The circuit shown in Fig. P7.99 is known as an astable

Chapter 7, Problem 7.99

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The circuit shown in Fig. P7.99 is known as an astable multivibrator and finds wide application in pulse circuits. The purpose of this problem is to relate the charging and discharging of the capacitors to the operation of the circuit. The key to analyzing the circuit is to understand the behavior of the ideal transistor switches T1 and T2 .The circuit is designed so that the switches automatically alternate between ON and OFF. When T1 is OFF, T2 is ON and vice versa.Thus in the analysis of this circuit, we assume a switch is either ON or OFF. We also assume that the ideal transistor switch can change its state instantaneously. In other words, it can snap from OFF to ON and vice versa.When a transistor switch is ON, (1) the base current is greater than zero, (2) the terminal voltage is zero, and (3) the terminal voltage is zero. Thus, when a transistor switch is ON, it presents a short circuit between the terminals b,e and c,e. When a transistor switch is OFF, (1) the terminal voltage is negative, (2) the base current is zero, and (3) there is an open circuit between the terminals c,e. Thus when a transistor switch is OFF, it presents an open circuit between the terminals b,e and c,e. Assume that T has been ON and has just snapped OFF, while has been OFF and has just snapped ON. You may assume that at this instance, is charged to the supply voltage and the charge on is zero. Also assume and a) Derive the expression for during the interval that is OFF. b) Derive the expression for during the interval that is OFF. c) Find the length of time is OFF. d) Find the value of at the end of the interval that is OFF. e) Derive the expression for during the interval that is OFF. f) Find the value of at the end of the interval that is OFF. g) Sketch versus t during the interval that is OFF. h) Sketch versus t during the interval that is OFF