The third-order intermodulation distortions of an InGaAs/InP modified uni-traveling carrier photodiode (MUTC-PD) are characterized using a two-tone setup. At 0.3 GHz modulation frequency and photocurrents above 40 mA the third order local intercept point (IP3) reaches 52 dBm and remains above 35 dBm up to the photodiode’s 3 dB bandwidth. A simple equivalent circuit model is used to explain the frequency characteristics of the intermodulation distortions. Based on experimental data, we find that the frequency characteristics of the IP3 can be attributed to the change of both the responsivity and device capacitance induced by the photocurrent and the transient voltage drop at the load and series resistors. Further investigations of the non-li...
With the rapid development of modern optical communication technology, photodiodes (PDs) with high p...
As photodiodes become more linear, accurately characterizing their linearity becomes very challengin...
[[abstract]]© 1999 American Institute of Physics - Negative differential resistance (NDR) was observ...
It is demonstrated with small-signal analysis how the voltage-dependent responsivity in the uni-trav...
In Hayes’s (1993) and Williams’s (1996) analyses, the photodiode nonlinearity is attributed to the s...
Abstract—Waveguide uni-traveling-carrier photodiodes have been fabricated and tested to investigate ...
The linearity, the RF output power, and the bandwidth for p-i-n photodiodes (PDs) and modified uni-t...
We demonstrate hermetically packaged InGaAs/InP photodetector modules for high performance microwave...
International audiencePhotodiodes are important components in optical data links, and their performa...
We report charge-compensated modified uni-traveling-carrier photodiodes (MUTC-PDs) with high photocu...
As analog optical links continue to mature and fulfill communication needs, the requirements for out...
Abstract We report a highly linear, high power handling InGaAs photodiode having a third order harmo...
Abstract—Waveguide unitraveling-carrier photodiodes (UTC-PDs) with different absorber and collector ...
A typical uni-traveling carrier photodiode (UTC-PD) and a commercial PIN-PD are compared in the cont...
With the development of broadband and high-frequency photonic systems, the photodiode with both h...
With the rapid development of modern optical communication technology, photodiodes (PDs) with high p...
As photodiodes become more linear, accurately characterizing their linearity becomes very challengin...
[[abstract]]© 1999 American Institute of Physics - Negative differential resistance (NDR) was observ...
It is demonstrated with small-signal analysis how the voltage-dependent responsivity in the uni-trav...
In Hayes’s (1993) and Williams’s (1996) analyses, the photodiode nonlinearity is attributed to the s...
Abstract—Waveguide uni-traveling-carrier photodiodes have been fabricated and tested to investigate ...
The linearity, the RF output power, and the bandwidth for p-i-n photodiodes (PDs) and modified uni-t...
We demonstrate hermetically packaged InGaAs/InP photodetector modules for high performance microwave...
International audiencePhotodiodes are important components in optical data links, and their performa...
We report charge-compensated modified uni-traveling-carrier photodiodes (MUTC-PDs) with high photocu...
As analog optical links continue to mature and fulfill communication needs, the requirements for out...
Abstract We report a highly linear, high power handling InGaAs photodiode having a third order harmo...
Abstract—Waveguide unitraveling-carrier photodiodes (UTC-PDs) with different absorber and collector ...
A typical uni-traveling carrier photodiode (UTC-PD) and a commercial PIN-PD are compared in the cont...
With the development of broadband and high-frequency photonic systems, the photodiode with both h...
With the rapid development of modern optical communication technology, photodiodes (PDs) with high p...
As photodiodes become more linear, accurately characterizing their linearity becomes very challengin...
[[abstract]]© 1999 American Institute of Physics - Negative differential resistance (NDR) was observ...