UART Library

The UART hardware module is available with a number of PIC32 MCUs. The mikroC PRO for PIC32 UART Library provides comfortable work with the Asynchronous (full duplex) mode.

  Important :

Library Routines

Generic Routines

UARTx_Init

Prototype

void UARTx_Init(unsigned long baud_rate);

Description

Configures and initializes the UART module.

The internal UART module module is set to :

  • continue operation in IDLE mode.
  • default Tx and Rx pins.
  • loopback mode disabled.
  • 8-bit data, no parity.
  • 1 STOP bit.
  • transmitter enabled.
  • generate interrupt on transmission end.
  • interrupt on reception enabled.
  • Address Detect mode disabled.
Parameters
  • baud_rate: requested baud rate.
Returns

Nothing.

Requires

Routine requires the UART module.

Example
// Initialize hardware UART1 module and establish communication at 2400 bps
UART1_Init(2400);
Notes
  • Refer to the device data sheet for baud rates allowed for specific Fosc.
  • The compiler will choose for which speed the calculation is to be performed (high or low). This does not mean that it is the best choice for desired baud rate.
    If the baud rate error generated in this way is too big then UARTx_Init_Advanced routine, which allows speed select be used.
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Switching between the UART modules in the UART library is done by the UART_Set_Active function (UART modules have to be previously initialized).
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UARTx_Init_Advanced

Prototype

void UARTx_Init_Advanced(unsigned long baud_rate, unsigned long freq_Khz, unsigned short high_low, unsigned short parity, unsigned short stop_bits);

Description

Configures and initializes the UART module with user defined settings.

Parameters
  • baud_rate: Requested baud rate.
  • freq_Khz: Peripheral Bus Clock frequency in kHz.
  • high_low_speed: High/low speed selection parameter. Valid values :

    High/Low Speed
    Description Predefined library const
    Low Speed UART _UART_LOW_SPEED
    Hi Speed UART _UART_HI_SPEED
  • parity: Parity and data selection parameter. Valid values :

    Data/Parity Mode
    Description Predefined library const
    8-bit data, no parity _UART_8BIT_NOPARITY
    8-bit data, even parity _UART_8BIT_EVENPARITY
    8-bit data, odd parity _UART_8BIT_ODDPARITY
    9-bit data, no parity _UART_9BIT_NOPARITY
  • stop_bits: Stop bit selection parameter. Valid values :

    Stop bits
    Description Predefined library const
    One stop bit _UART_ONE_STOPBIT
    Two stop bit _UART_TWO_STOPBITS
Returns

Nothing.

Requires

Routine requires the UART module.

Example


          
Notes
  • Refer to the device data sheet for baud rates allowed for specific Fosc.
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Switching between the UART modules in the UART library is done by the UART_Set_Active function (UART modules have to be previously initialized).
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UARTx_Data_Ready

Prototype

unsigned UARTx_Data_Ready();

Description

The function tests if data in receive buffer is ready for reading.

Parameters

None.

Returns
  • 1 if data is ready for reading.
  • 0 if there is no data in the receive register.
Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
unsigned receive;
...
// read data if ready
if (UART1_Data_Ready())
  receive = UART1_Read();
Notes
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UARTx_Tx_Idle

Prototype

char UARTx_Tx_Idle();

Description

Use the function to test if the transmit shift register is empty or not.

Parameters

None.

Returns
  • 1 if the data has been transmitted.
  • 0 otherwise.
Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
// If the previous data has been shifted out, send next data:
if (UART1_Tx_Idle() == 1) {
  UART1_Write(_data);
 }
Notes
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UARTx_Read

Prototype

unsigned UARTx_Read();

Description

The function receives a byte via UART. Use the UARTx_Data_Ready function to test if data is ready first.

Parameters

None.

Returns

Received byte.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
unsigned receive;
...
// read data if ready
if (UART1_Data_Ready())
  receive = UART1_Read();
Notes
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UARTx_Read_Text

Prototype

void UARTx_Read_Text(char *Output, char *Delimiter, char Attempts);

Description

Reads characters received via UART until the delimiter sequence is detected. The read sequence is stored in the parameter output; delimiter sequence is stored in the parameter delimiter.

This is a blocking call: the delimiter sequence is expected, otherwise the procedure exits (if the delimiter is not found).

Parameters
  • Output: received text.
  • Delimiter: sequence of characters that identifies the end of a received string.
  • Attempts: defines number of received characters in which Delimiter sequence is expected. If Attempts is set to 255, this routine will continuously try to detect the Delimiter sequence.
Returns

Nothing.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example

Read text until the sequence “OK” is received, and send back what’s been received:

UART1_Init(4800);                         // initialize UART1 module
Delay_ms(100);

while (1) {
  if (UART1_Data_Ready() == 1) {          // if data is received 
    UART1_Read_Text(output, "OK", 10);    // reads text until 'OK' is found
    UART1_Write_Text(output);             // sends back text 
 }
}
Notes
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UARTx_Write

Prototype

void UARTx_Write(unsigned _data);

Description

The function transmits a byte via the UART module.

Parameters
  • _data: data to be sent.
Returns

Nothing.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
unsigned data = 0x1E;
...
UART1_Write(data);
Notes
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UARTx_Write_Text

Prototype

void UARTx_Write_Text(char * UART_text);

Description

Sends text via UART. Text should be zero terminated.

Parameters
  • UART_text: text to be sent.
Returns

Nothing.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example

Read text until the sequence “OK” is received, and send back what’s been received:

UART1_Init(4800);                         // initialize UART1 module
Delay_ms(100);

while (1) {
  if (UART1_Data_Ready() == 1) {          // if data is received 
    UART1_Read_Text(output, "OK", 10);    // reads text until 'OK' is found
    UART1_Write_Text(output);             // sends back text 
 }
}
Notes
  • UART library routines require you to specify the module you want to use. To select the desired UART module, simply change the letter x in the routine prototype for a number from 1 to 6.
  • Number of UART modules per MCU differs from chip to chip. Please, read the appropriate datasheet before utilizing this library.

UART_Set_Active

Prototype

void UART_Set_Active(unsigned (*read_ptr)(), void (*write_ptr)(unsigned char _data), unsigned (*ready_ptr)(), unsigned (*tx_idle_ptr)());

Description

Sets active UART module which will be used by UARTx_Data_Ready, UARTx_Read and UARTx_Write routines.

Parameters

Parameters :

Returns

Nothing.

Requires

Routine is available only for MCUs with multiple UART modules.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
UART1_Init(9600);                    // initialize UART1 module
UART2_Init(9600);                    // initialize UART2 module

RS485Master_Init();                  // initialize MCU as Master

UART_Set_Active(&UART1_Read, &UART1_Write, &UART1_Data_Ready, &UART1_Tx_Idle); // set UART1 active
RS485Master_Send(dat,1,160);        // send message through UART1

UART_Set_Active(&UART2_Read, &UART2_Write, &UART2_Data_Ready, &UART2_Tx_Idle); // set UART2 active
RS485Master_Send(dat,1,160);        // send through UART2
Notes

None.

UART_Data_Ready

Prototype

unsigned UARTx_Data_Ready();

Description

The function tests if data in receive buffer is ready for reading.

This is a generic routine which uses the active UART module previously activated by the UART_Set_Active routine.

Parameters

None.

Returns
  • 1 if data is ready for reading.
  • 0 if there is no data in the receive register.
Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
unsigned receive;
...
// read data if ready
if (UART1_Data_Ready())
  receive = UART1_Read();
Notes

None.

UART_Tx_Idle

Prototype

char UARTx_Tx_Idle();

Description

Use the function to test if the transmit shift register is empty or not.

This is a generic routine which uses the active UART module previously activated by the UART_Set_Active routine.

Parameters

None.

Returns
  • 1 if the data has been transmitted.
  • 0 otherwise.
Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
// If the previous data has been shifted out, send next data:
if (UART1_Tx_Idle() == 1) {
  UART1_Write(_data);
 }
Notes

None.

UART_Read

Prototype

unsigned UARTx_Read();

Description

The function receives a byte via UART. Use the UART_Data_Ready function to test if data is ready first.

This is a generic routine which uses the active UART module previously activated by the UART_Set_Active routine.

Parameters

None.

Returns

Received byte.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
unsigned receive;
...
// read data if ready
if (UART1_Data_Ready())
  receive = UART1_Read();
Notes

None.

UART_Read_Text

Prototype

void UARTx_Read_Text(char *Output, char *Delimiter, char Attempts);

Description

Reads characters received via UART until the delimiter sequence is detected. The read sequence is stored in the parameter output; delimiter sequence is stored in the parameter delimiter.

This is a blocking call: the delimiter sequence is expected, otherwise the procedure exits (if the delimiter is not found).

This is a generic routine which uses the active UART module previously activated by the UART_Set_Active routine.

Parameters
  • Output: received text.
  • Delimiter: sequence of characters that identifies the end of a received string.
  • Attempts: defines number of received characters in which Delimiter sequence is expected. If Attempts is set to 255, this routine will continuously try to detect the Delimiter sequence.
Returns

Nothing.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example

Read text until the sequence “OK” is received, and send back what’s been received:

UART1_Init(4800);                         // initialize UART1 module
Delay_ms(100);

while (1) {
  if (UART1_Data_Ready() == 1) {          // if data is received 
    UART1_Read_Text(output, "OK", 10);    // reads text until 'OK' is found
    UART1_Write_Text(output);             // sends back text 
 }
}
Notes

None.

UART_Write

Prototype

void UARTx_Write(unsigned _data);

Description

The function transmits a byte via the UART module.

This is a generic routine which uses the active UART module previously activated by the UART_Set_Active routine.

Parameters
  • _data: data to be sent.
Returns

Nothing.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example
unsigned data = 0x1E;
...
UART1_Write(data);
Notes

None.

UART_Write_Text

Prototype

void UARTx_Write_Text(char * UART_text);

Description

Sends text via UART. Text should be zero terminated.

This is a generic routine which uses the active UART module previously activated by the UART_Set_Active routine.

Parameters
  • UART_text: text to be sent.
Returns

Nothing.

Requires

Routine requires at least one UART module.

Used UART module must be initialized before using this routine. See UARTx_Init and UARTx_Init_Advanced routines.

Example

Read text until the sequence “OK” is received, and send back what’s been received:

UART1_Init(4800);                         // initialize UART1 module
Delay_ms(100);

while (1) {
  if (UART1_Data_Ready() == 1) {          // if data is received 
    UART1_Read_Text(output, "OK", 10);    // reads text until 'OK' is found
    UART1_Write_Text(output);             // sends back text 
 }
}
Notes

None.

Library Example

This example demonstrates simple data exchange via UART. If MCU is connected to the PC, you can test the example from the mikroC PRO for PIC32 USART communication terminal, launch it from the drop-down menu Tools › USART Terminal or simply click the USART Terminal Icon USART Terminal Icon.

Copy Code To ClipboardCopy Code To Clipboard
char uart_rd;

void main() {

  CHECON = 30;
  AD1PCFG = 0xFFFF;

  UART1_Init(56000);              // Initialize UART module at 9600 bps
  Delay_ms(100);                  // Wait for UART module to stabilize

  UART1_Write_Text("Start");
  UART1_Write(13);
  UART1_Write(10);

  while (1) {                     // Endless loop
    if (UART1_Data_Ready()) {     // If data is received
      uart_rd = UART1_Read();     // read the received data
      UART1_Write(uart_rd);       // and send data via UART
    }
  }
}

HW Connection

RS232 HW connection

RS232 HW connection

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