CN209659247U - A kind of infrared signal amplifying circuit, processing circuit and infrared touch panel - Google Patents

Abstract

The utility model discloses a kind of infrared signal amplifying circuits, comprising: photodiode, NPN type triode, the electric current for exporting the NPN type triode are converted to voltage and realize the trans-impedance amplifier of voltage amplification, first voltage source port, second voltage source port and detection signal output port；The cathode of photodiode is connect with first voltage source port, the anode of photodiode and the base stage of NPN type triode connect, the collector of NPN type triode is connect with second voltage source port, the emitter of NPN type triode and the inverting input terminal of trans-impedance amplifier connect, and the output end of trans-impedance amplifier is connect with detection signal output port.The invention also discloses a kind of infrared signal processing circuit and a kind of infrared touch panels.The utility model solves the problems, such as that infrared amplifying circuit can not detect faint signal in the prior art using multiple embodiments.

Description

A kind of infrared signal amplifying circuit, processing circuit and infrared touch panel

Technical field

The utility model relates to infrared technique field more particularly to a kind of infrared signal amplifying circuits, processing circuit and red Outer touch screen.

Background technique

It is the amplifying circuit of infrared signal in the prior art referring to Fig. 1, due in the prior art only by triode to red External signal amplifies, and triode is generally relatively low to the amplification factor of infrared signal, causes infrared amplifying circuit that can not examine Faint infrared signal is measured, to influence the using effect of infrared touch panel.

Summary of the invention

The purpose of the utility model embodiment is to provide a kind of infrared signal amplifying circuit, processing circuit and infrared touch Screen, can effectively solve: infrared amplifying circuit can not detect the problem of faint signal in the prior art.

To achieve the above object, an embodiment of the present invention provides a kind of infrared signal amplifying circuit, comprising: photosensitive Diode, NPN type triode, the electric current for exporting the NPN type triode are converted to voltage and realize voltage amplification Trans-impedance amplifier, first voltage source port, second voltage source port and detection signal output port；

The cathode of the photodiode is connect with the first voltage source port, the anode of the photodiode and institute The base stage connection of NPN type triode is stated, the collector of the NPN type triode is connect with the second voltage source port, described The emitter of NPN type triode is connect with the inverting input terminal of the trans-impedance amplifier, the output end of the trans-impedance amplifier with The detection signal output port connection.

Compared with prior art, the infrared signal amplifying circuit disclosed in the utility model embodiment, passes through photosensitive two The cathode of pole pipe is connect with the voltage source port, and the anode of photodiode is connect with the base stage of the NPN type triode, institute The collector for stating NPN type triode is connect with the second voltage source port, the emitter of the NPN type triode and it is described across The inverting input terminal of impedance amplifier connects, and the output end of the trans-impedance amplifier is connect with the detection signal output port, this The infrared signal received is converted to electric current by sample, photodiode, and electric current carries out first time amplification by triode, after amplification Electric current flowed out from the emitter of triode, be converted into voltage using trans-impedance amplifier and realize the amplification of voltage, then from inspection Survey signal output port output.By upper analysis it is found that realizing voltage since electric current is converted to voltage by trans-impedance amplifier Amplification, so that the infrared signal detection range of the amplifying circuit of infrared signal increases, can detecte faint infrared signal；Again Since the emitter of triode and the inverting input terminal of trans-impedance amplifier connect, common mode interference can be inhibited, strong antijamming capability, Simultaneously because also avoiding the infrared signal amplifying circuit using trans-impedance amplifier introduces prime noise.

As an improvement of the above scheme, the trans-impedance amplifier includes: operational amplifier, tertiary voltage source port and One resistance；

The inverting input terminal of the operational amplifier is connect with the emitter of the NPN type triode, the operation amplifier The output end of device is connect with the detection signal output port, the non-inverting input terminal of the operational amplifier and the tertiary voltage Source port connection；

The first end of the first resistor is connect with the inverting input terminal of the operational amplifier, and the of the first resistor Two ends are connect with the output end of the operational amplifier.

As an improvement of the above scheme, the trans-impedance amplifier further include: first capacitor；The first capacitor is parallel to institute State the both ends of first resistor.

As an improvement of the above scheme, the infrared signal amplifying circuit further include: for by corresponding control circuit control The switching circuit of system；

The input terminal of the switching circuit is connect with the emitter of the NPN type triode, the output of the switching circuit End is connect with the inverting input terminal of the trans-impedance amplifier.

Another embodiment of the utility model additionally provides a kind of infrared signal amplifying circuit, comprising: photodiode, NPN Type triode, the electric current for exporting the NPN type triode be converted to voltage and realize voltage amplification trans-impedance amplifier, First voltage source port and detection signal output port；

The cathode of the photodiode is connect with the first voltage source port, the anode of the photodiode and institute State NPN type triode base stage connection, the NPN type triode emitter ground connection, the collector of the NPN type triode with The input terminal of the trans-impedance amplifier connects, and the output end of the trans-impedance amplifier is connect with the detection signal output port.

Compared with prior art, the infrared signal amplifying circuit disclosed in the utility model embodiment, passes through photosensitive two The cathode of pole pipe is connect with the voltage source port, and the anode of photodiode is connect with the base stage of the NPN type triode, institute State the emitter ground connection of NPN type triode, the input terminal company of the collector of the NPN type triode and the trans-impedance amplifier It connects, the output end of the trans-impedance amplifier connect with the detection signal output port, in this way, photodiode will receive Infrared signal is converted to electric current, and electric current carries out first time amplification, collector of the amplified electric current from triode by triode Outflow, is converted into voltage using trans-impedance amplifier and realizes the amplification of voltage, then exports from detection signal output port.By upper Analysis since electric current is converted to voltage by trans-impedance amplifier it is found that make voltage realize amplification, thus the amplification of infrared signal The infrared signal detection range of circuit increases, and can detecte faint infrared signal；Simultaneously because also using trans-impedance amplifier It avoids the infrared signal amplifying circuit and introduces prime noise.

As an improvement of the above scheme, the trans-impedance amplifier includes: operational amplifier, tertiary voltage source port and One resistance；

The non-inverting input terminal of the operational amplifier is connect with the collector of the NPN type triode, the operation amplifier The output end of device is connect with the detection signal output port, the inverting input terminal of the operational amplifier and the tertiary voltage Source port connection；

The non-inverting input terminal of the first end of the first resistor and the operational amplifier, the second end of the first resistor It is connect with the output end of the operational amplifier.

As an improvement of the above scheme, the trans-impedance amplifier further include: first capacitor；The first capacitor is parallel to institute State the both ends of first resistor.

As an improvement of the above scheme, the infrared signal amplifying circuit further include: for by corresponding control circuit control The switching circuit of system；

The input terminal of the switching circuit is connect with the collector of the NPN type triode, the output of the switching circuit End is connect with the non-inverting input terminal of the trans-impedance amplifier.

Another embodiment of the utility model additionally provides a kind of infrared signal processing circuit, including detection circuit and described Infrared signal amplifying circuit；The input terminal of the detection circuit is connect with the detection signal output port.

Compared with prior art, the infrared signal processing circuit, infrared signal disclosed in the utility model embodiment are put Amplified voltage is sent to detection circuit by detecting signal output port by big circuit, whether judges the photodiode Infrared signal is received, due to using the infrared signal amplifying circuit, so that the detection range of infrared signal increases.

Compared with prior art, the infrared signal processing circuit, infrared signal disclosed in the utility model embodiment are put Amplified voltage is sent to detection circuit by detecting signal output port by big circuit, whether judges the photodiode Infrared signal is received, due to using the infrared signal amplifying circuit, so that the detection range of infrared signal increases.

Another embodiment of the utility model additionally provides a kind of infrared touch panel, handles electricity including the infrared signal Road.

Compared with prior art, the infrared touch panel disclosed in the utility model embodiment, it is described due to using Infrared signal processing circuit is detected faint infrared signal by the secondary amplification of trans-impedance amplifier, thus red Outer touch screen can respond faint infrared signal, and then the using effect of infrared touch panel is more preferably.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model infrared signal amplifying circuit in the prior art；

Fig. 2 is a kind of signal of the first connection type of infrared signal amplifying circuit in an embodiment of the present invention Figure；

Fig. 3 is a kind of the first electricity of the first connection type of infrared signal amplifying circuit of another embodiment of the utility model The circuit diagram of appearance；

Fig. 4 is a kind of signal of second of connection type of infrared signal amplifying circuit in another embodiment of the utility model Figure；

Fig. 5 is first of a kind of second of connection type of infrared signal amplifying circuit in another embodiment of the utility model The circuit diagram of capacitor；

Fig. 6 is a kind of signal of the first connection type of infrared signal processing circuit in another embodiment of the utility model Figure；

Fig. 7 is a kind of signal of the first connection type of infrared signal processing circuit in another embodiment of the utility model Figure.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

Referring to fig. 2, a kind of infrared signal amplifying circuit provided by the embodiment of the utility model, comprising: photodiode REV1, current amplification circuit 2, Current amplifier for exporting the current amplification circuit 2 the 1, first electricity of trans-impedance amplifier Potential source port V0, second voltage source port V1 and detection signal output port Vout1.

The cathode of the photodiode REV1 is connect with the first voltage source port V0, the photodiode REV1 Anode connect with the base stage of the NPN type triode Q1, the collector of the NPN type triode Q1 and the second voltage source Port V1 connection, the emitter of the NPN type triode Q1 are connect with the inverting input terminal of the trans-impedance amplifier 1, it is described across The output end of impedance amplifier 1 is connect with the detection signal output port.

It should be noted that second voltage source port V1 is directly connected to voltage source, voltage can be arbitrary value, not do herein It limits.

First voltage source port V0 is directly connect with voltage, and voltage can be arbitrary value, it is not limited here.First voltage Source port V0 output voltage, so that photodiode REV1 is worked under reverse-biased die pressing type, switching speed with higher, simultaneously Improve photodiode REV1 sensitivity so that shorten its response time, so as to shorten infrared signal response when Between.

The working principle of an embodiment of the present invention:

Photodiode REV1 receives infrared signal, and infrared signal is converted into electric current, electric current flow through triode Q1 into Row amplifies for the first time, and amplified electric current is flowed out from the emitter of triode Q1, passes through trans-impedance amplifier 1 and is converted into voltage simultaneously It realizes the amplification of voltage, then is exported from detection signal output port Vout1.By upper analysis it is found that being put since electric current passes through across resistance Big device 1 is converted to voltage and carries out secondary amplification, can be with so that the infrared signal detection range of the amplifying circuit of infrared signal increases Detect faint infrared signal；It is connect with the inverting input terminal of trans-impedance amplifier 1 due to the emitter of triode Q1 again, it can be with Inhibit common mode interference, strong antijamming capability；Simultaneously because also avoiding the infrared signal amplifying circuit using trans-impedance amplifier 1 Introduce prime noise.

As an improvement of the above scheme, the trans-impedance amplifier 1 includes: operational amplifier U1, tertiary voltage source port V2 And first resistor R1.It should be noted that first resistor R1 can be any resistance value, resistance value is bigger, and amplification factor is bigger.

The inverting input terminal of the operational amplifier U1 is connect with the emitter of the NPN type triode Q1, the operation The output end of amplifier U1 is connect with the detection signal output port, the non-inverting input terminal of the operational amplifier U1 with it is described The V2 connection of tertiary voltage source port；It should be noted that tertiary voltage source port V2 can connect the voltage of arbitrary value, do not do herein It limits.

The first end of the first resistor R1 is connect with the inverting input terminal of the operational amplifier U1, the first resistor The second end of R1 is connect with the output end of the operational amplifier U1.

Specifically, electric current by triode Q1 for the first time amplify after, due to operational amplifier U1 inverting input terminal with The emitter of the triode Q1 connects, and first resistor R1 and operational amplifier U1 form feed circuit, the amplification factor of voltage It is bigger, so that faint infrared signal can also be detected, and can also inhibit common mode interference, have stronger anti-dry Disturb ability.

Referring to Fig. 3, as an improvement of the above scheme, the trans-impedance amplifier 1 further include: first capacitor C1；Described first Capacitor C1 is parallel to the both ends of the first resistor R1.

Specifically, first capacitor C1 is parallel to the both ends of first resistor R1, and first capacitor C1 plays the role of filtering.

Referring to Fig. 6, as an improvement of the above scheme, the infrared signal amplifying circuit further include: for by corresponding control The switching circuit 2 that circuit 3 processed controls；The emitter of the input terminal of the switching circuit 2 and the NPN type triode Q1 connect It connects, the output end of the switching circuit 2 is connect with the inverting input terminal of the trans-impedance amplifier 1.

It should be noted that switching circuit 2 is analog switch in the present embodiment, but switching circuit 2 is not limited to simulation and opens It closes, can also be thyristor, triode etc..

Specifically, when photodiode REV1 receives infrared signal, while control circuit 3 controls analog switch and closes It closes, infrared signal is converted to electric current by photodiode REV1, and electric current flows through analog switch；When photodiode REV1 is not received When infrared signal, analog switch is disconnected, infrared when needing to amplify due to making circuit control more convenient using switching circuit 2 Switching circuit 2 is just closed when signal, to preferably amplify to infrared signal.

Referring to fig. 4, the utility model embodiment additionally provides a kind of infrared signal amplifying circuit, comprising: photodiode, NPN type triode Q1, the electric current for exporting the NPN type triode Q1 be converted to voltage and realize voltage amplification across resistance Amplifier 1, first voltage source port V0 and detection signal output port.

The cathode of the photodiode is connect with the first voltage source port V0, the anode of the photodiode with The base stage of the NPN type triode Q1 connects, the emitter ground connection of the NPN type triode Q1, the NPN type triode Q1's Collector is connect with the input terminal of the trans-impedance amplifier 1, and the output end of the trans-impedance amplifier 1 and the detection signal export Port connection.

First voltage source port V0 is directly connect with voltage, and voltage can be arbitrary value, it is not limited here.First voltage Source port V0 output voltage, so that photodiode REV1 is worked under reverse-biased die pressing type, switching speed with higher, simultaneously Improve photodiode REV1 sensitivity so that shorten its response time, so as to shorten infrared signal response when Between.

The working principle of an embodiment of the present invention:

The cathode of photodiode is connect with the voltage source port, the anode of photodiode and three pole of NPN type The base stage of pipe Q1 connects, the emitter ground connection of the NPN type triode Q1, the collector of the NPN type triode Q1 with it is described The input terminal of trans-impedance amplifier 1 connects, and the output end of the trans-impedance amplifier 1 is connect with the detection signal output port, this The infrared signal received is converted to electric current by sample, photodiode, and electric current carries out first time amplification, amplification by triode Q1 Electric current afterwards is flowed out from the collector of triode Q1, is converted into voltage using trans-impedance amplifier 1 and is realized the amplification of voltage, then From detection signal output port output.By upper analysis it is found that making voltage since electric current is converted to voltage by trans-impedance amplifier 1 It realizes amplification, so that the infrared signal detection range of the amplifying circuit of infrared signal increases, can detecte faint infrared letter Number；Simultaneously because also avoiding the infrared signal amplifying circuit using trans-impedance amplifier 1 introduces prime noise.

As an improvement of the above scheme, the trans-impedance amplifier 1 includes: operational amplifier U1, tertiary voltage source port V2 And first resistor R1.

The non-inverting input terminal of the operational amplifier U1 is connect with the collector of the NPN type triode Q1, the operation The output end of amplifier U1 is connect with the detection signal output port, the inverting input terminal of the operational amplifier U1 with it is described The V2 connection of tertiary voltage source port；Wherein, the collector of triode Q1 is powered by operational amplifier U1.It should be noted that the Three voltage source port V2 can connect any voltage value, it is not limited here.

The non-inverting input terminal of the first end of the first resistor R1 and the operational amplifier U1, the first resistor R1's Second end is connect with the output end of the operational amplifier U1.

Specifically, after the first time amplification that electric current passes through triode Q1, due to the non-inverting input terminal of operational amplifier U1 It is connect with the collector of the triode Q1, the power supply of infrared signal amplifying circuit single supply carries out same Xiang Fang great；Again due to operation The input impedance of amplifier U1 is very big, and electric current is directly over first resistor R1 and carries out obtaining output voltage across resistance amplification.It is put across resistance Big device 1 carries out secondary amplification to electric current so that faint infrared signal can also be detected, and increases the detection range of infrared signal, Simultaneously because electric current is not converted to voltage after flowing through triode Q1, differential amplification is not carried out, so as to avoid prime is introduced Noise.

Referring to Fig. 5, as an improvement of the above scheme, the trans-impedance amplifier 1 further include: first capacitor C1；Described first Capacitor C1 is parallel to the both ends of the first resistor R1.

Specifically, first capacitor C1 is parallel to the both ends of first resistor R1, and first capacitor C1 plays the role of filtering.

Referring to Fig. 7, as an improvement of the above scheme, the infrared signal amplifying circuit further include: for by corresponding control The switching circuit of circuit control processed.

The input terminal of the switching circuit is connect with the collector of the NPN type triode Q1, the switching circuit it is defeated Outlet is connect with the non-inverting input terminal of the trans-impedance amplifier 1.

It should be noted that switching circuit 2 is analog switch in the present embodiment, but switching circuit 2 is not limited to simulation and opens It closes, can also be thyristor, triode etc..

Specifically, when photodiode REV1 receives infrared signal, while control circuit 3 controls analog switch and closes It closes, infrared signal is converted to electric current by photodiode REV1, and electric current flows through analog switch；When photodiode REV1 is not received When infrared signal, analog switch is disconnected, infrared when needing to amplify due to making circuit control more convenient using switching circuit 2 Switching circuit 2 is just closed when signal, to preferably amplify to infrared signal.

Referring to Fig. 6 and Fig. 7, a kind of infrared signal processing circuit provided by the embodiment of the utility model, including detection circuit 4 And the infrared signal amplifying circuit；The input terminal of the detection circuit 4 and the detection signal output port Vout1 connect It connects.

The working principle of the utility model embodiment:

Amplified voltage is sent to detection circuit by detecting signal output port Vout1 by infrared signal amplifying circuit 4, judge whether the photodiode REV1 receives infrared signal, due to using the infrared signal amplifying circuit, makes The detection range for obtaining infrared signal increases.

As an improvement of the above scheme, the infrared signal processing circuit further includes control circuit 3 and the infrared letter The switching circuit 2 of number amplifying circuit.

The control terminal of the control circuit 3 is connect with the controlled ports of the switching circuit 2, the switching circuit 2 it is defeated Enter end even to connect with the collector of the triode Q1, the input of the output end of the switching circuit 2 and the trans-impedance amplifier 1 End connection.

Specifically, photodiode REV1 receives infrared signal, and infrared signal is converted to electricity by photodiode REV1 Stream, while 3 control switch circuit 2 of control circuit is closed, electric current is amplified by triode Q1, amplified electric current flow through across Impedance amplifier 1 is converted into voltage and realizes the amplification of voltage, then exports from detection signal output port Vout1 to detection circuit 4. Due to making circuit control more convenient using switching circuit 2, when needing to amplify infrared signal, control circuit 3 can just switch electricity Road 2 is closed, to preferably amplify to infrared signal.

Another embodiment of the utility model additionally provides a kind of infrared touch panel, handles electricity including above-mentioned infrared signal Road.

Compared with prior art, the infrared touch panel disclosed in the utility model embodiment, it is described due to using Infrared signal processing circuit converts the current to the amplification of voltage and realization to voltage by trans-impedance amplifier 1, so that infrared The detection range of signal increases, so that infrared touch panel can respond faint infrared signal, and then infrared touch panel Using effect more preferably.

The above is preferred embodiments of the present invention, it is noted that for the ordinary skill of the art For personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these are improved and profit Decorations are also considered as the protection scope of the utility model.

Claims (10)

1. a kind of infrared signal amplifying circuit characterized by comprising photodiode, NPN type triode, for will be described The electric current of NPN type triode output is converted to voltage and realizes the trans-impedance amplifier of voltage amplification, first voltage source port, second Voltage source port and detection signal output port；

The cathode of the photodiode is connect with the first voltage source port, the anode of the photodiode with it is described The base stage of NPN type triode connects, and the collector of the NPN type triode is connect with the second voltage source port, the NPN The emitter of type triode is connect with the inverting input terminal of the trans-impedance amplifier, the output end of the trans-impedance amplifier with it is described Detect signal output port connection.

2. infrared signal amplifying circuit as described in claim 1, which is characterized in that the trans-impedance amplifier includes: that operation is put Big device, tertiary voltage source port and first resistor；

The inverting input terminal of the operational amplifier is connect with the emitter of the NPN type triode, the operational amplifier Output end is connect with the detection signal output port, the non-inverting input terminal of the operational amplifier and the tertiary voltage source Mouth connection；

The first end of the first resistor is connect with the inverting input terminal of the operational amplifier, the second end of the first resistor It is connect with the output end of the operational amplifier.

3. infrared signal amplifying circuit as claimed in claim 2, which is characterized in that the trans-impedance amplifier further include: first Capacitor；The first capacitor is parallel to the both ends of the first resistor.

4. infrared signal amplifying circuit as described in claim 1, which is characterized in that the infrared signal amplifying circuit also wraps It includes: the switching circuit for being controlled by corresponding control circuit；

The input terminal of the switching circuit is connect with the emitter of the NPN type triode, the output end of the switching circuit with The inverting input terminal of the trans-impedance amplifier connects.

5. a kind of infrared signal amplifying circuit characterized by comprising photodiode, NPN type triode, for will be described NPN type triode output electric current be converted to voltage and realize the trans-impedance amplifier of voltage amplification, first voltage source port and Detect signal output port；

The cathode of the photodiode is connect with the first voltage source port, the anode of the photodiode with it is described The base stage of NPN type triode connects, the emitter ground connection of the NPN type triode, the collector of the NPN type triode and institute The input terminal connection of trans-impedance amplifier is stated, the output end of the trans-impedance amplifier is connect with the detection signal output port.

6. infrared signal amplifying circuit as claimed in claim 5, which is characterized in that the trans-impedance amplifier includes: that operation is put Big device, tertiary voltage source port and first resistor；

The non-inverting input terminal of the operational amplifier is connect with the collector of the NPN type triode, the operational amplifier Output end is connect with the detection signal output port, the inverting input terminal of the operational amplifier and the tertiary voltage source Mouth connection；

The non-inverting input terminal of the first end of the first resistor and the operational amplifier, the second end of the first resistor and institute State the output end connection of operational amplifier.

7. infrared signal amplifying circuit as claimed in claim 6, which is characterized in that the trans-impedance amplifier further include: first Capacitor；The first capacitor is parallel to the both ends of the first resistor.

8. infrared signal amplifying circuit as claimed in claim 5, which is characterized in that the infrared signal amplifying circuit also wraps It includes: the switching circuit for being controlled by corresponding control circuit；

The input terminal of the switching circuit is connect with the collector of the NPN type triode, the output end of the switching circuit with The non-inverting input terminal of the trans-impedance amplifier connects.

9. a kind of infrared signal processing circuit, which is characterized in that any described including detection circuit and claim 1 to 8 Infrared signal amplifying circuit；The input terminal of the detection circuit is connect with the detection signal output port.

10. a kind of infrared touch panel, which is characterized in that including infrared signal processing circuit as claimed in claim 9.