Exemplo n.º 1
0
    pressure = 1048576. - raw_press
    pressure = (pressure - var2 / 4096.) * 6250. / var1
    var1 = calib_data.dig_P9 * pressure * pressure / 2147483648.
    var2 = pressure * calib_data.dig_P8 / 32768.
    pressure = pressure + (var1 + var2 + calib_data.dig_P7) / 16.
    if pressure < 30000.:
        return 30000.
    if pressure > 110000.0:
        return 110000.0
    return pressure

# ############################################################################
# Main routine.
if __name__ == "__main__":
    # Initialization of the Application Board 2.0
    BOARD = BST.UserApplicationBoard()

    bst_init_brd_app20()

    BME280_CS_PIN = BST.ShuttleBoardPin.COINES_SHUTTLE_PIN_7
    # Note: The I2C address could be changed to 0x77 by setting a HIGH signal to the SDO pin of
    # BME280, however this is not possible with the current implementation of the COINES layer
    BME280_I2C_ADDR = CONSTANTS['BME280_I2C_ADDR_PRIM']

    #myif = 'spi'
    myif = 'i2c'
    print('\n +++ Interface: ' + myif + ' +++\n')

    BOARD.SetVDD(0)
    BOARD.SetVDDIO(0)
Exemplo n.º 2
0
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
(c) Bosch Sensortec GmbH, Reutlingen, Germany

    20. Nov 2019

    Install `coinespy` before running this script
    $ pip install coinespy 

"""

import coinespy as BST

if __name__ == "__main__":

    board = BST.UserApplicationBoard()
    # If you get an error message on startup, that coineslib could not be loaded, then
    # intialize the UserApplicationBoard object with the path to the library, e.g.
    #(WIN)board = BST.UserApplicationBoard(r'libcoines.dll')
    #(LINUX)board = BST.UserApplicationBoard(r'libcoines.so')

    board.PCInterfaceConfig(BST.PCINTERFACE.USB)
    if board.ERRORCODE != 0:
        print('Could not connect to board: %d' % (board.ERRORCODE))
    else:
        b_info = board.GetBoardInfo()
        print('BoardInfo: HW/SW ID: ' + hex(b_info.HardwareId) + '/' + hex(b_info.SoftwareId))
        board.ClosePCInterface()