CN204834003U - LED lamp plate - Google Patents

Abstract

The utility model relates to a LED lamp plate, including going scanning circuit, select switch circuit, many column rules, many alignments, LED array, display driver circuit and the line discharge circuits of going, go scanning circuit through going the connection of select switch circuit electricity many column rules, LED array electricity is connected many column rules with many alignments, display driver circuit electricity is connected many alignments, the discharge circuit electricity of going is connected many column rules. Wherein, the discharge circuit of going includes cluster income and goes out driver chip that a plurality of output port difference electricity connection of driver chip is gone into and go out to the cluster many column rules, cluster go into and go out driver chip to have the external resistance link, and the external resistance link is external has discharge current to set for resistance. The utility model discloses an use the cluster go into and go out driver chip for example constant current source driver chip build capable discharge circuit, it can reach fast LED lamp point effect out of control when letting out the electricity and eliminate twilight sunset and prevent the reverse breakdown the parasitic capacitance on the column rule.

Description

LED lamp panel

Technical field

The utility model relates to technical field of LED display, particularly a kind of circuit design of LED lamp panel.

Background technology

As shown in Figure 1, it is the structural representation of a kind of LED lamp panel of the prior art.Particularly, LED lamp panel comprises line-scan circuit 11, row selecting switch circuit 12, display driver circuit 13, many lines, many alignments, the LED array 15 being electrically connected described many lines and described many alignments and the multiple row discharge circuits 17 be electrically connected respectively with described many lines.Wherein, line-scan circuit 11 is electrically connected described many lines by row selecting switch circuit 12, and row selecting switch circuit 12 electric connection of power supply voltage VCC and comprise multiple PMOS to be electrically connected respectively with described many lines; Described many alignments of multiple current output terminal mouth electrical connection of display driver circuit 13; The anode of each the LED point in LED array 15 is electrically connected one of described many lines and cathodic electricity connects one of described many alignments; Each row discharge circuit 17 comprises and is serially connected in resistance between corresponding line and earthing potential GND and Zener diode.

Due to traditional LED lamp panel in actual applications, obviously can see there is faint twilight sunset above oblique line when beating oblique line, affecting display effect; Cause occurring that the reason of this phenomenon has a lot, its chief reason is that the line of LED lamp panel exists certain stray capacitance over the ground, when the current output terminal mouth of display driver circuit 13 is closed, control PMOS conducting, although can not lightening LED lamp point, but can charge to stray capacitance, when stray capacitance is filled with a certain amount of electricity, control PMOS is ended, this current output terminal mouth starting display driver circuit 13 sucks electric current, then stray capacitance is discharged by LED point forward, thus formation weak current causes LED appearance secretly bright.And the object that LED lamp panel shown in Fig. 1 increases row discharge circuit 17 is exactly electric discharge in order to increase stray capacitance/let out electric speed, thus eliminate the above-mentioned secretly bright afterglow issues caused.

Technical scheme shown in Fig. 1 has certain effect on twilight sunset is eliminated, but due to the non-ideal characteristic of Zener diode, time on certain current output terminal mouth of display driver circuit 13, in the several LED points connected in parallel there is reverse breakdown in certain LED, the effect of row discharge circuit 17 relative at this current output terminal mouth resistance in parallel to earthing potential GND, at this moment other LED points of all parallel connections can form loop by this resistance, even if close this current output terminal mouth also can there is electric current and flow through, thus cause LED point Chang Liang.

Refer to Fig. 2, it is the structural representation of another kind of LED lamp panel of the prior art.The structure of LED lamp panel shown in Fig. 2 is substantially identical with the LED lamp panel structure shown in Fig. 1, and difference is: Fig. 2 utilizes the combination of 74HC245 chip and phase inverter as row discharge circuit 27.Particularly, the input/output end port B0 ~ Bm of 74HC245 chip is electrically connected many lines respectively, and input/output end port A0 ~ Am is electrically connected to earthing potential GND, direction controlling port DIR electric connection of power supply voltage VCC, output enable port the output terminal of electrical connection phase inverter, and the latch signal LE in the input end of phase inverter electrical connection display driver circuit.

In Fig. 2 using latch signal LE as electric discharge blanking signal use, LE be latched as high in line is discharged, but due to by 74HC245 chip discharge also can be uncontrollable due to discharge current, discharge excessive and cause LED point reverse breakdown.

Utility model content

Therefore, for defect of the prior art and deficiency, the utility model proposes a kind of LED lamp panel.

Particularly, a kind of LED lamp panel that the utility model embodiment proposes, comprise: line-scan circuit, row selecting switch circuit, many lines, many alignments, LED array, display driver circuit and row discharge circuits, described line-scan circuit is by described many lines of described row selecting switch circuit electrical connection, described LED array described many lines of electrical connection and described many alignments, described many alignments of described display driver circuit electrical connection, described many lines of described row discharge circuit electrical connection.Wherein, described row discharge circuit comprises and seals in and go out driving chip, describedly to seal in and the multiple output ports going out driving chip are electrically connected described many lines respectively, described seal in and go out driving chip there is non-essential resistance link, and described non-essential resistance link be circumscribed with discharge current setting resistance.

In an embodiment of the present utility model, described discharge current is set as variable resistor.

In an embodiment of the present utility model, described in seal in and go out driving chip be constant-current source drive chip, described display driver circuit comprises and to seal in described and to go out the identical constant-current source drive chip of driving chip.

In an embodiment of the present utility model, described line-scan circuit comprises serial decoding device, the serial data input of described serial decoding device, shift clock end and latch clock end are electrically connected first, second and third sweep signal input end respectively, and the output of described serial decoding device is electrically connected described row selecting switch circuit; Describedly to seal in and the serial data input going out driving chip is electrically connected described first sweep signal input end by phase inverter, describedly seal in and go out the shift clock input of driving chip and latch signal end is electrically connected second and third sweep signal input end described respectively, described in seal in and go out the output enable end electrical connection blanking signal input end of driving chip.

In an embodiment of the present utility model, describedly to seal in and the described output enable end going out driving chip provides circuit to be electrically connected described blanking signal input end by blanking signal, and the signal that described blanking signal provides circuit to comprise electrical connection strengthens chip and phase inverter.

In an embodiment of the present utility model, described line-scan circuit also comprises signal and strengthens chip, and described signal strengthens chip electrical and connects described first, second and third sweep signal input end respectively to the described serial data input of described serial decoding device, described shift clock end and described latch clock end.

In an embodiment of the present utility model, describedly to seal in and the output enable end going out driving chip can also provide circuit to be electrically connected blanking signal input end by blanking signal, and the signal that described blanking signal provides circuit to comprise electrical connection strengthens chip and phase inverter.

In an embodiment of the present utility model, described line-scan circuit comprises serial decoding device, the serial data input of described serial decoding device, shift clock end and latch clock end are electrically connected first, second and third sweep signal input end respectively, and the output of described serial decoding device is electrically connected described row selecting switch circuit.Further, described line-scan circuit also can comprise signal and strengthen chip, and described signal strengthens chip electrical and connects described first, second and third sweep signal input end respectively to the described serial data input of described serial decoding device, described shift clock end and described latch clock end.

In an embodiment of the present utility model, described LED array comprises redness, green and blue led lamp point.

As from the foregoing, the utility model embodiment is sealed in by use and goes out driving chip such as constant-current source drive chip builds row discharge circuit (or claiming blanking circuit), and it can reach lets out to the stray capacitance on line the effect that when electricity is eliminated twilight sunset and prevents reverse breakdown, LED point is out of control fast.

By the detailed description below with reference to accompanying drawing, other side of the present utility model and feature become obvious.But it should be known that this accompanying drawing is only the object design of explanation, instead of as the restriction of scope of the present utility model, this is because it should with reference to additional claim.Should also be appreciated that, unless otherwise noted, unnecessaryly draw accompanying drawing to scale, they only try hard to structure described herein and flow process are described conceptually.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail.

Fig. 1 is the structural representation of a kind of LED lamp panel of prior art.

Fig. 2 is the structural representation of the another kind of LED lamp panel of prior art.

Fig. 3 is the structural representation of a kind of LED lamp panel of the utility model embodiment.

A kind of electrical block diagram that Fig. 4 is line-scan circuit shown in Fig. 3.

Fig. 5 is a kind of electrical block diagram of the discharge circuit of row shown in Fig. 3.

Fig. 6 is for sealing in shown in Fig. 5 and going out the inside local function module map of driving chip.

A kind of working timing figure that Fig. 7 is LED lamp panel shown in Fig. 3.

Embodiment

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in detail embodiment of the present utility model below in conjunction with accompanying drawing.

Refer to Fig. 3, a kind of LED lamp panel that the utility model embodiment proposes comprises: line-scan circuit 31, row selecting switch circuit 32, display driver circuit 33, many line L1 ~ Lm, many alignment C1 ~ Cn, LED array 35 and row discharge circuits 37; These circuit components are arranged on a printed circuit.

Wherein, line-scan circuit 31 is electrically connected described many line L1 ~ Lm by row selecting switch circuit 32, row selecting switch circuit 32 electric connection of power supply voltage VCC and comprise multiple on-off element such as PMOS, each PMOS in row selecting switch circuit 32 is electrically connected described many line L1 ~ Lm respectively.Multiple current output terminal mouths of display driver circuit 33 are electrically connected described many alignment C1 ~ Cn respectively.LED array 35 is electrically connected described many line L1 ~ Lm and described many alignment C1 ~ Cn, and comprises multiple LED point such as red (R), green (G), blue (B) LED point; The anode of each LED point is electrically connected one of many line L1 ~ Lm and cathodic electricity connects one of many alignment C1 ~ Cn.Row discharge circuit 37 is electrically connected described many line L1 ~ Lm.

Refer to Fig. 4, line-scan circuit 31 specifically can comprise serial decoding device 312 and signal strengthens chip 314.From the sweep signal A of multiple sweep signal input end input, B, C obtains sweep signal a after signal enhancing chip 314, b, c, wherein sweep signal b completes string by serial decoding device 312 as serial date transfer and turns to the serial data input SDI of serial decoding device 312 and export row selecting switch circuit 32 to control PMOS conducting or cut-off after changing, sweep signal a inputs to the shift clock end SRCLK of serial decoding device 312 as the first clock signal, sweep signal c inputs to the latch clock end RCLK of serial decoding device 312 as second clock signal.In addition, it is worth mentioning that, signal strengthens chip 314 and can consider to be omitted.

Hold above-mentioned, display driver circuit 33 such as comprises constant-current source drive chip as MBI5025 family chip etc., it seals in for one and goes out driving chip, whether constant-current source drive chip controls by the conducting or cut-off exporting the PMOS in high level or low level signal cooperation row selecting switch circuit 32 at its multiple current output terminal mouth the voltage being supplied to corresponding LED point, control corresponding LED point be lit with this.

Refer to Fig. 5, row discharge circuit 37 specifically can comprise sealing in and going out driving chip 372, phase inverter 374 and blanking signal provides circuit 376.Wherein, to seal in and the latch signal end LE going out driving chip 372 receives sweep signal c (corresponding input sweep signal C), serial data input SDI receives sweep signal b (the sweep signal B of corresponding input) by phase inverter 374, shift clock input CLK receives sweep signal a (the sweep signal A of corresponding input), output enable end electrical connection blanking signal provides circuit 376, and non-essential resistance link R-EXT is connected with non-essential resistance R; Further, to seal in and the current output terminal mouth going out driving chip 372 is electrically connected to line L1 ~ Lm respectively.In the present embodiment, serioparallel exchange driving circuit 372 can adopt the driving chip identical with the constant-current source drive chip in display driver circuit 33, as MBI5025 family chip etc.

In addition, blanking signal provides circuit 376 such as to comprise signal enhancing chip 3761 and phase inverter 3763, signal strengthens chip 3761 and is electrically connected blanking signal input end to receive blanking signal CTRL, blanking signal CTRL through signal enhancing chip 3761 strengthen again anti-phase after input to and seal in and go out the output enable end of driving chip 372 .Certainly, be understandable that, blanking signal CTRL also directly can deliver to and seals in and go out the output enable end of driving chip 372 and provide circuit 376 without blanking signal, also namely blanking signal provides circuit 376 can consider to be omitted.

Please also refer to Fig. 5 and Fig. 6, seal in and go out driving chip 372 and comprise the current regulator be connected electrically between non-essential resistance link R-EXT and each current output terminal mouth, by the resistance size of setting non-essential resistance R, namely namely the suction size of current of adjustable current output terminal mouth, also can regulate the size of letting out electric current.In the present embodiment, non-essential resistance R is fixed value resistance as discharge current setting resistance, but it also can be variable resistor.Certainly, seal in and go out driving chip 372 except current regulator, also comprising other functional modules, such as multidigit (such as 16bit) shift registor, multidigit output latch and multidigit output driver etc.

Refer to Fig. 7, it is a kind of working timing figure of above-mentioned LED lamp panel.First, sweep signal A, B, C of input are input to sealing in and going out driving chip 372 in serial decoding device 312 and row discharge circuit 37 simultaneously after signal enhancing chip 314, and an output terminal of the serial decoding device 312 in line-scan circuit 31 exports row selection signal Y1 to control PMOS; When Y1 is low level signal, corresponding PMOS conducting in row selecting switch circuit 32, the corresponding current output terminal mouth output low level signal of the constant-current source drive chip simultaneously in display driver circuit 33, now selected one of in line L1 ~ Lm, corresponding LED point is lit; Now because blanking signal CTRL is low level, export as high level is to sealing in and going out the output enable end OE of driving chip 372 after phase inverter 3763, seal in and go out driving chip 372 and be disabled and do not work, then the anode being lit LED point with to seal in and voltage H1 between the corresponding current output terminal mouth going out driving chip 372 is not discharged.

When sweep signal Y1 is high level signal, described PMOS receives high level signal and ends, and now close above-mentioned selected line, LED point is not lit; And then blanking signal CTRL is high level, export as low level after phase inverter 3763, now seal in and go out driving chip 372 and be enabled and work, then the above-mentioned anode being lit LED point with to seal in and voltage H1 between the corresponding current output terminal mouth going out driving chip is discharged, reach the object of letting out electricity.Afterwards, when blanking signal CTRL is low level, seals in and go out driving chip 372 no current and flow through, avoid LED point reverse breakdown.

It is worth mentioning that, in the above-described embodiments, line-scan circuit 31 and row discharge circuit 37 share sweep signal a, b, c, but the utility model is not as limit, line-scan circuit 31 and row discharge circuit 37 also can use respective input signal but not common input signal, and such as line-scan circuit 31 adopts traditional 3-8 code translator.

In sum, the utility model embodiment is sealed in by use and goes out driving chip such as constant-current source drive chip builds row discharge circuit (or claiming blanking circuit), and it can reach lets out to the stray capacitance on line the effect that when electricity is eliminated twilight sunset and prevents reverse breakdown, LED point is out of control fast.

So far, apply specific case herein and set forth the principle of LED lamp panel of the present utility model and embodiment, the explanation of above embodiment just understands method of the present utility model and core concept thereof for helping; Simultaneously; for one of ordinary skill in the art; according to thought of the present utility model; all will change in specific embodiments and applications; in sum; this description should not be construed as restriction of the present utility model, and protection domain of the present utility model should be as the criterion with appended claim.

Claims (10)

1. a LED lamp panel, comprise: line-scan circuit, row selecting switch circuit, many lines, many alignments, LED array, display driver circuit and row discharge circuits, described line-scan circuit is by described many lines of described row selecting switch circuit electrical connection, described LED array described many lines of electrical connection and described many alignments, described many alignments of described display driver circuit electrical connection, described many lines of described row discharge circuit electrical connection; It is characterized in that,

Described row discharge circuit comprises and seals in and go out driving chip, describedly to seal in and the multiple output ports going out driving chip are electrically connected described many lines respectively, described seal in and go out driving chip there is non-essential resistance link, and described non-essential resistance link be circumscribed with discharge current setting resistance.

2. LED lamp panel as claimed in claim 1, is characterized in that, described discharge current setting resistance is variable resistor.

3. LED lamp panel as claimed in claim 1, is characterized in that, described in seal in and go out driving chip be constant-current source drive chip, described display driver circuit comprises and to seal in described and to go out the identical constant-current source drive chip of driving chip.

4. LED lamp panel as claimed in claim 1, it is characterized in that, described line-scan circuit comprises serial decoding device, the serial data input of described serial decoding device, shift clock end and latch clock end are electrically connected first, second and third sweep signal input end respectively, and the output of described serial decoding device is electrically connected described row selecting switch circuit; Describedly to seal in and the serial data input going out driving chip is electrically connected described first sweep signal input end by phase inverter, describedly seal in and go out the shift clock input of driving chip and latch signal end is electrically connected second and third sweep signal input end described respectively, described in seal in and go out the output enable end electrical connection blanking signal input end of driving chip.

5. LED lamp panel as claimed in claim 4, it is characterized in that, describedly to seal in and the described output enable end going out driving chip provides circuit to be electrically connected described blanking signal input end by blanking signal, and the signal that described blanking signal provides circuit to comprise electrical connection strengthens chip and phase inverter.

6. LED lamp panel as claimed in claim 4, it is characterized in that, described line-scan circuit also comprises signal and strengthens chip, and described signal strengthens chip electrical and connects described first, second and third sweep signal input end respectively to the described serial data input of described serial decoding device, described shift clock end and described latch clock end.

7. LED lamp panel as claimed in claim 1, it is characterized in that, describedly to seal in and the output enable end going out driving chip provides circuit to be electrically connected blanking signal input end by blanking signal, and the signal that described blanking signal provides circuit to comprise electrical connection strengthens chip and phase inverter.

8. LED lamp panel as claimed in claim 1, it is characterized in that, described line-scan circuit comprises serial decoding device, the serial data input of described serial decoding device, shift clock end and latch clock end are electrically connected first, second and third sweep signal input end respectively, and the output of described serial decoding device is electrically connected described row selecting switch circuit.

9. LED lamp panel as claimed in claim 8, it is characterized in that, described line-scan circuit also comprises signal and strengthens chip, and described signal strengthens chip electrical and connects described first, second and third sweep signal input end respectively to the described serial data input of described serial decoding device, described shift clock end and described latch clock end.

10. LED lamp panel as claimed in claim 1, it is characterized in that, described LED array comprises redness, green and blue led lamp point.