DE202018106854U1 - Universal compatible OLED drive module - Google Patents

Abstract

A universal compatible OLED drive module comprising at least one rectifier unit (10) capable of passing an input voltage; a filter unit (20) connected to the rectifier unit (10) and capable of filtering the noise signals to stabilize the input voltage; a control unit (30); connected to the filter unit (20) and capable of converting the input voltage according to the operating voltage of the OLED to provide a constant current; a conversion and protection unit (40) connected to and usable with the control unit (30) To detect operating voltage of the OLED, so that the control unit (30) according to the measurement result provides the constant current; and an output unit (50) connected to the conversion and protection unit (40) and which may be used to provide the constant current to the OLED.

Description

Technical area

The invention relates to a drive module, in particular a universally compatible OLED - Drive module that automatically adjusts the input voltage to the working voltage OLED can convert.

State of the art

With regard to the development of today's technology, lighting and display technology are constantly evolving. One of the existing light source structures uses an organic light emitting diode ( OLED ), which, in contrast to incandescent lamps, fluorescent lamps, etc., is a compact, mercury-free, UV-free and planar light source. Therefore, it is considered as a new trend in light sources.

Since the efficiency, the area size and the structure of the OLEDs from different manufacturers are different, the working voltage value of the OLED covers a large area, so that different drive modules of different types are required for the OLEDs. It is not possible to drive a large number of OLEDs with different specifications with a single drive module.

Object of the invention

The invention is based on the object, a universally compatible OLED To create the input voltage automatically in the working voltage of the OLED can convert.

Technical solution

This object is achieved by the invention universally compatible OLED Drive module, comprising: a rectifier unit; a filter unit connected to the rectifier unit and capable of filtering out the noise signals to stabilize the input voltage; a control unit which is connected to the filter unit and according to the working voltage of the OLED can convert the input voltage to provide a constant current; a conversion and protection unit which is connected to the control unit and can be used to control the working voltage of the OLED to detect so that the control unit provides the constant current according to the measurement result; and an output unit connected to the conversion and protection unit and usable to supply the constant current to OLED to deliver.

The advantages of the invention universally compatible OLED Drive modules are:

The conversion and protection unit can reduce the working voltage of the OLED detect the input voltage automatically in the working voltage of the OLED and provide a constant current, whereby the invention is suitable for OLEDs with different voltage specifications.

list of figures

• 1 shows a block diagram of the invention,
• 2 shows a circuit diagram of the invention and
• 3 shows a schematic representation of a preferred embodiment of the invention.

Detailed Description of the Preferred Embodiment

1 shows a block diagram of the universal compatible OLED Drive module according to the invention. The invention OLED Drive module can automatically convert the input voltage to the working voltage of OLEDs that have different voltage specifications, and includes a rectifier unit 10 , a filter unit 20 , a control unit 30 , a conversion and protection unit 40 , an output unit 50 and a dimming unit 60 , The rectifier unit 10 can pass an input voltage and provide reverse polarity protection. The filter unit 20 is with the rectifier unit 10 and can filter out the noise signals to stabilize the input voltage. The control unit 30 is with the filter unit 20 connected and can according to the working voltage of the OLED convert the input voltage to provide a constant current. The conversion and protection unit 40 is with the control unit 30 connected and can be used, the working voltage of the OLED to detect, so the control unit 30 provides the constant current according to the measurement result. The output unit 50 is with the conversion and protection unit 40 connected and can be used to supply the constant current to the OLED to deliver the operation of the OLED allows. The dimming unit 60 is with the control unit 30 connected and can receive a dimming signal and to the control unit 30 send, causing the control unit 30 generates a dimming command according to the dimming signal and the output unit 50 to the OLED can spend, so that the OLED emitted according to the dimming command light.

The conversion and protection unit 40 can also be the dynamic tension of OLED stabilize and operate the OLED continuous monitor. If the conversion and protection unit 40 determines that the tension of the OLED exceeds a threshold value, the conversion and protection unit 40 the control unit 30 switch off to ensure a constant current.

2 shows a circuit diagram of the inventive universal compatible OLED -Antriebsmoduls. As shown, the control unit includes 30 which is one of the most important core techniques of the invention: an integrated circuit U with an Isense pin, a VIN pin, a GND pin, an EN pin, an ADJ pin, and an LX pin; a first resistance R1 , whose first connection to the Isense pin of the integrated circuit U and the positive connection of the OLED and its second terminal is connected to the VIN pin of the integrated circuit U connected is; a second resistor R2 that with the first resistance R1 is connected in parallel; a first capacitor C1 , whose two terminals connect to the first terminal of the first resistor R1 and grounding are connected; a first zener diode D1 , its cathode and anode with the VIN pin and the LX pin of the integrated circuit U are connected; a second capacitor C2 , whose two connections to the LX pin of the integrated circuit U and grounding are connected; a third capacitor C3 whose two terminals are connected to the ADJ pin and ground; and an inductor L , whose two connections to the LX pin of the integrated circuit U and the negative connection of the OLED are connected. The integrated circuit U can emit a constant current together with the peripheral components. The first resistance R1 and the second resistance R2 can be used to set the constant current.

The conversion and protection unit 40 , which is another core technique of the invention, includes: a first diode D2 , whose anode is connected to the EN pin of the integrated circuit U connected is; a third resistance R3 , whose two connections to the positive terminal OLED + of the OLED and the cathode of the first diode P2 are connected; a first transistor Q1 whose collector is connected to the cathode of the first diode D2 is connected and whose emitter is connected to the ground; a second transistor Q2 whose base is connected to the cathode of the first diode D2 is connected and whose collector to the base of the first transistor Q1 connected is; a fourth resistance R4 , whose two connections to the positive terminal OLED + of the OLED and the emitter of the second transistor Q2 are connected; a fifth resistance R5 whose two terminals are connected to the collector of the second transistor Q2 and grounding are connected; a second zener diode D3 , whose anode is connected to the collector of the second transistor Q2 connected is; a third zener diode D4 , whose anode is connected to the cathode of the second zener diode D3 connected is; a sixth resistance R6 whose two terminals are connected to the cathode of the third zener diode D4 and the negative connection OLED - of the OLED are connected; and a fourth capacitor C4 whose two terminals are connected to the cathode of the third zener diode D4 and grounding are connected. The first transistor Q1 and the second transistor Q2 be used to protect the OLED used. If the OLED not normal, the first transistor Q1 and the second transistor Q2 in conjunction with the first diode D2 the integrated circuit U turn off the protection of the OLED to achieve zero current output. The sixth resistance R6 and the fourth capacitor C4 serve to stabilize the dynamic tension of the OLED , The sixth resistance R6 and the third zener diode D4 serve to protect the voltage threshold of OLED ,

The filter unit 20 includes: a fifth capacitor C5 whose positive terminal is connected to the VIN pin of the integrated circuit U and its negative terminal is connected to the GND pin of the integrated circuit U and the ground is connected; a sixth capacitor C6 , its positive and negative connection with the VIN pin and the GND pin of the integrated circuit U are connected; and a seventh capacitor C7 , whose two terminals are connected to the VIN pin and the GND pin of the integrated circuit U are connected.

The rectifier unit 10 includes: a fourth zener diode D5 whose cathode receives the positive potential of the input voltage and whose anode with the negative terminal of the fifth capacitor C5 connected is; a fifth zener diode D6 , whose anode is connected to the cathode of the fourth zener diode D5 is connected and its cathode to the positive terminal of the fifth capacitor C5 connected is; a sixth zener diode D7 whose anode receives the negative potential of the input voltage and its cathode with the positive terminal of the fifth capacitor C5 connected is; and a seventh Zener diode D8 whose cathode is connected to the anode of the sixth zener diode D7 and its anode to the negative terminal of the fifth capacitor C5 connected is. The rectifier unit 10 is due to the bridge rectification of the fourth zener diode D5 up to the seventh Zener diode protected against reverse polarity.

The output unit 50 includes an eighth capacitor C8 , its positive and negative connection with the positive connection OLED + and the negative connection OLED - of the OLED are connected. Through the eighth capacitor C8 The high-frequency noise can be suppressed and the constant current can be stabilized.

The dimming unit 60 includes: a third transistor Q3 whose collector is connected to the ADJ pin of the integrated circuit U and whose emitter is connected to the ground; a fourth transistor Q4 whose emitter is connected to ground; a seventh resistance R7 , whose two terminals are connected to the base of the third transistor Q3 and the collector of the fourth transistor Q4 are connected; an eighth resistor R8 , whose two connections to the VIN pin of the integrated circuit U and the collector of the fourth transistor Q4 are connected; an eighth zener diode D9 , whose anode is connected to the base of the fourth transistor Q4 connected is; a ninth resistance R9 , whose two connections to the VIN pin of the integrated circuit U and the cathode of the eighth zener diode D9 are connected; a tenth resistance R10 , whose two connections to the anode and the cathode of the eighth Zener diode D9 are connected; and a second diode D10 , whose anode is connected to the cathode of the eighth zener diode D9 and its cathode has the positive potential PWM + receives the dimming signal. The negative potential PWM - the dimming signal is grounded. The third transistor Q3 and the fourth transistor Q4 are buffer and isolation components of the dimming signal. The processed dimming signal can be sent to the ADJ pin of the integrated circuit U be transferred to perform the dimming function.

3 shows a schematic representation of an embodiment of the invention. As shown, this can be universally compatible OLED Drive module 100 of this embodiment on a surface of a substrate 200 be arranged. A OLED 300 can also be on the substrate 200 be deposited. A drive circuit 400 is between the universally compatible OLED Drive module 100 and the OLED 300 arranged. The universally compatible OLED Drive module 100 has at least one connection 500 on. The connection 500 is used to connect the universal compatible OLED Drive module 100 on the substrate 200 , If the connection 500 connected to a power supply, so the universally compatible OLED Drive module 100 is supplied with power, the drive circuit 400 that of the universally compatible one OLED Drive module 100 converted constant current to the OLED 300 deliver.

In particular, the inventive universal compatible OLED Drive module the working voltage of the OLED detect the input voltage automatically in the working voltage of the OLED and provide a constant current, whereby the invention is suitable for OLEDs with different voltage specifications. In addition, the invention can provide the dynamic tension of OLED stabilize and operate the OLED monitor to stop the power supply when the OLED not working normally. Therefore, the OLED to be protected.

In summary, the invention relates to a universally compatible OLED - Drive module that automatically adjusts the input voltage to the working voltage OLED and can include: a rectifier unit 10 ; a filter unit 20 connected to the rectifier unit 10 is connected and the noise signals to stabilize the input voltage can filter; a control unit 30 that with the filter unit 20 is connected and according to the working voltage of the OLED can convert the input voltage to provide a constant current; a conversion and protection unit 40 connected to the control unit 30 is connected and can be used, the working voltage of the OLED to detect, so the control unit 30 offering the constant current according to the measurement result; and an output unit 50 that with the conversion and protection unit 40 is connected and can be used, the constant current to the OLED to deliver.

LIST OF REFERENCE NUMBERS

10

Rectifier unit

20

filter unit

30

control unit

40

Conversion and protection unit

50

output unit

60

dimming unit

C1

first capacitor

C2

second capacitor

C3

third capacitor

C4

fourth capacitor

C5

fifth capacitor

C6

sixth capacitor

C7

seventh capacitor

C8

eighth capacitor

D1

first zener diode

D2

first diode

D3

second zener diode

D4

third zener diode

D5

fourth zener diode

D6

fifth zener diode

D7

sixth zener diode

D8

seventh Zener diode

D9

eighth zener diode

D10

second diode

L

inductor

Q1

first transistor

Q2

second transistor

Q3

third transistor

Q4

fourth transistor

R1

first resistance

R2

second resistance

R3

third resistance

R4

fourth resistance

R5

fifth resistance

R6

sixth resistance

R7

seventh resistance

R8

eighth resistance

R9

ninth resistance

R10

tenth resistance

U

integrated circuit

100

universally compatible OLED drive module

200

substratum

300

OLED

400

drive circuit

500

connection

V +

positive potential of the input voltage

V-

negative potential of the input voltage

OLED +

positive connection of the OLED

OLED

negative connection of the OLED

PWM +

positive potential of the dimming signal

PWM

negative potential of the dimming signal

Claims (10)

Universal compatible OLED drive module comprising at least a rectifier unit (10) capable of passing an input voltage; a filter unit (20) connected to the rectifier unit (10) and capable of filtering the noise signals to stabilize the input voltage; a control unit (30) connected to the filter unit (20) and capable of converting the input voltage according to the operating voltage of the OLED to provide a constant current; a conversion and protection unit (40) connected to the control unit (30) and usable to detect the operating voltage of the OLED for the control unit (30) to provide the constant current in accordance with the measurement result; and an output unit (50) connected to the conversion and protection unit (40) and usable to provide the constant current to the OLED. Universal compatible OLED drive module Claim 1 characterized in that the conversion and protection unit (40) can stabilize the dynamic voltage of the OLED and continuously monitor the operation of the OLED, wherein if the conversion and protection unit (40) determines that the voltage of the OLED exceeds a threshold, the conversion and protection unit (40) can switch off the control unit (30) in order to ensure a constant current. Universal compatible OLED drive module Claim 2 characterized by a dimming unit (60) connected to the control unit (30) and capable of receiving and sending a dimming signal to the control unit (30), whereby the control unit (30) generates a dimming command in accordance with the dimming signal and outputs it via the output unit (50 ) can output to the OLED so that the OLED emits a light according to the dimming command. Universal compatible OLED drive module Claim 3 characterized in that the control unit (30) includes: an integrated circuit (U) having an Isense pin, a VIN pin, a GND pin, an EN pin, an ADJ pin, and an LX pin; a first resistor (R1) whose first terminal is connected to the Isense pin of the integrated circuit (U) and the positive terminal (OLED +) of the OLED and whose second terminal is connected to the VIN pin of the integrated circuit (U); a second resistor (R2) connected in parallel with the first resistor (R1); a first capacitor (C1) whose both terminals are connected to the first terminal of the first resistor (R1) and ground; a first Zener diode (D1) whose cathode and anode are connected to the VIN pin and the LX pin of the integrated circuit (U); a second capacitor (C2) whose both terminals are connected to the LX pin of the integrated circuit (U) and ground; a third capacitor (C3) whose two terminals are connected to the ADJ pin and the ground; and an inductor (L) whose both terminals are connected to the LX pin of the integrated circuit (U) and the negative terminal (OLED) of the OLED. Universal compatible OLED drive module Claim 4 , characterized in that the conversion and protection unit (40) includes: a first diode (D2) whose anode is connected to the EN pin of the integrated circuit (U); a third resistor (R3) whose both terminals are connected to the positive terminal of the OLED and the cathode of the first diode (P2); a first transistor (Q1) whose collector is connected to the cathode of the first diode (D2) and whose emitter is connected to the ground; a second transistor (Q2) whose base is connected to the cathode of the first diode (D2) and whose collector is connected to the base of the first transistor (Q1); a fourth resistor (R4) whose both terminals are connected to the positive terminal of the OLED and the emitter of the second transistor (Q2); a fifth resistor (R5) whose both terminals are connected to the collector of the second transistor (Q2) and the ground; a second zener diode (D3) whose anode is connected to the collector of the second transistor (Q2); a third Zener diode (D4) whose anode is connected to the cathode of the second Zener diode (D3); a sixth resistor (R6) whose both terminals are connected to the cathode of the third zener diode (D4) and the negative terminal of the OLED; and a fourth capacitor (C4) whose both terminals are connected to the cathode of the third Zener diode (D4) and the ground. Universal compatible OLED drive module Claim 5 characterized in that the filter unit (20) comprises: a fifth capacitor (C5) whose positive terminal is connected to the VIN pin of the integrated circuit (U) and whose negative terminal is connected to the GND pin of the integrated circuit (U) and the ground is connected; a sixth capacitor (C6) whose positive and negative terminals are connected to the VIN pin and the GND pin of the integrated circuit (U); and a seventh capacitor (C7) whose both terminals are connected to the VIN pin and the GND pin of the integrated circuit (U). Universal compatible OLED drive module Claim 6 characterized in that the rectifier unit (10) includes: a fourth zener diode (D5) whose cathode receives the positive potential of the input voltage and whose anode is connected to the negative terminal of the fifth capacitor (C5); a fifth Zener diode (D6) whose anode is connected to the cathode of the fourth Zener diode (D5) and whose cathode is connected to the positive terminal of the fifth capacitor (C5); a sixth Zener diode (D7) whose anode receives the negative potential of the input voltage and whose cathode is connected to the positive terminal of the fifth capacitor (C5); and a seventh Zener diode (D8) whose cathode is connected to the anode of the sixth Zener diode (D7) and whose anode is connected to the negative terminal of the fifth capacitor (C5). Universal compatible OLED drive module Claim 7 , characterized in that the output unit (50) includes an eighth capacitor (C8) whose positive and negative terminals are connected to the positive terminal (OLED +) and the negative terminal (OLED) of the OLED. Universal compatible OLED drive module Claim 8 characterized in that the dimming unit (60) comprises: a third transistor (Q3) having its collector connected to the ADJ pin of the integrated circuit (U) and its emitter connected to ground; a fourth transistor (Q4) whose emitter is connected to the ground; a seventh resistor (R7) whose both terminals are connected to the base of the third transistor (Q3) and the collector of the fourth transistor (Q4); an eighth resistor (R8) whose both terminals are connected to the VIN pin of the integrated circuit (U) and the collector of the fourth transistor (Q4); an eighth Zener diode (D9) whose anode is connected to the base of the fourth transistor (Q4); a ninth resistor (R9) whose both terminals are connected to the VIN pin of the integrated circuit (U) and the cathode of the eighth Zener diode (D9); a tenth resistor (R10) whose both terminals are connected to the anode and the cathode of the eighth zener diode (D9); and a second diode (D10) whose anode is connected to the cathode of the eighth zener diode (D9) and whose cathode receives the positive potential (PWM +) of the dimming signal, the negative potential (PWM-) of the dimming signal being grounded. Universal compatible OLED drive module Claim 1 characterized in that the universally compatible OLED drive module (100) is disposed on a surface of a substrate (200), wherein an OLED (300) is deposited on the substrate (200), wherein a drive circuit (400) is interposed between the universally compatible one OLED drive module (100) and the OLED (300) is arranged.

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