Difference between revisions of "Meera Sanghani"

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[[File:Serial moniter.png| 400px]]
 
[[File:Serial moniter.png| 400px]]
 
===Construction of the meter===
 
===Construction of the meter===
[[File:Meera turbidity1.JPG| 400px]]
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[[File:Meera turbidity1.JPG|400px]]
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[[File:Turbiditypcb.JPG|400px]]
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[[File:TurbidityMetercasing.JPG| 400px]]
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===Turbidity Meter Calibration===
  
[[File:Meeraturbidity1.2.JPG| 400px]]
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Turbidity Meter Calibration
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Further, the circuit was soldered on to a PCB and cased with sunboard. Calibrating the meter requires successive dilution of samples. Milk is diluted with water and readings are gathered in a dark area.
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Starting with 25 ml of a sample we did a five fold dilution where the maximum concentration of milk resulted in a reading of approx 220 units and maximum dilution approached 700 units.
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[[File:MeeraTurbidity2.JPG| 400px]]
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[[File:Meera samples.JPG| 400px]]
 
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Revision as of 13:40, 10 March 2017

Challenge Accepted
Task:Use motors
In the previous course the only encounter with motors was using them with a module and arduino. Transistors and diode circuits I hadn't touched upon. I had experimented with Unity and serial communication. I thought of creating something dance oriented but since we weren't having accelerometers but we're using motors there was a change of plans. The LDR circuit couldn't be easily stitched with the diode circuit just like two libraries being fused in the IDE. So we moved ahead with the potentiometer and remade the circuit in a compact format. As a consumer product I feel it can be a valuable addition to an artist's toolset. I expect to figure out the coding back end more smoothly through this course while keeping the sensor interaction simple.

Sensors

Tilt Sensor
A Tilt Sensor or a Tilt Switch is a component that detects orientation of an object. There are different types of tilt sensors based on the axes it can measure. A simple tilt sensor is basically a switch that will turn ON or OFF based angle or orientation of the sensor. Such sensor is useful for single axis tilt detection.

TiltSensor.JPG

How does it work?

The tilt sensor is cylindrical and contains a free conductive rolling ball inside with two conductive elements (poles) beneath. When the sensor is completely upright, the ball falls to the bottom of the sensor and connects the poles, allowing the current to flow. When the sensor is tilted, the ball doesn’t touch the poles, the circuit is open, and the current doesn’t flow. This way, the tilt sensor acts like a switch that is turned on or off depending on its inclination. So, it will give digital information to the Arduino, either a HIGH or a LOW signal.
Tiltsensorwired.JPG

Tilt sensor.png







Materials Used

  • Arduino,
  • Bread board,
  • Led/buzzer,
  • Tilt sensor module,
  • Jumper wires


Materials.jpg
Circuit.png
Circuit diagram.png

Code.png
Tiltsensor.JPG

Turbidity Sensor

Combining basic LDR circuit with an LED we created a turbidity detector .The essential factor to consider was casing the LDR in darkness.

Schematic.png

Circuit

Led circuit.png

Arduino Code

Code turbidity.png

Serial Reading

Serial moniter.png

Construction of the meter

Meera turbidity1.JPG Turbiditypcb.JPG TurbidityMetercasing.JPG

Turbidity Meter Calibration

Turbidity Meter Calibration Further, the circuit was soldered on to a PCB and cased with sunboard. Calibrating the meter requires successive dilution of samples. Milk is diluted with water and readings are gathered in a dark area. Starting with 25 ml of a sample we did a five fold dilution where the maximum concentration of milk resulted in a reading of approx 220 units and maximum dilution approached 700 units.


Meera samples.JPG