SU1083350A1 - Signal generator for control of light-emitting diodes - Google Patents

Abstract

SIGNAL FORMER; LED CONTROL1, containing a chain of LEDs connected in series through a current regulator transistor to a power source, and transistor switches, each of which are connected in parallel with the corresponding LED, and the input to the input bus, in order to reduce power consumption, it has an OR element, whose inputs are connected to input buses, and a separating element, which is connected between the output of the OR element and the base of the current stabilizer transistor. S СХ) 00 СА9 СП

Description

1 This implies that pulsed technology is intended for use in electronic devices with an indication on light-emitting diodes, for example, in communication devices, in instrumentation equipment, etc. The LED control signal conditioners used in various electronic devices for displaying information, which contain a constant voltage source, transistor switches, current-limiting resistors, controlled LEDs connected to a constant voltage source -. T he switch through transistor switches t The disadvantage of these circuits is that current resistors are limited in series with controlled LEDs, and the LEDs along with the limited resistors are connected in parallel with each other. Limiting resistors are necessary, since the value of the supply voltage of electronic circuits, which use LEDs, significantly exceeds the amount of voltage drop across high-voltage diodes connected in the forward direction. Energy dissipated by limiting resistors is useless, which significantly impairs the overall energy performance of such a circuit. The closest in technical essence to the present invention is an LED control signal generator in which the LEDs are connected in series with each other and with a current stabilizer to a constant voltage source and controlled (switched) by parallel-connected switches in the form of transistors, to the bases of which through protective diodes supplied control voltage from a source of constant voltage. When a transistor connected in parallel to each LED is open, it bypasses the LED and the latter does not light, and when it is closed, it lights. In this scheme, the power source energy is consumed more economically, since the same current flows sequentially through all the LEDs, and the element that stabilizes the current is one for all the LEDs, and the O-2 power dissipated on it is small. Such a switching circuit of LEDs is the more advantageous the larger the supply voltage and, therefore, the greater the number of series-connected LEDs can be connected to the power source C. The disadvantage of the known circuit is that, in the display devices, along with the modes when one or several LEDs, a mode is possible when none of them is illuminated. However, in this case, the power supply from the power source still consumes the usual amount of current flowing through public keys and a current stabilizer. In this mode, it is advisable to minimize the current consumption by the circuit from the power source, which will improve the efficiency of the display device. The purpose of the invention is to reduce energy consumption. The goal is achieved by the fact that an OR element is inserted into a driver of LED control signals containing a chain of LEDs connected in series through a current regulator transistor to a power source and transistor switches, each of which are connected in parallel with a corresponding LED, and input to the input bus the inputs of which are connected to the input buses, and a separating element, which is connected between the output of the OR element and the base of the current stabilizer transistor. A diode is used as a separating element. The drawing shows the diagram of the former. The LED control signal generator 1-3 contains transistor switches 4-6, controlled by the voltage supplied from the input lines 7-9 to their bases through protective diodes 10-12, a current stabilizer assembled on the transistor 13 and resistors 14-16, the element OR 17 and the separation element is diode 18. The circuit is powered by a power source (not shown) having a positive 19 and a negative 20 bus. The device works as follows. When feeding to any of the tires, for example 7, potential, near or

equal to the potential at innne 19, the protective diode 10 is closed and, accordingly, the shunt LED of key 4, since the base current of the latter stops flowing. At the same time, the output element OR 17 establishes a potential close to the voltage on the bus 19, the locking diode 18. The potential of point 21 is determined by the voltage of the power supply and the resistor 14 and 15, and the transistor 13 together with the resistors 14-16 works as a stabilizer current, determine the operating current of the circuit. As a result, LED 1 lights up. Similarly, the circuit operates when a potential is applied close to the potential on bus 19 and on the others (one or simultaneously on several inputs of the circuit. When applied to any input bus, for example, 8, the potential close to or equal to the potential of the bus 20 is unlocked diode, 11, ensuring the passage of the current of the transistor switch 5, which opens and shunts the LED 2 connected in parallel with it; as a result, it goes out. If all input buses

a potential close to the potential of the tire 20 is applied at the output of the element

17 a potential close to the potential of the bus 20 is also set. Diode

18 retracts and the potential of point 21 becomes close to the potential of bus 20. As a result, transistor 13 is almost locked and the current through transistor switches 4-6 decreases to almost zero, despite the fact that they are all open.

The operation of the circuit will not change if the number of LEDs is chosen arbitrarily.

The technical advantage of the invention in comparison with the prototype is a greater economy in a mode in which none of the lights are on. LEDs. Increasing the efficiency of the display device in this mode improves the efficiency of the device as a whole, as it allows you to save electricity.

The use of the proposed scheme in the equipment with battery power, for example in a portable test equipment, will increase its service life without changing batteries.

Claims (1)

LED CONTROL SIGNAL SHAPER !, containing a chain of LEDs connected in series through a current regulator transistor to a power source, and transistor switches, each of which is connected in parallel with the corresponding LED and the input to the input bus, which differs in that, in order to reduce power consumption, an OR element is introduced into it, the inputs of which are connected to the input buses, and a separation element that is connected between the output of the OR element and the base of the transistor of the current stabilizer. 1 10833