This 2nd article in the series of “Do It Yourself: Electronics”, starts with the journey of sensors.
After attending their regular afternoon classes, Surya & Pugs met near the Innovation Centre, headed towards their hostel rooms.
“What a waste of energy!”, exclaimed Surya pointing out to the street lights glowing on in the bright day.
“Possibly the switch man is not well and couldn’t come to switch off the lights”, said Pugs calming Surya.
“But, why do you need a switch man for switching on and off street lights?”, retorted Surya.
“What do you mean?”, asked Pugs with a puzzled look.
“These could be made automatic – what else?”
“Switch man may be more cost-effective than automating all these street lights.”
“I don’t think so – given that it can be achieved by simple & cheap electronic circuitry.”
“O Really! Then, why don’t we make and give it to the college? And, I can learn a new circuit.”
“Not a bad idea. Let us then first make a working sample.”
With that Pugs followed Surya into his room to watch the design evolve.
“By the way, what kind of circuit would it be?”, asked Pugs curiously.
“Think and you tell me. That is the first part of the design”, replied Surya.
Pugs contemplated a while and said “Something which switches off when sunlight is there.”
“Not bad. In fact, it should also switch on when light is less. And, that’s a light sensing circuit.”
“But how do we sense light electronically?”
“Why only light? A whole lot of stuff around us can be sensed using components called sensors. They come in whole variety, converting one form of energy into an another. And in electronics, we would like to use those that some how translates the energy into voltage. We have light sensors, sound sensors, humidity sensors, … – you name it.”
“Wow! So, then we can automate all kind of things.”
“Yes. That’s the power & beauty of sensors.”
With that, Surya takes out the light dependent resistor (LDR) and various other components needed for designing the light sensing circuit. And, here is how he demonstrated the complete design and working to Pugs:
As soon as Surya was done, Pugs quipped “That was simple. Even I can do it, now.”
“Exactly, that’s what I was telling you”, boosted Surya, dismantling the so built breadboard design.
“Hey, why are you breaking it?”, asked Pugs trying to stop Surya.
“That was simple. And so now you design it”, replied Surya challenging Pugs to redo the design on his own.
Pugs took up the challenge, and started building the circuit. He used the following two pointers from the notes taken by him during Surya’s demo:
He took some time but was able to build a similar circuit. However, to his surprise, it was not working. He tried tightening the ICs, shaking the wires – but no luck. Not wanting to give up his first circuit design challenge, he said “Hey Surya, I feel that circuit connections are okay, but something else is wrong. In programming, if we are not getting output, we can debug our program by putting prints. Is there something like that, I can do here as well?”
Surya gave a naughty smile understanding Pugs’ intention of not giving up, and poked “So, do you want me to debug it for you?”
“No-no. You just tell me the techniques of debugging. I’ll do it myself”, retorted Pugs.
“Okay then. Let me give you a quick debugging demo of possibilities” – and here’s what Surya showed to Pugs:
With that, Pugs was literally able to debug his circuit, and get the LED switch on when light is there and switch off when light is covered. “Aha! that’s not quite right. The logic is inverted”, exclaimed Pugs. At this, Surya couldn’t control himself, and quipped, “Yes. That’s because you have swapped the -ve and +ve connections of the Opamp.”
With that, Pugs reversed the connections and viola – everything was working right.
Super excited with the light sensing gyan from Surya, Pugs went to the local market to purchase the various components to build his own circuits. He purchased all the stuff shown to him by Surya till now, and then called up Surya asking what else shall he purchase, may be for his next circuit experiment. Surya suggested him to get an infra red transmit LED, an infra red receive diode, and four BC546 transistors.