<![CDATA[
<P align=center><FONT color=purple size=6>라플라스 변환의 정의 및 기본정리</FONT></P>
<P> </P>
<P align=center><FONT color=maroon><SPAN style="FONT-SIZE: 9pt">본 강좌는 여주대학에서 시범운영되는 </SPAN></FONT><FONT color=maroon><SPAN style="FONT-SIZE: 9pt">회로망</SPAN></FONT><FONT color=maroon><SPAN style="FONT-SIZE: 9pt"> 온라인 강좌입니다.</SPAN></FONT></P>
<P align=center><FONT color=maroon><SPAN style="FONT-SIZE: 9pt">이 강좌의 담당교수는 여주대학 전기과 </SPAN></FONT><A href="http://www.yeojoo.ac.kr/~poleman" target=_blank><B><STRONG><FONT color=maroon><SPAN style="FONT-SIZE: 9pt">김태형</SPAN></FONT></STRONG></B></A><FONT color=maroon><SPAN style="FONT-SIZE: 9pt"> 교수입니다. </SPAN></FONT></P>
<P> </P>
<P> </P>
<P><FONT color=blue size=5>라플라스 변환(Laplace Transform)</FONT></P>
<P> </P>
<P> - 미분방정식과 그 것에 대응하는 초기치 및 경계치 문제를 푸는 한 방법</P>
<P> - 구동력이 불연속점을 가질 때</P>
<P> 힘이 짧은 시간동안 작용</P>
<P> 주기적이나, 단순 sin, cos함수가 아닐 때 유용</P>
<P> - 방법</P>
<P> ⅰ) 복잡한 미분 방정식을 대수방정식(보조방정식)으로 변환 - 라플라스변환</P>
<P> ⅱ) 순수한 대수적 연산으로 보조방정식 풀이</P>
<P> ⅲ) 보조방정식의 해를 역으로 변환 - 역변환 </P>
<P>
<IMG height=394 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-1.gif" width=808 border=0></P>
<P> </P>
<P> <FONT color=red size=4>1. 라플라스 변환의 정의</FONT></P>
<P> - 라플라스 변환(Laplace transform)</P>
<P> 0〈 t〈∞로 정의된 시간의 함수 f(t)에 를 곱하고 t에 대하여 0∼∞까지 적분</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn1.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s)=\int _{0}^{\infty} f(t)e^{-st}
--></P>
<P> 라플라스연산자:
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn2.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
s=\alpha + j\omega
--> </P>
<P> - 역변환(inverse transform) </P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn3.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(t)=\frac{1}{2\pi j} \int _{ \alpha - j\infty} ^{ \alpha + j\infty} F(s)e^{-st}ds
--></P>
<P> <FONT color=red size=4>2. 간단한 함수의 라플라스 변환</FONT></P>
<P> ⅰ) 단위 계단함수, 단위치 함수(상수)<BR> </P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn4.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t)=1
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn5.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} 1e^{-st}dt = - \frac 1 s[e^{-st}] _0 ^{\infty} = - \frac 1 s [0-1]=\frac 1 s
--></P>
<P> ⅱ) 지수함수 </P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn6.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t)=e^{-at}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn7.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} e^{-st}e^{-st}dt = \int _0 ^{\infty} e^{-(s+a)t} dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn8.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= -\frac 1 {s+a} [e^{-(s+a)t}~]_0 ^{\infty} = - \frac 1 {s+a}[0-1] = \frac 1 {s+a}
--> </P>
<P> ⅲ) 삼각함수</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn9.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t) = sin~ \omega t ~~~~~,~f(t) = cos ~\omega t
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn10.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
e^{jwt} = cos~\omega t + j sin~\omega t
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn11.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
\int _0 ^{\infty} e^{j \omega t} e^{-st} dt = - \frac 1 {s-j \omega} [e^{-(s-j \omega)t}~]_0 ^{\infty}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn12.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= - \frac 1 {s - j \omega} [0-1] = \frac 1 {s - j \omega } = \frac {s + j \omega } {(s - j \omega)(s + j \omega)
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn13.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s)= \int _0 ^{\infty} sin~\omega t e^{-st} dt = \frac {\omega} {s^2 + \omega^2}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn14.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} cos~\omega t e^{-st} dt = \frac s {s^2 + \omega^2}
--></P>
<P> ⅳ) f(t) = At</P>
<P> cf :
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn15.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
\int ~u ~v' ~=~u~v~- \int~v~u'
--> (부분 적분법)</P>
<P> u= t, v=로 놓으면</P>
<P><BR>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn16.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int_0 ^{\infty} Ate^{-st}dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn17.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
=A[ - \frac t s [e^-st}]_0 ^{\infty} + \int _0 ^{\infty} ~\frac 1 s e{-st} 1 dt]
--><BR>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn18.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
A[~0 + [ - \frac {e^{-st}} {s^2}]_0 ^{\infty} ] = A[~0 + \frac 1 {s^2}] = \frac A {s^2}
--></P>
<P> </P>
<P> ⅴ) f(t) =
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn19.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
Ate^{-st}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn20.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} Ate^{at}e^{-st}dt = A\int_0 ^{\infty} te^{-(s-a)t}dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn21.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
=A[-\frac t {s-a}[e^{-(s-a)t}~]_0 ^{\infty} + \int _0 ^{\infty}~\frac 1 {s-a} e^{(s-a)t} 1 dt]
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn22.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
=A[\frac 1 {s-a} \int _0 ^{\infty} e^{-(s-a)t} dt]
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn23.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \frac A {s-a} [ 0 + [ \frac 1 {-(s-a)}e^{-(s-a)t}~]_0 ^{\infty} ]
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn24.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \frac A {s-a}~\frac 1 {s-a} = \frac A {(s-a)^2}
--></P>
<P> </P>
<P> ⅵ) f(t) = tn , f(t) = tn e<SUP>-at</SUP></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn25.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty}~t^n e^{-st} dt = \frac {n!} {s^{n+1}}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn26.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} t^n e^{-st} e^{-st}dt = \frac {n!} {(s+a)^{n+1}
--></P>
<P> <FONT color=red size=4>3. 신호파형의 라플라스 변환</FONT></P>
<P> ⅰ) 단위계단함수(unit-step function) - u(t)</P>
<P>
<IMG height=182 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-2.gif" width=177 border=0> </P>
<P> u(t) = 1 t ≥0<BR> 0 t <0</P>
<P>
<IMG height=176 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-3.gif" width=205 border=0><BR> u(t-a) = 1 t ≥a<BR> 0 t <a </P>
<P>
<IMG height=180 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-4.gif" width=252 border=0><BR> u(t+a) </P>
<P> </P>
<P>
<IMG height=185 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-5.gif" width=282 border=0></P>
<P> u(a-t) <BR> </P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn27.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} u(t)e^{-st}dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn28.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
=\int _0 ^{\infty} 1 ~e^{-st} dt= [- \frac 1 s e^{-st}~]_0 ^{\infty} = 0 - (- \frac 1 s)=\frac 1 s
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn29.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} u(t-a)e^{-st} dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn30.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \int _0 ^{\infty} 1~e^{-st} dt = [ -\frac 1 s e^{-st}~]_a ^{\infty} = 0 - (-\frac {e^{-as}} s) = \frac {e^{-as}} s
--></P>
<P><BR> ⅱ) 추이 단위계단함수</P>
<P> - 시간함수 f(t)도 단위계단함수 적용이 가능하며 t=a 인 시간지연을 갖는 시간함수는 f(t-a)u(t-a)</P>
<P> 로 표현</P>
<P> - t=a의 시간 지연을 갖는 시간함수의 라플라스 변환은 t=0에서 시작하는 함수의 라플라스 변환에</P>
<P> e<SUP>-as</SUP> 를 곱한 것과 같다.(추이정리)</P>
<P><BR> ⅲ) 단위구형파(unit pulse) </P>
<P>
<IMG height=733 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-6.gif" width=626 border=0></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn31.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty}f(t)e^{-st} dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn32.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
=\int _a ^b~1~e^{-st} dt = [- \frac 1 s e^{-st}~]_a ^b = \frac 1 s (e^{-as} - e^{-bs}~)
--></P>
<P> <BR> ⅳ) ramp 및 impulse 함수</P>
<P> 램프함수 : 시간에 따라 직선적 증가 </P>
<P> 단위램프함수 : 기울기가 1로 직선적증가</P>
<P> 임펄스함수: 짧은 시간에 무한대의 값을 갖는 함수</P>
<P> 단위임펄스함수 : 폭이 ε, 높이가 1/ε일 때 ε가 무한대로 갈 때 면적은 1을 유지하는 함수</P>
<P> </P>
<P>
<IMG height=211 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-7.gif" width=630 border=0></P>
<P>
<IMG height=222 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-8.gif" width=236 border=0></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn33.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} t e^{-st}dt = \frac 1 {s^2}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn34.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} At e^{-st} dt = \frac A {s^2}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn35.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \int _0 ^{\infty} \delta(t) e^{-st} dt = 1
--></P>
<P> ⅴ) 톱니파</P>
<P><BR>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn36.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t) = \frac K a t u(t) - ku(t-a)- \frac k a (t-a)u(t-a)
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn37.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \frac k a \frac 1 {s^2} - \frac k s e^{-as} - \frac k {as^2} e^{-as}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn38.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \frac k {as^2} [1 - (as + 1) e^{-as}~]
--> </P>
<P>[예제] 그림과 같은 파형의 라플라스 변환을 구하여라.</P>
<P>
<IMG height=187 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-9.gif" width=305 border=0> </P>
<P> 그림으로부터</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn39.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = L[f(t)]
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn40.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \int _0 ^{\infty} f(t)e^{-st} dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn41.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
=k \int _a ^b ~ 1 ~e^{-st}dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn42.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
=- \frac k s [e^{-st} ~]_a ^b
--></P>
<P> 단위계단 함수로 표시하여 구하면</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn43.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t)= \left {u(t-a)-u(t-b) \right }
--></P>
<P> 이므로, 라플라스 변환하면</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn44.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = L [ k \left {u(t-a)-u(t-b) \right\ } ]
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn45.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \frac k s ( e^{-as} -e^{-bs}~)
--></P>
<P>[예제] 그림과 같은 파형의 라플라스 변환을 구하여라.</P>
<P>
<IMG height=194 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-10.gif" width=259 border=0></P>
<P>(풀이)
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn46.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t)
-->를 그림과 같이
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn47.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f_1(t)
-->,
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn48.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f_2(t)
-->,
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn49.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f_3(t)
-->로 분해할 수 있으므로</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn50.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t) = f_1(t) + f_2(t) + f_3(t)
--></P>
<P> 이며, 여기서</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn51.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f_1(t) = \frac k a tu(t)
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn52.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f_2(t) = - k u (t-a)
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn53.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f_3(t) = - \frac k a tu(t-a)u(t-b)
--> </P>
<P> 이므로</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn54.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = L[f(t)] = L \frac k a [tu(t)] - kL \frac k a [tu(t-a)] - \frac k a [tu(t-a)u(t-a)]
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn55.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \frac k a \frac1 {s^2} - \frac k s e^{-as} - \frac k a \frac 1 {s^2} e^{-as}
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn56.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \frac k a \frac 1 {s^2} [ 1 - (as + 1)e^{-as} ~]
--></P>
<P>
<IMG height=221 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-11.gif" width=717 border=0><BR></P>
<P> ⅵ) 주기함수의 라플라스 변환</P>
<P> f(t) = f(t+nT) n= 0, 1, 2, …</P>
<P> f(t)가 주기 T인 주기함수이면 라플라스변환은</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn57.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \frac 1 {1 - e^{-sT}} \int _0 ^T f_1(t)e^{-st} dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn58.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= \frac 1 {1- e^{-sT}}~F_1(s)
--></P>
<P>[예제] 그림과 같은 주기함수 톱니파의 라플라스 변환을 구하여라.</P>
<P>
<IMG height=168 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-12.gif" width=259 border=0></P>
<P> (풀이) 0< t < T 일 때
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn59.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t) = \frac 1 T t
--> 이며</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn60.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t) = f(t+T)
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn61.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
\int _0 ^t t e^{-st} dt = - \frac t s e^{-st}|_0 ^t + \int _0 ^t e^{-st}dt
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn62.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
= - \frac 1 s T e^{-st} - \frac 1 {s^2} (e^{-st} - 1 )
--></P>
<P> 따라서 식 (14-37)을 적용하면</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn63.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = L[f(t)] = \frac 1 {Ts^2} - \frac {e^{-sT}} {s(1 - e^{-sT}~)}
--></P>
<P> 혹은</P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn64.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
f(t) = \frac t T - \left { u(t-T) + u(t-2T) + u(t-3T) + \cdots \right }
--></P>
<P>
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn65.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \frac 1 {Ts^2} \left { \frac 1 s e^{-Ts} + \frac 1 s e^{-2Ts} + \frac 1s e^{-3Ts} + \cdots \right }
--> </P>
<P> ∴
<IMG src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Flaplace_htm_eqn66.gif" NAMO_EQN__><!--NAMO_EQN__ 160 1
F(s) = \frac 1 {Ts^2} - \frac {e^{-sT}} {s(1-e^{-sT})}
--></P>
<P> </P>
<P align=center>
<IMG height=527 src="https://img1.daumcdn.net/relay/cafe/original/?fname=http%3A%2F%2Fmyhome.hanafos.com%2F%257Enewnawe%2Ftech%2Fgra%2Fcir14-13.gif" width=803 border=0></P><PRE> <FONT color=#800000 size=2>여주대학 전기과 </FONT><A href="http://www.yeojoo.ac.kr/~poleman" target=_blank><B><STRONG><SPAN style="FONT-SIZE: 9pt"><FONT color=#800000>김태형</FONT></SPAN></STRONG></B></A><SPAN style="FONT-SIZE: 9pt"><FONT color=#800000> 교수입니다</FONT></SPAN></PRE>
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