MICROCONTROLLER TUTORIAL [STEP BY STEP] Pic Microcontroller Tutorial For Beginners With Step By Step Picture.
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USB 1.0 INTERFACING WITH PIC MICROCONTROLLER [STEP BY STEP TUTORIAL] NAASIF NOMAAN 8:08 AM INTERFACING, MICROCONTROLLER, PIC, PIC18F2550, STEP BY STEP, USB, USB 1.0, WITH NO COMMENTS
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USB communication is better than serial communication , i think . Hardware interfacing is very easier than Rs 232 . In USB 1.0 communication Low Speed -1.5Mbit/second & High Speed -12Mbit/second . The upgrade version brings upgrade speed than older . USB-3.0 has higher speed , 5Gbit/second and it's called super speed .For more information you can visit this page >> Wikipedia Usb. In this tutorial i will use pic18f2550 microcontroller & it is very popular for usb .Now you can make a question , when usb gets high speed or low speed . At 6MHz clock we will get low speed and at 48MHz Clock we will get High speed . In this tutorial we will try to make higher speed connection .We are not going to use 48MHz ,because it is very noisy .We will try another technique instead of it .Microchip company provides internal PLL( Phase Locked Loop ) circuit in some of speciäc products and pic18f2550 has internal PLL Circuit .Now look at the picture :
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PLL Circuit
The PLL circuit converts 4MHz clock to 48MHz clock .So, we need 4MHz clock . We have to divide the clock in such way so that we can get result 4MHz. Look at here , If we use 20MHz divide it by 5 and we get 4 .Example : (20/5)=4 ,(12/3)=4.. .We have to deäne this in the source code. Now let's create a project in Proteus 8.
Proteus 8 Circuit : Step 1:
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How to Create Project in Proteus _1
Step 2:
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How to Create Project in Proteus 8_2
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Usb 1.0 Interfacing With PIC Microcontroller Circuit
Now let's create a project in MikroC , because we need source hex äle to load .
MikroC Code : Step 1:
Create New Project in MikroC_1
Step 2:
Create New Project in MikroC_2
Step 3:
Create New Project in MikroC_3
Step 4:
Include All Library
Step 5:
Editing MikroC project settings_1
Step 6:
Editing MikroC project Settings_2
1. As we know PLL circuit take input 4MHz clock . So we have to divide 12MHz by 3 so that we can get 4MHz clock .If we use 4MHz we have no need this part . 2 & 3 . We are using USB 1.0 and it's High Speed clock 48MHz .So we have to devide it by 2 4 . Here we are using 12MHz Crystal clock and the oscillator selection should be HS Oscillator 5 . We have to enable voltage regulator .Basically it is an internal 3.3 voltage regulator of pic18f2550.If we enable it , it is required to connect vusb pin with a 220 nf capacitor .
#Source Code : unsigned char receivedata[64] absolute 0x500;
//
<--Variable Declaration
unsigned char senddata[64] absolute 0x580; int i=0; void Interrupt(){ USB_Interrupt_Proc();
//<--Interrupt function
} void main()
//<--The Main Function
{ HID_Enable(&receivedata,&senddata);
//<--To Enable HID
while(1){
//<-- Infinity LOOP
while(!HID_Read());
//<--for reading
for(i=0;i<64;i++){ senddata[i]=receivedata[i];
//<--Sending received data to senddata[i] variable
} while(!HID_Write(&senddata,64)); //<--for writting } }
1. unsigned char receivedata[64] absolute 0x500; unsigned char senddata[64] absolute 0x580; Here we have created character type two array variable senddata & receivedata. During USB Communication we must have to keep all data in usb RAM ।PIC 18F2550 microcontroller's USB RAM memory address begins with 0x500 and ends with 0x7F.That's why, we kept the receivedata[64] in 0x500 location and senddata[64] in 0x580 . 2.
void Interrupt(){ USB_Interrupt_Proc();} void Interrupt() is one User Deäne function which contains USB_Interrupt_Proc() function inside . Interrupt makes restriction for something .When we enable the interrupt function , the connection is disabled.When we disable the interrupt function , the connection is enabled .
3. HID_Enable(&receivedata,&senddata); This function will enable the USB1.0 .It keep received data at receivedata and send data which are stored in the senddata variable .
Note : HID means "Human Interface Device" 4. char HID_Read(); This function receive data. If receiving is failed ,it returns 0 .Otherwise it returns character . while(!HID_Read()); It means , this function tries to receive data until data are being received .
char HID_Write(); This function receive data. If receiving is failed ,it returns 0 .Otherwise it returns the numbers of data .while(!HID_Write()); It means , this function tries to send data until data are being sent .
5.for(i=0;i<64 data-blogger-escaped-font="" data-bloggerescaped-i=""> senddata[i]=receivedata[i]; } This loop will run from 0 to 63 and will keeps the received data to senddata variable from receivedata variable.
#Descriptor File Addition Descriptor File : This äle will make your pc understand about device's informations.Like Manufacture Name, Product ID , Vendor ID etc. Now i will show you .How to create a Descriptor äle . Step 7:
Create Descriptor File_1
Step 8:
Create Descriptor FIle_2
Step 9: Adding descriptor äle with MikroC Project .
Adding Descriptor File
Step 10:
Step 11:
Step 12:
How to upload hex äle in proteus_1
Step 13:
How to upload hex äle in proteus_2
Step 14:
How to upload hex äle in proteus_3
Step 15: In proteus Simulation we need to install virtual usb .
Install Virtual USB in proteus
Step 16:
Run Project
Now go to the Proteus Circuit and Just Run the project .
Output: Now go to the Tool >>HID Terminal >> click on Terminal .
HID Terminal of MikroC
HID Terminal Output
Download Proteus File & MikroC File Just Click on '' SKIP ADD '' and You will get the download link
Thank You!
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