RU2474093C1 - Electric circuit of supply to light diode lamp - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: electric circuit of supply to a light diode lamp comprises a unit of light diode supply, a unit to control mode of operation of a light diode supply unit, providing for start-up of a duty mode of lower brightness of light diodes glow and working mode of nominal brightness of light diodes glow, an illumination sensor, a presence sensor, electrically connected providing for connection of the duty mode whenever there is a signal available from the outlet of the illumination sensor, corresponding to the illumination value, lower than the specified limit, and transfer from the duty mode into the working mode whenever there is a signal from the outlet of the presence sensor, corresponding to presence of an object in the area of action of the specified sensor. The control unit is arranged with provision of supply unit operation in the mode of indication of available power connected whenever the electric circuit of supply is energised, and generation of a signal in the specified mode, which controls connection of the illumination sensor. At the same time the control unit is made with provision of supply unit operation in the specified mode whenever there is a signal available from the illumination sensor outlet corresponding to the illumination value, which is more than the specified limit.

EFFECT: higher electric safety of a light diode lamp.

4 cl, 1 dwg

Description

The invention relates to lighting equipment, and in particular to energy-saving LED lamps used primarily for lighting porches, stairwells and corridor rooms.

Currently, energy-saving LED luminaires are being actively developed, the power supply circuit of which ensures the operation of these luminaires both in full power mode with the nominal LED illumination (in operating mode) and in standby mode, characterized by significantly lower power consumption, with reduced brightness LEDs.

So, the electric power supply circuit of a LED lamp is known [RU 91789], which provides the ability to remotely set its operation modes using a programmable microcontroller that controls the LED blocks of the lamp, which receives commands via network wires from the lamp power switch. When the specified switch is turned on for the first time, the operating mode of full power is set, if the indicated switch is immediately turned on and off again, the standby mode with less power consumption is set, and if the specified switch is turned on for the third time, the emergency lighting mode is activated when the main network disappears.

The disadvantage of the considered electrical power supply circuit of the LED lamp is that it does not automatically turn on the indicated modes of operation of the lamp.

Known electrical circuit power LED lamp, described in RU 2366120, which is selected as the closest analogue.

The considered power supply circuit contains an LED power supply unit, a control unit for the operation mode of the LED power supply unit, which enables the standby mode of low brightness of the LEDs and the operating mode of the nominal brightness of the LEDs, an ambient light sensor that automatically turns on / off the lamp when dark-light, and a sensor presence, responsive to the presence of an object located in the lighting zone of the lamp. Moreover, these elements of the power supply circuit are electrically connected to each other to ensure that the standby mode is activated when there is a signal from the output of the light sensor corresponding to an illumination value less than a predetermined limit, and the transition from the standby mode to the operating mode when there is a signal from the output of the presence sensor corresponding to the presence object in the range of the specified sensor.

The considered power scheme provides significant energy savings due to automatic switching of the operating modes of the LED power supply based on the signals from the light sensor and the presence sensor.

However, this power scheme does not provide the ability to indicate the presence of power in it. This leads to the fact that in the daytime, when the illumination is above a predetermined limit, the standby or operating modes turn off, and, accordingly, the LEDs do not emit sufficient light flux for the purpose of lighting, it is impossible to visually determine if a current is flowing or is missing in the power circuit, which may lead to a decrease in electrical safety of installation work during installation and operation of the lamp.

The task of the invention is to increase the electrical safety of an LED lamp.

The essence of the invention lies in the fact that in the electrical power supply circuit of the LED lamp, including the LED power supply unit, the control unit of the operating mode of the LED power supply unit, which enables the standby mode of low brightness of the LEDs and the operating mode of the nominal brightness of the LEDs, light sensor, presence sensor, electrically connected with ensuring the inclusion of standby mode in the presence of a signal from the output of the light sensor corresponding to the amount of illumination less than a predetermined limit, and the transition from the standby mode to the operating mode in the presence of a signal from the output of the presence sensor corresponding to the presence of an object in the range of the specified sensor, according to the invention, the control unit is configured to operate the power supply in the mode of indicating the presence of power, turned on when powered power supply circuit, and generating in the indicated mode a signal that controls the inclusion of the ambient light sensor, while the control unit is configured to operate the power supply in the decree SG mode when a signal from the light sensor output corresponding to the magnitude of illumination, greater predetermined limit.

In the particular case of carrying out the invention, the power supply circuit includes a delay unit, which ensures the operation of the power supply unit in the operating mode for a predetermined time interval after switching on the specified mode and generating a signal at the end of the specified time interval by which the specified mode is turned off.

In the particular case of the invention, the signal generated by the delay unit at the end of a predetermined time interval is electrically connected to the input of the light sensor and is a signal that controls the operation of the specified sensor.

In the particular case of the invention, the signal from the output of the presence sensor corresponding to the absence of an object in the coverage area of the specified sensor is electrically connected to the input of the light sensor and is a signal that controls the operation of the specified sensor.

The presence in the claimed power supply circuit of the LED power supply, the control unit of the specified power supply, an ambient light sensor, a presence sensor, electrically connected to ensure that the standby mode is turned on when the illumination is less than the specified limit, and the transition from the standby mode to the operating mode when there is a signal from the presence sensor output, corresponding to the presence of an object in the range of the specified sensor, provides automatic switching of the operating modes of the LED power supply, due to which it reaches significant energy savings.

So, in the standby mode, which turns on when the illumination is less than the specified limit, and remains until the output sensor of the presence sensor has a signal corresponding to the presence of the object in the range of the specified sensor, the brightness of the LEDs reaches 10-30% of the nominal brightness, and, accordingly, less power is consumed. The full power mode, in which the nominal brightness of the LEDs is provided, is periodic, since the control unit is designed to ensure that the power supply switches from the standby mode to the operating mode by a signal corresponding to the presence of an object in the coverage area of the presence sensor, and with the possibility of returning from the working mode to standby mode upon completion of the development of the presence of the specified signal by the sensor

It is fundamentally important in the inventive power supply circuit that the control unit is configured to operate the power supply unit in the power supply indication mode, which is turned on when the power supply circuit is powered up. Moreover, due to the fact that the light sensor is included in the operation in the specified mode, and the control unit is configured to operate the power supply in the specified mode, when the illumination value is greater than the specified limit, this mode is maintained until the illumination value is less than the specified limit .

That is, in the daytime, when the amount of illumination is above a predetermined limit, the standby or operating modes turn off, and, accordingly, the LEDs do not create a sufficient light flux for lighting purposes, in the power availability indication mode, the control unit provides an indicator signal that signals the presence of current in the power circuit, thereby increasing the electrical safety of the lamp.

The indicated indicator signal can be generated, in particular, by energizing the LEDs with the lowest possible current, at which the brightness of the LEDs is minimal, they do not create a sufficient luminous flux for the purpose of illumination, but are visually distinguishable.

Thus, the technical result achieved by the implementation of the invention is to increase the electrical safety of the LED lamp.

In the case when the signal from the output of the presence sensor, corresponding to the absence of an object in the coverage area of the specified sensor, is electrically connected to the input of the light sensor and is a signal that controls the operation of the specified sensor, the standby mode is maintained by the signal from the light sensor. In this case, in the absence of an object in the coverage area of the presence sensor, the standby mode is maintained as long as the amount of illumination remains below a predetermined limit. As soon as the amount of illumination becomes above a predetermined limit, the power supply switches to a more economical mode of indicating the presence of power. This helps reduce energy consumption.

In the case where the power supply circuit contains a delay unit, which ensures the operation of the power supply unit in the operating mode for a predetermined time interval after switching on the specified mode and generating a signal at the end of the specified time interval by which the specified mode is turned off, the operating mode is maintained for a certain specified interval time regardless of the presence sensor. This increases the usability of the lamp.

In this case, the control unit is configured to switch the power supply from the operating mode to the standby mode when a signal appears at the output of the delay unit, which is generated by it at the end of the specified time interval.

In the case when the signal generated by the delay unit at the end of a predetermined time interval is electrically connected to the input of the light sensor and is a signal that controls the operation of the specified sensor, a transition from the operating mode to standby mode is provided by the signal from the light sensor. In this case, the standby mode is maintained as long as the amount of illumination remains below a predetermined limit. As soon as the illumination value exceeds a predetermined limit, the power supply switches from the operating mode to a more economical mode of indicating the presence of power. It also helps reduce energy consumption.

The figure shows a functional diagram characterizing the operation of the electrical power circuit.

The power supply circuit includes an LED power supply unit (not indicated in the drawing), as well as a control unit 1 for the LED power supply unit, providing the setting of its operating modes. At the same time, the control unit 1 provides the task of the mode 2 of the indication of the presence of power (conditionally shown in the drawing by the block indicated by 2); standby mode 3 (conventionally shown in the drawing by the block indicated by 3); operating mode 4 (conventionally shown in the drawing by the block indicated by 4).

The power circuit also includes a light sensor 5 and a presence sensor 6, which can be used, in particular, an acoustic noise sensor or a motion sensor.

In addition, the power circuit includes a delay unit 7, for which, in particular, a cycle counter is used.

The first output signal 8 of the light sensor 5, corresponding to a light value greater than a predetermined limit, is connected to the control unit 1 to enable the mode 2 to indicate the presence of power and generate a first signal 9 that controls the operation of the light sensor 5. The second output signal 10 of the light sensor 5, corresponding to a light value less than a predetermined limit, is connected to the control unit 1 to enable standby mode 3 and generate a signal 11 supplied to the input of the presence sensor 6 and controlling its operation.

The first output signal 12 of the presence sensor 6, corresponding to the presence of the object in the zone of its operation, is connected to the control unit 1 to enable the operating mode 4. The second output signal 13 of the presence sensor 6, corresponding to the absence of the object in its zone of operation, is connected to the input of the light sensor 5 and is the second signal controlling its work.

The control unit 1 is configured to generate, in the operating mode 4, a signal 14 controlling the activation of the delay unit 7 (cycle counter). The first output signal 15 of the delay unit 7, generated before the expiration of a predetermined time interval (when the number of cycles is less than a predetermined number), is connected to the control unit 1 to enable the operation mode 4. The second output signal 16 of the delay unit 7, generated after the expiration of a predetermined time interval ( when the number of cycles becomes greater than a predetermined number), is connected to the input of the light sensor 5 and is the third signal that controls its operation.

The power supply circuit is energized when power is supplied to the input of the key 17, which ensures the inclusion of indication mode 2.

The device operates as follows.

When applying power to the input 17, the control unit 1 provides the inclusion of display mode 2 and the generation of a signal 9, which controls the inclusion of the light sensor 5.

In the event that at the output 8 of the sensor 5 there is a signal corresponding to the illumination value of more than a predetermined limit, the control unit 1 ensures that the indication mode 2 is maintained.

If at the output 10 of the sensor 5 there is a signal corresponding to the illumination value less than a predetermined limit, the control unit 1 provides the inclusion of standby mode 3 and the generation of a signal 11 that controls the inclusion of the sensor 6.

If at the output 13 of the sensor 6 a signal is generated corresponding to the absence of an object in the coverage area of the sensor 6, it is fed to the input of the sensor 5. Moreover, if at the output 10 of the sensor 5 there is a signal corresponding to the illumination value less than the specified limit, the control unit 1 ensures standby mode 3.

If the output 12 of the sensor 6 produces a signal corresponding to the presence of an object in the sensor 6 zone, the control unit 1 provides the inclusion of the operating mode 4. In this case, regardless of the readings of the sensor 6, the operating mode is maintained for a predetermined time interval until block 7 delay generates a signal 15.

At the end of the specified time interval, the delay unit 7 generates a signal 16, which is input to the sensor 5 and controls its operation.

If the output 10 of the sensor 5 produces a signal corresponding to the amount of illumination less than a predetermined limit, using the control unit 1 provides standby mode 3.

In the event that at the output 8 of the sensor 5 a signal is generated corresponding to the amount of illumination over a predetermined limit, the power indication mode 2 is activated using the control unit 1.

Claims (4)

1. The power supply circuit of the LED lamp, including the LED power supply unit, the control unit for the operation mode of the LED power supply unit, which enables the standby mode of low brightness of the LEDs and the operating mode, the nominal brightness of the LEDs, the light sensor, the presence sensor, electrically connected to ensure the inclusion of standby mode in the presence of a signal from the output of the light sensor corresponding to a light value less than a predetermined limit, and a transition from standby mode in the operating mode in the presence of a signal from the output of the presence sensor corresponding to the presence of an object in the coverage area of the specified sensor, characterized in that the control unit is configured to operate the power supply in the mode of indicating the presence of power, which is turned on when the power supply circuit is powered, and generates the specified mode of the signal that controls the inclusion of the light sensor, while the control unit is configured to operate the power supply in the specified mode in the presence of a signal from the output of dates ika luminance corresponding to the magnitude of illumination, greater predetermined limit. 2. The power supply circuit according to claim 1, characterized in that the signal from the output of the presence sensor corresponding to the absence of an object in the coverage area of the specified sensor is electrically connected to the input of the light sensor and is a signal that controls the operation of the specified sensor. 3. The power supply circuit according to claim 1, characterized in that it comprises a delay unit, which ensures the operation of the power supply in operating mode for a predetermined time interval after switching on the specified mode and generating a signal at the end of the specified time interval by which the specified mode is turned off . 4. The power supply circuit according to claim 3, characterized in that the signal generated by the delay unit at the end of a predetermined time interval is electrically connected to the input of the light sensor and is a signal that controls the operation of the specified sensor.