static power dissipation
dynamic power dissipation
short circuit power dissipation
A: POWER consumption is total power usage power dissipation is wasted power in the form of heat, IR drop and so on.
A: That will be the power dissipation of the device itself
norton's theorem is valid only for linear elements.. The power dissipation across norton equivalent circuit in not identical with the power dissipation in real system circuit...
No nuclear ones, apart from Bataan which has never operated
It will make more sense if you first study the construction of MOSFET. It has three terminals, Gate (G), Source (S), and Drain (D). G is insulated from the S and D. Between S and D is a variable resistor, whose resistance depends on the voltage applied across G and S. Since SD is basically a resistor, you have power dissipation when a voltage is applied across S and D. Power dissipation = Vds * Ids.
A: POWER consumption is total power usage power dissipation is wasted power in the form of heat, IR drop and so on.
power dissipation of a logic circuit is usually defined as the supply power required for the gate to operate with a 50% duty cycle at a specific frequency.
vacuum tubes, large sized, high power dissipation, high voltagestransistors, medium sized, medium power dissipation, low voltagesintegrated circuits, small size, medium power dissipation, low voltagesmicroprocessors, very small size, low power dissipation, low voltages
A: All devices have some kind of power dissipation. That is because some quiescent current must flow to keep them alive or functional
P=ir2
CMOS
cmos
Power isn't really dissipated in a circuit. It's energythat is dissipated. So the expression, 'power dissipation', really means is the 'rate of energy dissipation'.So, when an engineer asks, "What is the power dissipation?", what he is actually means is "What is the rate of energy dissipation?"What is energy dissipation? Well, work is done whenever a current flows through a conductor; this increases the internal energy of that conductor which, in turn, causes its temperature to rise. Because the temperature of the conductor is higher than the surrounding temperature, energy is lost to the surroundings through heat transfer.
It depends on a particular application for efficiency of power dissipation. However power is a constant it cannot be changed by any different laws I2 x R = POWER
A: A resistor size is determined by the usage or its power dissipation. the bigger the size the more power it can dissipate due to the extra surface. SIZE is a function of power dissipation and has nothing to do with its value
A: That will be the power dissipation of the device itself
norton's theorem is valid only for linear elements.. The power dissipation across norton equivalent circuit in not identical with the power dissipation in real system circuit...