I am a NUST graduate. I am currently looking for a position in a progressive organization where I can learn about new and exciting ideas and technologies. I am a very organized and motivated worker and treat my work as the top priority for myself. I also have the ability to manage and work in a team very well.
Specialties: Design/Development & Manufacturing of Electronic products.
Manufacturing:
Extensive experience with automated SMT assembly in specific and all aspects of electronic assembly/manufacturing in general.
Design/Development:
Full grasp of Digital/analog circuit design, PCB design, programming, procurement/sourcing
- Looking after SMT Manufacturing department.
- Directly reporting to Manufacturing Operations Head.
- Responsible for operation and maintenance of 2x state-of-the-art SMT PCB assembly plants with 40,000 CPH and 120,000CPH capacity respectively.
- Managing and planning of manufacturing of military radios and mil-spec
telephone exchanges.
- Monitor and check daily production outputs and targets. Involved in process monitoring and improvement.
- Ensuring compliance to IPC standards in all aspects of PCB assembly and
inspection.
- Worked on development of a commercial building automation system. Work
involved Wireless sensor network design using Zigbee 8.12.15.4 and TI
evaluation kits, End device design. Directly involved in firmware development for
the TI Zigbee Devices, AVR and Microchip microcontrollers and along with PCB
design. Among the tasks was supervising and coordinating with the software
team for the development of an Android application.
- Worked on development of a multi-language user console/HMI for a military
grade field telephone exchange. Tasks involved development of a stand-alone
GUI and extensive debugging of new circuits and integration with existing backend of the exchange.
- Developed an multi-zone intrusion system to secure a military compound. The
system included virtual fences using passive and active IR sensors, seismic
sensors and PTZ cameras.
Worked individually on developing an automated biomedical product for a law
enforcement agency. This device measured a patient’s blood pressure, pulse
rate, blood oxygen ,skin resistance and respiration rate simultaneously. The
device reported and logged up to six different physiological indicators.
Tasks included writing algorithms, embedded firmware development for the
Microchip dsPIC and detailed board design. Designing a Graphical User
Interface application in C#.NET was also part of the project