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how to make a heating and cooling jacket

by:Max Apparel     2020-09-01
When conducting the pad circuit, follow the design pattern of this schematic diagram.
You will use tri-
Color led helps to tell you the temperature of your body.
Sew three LEDs on the outer side of each arm of the actual housing. 1.
All the positive seams were on the positive of the three LEDs on arm2.
Sew all the Blues to the Blues, and then all the Reds to the Reds.
You don\'t need a green port.
See photos for more information.
Then connect the led to the Lilypad.
You will need a snapshot of the lining of the Max woman jacketand the inner side of the shell.
In this way, they can be together.
Each snapshot should correspond to its own lead. 4.
One side of the buckle will be connected to the Lilypad in the liner, and the other side of the buckle will be connected to all LEDs on the arm.
Blue uses a set of snapshots, Red uses a set of snapshots, and front uses a set of snapshots.
For more information, see photos, the larger snapshot at the bottom of the collar is the three snapshots used to connect LEDs.
The other two are solar panels. 5.
To protect and diffuse light, sew half a ping at the top of each LED-pong ball.
This is the simplest pre-
Poke the hole with a pin.
In addition, sewing rings can help you keep the fabric tight.
See photos for more information. Adding solar panels to the Max woman jacketis optional, but this will help power the jacket.
It is recommended that you use flexible solar panels so that it is easier to bend with clothes and more comfortable to wear. 1.
Buy solar panels with a higher voltage than the battery powered for your Arduino.
The solar panel in the picture gives a voltage of about 8 volts.
Charging Arduino does not require more than 8 volts.
Also buy LiPower charger and 3.
5 V lithium polymer battery.
Both can be found on sparkfun. com-
These are instructions for using flexible solar panels;
Other people may be different-2.
The positive end is the side pointed by the white line, and the negative end is the side pointed by the white line. 3.
There is a plastic cover at the end of the solar panel where the lead is located.
You need to peel it back to access (+)and (-).
Be careful not to tear up the solar panel or ruin it.
* Once you have the back, you should test the voltage of the solar panel with the volt table. 4.
Connect a little conductive fabric between the plastic and the lead.
And protect them together.
We used tape because it was strong and easy.
* See photos for more information;
Also check the voltage agian when it is in the sun. 5.
Using the guide wire, you should sew where the tape meets the fabric, but avoid piercing the solar panel. 6.
Then use the guide wire to sew the solar panels to the hood or to the chosen place.
Sew down the front and negative threads on the hood until you hit the bottom of the hood.
Where to connect it to the snapshot. -
Now it\'s time to connect the solar panel to the battery. 1. Put the sew-
On the conductive card buckle attached to the housing of the shell.
Another set of the same snapshots is also placed inside the shell, which are stuck into the padding.
* Make sure all positive or negative snapshots are connected.
See photos for more information. 2.
The card buckle inside the liner needs to be connected down to the LiPower charger.
The charger should be placed by Arduino.
* Make sure you don\'t touch any other circuits as there are so many at this time. ***3.
One snapshot should be positive and the other one should be negative for the solar panel.
Then sew the circuit to chager.
You will notice that the side of the LiPower charger is labeled (-)& (c);
The other side (right side)has a (-)& (+). 4.
Left side, or (-)& (c)
, Also the side where you connect the snap circuit. The (c)
Is a positive snapshot and (-)
Is a negative snapshot.
Sew them in.
You have finished the fast circuit now. 5.
Now you need to connect the charger to the Lilypad so it can power on.
On the right, or just (-)& (+)
, Will connect to the corresponding symbol on Lilypad.
Once you have connected the circuit, you connect the charger to the Lilypad. 6.
There is a place where you can connect the charger to the lithium battery.
The battery can only be inserted;
It should be easy. -
Solar panels should now be connected and working.
The charger indicates the current, so it should flow in the right direction.
You should not have any problems with this. -
We will now discuss how to make the second part of the heated and cooled jacket!
You need to test your circuit with code to make sure it works properly before you put it all in.
This code should run two circuit switches;
In order to run only one system at a time, you have to modify it.
For help with this, you can check it out on the Arduino website. Int ledPin = 13;
/LED connection digital pin 13int sensorPin0 = 0;
/The temperature sensor is connected to the analog pin 0int sensorvalue 0;
/Variable for storing values from sensor a0int sensorPin1 = 1;
/The temperature sensor is connected to the analog pin 1int sensorvalue 1;
/Stores variables from values of sensor a1 int sensorPin2 = 2;
/The temperature sensor is connected to the analog pin a2int sensorvalue 2;
/Stores variables from values of sensor a2int sensorPin3 = 3;
/The temperature sensor is connected to the analog pin 3int sensorvalue e3;
/Stores variables from values of sensor a3int sensorPin4 = 4;
/The temperature sensor is connected to the analog pin 4int sensorvalue e4;
/Stores variables from values of sensor a4int sensorPin5 = 5;
/The temperature sensor is connected to the analog pin 5int sensorValue5;
/Stores the variable from the value of the sensor fanint fanRelay = 7;
/The fan relay is connected to the digital pin 7int thermal relay = 3;
The heating coil relay is connected to the digital pin 6/output green pin = 9;
/Green LED, connected to the digital pin 10int bluePin = 10;
/Blue LED connected to digital pin 11int redPin = 11;
Red LED, connecting the digital pin 9/program variable redVal = 255;
/Stores the variable to be sent to the value of pinsint greenVal = 0;
/The initial value is Red full, green and blue blublueval = 0; void setup(){pinMode(ledPin, OUTPUT);
/Set the led pin to the output sequence. begin(9600);
/Initialize the serial port digital write (ledPin, HIGH);
/Turn on LED onpinMode (redPin, OUTPUT);
/Set the pin to output pin mode (
Output to greenPin; pinMode(BluePin, output); pinMode(
FanRelay, output); pinMode(
Output thermal relay; digitalWrite(fanRelay, LOW);
/Set the fan relay to write digitally (heatRelay, LOW);
/Set the thermal coil relay to off}void loop()
/Run over and over {Serial. println(
\"Sensor value :\");
SensorValue0 = analogRead (sensorPin0);
/Read values from the sensor sequence. println(sensorValue0);
/Send this value to computer sensor value 1 = analogRead (sensorPin1);
/Read values from the sensor sequence. println(sensorValue1);
/Send this value to the computer sensor value 2 = analogRead (sensorPin2);
/Read values from the sensor sequence. println(sensorValue2);
/Send this value to the computer sensor value e3 = analogRead (sensorPin3);
/Read values from the sensor sequence. println(sensorValue3);
/Send this value to the computer sensor value e4 = analogRead (sensorPin4);
/Read values from the sensor sequence. println(sensorValue4);
/Send this value to the computer sensor value e5 = analogRead (sensorPin5);
/Read values from the sensor sequence. println(sensorValue5);
/Send this value to the computer sensor average = (
SensorValue0 sensorValue1 sensorValue2 sensorvalue3. sensorValue5)/6;
/Average sensor value (
0)blueVal -=15; // Blue up}else if (
SensorValue0> 215)
/Fading warm stage {if (redVal > 0)redVal -=15; // Red upif (blueVal < 255)blueVal +=15; // Blue down}if (
215)
/Event warm {digitalWrite(heatRelay, LOW);
/Deactivate digitdigitalwrite (fanRelay, HIGH);
/Activate colddelay (2000); // wait}//DebugSerial. println(
\"Sensor average :\");
/Send this value to the computer serial number. println(sensorAverage);
/Send this value to the computer serial number. println(
\"Check the color value :\"); Serial. println(redVal); Serial. println(blueVal); analogWrite(redPin, redVal);
The value of/write, resulting in pinsanalowrite (
Greenping, Greenvale); analogWrite(
BluePin, blueVal); }
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