Basic Electronic Circuit 3장

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Basic Electronic Circuit 3장 2008102916 정경태 (12.5%) 2010103786 박기택 (12.5%) 2012103827 김재희 (12.5%) 2012103828 김정민 (12.5%) 2012103831 김혜리 (12.5%) 2012110356 강혜돈 (12.5%) 2012110357 김반석 (12.5%) 2012110358 서영호 (12.5%)

노드(Node) : 회로상에서 연결점 Super nod : 하나 이상의 노드를 포함하는 영역을 정의 함으로써 얻어진다. 기준 노드(refrence node) : 보통 가장 많은 가지(branch)가 결합되어 있는 마디 가지 (Branch) - 마디와 마디 간의 연결 - 회로상에서 가지의 수는 회로 소자의 수와 같음 Branch

Node Voltage method 노드 전압법 : In electric circuits analysis, nodal analysis, node-voltage analysis, or the branch current method is a method of determining the voltage (potential difference) between "nodes" (points where elements or branches connect) in an electrical circuit in terms of the branch currents. KCL 적용 Node A Node B 참고 :http://ee.hawaii.edu/~eyoung/EE211/NVM/nvm3.html

Node Voltage method 참고 :http://www.ktword.co.kr/abbr_view.php?id=194&m_temp1=4543&nav=2

루프(Loop) A loop is any closed path in a circuit. Loop counts starting at a node passing through a set of nodes and returning to the starting node without passing through any node more than once. A network with b branches, n nodes and l independent loops will satisfy the fundamental theorem of network topology, b = l + n – 1 참고 :http://www.engineersblogsite.com/what-is-node-branch-and-loop-in-a-circuit.html

루프 해석법, 망로 해석법 (Loop Analysis) 참고 :http://www.ktword.co.kr/abbr_view.php?id=194&m_temp1=4543&nav=2

메시(Mesh) * 다른 루프를 포함하지 않는 루프

Mesh Current method 방법 및 절차 망전류(mesh current) 정의: 일관된 방향(시계방향) 망전류를 이용하여 각 전압 표시 & KVL 적용 선형연립방정식 수립 참고 : http://en.wikipedia.org/wiki/Mesh_analysis

Mesh Current method Super mesh A supermesh occurs when a current source is contained between two essential meshes. The circuit is first treated as if the current source is not there. This leads to one equation that incorporates two mesh currents. Mesh current method video : http://www.youtube.com/watch?v=jUOu7WvI_7Y 참고 : http://en.wikipedia.org/wiki/Mesh_analysis

Thevenin 등가회로 두 단자를 가진 임의의 회로망을 하나의 등가전원과 하나의 등가저항이 직렬 연결된 회로로 바꾸어 놓을 수 있다는 것

Thevenin 등가회로 𝑅 2 에 흐르는 전류 𝑉 𝐴𝐵 의 전압 Thevenin theorm video : http://www.youtube.com/watch?v=rwHgicnjJEE 참조 : http://electrical4u.com/thevenin-theorem-and-thevenin-equivalent-voltage-and-resistance/

Norton 등가회로

Norton 등가회로 Norton Equivalent Circuit Norton 등가회로에서의 등가저항 RN의 값은 Thevenin 등가회로의 등가저항 Rth의 값과 같고, 따라서 Rth와 같은 방법으로 구할 수 있다. 참조 : http://electrical4u.com/norton-theorem-norton-equivalent-current-and-resistance/

중첩의 원리(Superposition principle) Step – 1 Replace all but one of the sources by their internal resistances. Step – 2 Determine the currents in various branches using simple Ohm’s law . Step – 3 Repeat the process using each of the sources turn – by turn as the sole source each time. Step – 4 Add all the currents in a particular branch due to each source. This is the desired value of current at that branch when all the sources acting on the circuit simultaneously. 참조 : http://electrical4u.com/superposition-theorem/

회로의 선형성(Linearity) 두 신호 사이에는 어떤 연관관계도 발생하지 않는다. 참고 : http://www.rfdh.com/bas_rf/begin/linear.htm

비선형성(nonlinearity)

Transient Response(과도 응답)

Transient Response(과도 응답)