This paper presents a systematic approach to the design of receiver for indoor optical wireless communication. In particular, it is concerned with how one can properly chooses the front-end preamplifier and biasing circuitry for the photodetector. A comparison between differences types of amplifier, and bandwidth enhancement technique is also discussed. For most photodetector applications, large values of RL and CD would severely restrict bandwidth. It is shown that a proper front-end design incorporates a transimpedance preamplifier which tends to integrate the detector output. Such a design provides significant reduction in photodiode capacitance and increase bandwidth when compared to a design which does not integrate initially. Two nove...
grantor: University of TorontoNew requirements on optical receivers are being driven by th...
This thesis explores new circuit design techniques and topologies to extend the bandwidth of visible...
Optical wireless communications systems are preferably designed to receive a strong signal over a wi...
This paper presents a systematic approach to the design of receiver for indoor optical wireless comm...
This paper is concerned with a systematic approach to the design of receiver for indoor optical wire...
This paper is concerned with a systematic approach to the design of receiver for indoor optical wire...
Due to optical wireless link power budget considerations, the receiver is required to have a large c...
This paper presents a bootstrapping technique that is applicable for various large window photodetec...
The optical front end (OFE) is a critical part in most Optical Wireless Communication (OWC) systems....
Optical wireless or Free Space Optics (FSO) has received considerable attention as an alternative to...
In the high speed optical communication, the requirement of designing the new optical transceivers i...
Wireless optical networks usually have demanding specifications in terms of bandwidth, dynamic range...
Abstract: Free Space Optic (FSO) or optical wireless link operates in high noise environments. On th...
This study aims to investigate the performance of a bootstrapped transimpedance receiver using a lar...
Due to optical wireless link power budget considerations, the receiver is required to have a large c...
grantor: University of TorontoNew requirements on optical receivers are being driven by th...
This thesis explores new circuit design techniques and topologies to extend the bandwidth of visible...
Optical wireless communications systems are preferably designed to receive a strong signal over a wi...
This paper presents a systematic approach to the design of receiver for indoor optical wireless comm...
This paper is concerned with a systematic approach to the design of receiver for indoor optical wire...
This paper is concerned with a systematic approach to the design of receiver for indoor optical wire...
Due to optical wireless link power budget considerations, the receiver is required to have a large c...
This paper presents a bootstrapping technique that is applicable for various large window photodetec...
The optical front end (OFE) is a critical part in most Optical Wireless Communication (OWC) systems....
Optical wireless or Free Space Optics (FSO) has received considerable attention as an alternative to...
In the high speed optical communication, the requirement of designing the new optical transceivers i...
Wireless optical networks usually have demanding specifications in terms of bandwidth, dynamic range...
Abstract: Free Space Optic (FSO) or optical wireless link operates in high noise environments. On th...
This study aims to investigate the performance of a bootstrapped transimpedance receiver using a lar...
Due to optical wireless link power budget considerations, the receiver is required to have a large c...
grantor: University of TorontoNew requirements on optical receivers are being driven by th...
This thesis explores new circuit design techniques and topologies to extend the bandwidth of visible...
Optical wireless communications systems are preferably designed to receive a strong signal over a wi...