Low noise transimpedance amplifier design

The aim of this research is to study a simplified approach for the design of low-noise bipolar transimpedance preamplifiers for optical receivers. Analytical solutions for optimum biasing and minimum equivalent input-noise current were derived. The study was achieved by doing comparison between the designed circuits. The equivalent input noise current was calculated by entering the parameters in Matlab program and using Multisim as a simulation tool to detect a pulse signal of 30ns width.

Analysis of detection sensitivity in optical preamplifier

The aim of this research is to study of detection sensitivity in optical preamplifier, which is used as a first stage in optical receivers. This subject is important because it is used in laser rangefinders. The parameters that affect the distance measurement using time of flight technique are studied in details. Then, noise analysis and signal to noise ratio calculation are performed in preamplifiers to detect a signal with pulse width of 30ns using Matlab. The study results are applied to some preamplifiers to determine the minimum detectable power.