emryz
New Member
MID- SEM PROJECT ASSIGNMENT- 2014
(L100 – MORNING-Groups A & B)
“A voltage reference device provides constant and specific voltage levels to a multitude of electronic devices. Zener diodes as voltage reference can be connected along with normal signal diodes to produce a variety of different reference voltage output values. A DC voltage booster also has many possible applications as it produces a DC voltage many times greater than its input voltage. It is designed for industrial applications where the multiplication of DC voltage signals is required”.
QUESTION
Build a 5-port DC-DC Voltage Booster for use as a multi-outlet extension cord to distribute DC voltages in the range of 18V, 12.9V, 9.6V, 9V, and 3.8V from a 9volts battery.
Configure your design to provide the specific voltage levels by using the last three digits of your student I.D number as a current limiting parameter (RLim) for the diode array. For BTE Students, RLim= ID (ohm) and for BCE Students, RB2 = (ID +300) (ohm).
All design constructions must be done at the University Labs and supervised by the Lab Instructors and TA’s.
Project Defense date is as follows:
Morning Session: April 1, 2014
“Putting Theories into Real Solutions is making valuable use of Technology”
………….Something New (2014)
(L100 – MORNING-Groups A & B)
“A voltage reference device provides constant and specific voltage levels to a multitude of electronic devices. Zener diodes as voltage reference can be connected along with normal signal diodes to produce a variety of different reference voltage output values. A DC voltage booster also has many possible applications as it produces a DC voltage many times greater than its input voltage. It is designed for industrial applications where the multiplication of DC voltage signals is required”.
QUESTION
Build a 5-port DC-DC Voltage Booster for use as a multi-outlet extension cord to distribute DC voltages in the range of 18V, 12.9V, 9.6V, 9V, and 3.8V from a 9volts battery.
Configure your design to provide the specific voltage levels by using the last three digits of your student I.D number as a current limiting parameter (RLim) for the diode array. For BTE Students, RLim= ID (ohm) and for BCE Students, RB2 = (ID +300) (ohm).
All design constructions must be done at the University Labs and supervised by the Lab Instructors and TA’s.
Project Defense date is as follows:
Morning Session: April 1, 2014
“Putting Theories into Real Solutions is making valuable use of Technology”
………….Something New (2014)