A periodic signal x(t) of period T0 is given by
$$x\left( t \right) = \left\{ {\matrix{
{1,} & {\left| t \right| < {T_1}} \cr
{0,} & {{T_1} < \left| t \right| < {{{T_0}} \over 2}} \cr
} } \right.$$
the dc component of x(t) is
A. $${{{T_1}} \over {{T_0}}}$$
B. $${{{T_1}} \over {\left( {2{T_0}} \right)}}$$
C. $${{2{T_1}} \over {{T_0}}}$$
D. $${{{T_0}} \over {{T_1}}}$$
Answer: Option C
This Question Belongs to Electronics And Communications Engineering >> Signal Processing
Related Questions on Signal Processing
The Fourier transform of a real valued time signal has
A. Odd symmetry
B. Even symmetry
C. Conjugate symmetry
D. No symmetry
A. $$V$$
B. $${{{T_1} - {T_2}} \over T}V$$
C. $${V \over {\sqrt 2 }}$$
D. $${{{T_1}} \over {{T_2}}}V$$
A. $$T = \sqrt 2 {T_s}$$
B. T = 1.2Ts
C. Always
D. Never
A. $${{\alpha - \beta } \over {\alpha + \beta }}$$
B. $${{\alpha \beta } \over {\alpha + \beta }}$$
C. α
D. β
Join The Discussion