1. Field of the Invention
The present invention relates to a LED driver circuit, and more particularly to a LED driver circuit, of which at least one bias current is drawn from a load current flowing out of a LED module, and a low voltage controller can be used for controlling a switching operation to deliver the load current.
2. Description of the Related Art
In the architecture of the prior art LED driver circuit, the LED driver 100, drawing a bias current Ibias from an DC voltage source VIN—for example 127V, is used for generating a PWM signal VG with a duty cycle in response to a current sensing voltage VCS.
The NMOS transistor 101 is used to control the magnetic flux transformation through the inductor 104 in response to the PWM signal VG. When the NMOS transistor 101 is during a turn-on period, the LED module 103, the inductor 104, the NMOS transistor 101, and the resistor 102 will constitute a conduction path to store the magnetic flux in the inductor 104; when the NMOS transistor 101 is during a turn-off period, a conduction path composed of the LED module 103, the inductor 104, and the diode 105 will be formed to release the magnetic flux from the inductor 104.
The resistor 102, connected between the NMOS transistor 101 and a reference ground, is used for converting the current, which corresponds to the magnetic flux being stored in the inductor 104, to the current sensing voltage VCS when the NMOS transistor 101 is during a turn-on period.
The LED module 103 is the load of the LED driver circuit.
The inductor 104 is used for carrying the magnetic flux to provide a current to drive the LED module 103.
The diode 105 is used for releasing the magnetic flux in the inductor 104 to drive the LED module 103.
Through a periodic on-and-off switching of the NMOS transistor 101, which is driven by the PWM signal VG generated from the LED driver 100, the input power from the voltage source VIN is transformed through the inductor 104 to the LED module 103 in the form of a regulated current.
However, there are disadvantages in the prior circuit of
Therefore, there is a need to provide a LED driver circuit which is more power saving and cost effective.
Seeing this bottleneck, the present invention proposes a novel LED driver circuit, providing at least one bias current from a load current flowing out of a LED module, and allowing a low voltage controller for controlling a switching operation to deliver the load current.
The primary objective of the present invention is to propose a LED driver circuit of which at least one bias current is drawn from a load current flowing out of a LED module and therefore will help to save power consumption of the voltage source.
Another objective of the present invention is to propose a LED driver circuit of which a low voltage controller can be used to reduce the cost.
Still another objective of the present invention is to propose a LED driver circuit of which a low leakage current can be achieved when a LED module is open circuited due to some abnormal situations.
To achieve the foregoing objectives of the present invention, a novel LED driver circuit is proposed, the circuit including: a LED module, having a first input end and a first output end, the first input end being coupled to an input voltage; a bias circuit, having a second input end and a second output end, the second input end being coupled to the first output end; a first switch, having a first gate terminal, a first channel input terminal and a first channel output terminal, the first gate terminal being coupled to the second output end; an inductor, coupled between the first output end and the first channel input terminal; a regulator, having a third input end and a third output end, the third input end being coupled to the first channel output terminal; a controller, having a supply voltage input terminal, a current sensing input terminal and a pulse output terminal, the supply voltage input terminal being coupled to the third output end; a second switch, having a second gate terminal, a second channel input terminal and a second channel output terminal, the second gate terminal being coupled to the pulse output terminal, the second channel input terminal being coupled to the first channel output terminal, and the second channel output terminal being coupled to the current sensing input terminal; and a current-to-voltage converter, coupled between the second channel output terminal and a reference ground.
To make it easier for our examiner to understand the objective of the invention, its structure, innovative features, and performance, we use a preferred embodiment together with the accompanying drawings for the detailed description of the invention.
The present invention will be described in more detail hereinafter with reference to the accompanying drawings that show the preferred embodiment of the invention.
Please refer to
The LED module 200—having an input end and an output end, the input end being coupled to a voltage source VIN and the output end being coupled to one end of the inductor 209—is the load of the LED driver circuit and it carries a load current IL when the LED driver circuit is in normal operation.
The resistor 201, capacitor 202 and zener diode 203 constitute a bias circuit to provide a bias voltage VB, wherein the bias circuit is coupled to the output end of the LED module 200 and a bias current Ib1 is drawn therefrom.
The NMOS transistor 204, having a gate terminal coupled to VB, a drain terminal coupled to the other end of the inductor 209, and a source terminal coupled to an input end of the regulator 205, is on when the LED driver circuit is in normal operation, and off when the LED module 200 is open circuited. As such, it can serve to reduce leakage current through the diode 210 when the LED module 200 is open circuited.
The regulator 205 has an input end coupled to the source terminal of the NMOS transistor 204 and an output end to provide a low DC voltage VDD, and the current flowing into the regulator is coming from the current flowing out of the LED module 200. The regulator 205 can be, for example but not limited to a combination of a diode and a capacitor.
The controller 206, biased by VDD and consuming a current Ib2, generates a gating signal VG according to a current sensing signal VCS to regulate the load current IL. In this circuit, the controller 206 can be implemented with a low voltage one.
The NMOS transistor 207, having a gate terminal coupled to VG, a drain terminal coupled to the source terminal of the NMOS transistor 204, and a source terminal coupled to VCS, is used as a control means to regulate the load current IL. The physical size of the NMOS transistor 207 can be much smaller than that of the NMOS transistor 204 to reduce switching loss.
The resistor 208, coupled between the source terminal of the NMOS transistor 207 and a reference ground, is used to carry VCS.
The inductor 209, coupled between the output end of the LED module 200 and the drain terminal of the NMOS transistor 204, is used to store a quantity of magnetic energy. The diode 210 is used to discharge the magnetic energy in the inductor 209 to the LED module 200 when the NMOS transistor 207 is off, and the capacitor 211 is used to filter out the noise from the LED module 200.
When VIN is applied, a current path consisting of the LED module 200, the resistor 201 and the zener diode 203 is formed first to build up VB to turn on the NMOS transistor 204. Then a current will flow through the regulator 205 to produce VDD and the controller 206 will start to switch the NMOS transistor 207 to regulate the load current IL. When the LED module 200 is open circuited due to some abnormal situations, VB will decrease and the NMOS transistor 204 will be switched off, and the switching operation will be shut down. Compared with the LED driver 100 in the prior circuit of
As can be seen from the specification above, the bias currents Ib1 and Ib2 are from IL, and the controller 206 can be implemented with a low voltage one, therefore the present invention—more power saving and cost effective—does improve the LED driver circuits and is worthy of being granted a patent.
While the invention has been described by way of example and in terms of a preferred embodiment, it is to be understood that the invention is not limited thereto. To the contrary, it is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures.
In summation of the above description, the present invention herein enhances the performance than the conventional structure and further complies with the patent application requirements and is submitted to the Patent and Trademark Office for review and granting of the commensurate patent rights.
Number | Name | Date | Kind |
---|---|---|---|
7321206 | Kang et al. | Jan 2008 | B2 |
7583034 | Lara-Ascorra et al. | Sep 2009 | B2 |
7830097 | Kunimatsu | Nov 2010 | B2 |
Number | Date | Country | |
---|---|---|---|
20110285678 A1 | Nov 2011 | US |