1
GATE ECE 2009
MCQ (Single Correct Answer)
+1
-0.3
Two infinitely long wires carrying current are as shown in the figure below. One wire is in the
y-z plane and parallel to the y-axis. The other wire is in the x-y plane and parallel to the x-axis.
Which components of the resulting magnetic field are non-zero at the origin?
2
GATE ECE 2009
MCQ (Single Correct Answer)
+2
-0.6
In the circuit below, the diode is ideal. The voltage V is given by
3
GATE ECE 2009
MCQ (Single Correct Answer)
+2
-0.6
Consider the CMOS circuit shown, where the gate voltage of the n-MOSFET is increased
from zero, while the gate voltage of the p-MOSFET is kept constant at 3 V. Assume that, for
both transistors, the magnitude of the threshold voltage is 1 V and the product of the
transconductance parameter and the $$\left(\frac WL\right)$$ ratio, i.e. the quantity $$\mu C_{ox}\left(\frac WL\right)$$ , is 1 mAV-2.
For small increase in VG beyond 1 V, which of the following gives the correct description of the region of operation of each MOSFET?
For small increase in VG beyond 1 V, which of the following gives the correct description of the region of operation of each MOSFET?
4
GATE ECE 2009
MCQ (Single Correct Answer)
+2
-0.6
Consider the CMOS circuit shown, where the gate voltage of the n-MOSFET is increased
from zero, while the gate voltage of the p-MOSFET is kept constant at 3 V. Assume that, for
both transistors, the magnitude of the threshold voltage is 1 V and the product of the
transconductance parameter and the $$\left(\frac WL\right)$$ ratio, i.e. the quantity $$\mu C_{ox}\left(\frac WL\right)$$ , is 1 mAV-2.
Estimate the output voltage V0 for VG =1.5 V. [Hints: Use the appropriate current-voltage equation for each MOSFET, based on the answer]
Estimate the output voltage V0 for VG =1.5 V. [Hints: Use the appropriate current-voltage equation for each MOSFET, based on the answer]
Paper analysis
Total Questions
Analog Circuits
1
Communications
3
Control Systems
5
Digital Circuits
4
Electromagnetics
3
Electronic Devices and VLSI
3
Engineering Mathematics
10
Network Theory
7
Signals and Systems
8
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