stm-spirit1-rf-driver - Prototype RF driver for STM Sub-1 GHz RF expansio…

ST » Code » stm-spirit1-rf-driver

Prototype RF driver for STM Sub-1 GHz RF expansion board based on the SPSGRF-868 module for STM32 Nucleo.

Prototype RF Driver for STM Sub-1 GHz RF Expansion Boards based on the SPSGRF-868 and SPSGRF-915 Modules for STM32 Nucleo

Currently supported boards:

X-NUCLEO-IDS01A4

Note, in order to use expansion board X-NUCLEO-IDS01A4 in mbed you need to perform the following HW modifications on the board:

Unmount resistor R4
Mount resistor R7

Furthermore, on some Nucleo development boards (e.g. the NUCLEO_F429ZI), in order to be able to use Ethernet together with these Sub-1 GHz RF expansion boards, you need to compile this driver with macro SPIRIT1_SPI_MOSI=PB_5 defined, while the development board typically requires some HW modification as e.g. described here!

This driver can be used together with the 6LoWPAN stack (a.k.a. Nanostack).

libs/spirit1/SPIRIT1_Library/Src/SPIRIT_LinearFifo.c

Committer:: Wolfgang Betz
Date:: 2016-10-13
Revision:: 0:4fb29d9ee571
Child:: 5:c9c5bc673c64

File content as of revision 0:4fb29d9ee571:

/**
  ******************************************************************************
  * @file    SPIRIT_LinearFifo.c
  * @author  VMA division - AMS
  * @version 3.2.2
  * @date    08-July-2015
  * @brief   Configuration and management of SPIRIT Fifo.
  * @details
  *
  * @attention
  *
  * <h2><center>&copy; COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
  *
  * Redistribution and use in source and binary forms, with or without modification,
  * are permitted provided that the following conditions are met:
  *   1. Redistributions of source code must retain the above copyright notice,
  *      this list of conditions and the following disclaimer.
  *   2. Redistributions in binary form must reproduce the above copyright notice,
  *      this list of conditions and the following disclaimer in the documentation
  *      and/or other materials provided with the distribution.
  *   3. Neither the name of STMicroelectronics nor the names of its contributors
  *      may be used to endorse or promote products derived from this software
  *      without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
  * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  *
  ******************************************************************************
  */

/* Includes ------------------------------------------------------------------*/
#include "SPIRIT_LinearFifo.h"
#include "MCU_Interface.h"


/**
 * @addtogroup SPIRIT_Libraries
 * @{
 */


/**
 * @addtogroup SPIRIT_LinearFifo
 * @{
 */


/**
 * @defgroup LinearFifo_Private_TypesDefinitions        Linear FIFO Private Types Definitions
 * @{
 */

/**
 *@}
 */


/**
 * @defgroup LinearFifo_Private_Defines                 Linear FIFO Private Defines
 * @{
 */

/**
 *@}
 */


/**
 * @defgroup LinearFifo_Private_Macros                  Linear FIFO Private Macros
 * @{
 */

/**
 *@}
 */


/**
 * @defgroup LinearFifo_Private_Variables               Linear FIFO Private Variables
 * @{
 */

/**
 *@}
 */


/**
 * @defgroup LinearFifo_Private_FunctionPrototypes      Linear FIFO Private Function Prototypes
 * @{
 */

/**
 *@}
 */


/**
 * @defgroup LinearFifo_Private_Functions               Linear FIFO Private Functions
 * @{
 */

/**
 * @brief  Returns the number of elements in the Rx FIFO.
 * @param  None.
 * @retval uint8_t Number of elements in the Rx FIFO.
 */
uint8_t SpiritLinearFifoReadNumElementsRxFifo(void)
{
  uint8_t tempRegValue;

  /* Reads the register value */
  g_xStatus = SpiritSpiReadRegisters(LINEAR_FIFO_STATUS0_BASE, 1, &tempRegValue);

  /* Build and return value */
  return (tempRegValue & 0x7F);

}


/**
 * @brief  Returns the number of elements in the Tx FIFO.
 * @param  None.
 * @retval uint8_t Number of elements in the Tx FIFO.
 */
uint8_t SpiritLinearFifoReadNumElementsTxFifo(void)
{
  uint8_t tempRegValue;

  /* Reads the number of elements in TX FIFO and return the value */
  g_xStatus = SpiritSpiReadRegisters(LINEAR_FIFO_STATUS1_BASE, 1, &tempRegValue);

  /* Build and return value */
  return (tempRegValue & 0x7F);

}


/**
 * @brief  Sets the almost full threshold for the Rx FIFO. When the number of elements in RX FIFO reaches this value an interrupt can be generated to the MCU.
 * @note   The almost full threshold is encountered from the top of the FIFO. For example, if it is set to 7 the almost
 *         full FIFO irq will be raised when the number of elements is equals to 96-7 = 89.
 * @param  cThrRxFifo almost full threshold.
 * 	   This parameter is an uint8_t.
 * @retval None.
 */
void SpiritLinearFifoSetAlmostFullThresholdRx(uint8_t cThrRxFifo)
{
  uint8_t tempRegValue;

  /* Check the parameters */
  s_assert_param(IS_FIFO_THR(cThrRxFifo));

  /* Build the register value */
  tempRegValue = cThrRxFifo & 0x7F;

  /* Writes the Almost Full threshold for RX in the corresponding register */
  g_xStatus = SpiritSpiWriteRegisters(FIFO_CONFIG3_RXAFTHR_BASE, 1, &tempRegValue);

}


/**
 * @brief  Returns the almost full threshold for RX FIFO.
 * @note   The almost full threshold is encountered from the top of the FIFO. For example, if it is 7 the almost
 *         full FIFO irq will be raised when the number of elements is equals to 96-7 = 89.
 * @param  None.
 * @retval uint8_t Almost full threshold for Rx FIFO.
 */
uint8_t SpiritLinearFifoGetAlmostFullThresholdRx(void)
{
  uint8_t tempRegValue;

  /* Reads the almost full threshold for RX FIFO and return the value */
  g_xStatus = SpiritSpiReadRegisters(FIFO_CONFIG3_RXAFTHR_BASE, 1, &tempRegValue);

  /* Build and return value */
  return (tempRegValue & 0x7F);

}


/**
 * @brief  Sets the almost empty threshold for the Rx FIFO. When the number of elements in RX FIFO reaches this value an interrupt can be generated to the MCU.
 * @param  cThrRxFifo almost empty threshold.
 * 	   This parameter is an uint8_t.
 * @retval None.
 */
void SpiritLinearFifoSetAlmostEmptyThresholdRx(uint8_t cThrRxFifo)
{
  uint8_t tempRegValue;

  /* Check the parameters */
  s_assert_param(IS_FIFO_THR(cThrRxFifo));

  /* Build the register value */
  tempRegValue = cThrRxFifo & 0x7F;

  /* Writes the Almost Empty threshold for RX in the corresponding register */
  g_xStatus = SpiritSpiWriteRegisters(FIFO_CONFIG2_RXAETHR_BASE, 1, &tempRegValue);

}


/**
 * @brief  Returns the almost empty threshold for Rx FIFO.
 * @param  None.
 * @retval uint8_t Almost empty threshold for Rx FIFO.
 */
uint8_t SpiritLinearFifoGetAlmostEmptyThresholdRx(void)
{
  uint8_t tempRegValue;

  /* Reads the almost empty threshold for RX FIFO and returns the value */
  g_xStatus = SpiritSpiReadRegisters(FIFO_CONFIG2_RXAETHR_BASE, 1, &tempRegValue);

  /* Build and return value */
  return (tempRegValue & 0x7F);

}


/**
 * @brief  Sets the almost full threshold for the Tx FIFO. When the number of elements in TX FIFO reaches this value an interrupt can be generated to the MCU.
 * @note   The almost full threshold is encountered from the top of the FIFO. For example, if it is set to 7 the almost
 *         full FIFO irq will be raised when the number of elements is equals to 96-7 = 89.
 * @param  cThrTxFifo almost full threshold.
 * 	   This parameter is an uint8_t.
 * @retval None.
 */
void SpiritLinearFifoSetAlmostFullThresholdTx(uint8_t cThrTxFifo)
{
  uint8_t tempRegValue;

  /* Check the parameters */
  s_assert_param(IS_FIFO_THR(cThrTxFifo));

  /* Reads the register value */
  g_xStatus = SpiritSpiReadRegisters(FIFO_CONFIG1_TXAFTHR_BASE, 1, &tempRegValue);

  /* Build the register value */
  tempRegValue &= 0x80;
  tempRegValue |= cThrTxFifo;

  /* Writes the Almost Full threshold for Tx in the corresponding register */
  g_xStatus = SpiritSpiWriteRegisters(FIFO_CONFIG1_TXAFTHR_BASE, 1, &tempRegValue);

}


/**
 * @brief  Returns the almost full threshold for Tx FIFO.
 * @note   The almost full threshold is encountered from the top of the FIFO. For example, if it is set to 7 the almost
 *         full FIFO irq will be raised when the number of elements is equals to 96-7 = 89.
 * @param  None.
 * @retval uint8_t Almost full threshold for Tx FIFO.
 */
uint8_t SpiritLinearFifoGetAlmostFullThresholdTx(void)
{
  uint8_t tempRegValue;

  /* Reads the almost full threshold for Tx FIFO and returns the value */
  g_xStatus = SpiritSpiReadRegisters(FIFO_CONFIG1_TXAFTHR_BASE, 1, &tempRegValue);

  /* Build and returns value */
  return (tempRegValue & 0x7F);

}


/**
 * @brief  Sets the almost empty threshold for the Tx FIFO. When the number of elements in Tx FIFO reaches this value an interrupt can can be generated to the MCU.
 * @param  cThrTxFifo: almost empty threshold.
 *         This parameter is an uint8_t.
 * @retval None.
 */
void SpiritLinearFifoSetAlmostEmptyThresholdTx(uint8_t cThrTxFifo)
{
  uint8_t tempRegValue;

  /* Check the parameters */
  s_assert_param(IS_FIFO_THR(cThrTxFifo));

  /* Reads the register value */
  g_xStatus = SpiritSpiReadRegisters(FIFO_CONFIG0_TXAETHR_BASE, 1, &tempRegValue);

  /* Build the register value */
  tempRegValue &= 0x80;
  tempRegValue |= cThrTxFifo;

  /* Writes the Almost Empty threshold for Tx in the corresponding register */
  g_xStatus = SpiritSpiWriteRegisters(FIFO_CONFIG0_TXAETHR_BASE, 1, &tempRegValue);

}


/**
 * @brief  Returns the almost empty threshold for Tx FIFO.
 * @param  None.
 * @retval uint8_t Almost empty threshold for Tx FIFO.
 */
uint8_t SpiritLinearFifoGetAlmostEmptyThresholdTx(void)
{
  uint8_t tempRegValue;

  /* Reads the almost empty threshold for TX FIFO and returns the value */
  g_xStatus = SpiritSpiReadRegisters(FIFO_CONFIG0_TXAETHR_BASE, 1, &tempRegValue);

  /* Build and return value */
  return (tempRegValue & 0x7F);

}


/**
 *@}
 */

/**
 *@}
 */


/**
 *@}
 */



/******************* (C) COPYRIGHT 2015 STMicroelectronics *****END OF FILE****/

Repository toolbox

Export to desktop IDE

Repository details

Type:	Library
Created:	05 Jul 2017
Imports:	273
Forks:	2
Commits:	83
Dependents:	0
Dependencies:	0
Followers:	410

The code in this repository is Apache licensed.

Components

X-NUCLEO-IDS01A4 Sub-1GHz RF Expansion Board