Modeling of microwave top illuminated PIN photodetector under very high optical power
In this paper, we present a theoretical study and a numerical simulation of a classical long wavelength top illuminated PIN photodetector for microwave applications under very high optical power. The modeling includes a monodimensional drift-diffusion model for the device and takes into account the...
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| Published in | IEEE transactions on microwave theory and techniques Vol. 44; no. 8; pp. 1484 - 1487 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
IEEE
01.08.1996
Institute of Electrical and Electronics Engineers |
| Subjects | |
| Online Access | Get full text |
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| Abstract | In this paper, we present a theoretical study and a numerical simulation of a classical long wavelength top illuminated PIN photodetector for microwave applications under very high optical power. The modeling includes a monodimensional drift-diffusion model for the device and takes into account the external circuit. At first, this modeling is validated using experimental results from the literature. Second, we consider a classical InP-GaInAs-InP photodiode grown on an N/sup +/ InP substrate. The presented results show that the distortion and the saturation of the microwave signal at 20 GHz are due to the space charge effect in the photodetector and also to the depolarization of the device because of the external circuit. The main parameters influencing these phenomena are the optical power, the bias voltage, the optical spot width and the modulation depth. In case of a small optical spot, the effect of the external circuit is neglectable, while it contributes to the decrease of the microwave responsivity in the case of a large spot. The maximum output power is calculated in different cases and we can expect up to 12 dBm microwave output power for a 5 V reverse bias voltage. |
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| AbstractList | In this paper, we present a theoretical study and a numerical simulation of a classical long wavelength top illuminated PIN photodetector for microwave applications under very high optical power. The modeling includes a monodimensional drift-diffusion model for the device and takes into account the external circuit. At first, this modeling is validated using experimental results from the literature. Second, we consider a classical InP-GaInAs-InP photodiode grown on an N/sup +/ InP substrate. The presented results show that the distortion and the saturation of the microwave signal at 20 GHz are due to the space charge effect in the photodetector and also to the depolarization of the device because of the external circuit. The main parameters influencing these phenomena are the optical power, the bias voltage, the optical spot width and the modulation depth. In case of a small optical spot, the effect of the external circuit is neglectable, while it contributes to the decrease of the microwave responsivity in the case of a large spot. The maximum output power is calculated in different cases and we can expect up to 12 dBm microwave output power for a 5 V reverse bias voltage. In this paper, we present a theoretical study and a numerical simulation of a classical long wavelength top illuminated PIN photodetector for microwave applications under very high optical power. The modeling includes a monodimensional drift-diffusion model for the device and takes into account the external circuit. At first, this modeling is validated using experimental results from the literature. Second, we consider a classical InP/GaInAs/InP photodiode grown on N super(+) InP substrate. The presented results show that the distortion and the saturation of the microwave signal at 20 GHz are due to the space charge effect in the photodetector and also to the depolarization of the device because of the external circuit. The main parameter influencing these phenomena are the optical power, the bias voltage, the optical spot width and the modulation depth. In case of small optical spot, the effect of the external circuit is neglectable, while it contributes to the decrease of the microwave responsivity in case of large spot. The maximum output power is calculated in different cases and we can expect up to 12 dBm microwave output power for a 5 V reverse bias voltage. In this paper, we present a theoretical study and a numerical simulation of a classical long wavelength top illuminated PIN photodetector for microwave applications under very high optical power. The modeling includes a monodimensional drift-diffusion model for the device and takes into account the external circuit. At first, this modeling is validated using experimental results from the literature. Second, we consider a classical InP-GaInAs-InP photodiode grown on an N ( ) InP substrate. The presented results show that the distortion and the saturation of the microwave signal at 20 GHz are due to the space charge effect in the photodetector and also to the depolarization of the device because of the external circuit. The main parameters influencing these phenomena are the optical power, the bias voltage, the optical spot width and the modulation depth. In case of a small optical spot, the effect of the external circuit is neglectable, while it contributes to the decrease of the microwave responsivity in the case of a large spot. The maximum output power is calculated in different cases and we can expect up to 12 dBm microwave output power for a 5 V reverse bias voltage In this paper, we present a theoretical study and a numerical simulation of a classical long wavelength top illuminated PIN photodetector for microwave applications under very high optical power. The modeling includes a monodimensional drift-diffusion model for the device and takes into account the external circuit. At first, this modeling is validated using experimental results from the literature. Second, we consider a classical InP/GaInAs /InP photodiode grown on N+ InP substrate. The presented results show that the distortion and the saturation of the microwave signal at 20 GHz are due to the space charge effect in the photodetector and also to the depolarization of the device because of the external circuit. The main parameter influencing these phenomena are the optical power, the bias voltage, the optical spot width and the modulation depth. In case of small optical spot, the effect of the external circuit is neglectable, while it contributes to the decrease of the microwave responsivity in case of large spot. The maximum output power is calculated in different cases and we can expect up to 12 dBm microwave output power for a 5 V reverse bias voltage. (Author) |
| Author | Decoster, D. Vandecasteele, J. Friscourt, M.R. Vilcot, J.P. Dalle, C. Journet, F. Jin, G.H. Harari, J. |
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| References | ref13 ref11 ref10 harari (ref15) 1991; 138 ref2 pearsall (ref12) 1982 ref1 schlafer (ref14) 1985; 21 ref8 ref7 ref9 ref4 ref3 ref6 ref5 |
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| SubjectTerms | Microwave circuits Microwave devices Numerical simulation Optical distortion Optical modulation Optical saturation Photodetectors Photodiodes Power generation Voltage |
| Title | Modeling of microwave top illuminated PIN photodetector under very high optical power |
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