Electromagnetic radiation detection circuit for pulse detection including an amplifying transistor and a coupling capacitor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H03F-003/08
G01J-005/00
H04N-005/33
H01L-027/144
G01J-001/46
G01S-003/784
출원번호
US-0362761
(2012-12-10)
등록번호
US-9520844
(2016-12-13)
우선권정보
FR-11 03765 (2011-12-08)
국제출원번호
PCT/FR2012/000511
(2012-12-10)
국제공개번호
WO2013/083889
(2013-06-13)
발명자
/ 주소
Sanson, Eric
출원인 / 주소
SOCIÉTÉ FRANÇAISE DE DÉTECTEURS INFRAROUGES-SOFRADIR
대리인 / 주소
Oliff PLC
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
An electromagnetic radiation detection circuit includes a photodetector transforming the received electromagnetic radiation into an electric current. A bias circuit is connected to the photodetector. An amplifying circuit has an input terminal coupled to the photodetector. An amplifying transistor h
An electromagnetic radiation detection circuit includes a photodetector transforming the received electromagnetic radiation into an electric current. A bias circuit is connected to the photodetector. An amplifying circuit has an input terminal coupled to the photodetector. An amplifying transistor has a first low-impedance electrode forming the input terminal of the amplifying circuit and a second low-impedance electrode coupled to an output terminal of the detection circuit. The transistor is configured to conduct the current applied on the first electrode. A high-impedance electric load is connected to the second electrode to deliver a voltage representative of the electric current originating from the photodetector.
대표청구항▼
1. An electromagnetic radiation detection circuit comprising: a photodetector configured to transform the received electromagnetic radiation into an electric current:a bias circuit connected to terminals of the photodetector, the bias circuit receiving a first part of a current emitted by the photod
1. An electromagnetic radiation detection circuit comprising: a photodetector configured to transform the received electromagnetic radiation into an electric current:a bias circuit connected to terminals of the photodetector, the bias circuit receiving a first part of a current emitted by the photodetector;an amplifying circuit, which is different from the bias circuit, and comprising an amplifying transistor formed by a field-effect transistor or a bipolar transistor,the field-effect transistor or the bipolar transistor having a first electrode forming an input terminal of the amplifying circuit coupled to a first terminal of the photo-detector so as to receive a second part of the electric current emitted by the photodetector, the first electrode being a source electrode or an emitter electrode,the field-effect transistor or the bipolar transistor having a second electrode coupled to an output terminal of the electromagnetic radiation detection circuit, the second electrode being a drain electrode or a collector electrode, andthe amplifying circuit being configured so that the electric current applied to the first electrode flows through the amplifying transistor and so as to provide this electric current on the output terminal with an impedance higher than an impedance on the first electrode;a voltage source connected to a control electrode of the amplifying transistor; anda passive electric load connected to the second electrode of the amplifying transistor, whereina first terminal of a coupling capacitor is directly connected to the first terminal of the photodetector and to the bias circuit, anda second terminal of the coupling capacitor is directly connected to the first electrode of the amplifying transistor. 2. The circuit according to claim 1, wherein the passive electric load is a diode. 3. The circuit according to claim 1, comprising a current source configured to be in a saturated state in an idle state, said current source being connected to the second electrode of the amplifying transistor. 4. The circuit according to claim 2, wherein the diode is assembled between a current source and the output terminal. 5. The circuit according to claim 2, wherein the bias circuit comprises an additional diode-connected transistor connected between a bias line and the first terminal of the photodetector. 6. The circuit according to claim 1, wherein a passive load comprising an additional diode-connected transistor is connected between a bias line and the first electrode of the amplifying circuit, and is configured to form a saturated current source. 7. The circuit according to claim 1, wherein the voltage source connected to the control electrode of the amplifying transistor is configured to define an intensity of a current flowing through the amplifying transistor in an idle phase. 8. The circuit according to claim 1, wherein the passive load comprising an additional diode-connected transistor is connected between a bias line and the first electrode of the amplifying circuit and configured to define a threshold value of a current pulse detected by the amplifying circuit. 9. The circuit according to claim 1, wherein the passive load comprising an additional diode-connected transistor is connected between a bias line and the first electrode of the amplifying circuit and configured to deliver a binary signal to the output terminal. 10. The circuit according to claim 5, wherein the additional diode-connected transistor is a metal-oxide-semiconductor (MOS) transistor of a first type and the amplifying transistor is a MOS transistor of a second type opposite to the first type so as to increase transfer of a current pulse provided by the photodetector. 11. The circuit according to claim 1, wherein the bias circuit and the amplifying circuit are configured so that a pulsed portion of a signal emitted by the photodetector mainly reaches the amplifying circuit and a static portion of the signal emitted by the photodetector mainly reaches the bias circuit. 12. The circuit according to claim 1, wherein the bias circuit is configured to substantially not absorb a pulsed signal provided by the photodetector. 13. The circuit according to claim 1, wherein the amplifying circuit has a low impedance in a high-frequency range and a high impedance in a low-frequency range. 14. The circuit according to claim 1, wherein in a high frequency range, an input impedance of amplifying circuit is lower than an input impedance of the bias circuit. 15. The circuit according to claim 1, wherein, the amplifying transistor, the bias circuit and the photodetector are configured so that a current flowing through amplifying transistor is directed in a same direction as a current from the bias circuit for the biasing of photodetector. 16. An electromagnetic radiation detection circuit comprising: a photodetector configured to transform the received electromagnetic radiation into an electric current;a bias circuit connected to terminals of the photodetector, the bias circuit receiving a first part of a current emitted by the photodetector;an amplifying circuit, which is different from the bias circuit, and comprising an amplifying transistor formed by a field-effect transistor or a bipolar transistor,the field-effect transistor or the bipolar transistor having a first electrode forming an input terminal of the amplifying circuit coupled to a first terminal of the photo-detector so as to receive a second part of the electric current emitted by the photodetector, the first electrode being a source electrode or an emitter electrode,the field-effect transistor or the bipolar transistor having a second electrode coupled to an output terminal of the electromagnetic radiation detection circuit, the second electrode being a drain electrode or a collector electrode, andthe amplifying circuit being configured so that the electric current applied to the first electrode flows through the amplifying transistor and so as to provide this electric current on the output terminal with an impedance higher than an impedance on the first electrode;a voltage source connected to a control electrode of the amplifying transistor; anda passive electric load connected to the second electrode of the amplifying transistor,wherein the source terminal or the emitter terminal of the amplifying circuit is connected to a terminal of the photodetector by means of a coupling circuit configured to allow only a part of the signal emitted by the photodetector to pass through the coupling circuit. 17. The circuit according to claim 16, wherein the coupling circuit has a first terminal connected to an electric node common to the photodetector and to the bias circuit. 18. The circuit according to claim 17, wherein the coupling circuit has a second terminal connected to the first electrode of the amplifying transistor. 19. The circuit according to claim 18, wherein the coupling circuit includes a coupling capacitor having a first terminal connected to the electric node common to the photodetector and to the bias circuit and a second terminal connected to the first electrode of the amplifying transistor.
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이 특허에 인용된 특허 (3)
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