INDUCTANCE BRIDGE

1-25 Similarly, the following resistance ratio exists between the four arms of the bridge, just as in the resistance bridge expression discussed earlier: or Thus, both the unknown resistance and capacitance, R x and C_x, can be estimated in terms of known resistance R1, R2, R_s, and known capacitance C_s. In figure 1-7, for example, we know that R1 is 20 ohms, R2 is 40 ohms, R_s is 60 ohms, and C_sis 10 microfarads. We can find the values of C_x and R_x by using the respective formulas as follows: and Q-19. When a bridge is used to measure resistance, what is the value of R_x if R1 equals 80 ohms, R2 equals 120 ohms, and R3 equals 280 ohms? INDUCTANCE BRIDGE.—The value of the unknown inductance L_x may be determined by means of the simple bridge circuit shown in figure 1-8. Ratio arms R1 and R2 are accurately calibrated resistors. L_s is a standard inductor with a known inductance; R_s is the known resistance, and R_x represents the resistance of the unknown inductor.