You are to create an automatic light switching system. The system controls two lights in the room: a while LED (L) and an Ambient light (A). Assume that there are four variables: Input (4 variables) B = 1 indicates you are relaxing in your bed, 0 if not C = 1 indicates that you are sitting on your desktop computer, O if not E = 1 indicates that there is electricity, O if not D = 1 indicates that it is day, O if night (Note: You need to maintain the input order as BCED with B as the MSB and D as the LSB] Output (2 variables) L= 1 indicates that the LED is ON A = 1 indicates that the Ambient Light is ON. You have to consider the following conditions: • The operation of the Ambient light requires electricity but the LED light works both in the presence and absence of electricity. • The Ambient light will ONLY work at night and the LED light will work during both day and night. · Both the lights cannot be ON at the same time. A always takes priority over L. • Lis turned ON when you are using your computer. · Ais turned ON when you are relaxing on your bed. . It's not possible to sit on your desktop computer and relax on your bed at the same time since they are located on opposite sides of your room. • When you are neither on your bed nor computer, in this case a light will be ON only when it is night. Hint: You need to consider the previous conditions to determine which light will be ON. Draw the truth table for the scenario above. Using the Karnaugh-Map Method, find the required simplified SOP expression for the given outputs.

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You are to create an automatic light switching system. The system controls two lights in
the room: a while LED (L) and an Ambient light (A).
Assume that there are four variables:
Input (4 variables)
B = 1 indicates you are relaxing in your bed, 0 if not
C = 1 indicates that you are sitting on your desktop computer, O if not
E = 1 indicates that there is electricity, O if not
D = 1 indicates that it is day, O if night
[Note: You need to maintain the input order as BCED with B as the MSB and D as the
LSB]
Output (2 variables)
L= 1 indicates that the LED is ON
A= 1 indicates that the Ambient Light is ON.
You have to consider the following conditions:
- The operation of the Ambient light requires electricity but the LED light works
both in the presence and absence of electricity.
• The Ambient light will ONLY work at night and the LED light will work during both
day and night.
· Both the lights cannot be ON at the same time. A always takes priority over L.
· Lis turned ON when you are using your computer.
· Ais turned ON when you are relaxing on your bed.
. It's not possible to sit on your desktop computer and relax on your bed at the
same time since they are located on opposite sides of your room.
• When you are neither on your bed nor computer, in this case a light will be ON
only when it is night. Hint: You need to consider the previous conditions to
determine which light will be ON.
Draw the truth table for the scenario above. Using the Karnaugh-Map Method,
find the required simplified SOP expression for the given outputs.
Transcribed Image Text:You are to create an automatic light switching system. The system controls two lights in the room: a while LED (L) and an Ambient light (A). Assume that there are four variables: Input (4 variables) B = 1 indicates you are relaxing in your bed, 0 if not C = 1 indicates that you are sitting on your desktop computer, O if not E = 1 indicates that there is electricity, O if not D = 1 indicates that it is day, O if night [Note: You need to maintain the input order as BCED with B as the MSB and D as the LSB] Output (2 variables) L= 1 indicates that the LED is ON A= 1 indicates that the Ambient Light is ON. You have to consider the following conditions: - The operation of the Ambient light requires electricity but the LED light works both in the presence and absence of electricity. • The Ambient light will ONLY work at night and the LED light will work during both day and night. · Both the lights cannot be ON at the same time. A always takes priority over L. · Lis turned ON when you are using your computer. · Ais turned ON when you are relaxing on your bed. . It's not possible to sit on your desktop computer and relax on your bed at the same time since they are located on opposite sides of your room. • When you are neither on your bed nor computer, in this case a light will be ON only when it is night. Hint: You need to consider the previous conditions to determine which light will be ON. Draw the truth table for the scenario above. Using the Karnaugh-Map Method, find the required simplified SOP expression for the given outputs.
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