Question

A 8 V Zener diode along with a series resistance R is connected across a 20 V supply (as shown in the figure). If the maximum Zener current is 25 mA, then the minimum value of R will be ____ Ω.

Answer 1

Correct Answer: 480

To find the minimum value of the series resistance R, we start by analyzing the circuit. The Zener diode maintains a constant voltage of 8 V across it when it is functioning in the breakdown region. Given the supply voltage is 20 V, the voltage across the series resistor R is: 

V_R = 20 V - 8 V = 12 V

The maximum Zener current, I_Z, is 25 mA. Applying Ohm's law to the resistor:

I_Z = V_RR

Rearranging to find R:

R = V_RI_Z

Substituting the known values:

R = 12 \text{ V}{0.025 \text{ A}} = 480 \Omega

The minimum value of the series resistance R is confirmed to be 480 Ω, which fits within the expected range of 480 to 480 Ω.

Answer 2

R will be minimum when R_L is infinitely large, so 
R_Zener=\(\frac{8}{25×10^{−3}}\)
R_Zener=320 Ω
So, \(\frac{R}{R_{Zener}}=\frac{12}{8}\)
R=\(\frac{12}{8}\)×320
R=480 Ω
So, the answer is 480 Ω.