Water level indicator
The
Water Level Indicator employs a simple mechanism to detect and indicate
the water level in an overhead tank or any other water container. The
sensing is done by using a set of nine probes which are placed at nine
different levels on the tank walls (with probe9 to probe1 placed in
increasing order of height, common probe (i.e. a supply carrying probe)
is placed at the base of the tank). The level 9 represents the “tank
full” condition while level 1 represents the “tank empty” condition.
When
the water-level is below the minimum detectable level (MDL), the seven
segment displays is arranged to show the digit 1, indicating that the
tank is empty, When the water reaches level1 (but is below level2) the
connection between the probes gets completed (through the conducting
medium – water) and the base voltage of transistor increases. This
causes the base-emitter junction of transistor to get forward biased,
this switches transistor from cut-off to conduction mode thus PIN (B0)
of microcontroller is pulled to ground hence, the corresponding digit
displayed by the seven segment display is 2. The similar mechanism
applies to the detection of all the other levels. When the tank is full,
all inputs to microcontroller become low and all its outputs go high.
This causes the display shows a 9 also in this case a buzzer sound is
given, thereby indicating a “tank full” condition.
Most
water level indicators are equipped to indicate and detect only a
single level. The Water Level Indicator implemented here can indicate up
to nine such levels and the microcontroller displays the level number
on a seven segment display. So, not only is the circuit capable of
cautioning a person that the water tank has been filled up to a certain
level, it also indicates that the water level has fallen below the
minimum detectable level. This circuit is important in appliances such
as the water cooler where there is a danger of motor-burnout when there
is no water in the radiator used up also it can be used in fuel level
indication
In
this project we show the water level indicator using eight transistors
which conducts as level rises, a buzzer is also added which will
automatically start as the water level becomes full, auto buzzer start
with the help of microcontroller. With the help of this project we not
only show the level of water with the help of seven segment display but
also a buzzer.
Water Level Indicator Project Features:
Easy installation.
Low maintenance.
Compact elegant design.
The Automatic water level controller ensures no overflows or dry running of pump there by saves electricity and water.
Avoid seepage of roofs and walls due to overflowing tanks.
Fully automatic, saves man power.
Consume very little energy, ideal for continuous operation.
Automatic water level controller provides you the flexibility to decide
for yourself the water levels for operations of pump set.
Shows clear indication of water levels in the overhead tank.
Hardware Description:
Water Level Indicator Project Block Diagram:
Figure
2.1.1 Block diagram
Water Level Indicator Project Circuit Diagram
Water Level Indicator Project
Description:
This
is the circuit diagram and description for water level indicator.
- A constant 5v power supply is
given to the microcontroller and rest of the circuit from a battery.
- The tank has 9 conductive type
sensors (other types of sensors have been mentioned earlier but in our
project only conductive type are used) embedded into it and 8 wires of
sensors out of 9 are connected to transistors and the 9th is connected to
5v+ supply.
- The use of transistor is it
acts as inverter (i.e. in on state gives low voltage at output and in non
conducting state gives high voltage at its output), all transistors
outputs are connected to 1,2,3,4,5,6,7,8 pins (PORTB) of microcontroller.
- Seven segment display is
connected to pin no. 33 to 40 (PORTA). It is connected in common cathode
fashion.
The Output for the 7th level is not only shown in seven segment display
but also indicated with a discontinuous buzzer sound.
- Output for the 8th level (i.e.
tank full condition) is not only shown in seven segment display but also
indicated with a continuous buzzer sound.
Flow Chart:
Figure 4.2.1 Flow chart
Flow
chart gives the clear and easy understanding of the project. The process goes
on as follows:
The microcontroller checks if the tank is full if the condition is satisfied it
indicates the same on display unit and also sounds a buzzer if the condition
fails it checks if the tank is filled upto level 7 and this process continues
and the corresponding level is indicated in the display unit.
Conclusion and Scope:
The Output for the 7th level is not only shown in seven segment display but also indicated with a discontinuous buzzer sound.
The microcontroller checks if the tank is full if the condition is satisfied it indicates the same on display unit and also sounds a buzzer if the condition fails it checks if the tank is filled upto level 7 and this process continues and the corresponding level is indicated in the display unit.
No comments:
Post a Comment
its cool