RU174699U1 - Adjustable switching power supply for LEDs with low ripple current output - Google Patents

Abstract

The utility model relates to devices for converting input energy of direct or alternating current into energy of the required type, in particular, to pulsed sources of secondary power supply of LED lighting. The objective of the utility model is to reduce the level of ripple of the output current of an adjustable switching power supply for LEDs. To achieve a technical result in an adjustable switching power supply for LEDs with small ripples of the output current, designed to supply direct current to the cluster of LEDs connected in series and containing a rectifier, power factor corrector, DC / DC converter operating in the output current stabilization mode, and the converter output DC to DC, operating in the mode of stabilization of the output current, designed to be connected a cluster of series-connected LEDs, an active filter of ripple of the output current, connected in series with a cluster of series-connected LEDs, to the output of the DC / DC converter operating in the mode of stabilization of the output current, an additional input unit for isolating the variable component of the supply current of the LED cluster is connected, the output of which is connected with the input of an additionally introduced scaling unit and binding to a constant signal level, the variable was rail DC power LEDs, the output unit scaling and snap connected to the control input of the active filter output ripple current, wherein the output of scaling unit and variable anchor component is in antiphase with the output current ripple DC to DC converter operating mode output current stabilization.

Description

The utility model (PM) relates to devices for converting the input energy of direct or alternating current into the energy of the required type, in particular, to pulsed sources of secondary power supply of LED lighting.

The operation of switching power supplies for LED lighting is regulated by a number of requirements (SNiP 23-05-95). One of these requirements is the requirements for the amount of pulsation of the light flux generated by the light source. The reason for the ripple of the light flux is the ripple of the output current of the switching power supplies. In LED lighting fixtures, ripples of the supply current LEDs are more noticeably reflected in the ripples of the light flux, since the LED is a low-inertia device with respect to the supply current. For this reason, ripple of the output current of LED switching power supplies should be minimal.

In the field of lighting, in particular LED lighting, there is a need for dimmable light sources. There are two ways to control the light flux: by means of a thyristor regulator of electric power, which is turned on at the input of the LEDs power supply, and by supplying an external control signal with pulse-width modulation to the LEDs power source. In both cases, additional ripple is introduced into the output current of the power source. Without additional measures, the level of these pulsations, and consequently, the level of pulsations of the light flux becomes unacceptably large.

Known pulsed opto-insulated stabilized constant current source for LED lamp with small ripples of the output current (RF Patent No. 137169), consisting of a power factor corrector assembly, a transformer, a rectifier, a storage capacitor, a control assembly, a stable current source assembly, characterized in that to achieve small ripples of the output current and high efficiency when the load resistance varies over a wide range, a stable current source is used on the field effect transistor, covered tritsatelnoy coupling of the drain-source voltage than that provided by the constancy of the drain-source voltage regulating FET and consequently the constancy of the power loss at the load impedance change in a wide range.

Signs of an analogue that coincide with the essential features of the claimed PM are:

- node corrector power factor, in the claimed PM - corrector power factor;

- a rectifier, in the claimed PM - a rectifier;

- node source of stable current. in the claimed PM, a DC-DC to DC converter operating in the mode of stabilization of the output current;

- a way to turn on a stable current source on a field effect transistor to achieve small ripples of the output current in series with the load resistance, in the claimed PM - in series with the load resistance, which is a cluster of series-connected LEDs, an active filter of ripples of the output current is turned on.

The disadvantage of the analogue is not sufficiently large suppression of ripple current load. A constant voltage is maintained on the control element, the field effect transistor, of the stable current source. Reducing ripples of the load current is provided only due to smoothing in the secondary circuit of the analogue. The decrease in ripple of the load current is limited by the physical parameters of the applied electronic components and cannot be arbitrarily large.

Of the known technical solutions, the closest is the LED driver for supplying a control current to one or more LEDs (RF Patent No. 117766), containing:

- a rectification section for receiving AC voltage and converting it into a rectified voltage, and

- a section of a single-stage buck converter for converting the rectified voltage into a DC voltage with a level that is suitable for connection with one or more LEDs for supplying a control current to them,

characterized in that it further comprises a section of a pulse current stabilizer connected to the output of the section of a single-stage buck converter to prevent ripple of the supplied control current.

Signs of the prototype, coinciding with the essential features of the claimed PM, are:

- rectification section for receiving AC voltage and converting it to rectified voltage, in the claimed PM - rectifier;

- section of a single-stage step-down converter for converting rectified voltage to DC voltage, in the claimed PM - DC-DC converter;

- the purpose of a single-stage step-down converter for converting the rectified voltage into a DC voltage for connecting with one or more LEDs for supplying a control current to them, the claimed PM - is designed to supply direct current to a cluster of series-connected LEDs;

- section of a pulsed current stabilizer, in the claimed PM - a DC to DC converter, operating in the mode of stabilization of the output current.

The disadvantage of the prototype is the insufficient suppression of ripple supplied control current of one or more LEDs.

The objective of the proposed PM is to reduce the level of ripple of the output current of an adjustable switching power supply for LEDs.

The technical result is achieved by the fact that in the known device, to the output of the DC / DC converter operating in the output current stabilization mode, an additional input unit for isolating the variable component of the power supply current of the LED cluster is connected, the output of which is connected to the input of the additional input unit for scaling and binding to a constant level the signal of the variable component of the power supply current of the LEDs, the output of the scaling and binding unit is connected to the control input of the active about a filter of ripples of the output current, and the variable component of the output signal of the scaling and binding unit is in antiphase with ripples of the output current of the DC-DC converter operating in the output current stabilization mode.

To achieve a technical result in an adjustable switching power supply for LEDs with small ripples of the output current, designed to supply direct current to the cluster of LEDs connected in series and containing a rectifier, power factor corrector, DC / DC converter operating in the output current stabilization mode, and the converter output DC to DC, operating in the mode of stabilization of the output current, designed to be connected a cluster of series-connected LEDs, an active filter of ripple of the output current, connected in series with a cluster of series-connected LEDs, to the output of the DC / DC converter operating in the mode of stabilization of the output current, an additional input unit for isolating the variable component of the supply current of the LED cluster is connected, the output of which is connected with the input of an additionally introduced scaling unit and binding to a constant signal level, the variable was rail DC power LEDs, the output unit scaling and snap connected to the control input of the active filter output ripple current, wherein the output of scaling unit and variable anchor component is in antiphase with the output current ripple DC to DC converter operating mode output current stabilization.

The claimed PM is shown in the drawing (Fig. 1) - an adjustable switching power supply for LEDs with small ripples of the output current.

In FIG. 1 is a structural diagram of an adjustable switching power supply for LEDs with small ripples of the output current. The block diagram contains a rectifier 1, the output of which is connected to a power factor corrector 2. The output constant voltage of the output of the corrector of the power factor 2 is converted to a constant voltage supply of the required value by the DC / DC converter 3, and the DC / DC converter 3 operates in the output current stabilization mode . A cluster of series-connected LEDs 4 is connected to the output of the DC / DC converter 3. An active ripple filter of the output current 5 is connected in series with the cluster of series-connected LEDs 4. The cluster of series-connected LEDs 4 and the active ripple filter of output current 5 are the load of the regulated switching power supply for LEDs with small ripples of the output current. An output unit of the variable component 6 of the power supply of the LED cluster is connected to the output of the DC-to-DC converter 3, the output of which is connected to the input of the scaling unit and the reference to the constant level 7 of the signal of the variable component of the power supply LEDs. The output signal of the block scaling and binding to a constant level 7 is connected to the active ripple filter of the output current 5 as a control signal.

When connecting the device to the supply voltage of the alternating current, the rectifier 1 converts the alternating voltage into a constant ripple voltage. The power factor corrector 2, connected to the output of the rectifier 1, corrects the shape of the current consumed from the mains supply at the input of the device and generates a constant voltage at its output. The DC-to-DC converter 3 converts the output voltage of the power factor corrector 2 into a constant voltage of the required value to power the cluster of LEDs 4. The DC-to-DC converter 3 operates in the output current stabilization mode.

The variable component extraction unit 6 generates an alternating voltage signal at its output, similar in form to voltage ripples at the output of the DC-DC to DC converter 3. In the scaling and reference unit to constant level 7, the output signal of block 6 is summed with constant voltage. The output signal of block 7 is a control signal for the active ripple filter of the output current 5. The variable component of the control signal is in antiphase with the ripple component in the output current of the source. Since the shape of the variable component of the control signal is similar to the shape of the voltage ripple at the output of the DC / DC converter 3, the variable components are subtracted and, accordingly, the ripple in the output current of the device is reduced.

If the amplitudes of the alternating components in the composition of the output current are equal, created by the output of the DC / DC converter 3 and the combined action of blocks 6, 7, 5, ripple suppression occurs. The existing error in the suppression of pulsations is associated with a delay in the propagation of the electric signal through blocks 6, 7, 5. The most dangerous pulsations of the light flux are considered pulsations with frequencies up to 300 Hz. Modern electronic components and the level of achieved circuitry solutions make it possible to create pulsed devices and their control circuits with operating frequencies up to tens of megahertz. Thus, the propagation delay of the electric signal through blocks 6, 7, 5, inversely proportional to the value of tens of megahertz, is significantly less than the size of the ripple period inversely proportional to 300 Hz, and, therefore, the ripple of the output current is effectively suppressed.

The claimed PM and prototype have the same sign - the power supply current stabilizer of the LEDs.

The current stabilizer in the prototype is connected in series with the powered LEDs and its purpose is to reduce the level of ripple in the power supply current of the LEDs. The pulse current stabilizer according to the principle of operation and design is similar to the previous blocks for converting the input voltage of the alternating current in the design of the prototype and, accordingly, has a similar value of their own output pulsations. For this reason, the magnitude of the ripple of the output current in the prototype is determined by the sum of the output ripple of the pulse current stabilizer and the ripple of a single-stage buck converter for converting the rectified voltage to DC voltage. The value of this sum depends on the ratio of the instantaneous phases of the output pulsations of the pulsed current stabilizer and the pulsations of a single-stage buck converter. The prototype does not have a common generator that controls the operation of the device, the operating frequencies of the pulsed current stabilizer and a single-stage buck converter are mutually asynchronous, and, therefore, periodically, with the beat frequency between the working frequencies of the pulsed current stabilizer and a single-stage buck converter, the ripple increases equality of phases of the indicated frequencies.

In the claimed PM, current stabilization is carried out in a DC-to-DC converter, and an active filter is used to reduce ripple of the power supply current of the LEDs. The ripple suppression in the PM is implemented by means of an active filter that implements antiphase active regulation of the output current. The active filter introduces ripples into the LED diode power supply circuit that are similar in shape and phase-opposite to ripples at the output of the DC-DC converter. In the output circuit of the PM, the ripples introduced by the DC / DC converter are subtracted and similar in form of ripples introduced by the active filter. In the claimed PM, the specified process is continuous and does not depend, as in the prototype, on the ratio of the operating frequencies of individual pulse units of the device. Thus, in comparison with the prototype, the claimed PM provides a lower level of ripple in the power supply circuit of the LEDs.

Claims (2)

An adjustable switching power supply for LEDs with small ripples of the output current, designed to supply direct current to the cluster of LEDs connected in series and containing a rectifier, power factor corrector, DC / DC converter operating in the output current stabilization mode, and the output of the DC / DC converter, operating in the stabilization mode of the output current, designed to connect a cluster of series-connected todiodov, the active filter output current ripple is included in series with the series-connected LED cluster, characterized in that to the output of the DC-DC to DC converter operating in the mode of stabilization of the output current, an additionally introduced block for isolating the variable component of the power supply current of the LEDs cluster is connected, the output of which is connected to the input of the additionally introduced scaling unit and for linking to a constant signal level the variable component of the power supply LEDs, the output of the block scaling and binding is connected to the control input of the active ripple filter of the output current, and the variable component scaling the output signal and the binding unit is in antiphase with the output current ripple DC to DC converter operating mode output current stabilization.

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