Determine the power of each source after solving the circuit by the nodal analysis.
I. Identify all nodes in the circuit.
The circuit has 6 nodes as highlighted below.
II. Select a reference node. Label it with the reference (ground) symbol.
The right top node is connected to two voltage sources and has three elements. All other nodes also have three elements. Hence, we select the right top node because by this selection, we already know the node voltages of two other nodes, i.e. the ones that the reference node is connected to them by voltage sources.
III. Assign a variable for each node whose voltage is unknown.
We label the remaining nodes as shown above. Nodes of and are connected to the reference node through voltage sources. Therefore, and can be found easily by the voltages of the voltage sources. For , the negative terminal of the voltage source is connected to the node. Thus, is equal to minus the source voltage, . The same argument applies to and .
IV. If there are dependent sources in the circuit, write down equations that express their values in terms of node voltages.
The voltage of the dependent voltage source is . We should find this value in terms of the node voltages. is the current of the - resistor. The voltage across the resistor is . We prefer to define as instead of to comply with passive sign convention. By defining as mentioned, is entering from the positive terminal of and we have . Therefore, .
V. Write down a KCL equation for each node.
Nodes of and :
These two nodes are connected through a voltage source. Therefore, they form a supernode and we can write the voltage of one in terms of the voltage of the other one. Please note that the voltage of the dependent voltage source is and we have
KCL for the supernode:
Node of :
Substituting and ,
Here is the system of equations that we need to solve and obtain nd :
We use elimination method to solve this system of equation:
All node voltages are determined. Now, the power of voltage sources can be calculated from the node voltages. For each source, we need to find the voltage across the source as well as the current flowing through it to compute the power.
The voltage across the current source is equal to . However, the comply with the passive voltage convention, the current should be entering from the positive terminal of the defined voltage as shown below. Therefore, .
To compliant with the passive sign convention, the voltage should be defined with polarity as indicated above. We have . Hence,
should be defined such that it enters from the positive terminal of the source in order to use the voltage of the source in power calculation. Another option is to use and define the current as entering from the voltage source terminal connected to the node of . We use the first approach here. KCL should be applied in the node of to determine .
KCL @ Node of :
Likewise, should be defined as shown above to comply with the passive sign convention. We apply KCL to the reference node to find .
KCL @ the reference node:
The dependent source:
The voltage of the dependent source is and we define its current with the direction illustrated above. can be calculated by applying KCL at the node of . The current of the resistor is which is equal to .
KCL @ Node of :
The PSpice simulation result is shown below. The PSpice schematics can be downloaded from http://www.solved-problems.com/download/1-23.zip.