Molasses problem Inlet Valve Storage tank in the figure shown has two level switches (one high level, Lt1 and ond low level, L). Tank is filled (inlet valve opened) output valve is closed, and when liquid level is below both sensors and stays open till tank is full (sensors are covered). Once both sensors are covered the inlct valve closes This concept requires knowing the initial state of the valve, hence designing it considered as both input and output (feedback). Please note in case of error we have to empty tank (close inlet valve and open outlet valve) to fix sensors. Complete the logic table shown below and explain action. Use Multiplexer to solve this problem. Draw the feedback logic circuit and use a Red LED indicating the output valve is open and a green LED indicating it is closed Level Sensors (L) are covered-1, Sensors are uncovered = 0, Inlet valve (V) opened (liquid pouring out)-O-Red LED ON, Valve closed 1 = Green LED ON Incomplete truth table is shown below. Have you seen it before? Inlet Inlet Data LinesComment L L Vae ValveConnections 0 01 Use Mux 8-3. Inputs are L. LH. The Inlet is output as well as input feed back into data lines (sometimes). Draw the circuit with Multisim. Use 2-bit switch (yes two) for Lt, L Remember valve will be feed back into the logic gate/s similar to the lab manual solution! Copy the circuit and place it into your report CL-) Guflet Voe Molasses problem Inlet Valve Storage tank in the figure shown has two level switches (one high level, Lt1 and ond low level, L). Tank is filled (inlet valve opened) output valve is closed, and when liquid level is below both sensors and stays open till tank is full (sensors are covered). Once both sensors are covered the inlct valve closes This concept requires knowing the initial state of the valve, hence designing it considered as both input and output (feedback). Please note in case of error we have to empty tank (close inlet valve and open outlet valve) to fix sensors. Complete the logic table shown below and explain action. Use Multiplexer to solve this problem. Draw the feedback logic circuit and use a Red LED indicating the output valve is open and a green LED indicating it is closed Level Sensors (L) are covered-1, Sensors are uncovered = 0, Inlet valve (V) opened (liquid pouring out)-O-Red LED ON, Valve closed 1 = Green LED ON Incomplete truth table is shown below. Have you seen it before? Inlet Inlet Data LinesComment L L Vae ValveConnections 0 01 Use Mux 8-3. Inputs are L. LH. The Inlet is output as well as input feed back into data lines (sometimes). Draw the circuit with Multisim. Use 2-bit switch (yes two) for Lt, L Remember valve will be feed back into the logic gate/s similar to the lab manual solution! Copy the circuit and place it into your report CL-) Guflet Voe