Component conditions: 1. Rectifying Diode Breakdown voltage- 100v When diode is on- diode gets replaced with 0.7 V source (VD_on=0.7V) in the forward direction (constant voltage drop model). 2. Zener Diode Max power dissipation: 225 mW Current conducts in forward direction with a voltage of 0.7 V (VD=0.7 V) Circuit above should not exceed the maximum power dissipation of 225mW for the Zener 3. HLMP-1790, Green LED's use VLED, ON = 1.9V in the forward direction with an "ON" current of 2mA or greater. Assume that if the LED current <2mA, the LED is OFF. Note: the breakdown voltage of 5V and the maximum power dissipation of 27mW. 4. Resistors Values ((2) 500 ohm, (1) 100 ohm) Might have to be changed accordingly to satisfy all conditions power rating (specify 1/4W, 1/2W or 1W) The question needed to be answered: Show that your circuit properly works under each of the following test cases and that the LEDs are in the correct state. Show that each component's power dissipation is not exceeded for each test case.

You can assume any values just please note them. I just want to have this circuit working at all conditions. Or at least see the process so I can do it on my own with my own calculations

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+ Vin + 1.9 100 mw 500 Component conditions: 1. Rectifying Diode Breakdown voltage- 100v When diode is on- diode gets replaced with 0.7 V source (VD_on=0.7V) in the forward direction (constant voltage drop model). 2. Zener Diode Max power dissipation: 225 mW Current conducts in forward direction with a 500 $²1.91 voltage of 0.7 V (VD=0.7 V) Circuit above should not exceed the maximum power dissipation of 225mW for the Zener 3. HLMP-1790, Green LED's use VLED, ON = 1.9V in the forward direction with an "ON" current of 2mA or greater. Assume that if the LED current <2mA, the LED is OFF. Note: the Case # 1 2 3 breakdown voltage of 5V and the maximum power dissipation of 27mW. 4. Resistors Values ((2) 500 ohm, (1) 100 ohm) Might have to be changed accordingly to satisfy all conditions power rating (specify 1/4W, 1/2W or 1W) The question needed to be answered: Show that your circuit properly works under each of the following test cases and that the LEDs are in the correct state. Show that each component's power dissipation is not exceeded for each test case. Input Voltage VIN < 5V 5V VIN < 10V 10V VIN ≤ 15V LED #1 OFF ON ON LED #2 OFF OFF ON