The beverage company ABC has a problem in its bottling because its syrup supply system (liquid drinks) does not have a control for the container, which prevents the system from stopping when the bottle is completely full.

The bottling manager detects the problem and has proposed designing a pilot system that allows detecting the maximum deformation of a 1-liter plastic bottle when it has a certain volume of liquid inside.

The system has the following conditions:

Syrup temperature sensor. The syrup temperature must be between 20 and 25 C. If, this temperature is outside the range, the system must generate an audible and visual alarm that operates at 110 Vac.

You must record the diameter in the middle of the bottle, have a platform that allows you to record the weight of the bottle when it is empty (30 g) and full (1 Kg).

When the weight of the bottle has reached 1 kg and the deformation recorded in the diameter of the bottle indicates the maximum deformation, the system must close the syrup supply valve. If at least one of these conditions is not met, the system must stop and generate an audible alarm with a bell connected to 110 VAC.

To record the weight of the bottle we must use the ACME Reference Gauge and its equation is (y () = 1.5x (g) +2) this gauge is linear and its measurement range is between 500 grams and 2000 grams. To record the diameter of the bottle you will use a description of the following linear equation: y () = 0.5x (g)

Note the following characteristics of the bottle:

Carry out the design of the system that responds to the above approaches, justify the type of sensor to be used for temperature, detail the required instrumentation. The electronic system must be powered by a Dual source at +15 and -15 dc, you must design the source using rectification systems

Characteristic Normal Status Average deformation Maximum deformation 30cm 30 Height diameter weight 8cm 30cm 9.5cm NA 10.5cm 1KG 30g Characteristic Normal Status Average deformation Maximum deformation 30cm 30 Height diameter weight 8cm 30cm 9.5cm NA 10.5cm 1KG 30g