information display systems, in particular in billboards for displaying static or moving images.

A device is known for displaying information (SU 1275525 A1 MPK7 G09G 3/28, op. 07.12.1986). The device contains a gas discharge indicator, a pulse generator, a sweep counter, a decoder and a first switching unit connected in series, the outputs of which are connected to the horizontal electrodes of the indicator, the synchronizing input is to the output of the generator, and the control inputs are information inputs of the device. New is the inclusion of the second output of the first switching unit to the input of the current sensor block, the output of which is connected to the control input of the generator. In addition, between the output of the generator and the control input of the decoder, a multivibrator is included, which allows the indicator device to be protected from destruction when clock pulses from the generator disappear. The device allows to eliminate the effect of sticking sweep by changing the duration of the pause between the sweep pulses depending on the magnitude of the current flowing through the keys.

A device for displaying information is known (S 1695374 A1 MPK7 G09G 3/282, op. 11/30/1991). The purpose of the invention is to increase the contrast of the image. This goal is achieved by the fact that a switch and matching elements on diodes are introduced into a device containing an information input unit, a gas discharge indicator panel, keys, a scan unit, a synchronization unit, which allows reducing the switching delay of the keys and the duty cycle of the control pulses. In this device, the reduction and stabilization of the turn-off delay time of the key transistors is ensured by passing additional current through the open transistor and the corresponding diode. However, this causes a significant increase in power consumption, tightens the requirements for key transistors.

A device for displaying information (RU 206732 C1 MPK6 G09G 3/28, op. September 27, 1996) is known. The device contains an information input unit, a matrix indicator, keys, a scan unit, load elements on resistors, first and second voltage sources, matching elements on diodes, a matching element on a resistor, a comparison unit, a reference voltage source.

Known devices for displaying information (TVs or computer monitors) containing cathode ray tubes, in which the image on the screen is formed due to the deviation of the electron beam by an electric or magnetic field (A. Donchenko. Repair of foreign monitors: book 2. - M. " SOLON-R ", 2000. P.115, scheme TNPA0917X). The disadvantage of this device is the complexity and high cost, as well as the low brightness of the image, which does not allow using it for outdoor installations, for example, for advertising purposes.

More effective are information display devices made on LEDs (Bystrov Yu.A. Optoelectronic devices and devices: Textbook. - M .: IP Radio Soft, 2001. - P.113, Fig. 4.1). The disadvantage of such devices is their complexity and high cost, since to control each of the LEDs it is required to have a special separate key.

Also known is a device using an LED matrix consisting of M by N LEDs, which is controlled by a smaller number of first M and second N keys (use of optoelectronic devices: Translated from English / S.Geig, D. Evans, M. Khoddap, X .Sorensen - M.: Radio and Communications, 1981. - S.63, Fig.2.37). The disadvantage of this device is the significant power consumption, since active resistors are used to dissipate the useless loss power to generate the required electric current through the single matrix LEDs. This prevents the use of such a device for large areas of displayed information, when the number of LEDs is large.

The closest in purpose analogue to the claimed invention is a device for controlling the radiation of an LED array (RU 2262217 C2 IPC H05B 43/00, op. 10.10.2005,). The invention relates to devices for powering light sources, not assigned to other subclasses, and can be used in visual information display systems, in particular in billboards for displaying static or moving images.

The device contains M first and N second keys, the control inputs of which are connected to the outputs of the control circuit, as well as an LED matrix consisting of M by N LEDs, in which the cathodes of each of the groups of LEDs of the LED matrix, consisting of li, ... ki, ... Ni LEDs are connected through the corresponding power electrodes of the M keys to the common pole of the device, and the anodes of the LEDs li, ... ki, ... Ni of each of the groups of LEDs of the LED matrix are interconnected. N transformers are introduced into the device, the beginnings of the primary windings of which are connected to the potential pole of the power supply, and the ends are connected through the power electrodes of the keys to the beginnings of the secondary windings of the transformers and to the common pole of the device, the ends of the secondary windings of the N transformers connected to the connection points of the anodes li, ... ki , ... Ni groups of LEDs LED matrix, respectively. The formation of currents through LEDs is carried out by changing the temporal order of turning on and off the first M and second N keys.

In the considered devices for controlling the radiation of the LED matrix, the method of diversity of LED control by time (multiplexing into groups) is used. Consider the timing diagram shown in figure 1, the accompanying drawings. In such systems, when updating the frame (F), pulse width modulation (PWM) is also used to adjust the brightness. The frame is updated in one or more consecutive nested loops (mF1 ... mFM).

In each nested cycle, the LED can be in the on state (1.1 ... 1.M) and the off state (2.1 ... 2.M). To adjust the brightness of the LED, the method of controlling the duty cycle of the on and off pulses of the LED is used. The ratio between the length of time the LED is on and off determines the level of average brightness of the LED.

The number of displayed brightness levels depends on the number of samples of LED states in each nested cycle. The color resolution of the device is measured in bits and calculated by the formula:

;

;

Where:

F _r - PWM sampling rate;

N _g is the number of LED groups;

N _f is the number of nested cycles;

k is a coefficient depending on the hardware implementation of the control circuit.

The disadvantage of this method is that increasing the color resolution in it requires increasing the sampling frequency or reducing the number of groups, which leads to a significant complication of the hardware implementation - increasing the number of components used and power consumption or reducing the number of nested cycles, which reduces the quality of the displayed information - leads to flickering images.

The objective of the invention is to provide a device for controlling the radiation of an LED matrix, the use of which in LED screens will provide high color resolution without increasing energy consumption and complicating the hardware implementation.

The technical result of the invention consists in increasing the number of displayed brightness levels while maintaining the hardware implementation and the level of energy consumption.

The specified technical result of the invention is achieved by the fact that in the device for controlling the radiation of the LED matrix containing M keys, the control inputs of which are connected to the outputs of the control circuit, an LED matrix of M by N LEDs, forming groups consisting of li, ... ki, ... Ni LEDs , new is that it has a block of high-precision current stabilizers (a current stabilizer supporting current with an accuracy of at least 1%), the input of which is connected to the output of the control circuit via a data bus for transmitting information, and its output is connected to the cathodes of the LEDs of the corresponding group of LEDs, while the anodes of each of the groups of LEDs of the LED matrix are connected to the corresponding power electrodes M of the current keys, while the other power electrodes of these current keys are connected to the positive pole of the power source, and the cathodes of each of the groups of LEDs LED matrix interconnected.

The specified new set of essential features is necessary and sufficient to achieve the technical result. Let us explain this by considering the time diagram obtained using the claimed invention, shown in figure 2, the accompanying drawings.

In the nested frame update cycles, additional control of the LED status is introduced. In this case, the LED can be in the on state for one clock cycle of the pulse-width modulation (PWM) sampling in one or more nested cycles (3.1 ... 3.M), depending on the additional color resolution control bits. The color resolution in the known devices for controlling the radiation of the LED matrix is 3 bits (8 brightness levels), and when using the claimed invention is 5 bits (32 brightness levels), which is a significant increase in the number of displayed brightness levels while maintaining the hardware implementation and the level of energy consumption.

An example implementation of the device is the block diagram in figure 3 of the drawings.

The device for controlling the radiation of the LED matrix contains M keys 1, the control inputs of which are connected to the outputs of the control circuit 2, as well as an LED matrix consisting of M by N LEDs 3, in which the anodes of each of the groups of LEDs of the LED matrix, consisting of li, ... ki , ... Ni LEDs are connected through the corresponding power electrodes of the M keys 1 to the pole 4 of the positive power supply, and the cathodes of the LEDs li, ... ki, ... Ni of each of the groups of the LED matrix are interconnected. The device has a block 5 of high precision current stabilizers (a current stabilizer supporting current with an accuracy of at least 1%), the input of which is connected to the output of the control circuit 2 via a data bus 6 for information transfer, and its output is connected to the cathodes of the LEDs of the corresponding group of LEDs, the anodes of each of the groups of LEDs of the LED matrix are connected to the corresponding power electrodes (sources) M of the current keys, while other power electrodes (drains) of these current keys are connected to the positive pole of the source chnika supply, and the cathodes of each of the groups of the LED array of LEDs interconnected.

Block 5 of high precision current stabilizers can be made in the form of single or multichannel current stabilizer microcircuits - STP16 CP05.

The control circuit 2 is based on one or more chips of programmable logic - ALTERA EP 2C 5T144.

The device operates as follows. The control circuit 2 during each multiplexing period generates pulsed data signals received via the data bus 6 for information transmission by the high precision current regulator unit 5 connected to the negative pole 7 of the power supply, setting the on and off state of the high precision current stabilizer unit 5, and control signals current switches 1, connecting and disconnecting each of its own group of LEDs 3 with a positive pole 4 of the power source. In the next multiplexing period, signals are generated to control the next group of LEDs from 1 to M. In general, in each multiplexing period, the LED can be on when the high precision current stabilizer unit 5 connected to its cathode is on and connected to its the anode, the current switch is open, or in the off state - when the high-precision current stabilizer unit 5 is in the off state or the specified current switch is closed. In this case, the LED can be, as indicated above, in the on state for one PWM sampling cycle longer in one or more nested cycles (3.1 ... 3.M). A special algorithm of the control circuit 2 selects and determines the order and number of nested cycles in which the LED state is corrected. Color resolution is increased by a value (in bits) calculated by the formula:

Δcd = log ₂ (N _f );

Where:

Δcd - change the color resolution in bits,

N _f is the number of nested cycles.

Using the device provides a higher color resolution of information displayed on the LED matrix without increasing energy consumption and complicating the hardware implementation in comparison with existing devices.

Claims (1)

A device for controlling the radiation of an LED matrix containing M keys, the control inputs of which are connected to the outputs of the control circuit, an LED matrix of M by N LEDs, forming groups consisting of 1.i, ... ki, ... Ni LEDs, characterized in that it has a block of high-precision current stabilizers, the input of which is connected to the output of the control circuit via a data bus for transmitting information, and its output is connected to the cathodes of the LEDs of the corresponding group of LEDs, while the anodes of each of the groups of LEDs are light the diode arrays are connected to the respective electrodes M of the current keys, while other power electrodes of these current keys are connected to the positive pole of the power source, and the cathodes of each of the groups of LEDs of the LED matrix are interconnected.

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