Fig 5 - uploaded by Intan Shafinaz Mohammad
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Source publication
![Fig. 1. Optical Receiver Front-End [10].](profile/Intan-Mohammad/publication/330534644/figure/fig1/AS:717795549536263@1548147203545/Optical-Receiver-Front-End-10_Q320.jpg)
The high-speed optical system requires a huge amount of bandwidth for long-haul telecommunication systems that offer Gb/s data rates data transmission and reception. In the high-speed optical communication systems, the signal strength is determined at the receivers' front-end. This degrades the overall performance of optical systems. In this paper,...
Contexts in source publication
Context 1
... schematic design of the designed Transimpedance Amplifier using BJT transistor via BRF540for front end receiver is achieved using the ISIS schematic capture as shown in Fig. 5. Afterward, the ISIS design is ready for PCB design. The PCB layout design is developed by creating a netlist to ARES PCB layout for the schematic of the designed Transimpedance Amplifier using BJT transistor via BRF540 for front end receiver. After placing all the component on ARES workspace and adding the footprints, the next steps ...
Context 2
... on ARES workspace and adding the footprints, the next steps is to route the track. The routing track can be done using automatic routing or manual routing. The routing process will be done until the entire component is completely connected. After the circuit is designed using the 'ARES PCB layout', the document can be printed as shown in Fig. 5. The PCB board as shown in Fig. 6 is ready to place the entire component and soldered the component using soldering iron. In the next, experimental setup is launched to verify the performance of the designed ...
