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1 Series Parallel Circuits Benchmark Companies Inc PO Box 473768 Aurora CO 80047.

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Presentation on theme: "1 Series Parallel Circuits Benchmark Companies Inc PO Box 473768 Aurora CO 80047."— Presentation transcript:

1 1 Series Parallel Circuits Benchmark Companies Inc PO Box 473768 Aurora CO 80047

2 2 Introduction to Combination Circuits Advantages of Series Circuits A series circuit may be used to connect small voltages to obtain high voltages. High voltages may be reduced by connecting resistances in series. Series circuits provide a means for reducing and controlling the current by connecting resistances in series. Series circuits are used where different voltage drops and a constant current are needed.

3 3 Since the current is constant in a series circuit we are forced to use only those devices which require the same current. If any part of a series circuit should burn out it would cause an open circuit and put the entire circuit out of operation. Series circuits are used where different voltage drops and a constant current are needed. Disadvantage of Series Circuits

4 4 Disadvantages of Parallel Circuits If a break should occur in any branch of a parallel circuit, it would not affect the other branch circuits. Any device may be operated independently of any other device. In a parallel circuit, more branches (devices) may be added at any time. Advantages of Parallel Circuits As more devices are added more current is drawn till eventually the fuse blows. Parallel circuits are used where a constant voltage and a large current are required.

5 5 If we combine series circuits with parallel circuits, we produce a combination circuit. A combination circuit makes it possible to obtain the different voltages of a series circuit and the different currents of a parallel circuit. Simple combination circuits are of two types. 1. A parallel-series circuit in which one or more groups of resistances in series are connected in parallel. 2. A series-parallel circuit in which one or more groups of resistances in parallel are connected in series. Combination Circuits

6 6 General Method for Solving Combination Circuits 1. A group of resistances is a simple combination of two or more resistances which are arranged in either simple series or simple parallel circuits. Identify these groups. 2. Every group must be removed from the circuit as a unit and replaced by a single resistor which offers the identical resistance. This equivalent resistance is the total resistance of the group. Continued

7 7 3. Redraw the circuit, using the equivalent resistance in place of each group. 4. Solve the resulting simple circuit for all missing values. 5. Go back to the original circuit to find the voltage, current, and resistance for each resistance in the circuit. General Method for Solving Combination Circuits

8 8 Solving Parallel-Series Circuits Example Two groups of resistors are Group A (that has 10-, and 50  resistors connected in series) and Group B (that has two 30  resistors connected in series). Find all the missing values connected in parallel across a 120 V source of voltage, current, and resistance. Continued

9 9 1. Identify groups A and B as series circuits. 2. Find the equivalent resistance of each group. 3. Since the resistors of groups A and B are in series. R A = R 1 + R 2 R A = 10 + 50 = 60  Ans. R B = R 3 + R 4 R B = 30 + 30 = 60  Ans. Solution Continued

10 10 4. Redraw the circuit, using these 60  resistors in place of the series groups. 5. Solve the new parallel circuit. Find the voltage for each group. V T = V A = V B = 120 V Ans. Find the current in each group: Solution V A = I A x R A 120 = I A x 60 I A = 120/60 = 2 A Ans. V B = I B x R B 120 = I B x 60 I B = 120/60 = 2 A Ans. Continued

11 11 6. Go back to the original circuit to find the voltage and current for each resistor. Find the current in each resistor. I A = I 1 = I 2 = 2 AAns. I B = I 3 = I 4 = 2 AAns. Find the total current I T. I T = I A + I B I T = 2 + 2 = 4 A Ans. Find the total resistance R T. V T = I T x R T 120 = 4 x R T R T = 120/4 = 30  Ans. Continued

12 12 V 2 = I 2 x R 2 V 2 = 2 x 50 V 2 = 100 V Find the voltage drop across each resistor. V 1 = I 1 x R 1 V 1 = 2 x 10 V 1 = 20 V V 3 = I 3 x R 3 V 3 = 2 x 30 V 3 = 60 V V 4 = I 4 x R 4 V 4 = 2 x 30 V 4 = 60 V

13 13 Solving Series-Parallel Circuits A resistor R 1 = 10  is in series with two parallel resistors R 2 = 40  and R 3 = 60 . The three resistors are connected across a voltage source of 34 V. Find all the values of voltage, current, and resistance. Example Continued

14 14 4. Solve the new series circuit. Find the total resistance R T. R T = R 1 + R 4 R T = 10 + 24 = 34  Ans. 1. Find the resistance of the parallel group A (R 2 and R 3 ). 2. Since R 2 and R 3 are in parallel, R A = (R 2 x R 3 )  (R 2 + R 3 ) R A = (40 x 60)  (40 + 60) = 24  Ans. 3. Redraw the circuit using this 24  resistor R A in place of the parallel combination. Continued Solution

15 15 Find the voltage in each part of the series circuit. Find the total current I T. V T = I T x R T 34 = I T x 34 I T = 34/34 = 1 A Ans. Find the current in each part of the series circuit. I T = I 1 = I A = 1 A Ans. V A = I A x R A V A = 1 x 24 = 24 V Ans. V 1 = I 1 x R 1 V 1 = 1 x 10 = 10 V Ans. Continued

16 16 Find the current in each resistor of group A. 5. Go back to the parallel group A to find V, I, and R for each resistance in the group. Since V A represents the total voltage of the parallel group A. V A = V 2 = V 3 = 24 V 6. Check: I T = I 2 + I 3 I T = 0.6 + 0.4 1 = 1 V 2 = I 2 x R 2 24 = I 2 x 40 I 2 = 24/40 = 0.6 A V 3 = I 3 x R 3 24 = I 3 x 60 I 3 = 24/60 = 0.4 A

17 17 End of Lesson


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