NL1042305B1 - Lamp control circuit with two paths and two lines - Google Patents

Abstract

This invention relates to a lamp control circuit with two paths and two lines, including an AID switching regulator power module, a full bridge driving circuit module and a Light control module, the full bridge driving circuit module is composed of triode Q2-Q5, wherein triode Q2 and Q4 connect in cascade and then connect with triode Q3 and Q5 in parallel, connect the poles of said triode Q4 to resistor R15 and R16, and the poles of said Q5 connect to resistor R14 and R17, another pole of said resistor R15, the emitter of triode Q4, the other pole of resistor of R14 and the emitter of triode Q5 are connected to a high-voltage conductor (HV). With the invention one can control the pros and cons of the two line of the LED lamp string, and at the same time the power regulator and the control switch are brought together under a printed circuit board, e.g. the full bridge driving circuit module output, via an SMC four triode's current supply in two directions is controlled to switch the LED lamp string in pros and cons on and off.

Description

Patent center

1042305

(21) Application number: 1042305 (22) Application submitted: 15 March 2017 @ Int. Cl .:

H05B 33/08 (2017.01)

(4 ^ Request registered: (73) Patent holder (s): September 24, 2018 Zhengxian Shen in Linxiang, China, CN. (43) Application published: - (72) Inventor (s): Zhengxian Shen in Linxiang (CN). (47) Patent granted: September 24, 2018 (74) Agent: (45) Patent issued: P.J. Pollard B.Eng in Veldhoven. November 15, 2018

Two-way and two-line lamp control circuit (57) This invention is a two-way and two-line lamp control circuit including an A / D switching regulator power module, a full bridge driving circuit module and a Light control module, the full bridge driving circuit module is composed of triode Q2-Q5, in which triode Q2 and Q4 connect in cascade and then connect with triode Q3 and Q5 in parallel, connect the poles of said triode Q4 to resistor R15 and R16, and the poles of said Q5 to resistor R14 and R17, the other pole of said resistor R15, the emitter of triode Q4, the other pole of resistor of R14 and the emitter of triode Q5 are connected to a high-voltage conductor ( HV). With the invention one can control the pros and cons of the two line of the LED lamp string, and at the same time the power regulator and the control switch are brought together under a printed circuit board, e.g. the full bridge driving circuit module output, via an SMC four triode's current supply in two directions is controlled to switch the LED lamp string in pros and cons on and off.

NL Bl 1042305

This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent corresponds to the documents originally submitted.

ref .: P 2017 NL 007

Title: Lamp control circuit with two paths and two lines

Inventive activity

This invention relates to a lamp control circuit with two paths and two lines.

Background

Existing lamp control circuit with two ways and two lines on the market can often fail due to overload, therefore the discomfort is very large under 10 all kinds of lighting, and at the same time after the power failure the recovery procedure can confuse the setting such as the time setting and can lead to dangerous situstie.

Industrial applicability

With this solution of two-way and two-line lamp control circuit of the present invention, the aforementioned problem can effectively combat.

To achieve the goal, this solution is based on the following technical invinity:

Technical invinity 1: This invention involves a lamp control circuit with two paths and two lines, including an A / D switching regulator power module, a full bridge driving circuit module and a Light control module, the full bridge driving circuit module is composed from triode Q2-Q5, wherein triode Q2 and Q4 connect in cascade and then connect with triode Q3 and Q5 in parallel, connect the poles of said triode Q4 to resistor R15 and R16, and connect the poles of said Q15 to the resistor R14 and R17, the other pole of said resistor R15, the emitter of triode Q4, the other pole of resistor of R14 and the emitter of triode Q5 are connected to a high-voltage conductor (HV).

And both sides of high-voltage conductor are the high-voltage input and output port, the other pole of said resistor R16 and the collector of triode Q5 are connected to the output port OU2 of LED2, the other pole of said resistor R17 and the collector of triode Q4 are connected to the output port OU1 of LED1; the pros and cons of the two lines of the LED lamp string are connected with the output ports of OU1 and OU2 of LED1 and LED2, and therefore can be controlled via two paths with two lines, the collector of Q2 and the resistor R19 in cascade connect, and then connect to the 5th foot of Singlechip U2, cascade the collector of Q3 and the resistor R18, and then connect to the 6th foot of Singlechip U2, and at the same time connect the emitter of 5 Q2 and Q3 to earth terminal, ,

The input port of the aforementioned high voltage conductor HV connects with the output wire T1 of the transformer, and the output port of T1 of the transformer connects with A / D switching regulator power module; between the output port of transformer T1 and the full bridge driving circuit module, there are 10 connected capacitors of C3 and C4 in parallel, and moreover one side of capacitor C3 and C4 are connected with high-voltage conductor (HV), and connected to diode D7 and both sides of diode D7 are connected to capacitor C8 and resistor R9; said Light control module consists of a Singlechip U2, the 4th foot of Singlechip U2 is connected to one side of the switch SW1, and the other side of the switch SW1 is connected to ground, the 8th foot of said Singlechip U2 is connected with the parallel connected Zener diode ZD1 and the other side of capacitor C9, and the other side connects with one side of the resistor R10, and the other side of the resistor R10 is connected with the high-voltage conductor HV.

Technical invinity 2: The 2nd foot of the aforementioned Singlechip U2 is connected in cascade with resistor R11 and Crystal Oscillator CDS1, and connects with the 3rd foot of Singlechip U2, the 2nd foot and 3rd foot of the aforementioned Singlechip U2 is connected with the other side of capacitor C12 (R12) and C13 (R13), the other side of capacitor C12 (R12) and C13 (R13) is connected to ground, the aforementioned resistor R11 is with a resistor of 0 Ω, the aforementioned capacitor C12 is with a capacity of 15PF, and the aforementioned capacitor C13 is with a capacity of 20PF.

Technical invinity 3: The 1st foot of the aforementioned Singlechip U2 is first connected in cascade with resistor R20, light sensitive resistor or light sensitive tube 30 CDS1, and then connected with the 3rd foot of singlechip U2, the 2nd foot of aforementioned Singlechip U2 is first connected with resistor R13, and then grounded, the aforementioned light-sensitive resistor or light-sensitive tube CDS1 and the switch SW1 are grounded, and at the same time the resistance of the resistor R20 is 0 Ω, the resistance of R12 and R13 is between 5 ΚΩ35 100kD _o

Technical invinity 4: The 1st foot and 2nd foot of the aforementioned Singlechip U2 are connected via resistor R20 and resistor R13 to the positive pole of the light sensitive conductor or light sensitive tube CDS1, and the negative pole of the light sensitive conductor or light sensitive tube CDS1 is first connected to the

3rd foot of singlechip U2 and then connected in cascade with resistor R12, and connected to ground last, and the aforementioned resistor R20 is with a resistor of 0 Ω, the resistor of R12 and R13 is between 5 KQ-100kQ.

In comparison with the current technical approach, the invention is more effective in combating the problem. With the invention one can control the pros and cons of the two line of the LED lamp string, and at the same time the power regulator and the control switch are brought together under a printed circuit board, using the full bridge driving circuit module output, via an SMC four triode's current supply in two directions is controlled to the LED lamp string in pros and cons direction. The aforementioned pros and cons direction (two ways two lines) LED lamp string. In comparison with the traditional version of two-way three lines, a copper wire is saved during production. And by placing the control and nutrition in one, we end up more economically.

Explanation for the drawings

Drawing 1: Overview of the construction of this invention.

Drawing 2: Time control with Crystal Oscillator of this invention. Drawing 3: Light control and time control function of this invention. Drawing 4: Light control function of this invention.

Detail execution

After this, in combination with the drawings, the inventiveness will be explained in detail step by step. We strive to describe all technical solutions as detailed as possible, but despite so many examples, not everything can say. And with this we want to emphasize once again that all rights are reserved for the inventor.

The drawings of 1-4 have shown that this invention relates to a lamp control circuit with two paths and two lines, including an A / D switching regulator power module, a full bridge driving circuit module and a Light control module, the full bridge driving circuit module is composed of triode Q2-Q5, in which triode Q2 and Q4 connect in cascade and then connect with triode Q3 and Q5 in parallel, connect the poles of said triode Q4 to resistor R15 and R16, and the poles of said Q5 connecting to resistor R14 and R17, the other pole of said resistor R15, the emitter of triode Q4, the other pole of resistor of R14 and the emitter of triode Q5 are connected to a high-voltage conductor (HV) . And both sides of high-voltage conductor are the high-voltage input and output port, the other pole of said resistor R16 and the collector of triode Q5 are connected to the output port OU2 of LED2, the other pole of said resistor R17 and the collector of triode Q4 are connected to the output port OU1 of LED1; the pros and cons of the two lines of the LED lamp string are connected with the output ports of OU1 and OU2 of LED1 and LED2, and therefore can be controlled via two paths with two lines, the collector of Q2 and the resistor R19 in cascade connect, and then connect to the 5th foot of Singlechip U2, cascade the collector of Q3 and the resistor R18, and then connect to the 6th foot of Singlechip U2, and simultaneously connect the emitter of Q2 and Q3 to ground terminal; the voltage for the lighting can be stabilized via the full bridge driving circuit module, thus protecting the lamp string.

The aforementioned high voltage conductor HV's input port is connected to the transformer T1's output ring wire, and the aforementioned transformer T1's input port is connected to the A / D switching regulator power module, of which the A / D switching regulator power module is already known, do not provide further explanation for this. Between the aforementioned transformer TTs output ring wire and the full bridge driving circuit module there are capacitor C3 and C4 connected in parallel, and one side of C3 and C4 are connected with the high voltage conductor HV, and connect with diode D7, the two sides of the aforementioned diode D7 are connected to capacitor C8 and resistor R9;

The aforementioned light control module consists of a singlechip U2, the 4th foot of singlechip U2 connects with one side of the switch SW1, the other side of the switch SW1 is connected to ground, the 8th foot of singlechip U2 is connected with the parallel closed Zener diode ZD1 and capacitor C9, and the other side connects with the resistor R10, the other side of the resistor R10 connects with high voltage conductor HV; this means that the single chip U2 is supplied with power and via the zener diode ZD1 the single chip U2 can remain stable in operation.

And further: the 2nd foot of the aforementioned Singlechip U2 is connected in cascade with resistor R11 and Crystal Oscillator CDS1, and connects with the 3rd foot of Singlechip U2, the 2nd foot and 3rd foot of the aforementioned Singlechip U2 is connected with the other side of the capacitor C12 (R12) and C13 (R13), and the aforementioned resistor R11 is connected to a resistor of 0 Ω, the other side of the capacitor C12 (R12) and C13 (R13) is grounded. The aforementioned capacitor is C12 with a capacity of 15PF, and the aforementioned capacitor C13 is with a capacity of 20PF.

And further: the 1st foot of the aforementioned Singlechip U2 is first connected in cascade with resistor R20, light sensitive resistor or light sensitive tube CDS1, and then connects with the 3rd foot of singlechip U2, the 2nd foot of the aforementioned

Singlechip U2 is first connected to resistor R13, and then grounded, the aforementioned light-sensitive resistor or light-sensitive tube CDS1 and the switch SW1 are grounded, and at the same time the resistance of the resistor R20 is 0 Ω, the resistance of R12 and R13 is between 5 KQ-100kQ. Thereby activation of the light control is first set, i.e. a circuit of 8 hours of lighting + 14 hours of expansion + 2 hours of light-sensitive sensor-controlled mode in circulation has been realized.

And further: the 1st foot and the 2nd foot of the aforementioned Singlechip U2 are connected via resistor R20 and resistor R13 to the positive pole of the light-sensitive conductor or light-sensitive tube CDS1, and the negative pole of the light-sensitive conductor or light-sensitive tube CDS1 is first connected with the 3rd foot of singlechip U2 and then connected in cascade with the resistor R12, and connected to the last ground, and the aforementioned resistor R20 is with a resistor of 0 Ω, the resistor of R12 and R13 is between the 5 ΚΩ-100ΚΩ, thus a light control function has been realized.

For the technicians, it is clear to see that this invention is not only limited to these details of the aforementioned examples, in accordance with the principle and basic features of this invention, it can also be expressed in a different way. That is why we can consider the aforementioned way as a way to process, but not limited to previously demonstrated explanation. And generally the patent claims apply but not the explanation above. And the supplementary drawing of the appendices should not serve as a limitation for the conclusions either.

Incidentally, we can understand that the explanatory notes have already been extensively described, but it does not mean that it is any way for the solution, the way in which it is described simply serves as a way of explaining, and the technichi can explain it integrate into a whole, all applications are a flexible aspect to consider the solution and to master the idea.

Claims (4)

CONCLUSIONS 1. This invention relates to a lamp control circuit with two paths and two lines, including an A / D switching regulator power module, a full bridge driving circuit module and a Light control module, the full bridge driving circuit module is composed of triode Q2-Q5, in which triode Q2 and Q4 connect and cascade 5 then connect in parallel with triode Q3 and Q5 in parallel, connect the poles of said triode Q4 to resistor R15 and R16, and connect the poles of said Q5 to resistor R14 and R17, the other pole of said resistor R15, The emitter of triode Q4, the other pole of resistor of R14 and the emitter of triode Q5 are connecting to a high-voltage conductor (HV). Both sides of high10 voltage conductor are the high-voltage input and output port, the other pole of said resistor R16 and the collector of triode Q5 are connected to the output port OU2 of LED2, the other pole of said resistor R17 and the collector of triode Q4 are connected to the output port OU1 of LED1; the pros and cons of the two lines of the LED lamp string is connected with the output ports of 15 OU1 and OU2 of LED1 and LED2, and therefore can be controlled via two paths with two lines, cascade the collector of Q2 and the resistor R19, and then connect to the 5th foot of Singlechip U2, the collector of Q3 and the collector of Q3 and the cascade resistor R18, and then connect to the 6th base of Singlechip U2, and at the same time connect the emitter of Q2 and Q3 to ground terminal. The input port 20 of HV connects with the output wire T1 of the transformer, and the output port of T1 of the transformer connection with A / D switching regulator power module; between the output port of transformer T1 and the full bridge driving circuit module there are parallel connected capacitors of C3 and C4, and moreover one side of capacitor C3 and C4 are connected with high-voltage conductor (HV), and connected 25 with diode D7, and the two sides of diode D7 are connected with capacitor C8 and resistor R9; said Light control module consists of a Singlechip U2, the 4th foot of Singlechip U2 is connected to one side of the switch SW1, and the other side of the switch SW1 is connected to ground, the 8th foot of said Singlechip U2 is connected to the parallel connected Zener diode ZD1 and the other side of capacitor C9, and the other side connects with one side of the resistor R10, and the other side of the resistor R10 is connected with the high-voltage conductor HV. 2. According to claim 1, it appears that the two-way two-line lamp control circuit is characterized by the following: the 2nd foot of said Singlechip U2 is connected in cascade with resistor R11 and Crystal Oscillator CDS1, and connects with the 3rd foot of Singlechip U2, the 2nd foot and 3rd foot of the aforementioned Singlechip U2 is connected with the other side of the capacitor C12 (R12) and C13 (R13), the other side of the capacitor C12 (R12) and C13 (R13) is grounded, the aforementioned resistor R11 is with a resistor of 0 Ω, the aforementioned capacitor C12 is with a capacity of 15PF, and the aforementioned capacitor C13 is with a capacity of 20PF. 3. According to claim 1, it appears that the two-way lamp control circuit is two 10 lines, is characterized with the following: the 1st foot of the aforementioned Singlechip U2 is first connected in cascade with resistor R20, light sensitive resistor or light sensitive tube CDS1, and then connects with the 3rd foot of singlechip U2, the 2nd foot of the aforementioned Single chip U2 is first connected to resistor R13, and then connected to ground, the aforementioned light-sensitive resistor or light-sensitive 15 tube CDS1 and the switch SW1 are connected to ground, and at the same time the resistance of the resistor R20 is 0 Ω, the resistance of R12 and R13 is between 5 ΚΩ-10 (ΨΩ _ο 4. According to claim 1, it appears that the two-way lamp control circuit is two 20 lines, is marked with the following: the 1st foot and the 2nd foot of the aforementioned Singlechip U2 are connected via resistor R20 and resistor R13 to the positive pole of the light-sensitive conductor or light-sensitive tube CDS1, and the negative pole of the light sensitive conductor or light sensitive tube CDS1 is first connected with the 3rd foot of singlechip U2 and then connected in cascade 25 with the resistor R12, and connected to the last ground, and the aforementioned resistor R20 is with a resistor of 0 Ω, the resistor of R12 and R13 is between 5 Ω-10 (Ω).