Esempio n. 1
0
 def _enable_power(self, enable: bool):
     ''' set GPIO for the power SSR '''
     if self._pin_power:
         l.debug('enable_power {}'.format(enable))
         pi.write(self._pin_power,
                  enable != self._inv_power)  # pos polarity
Esempio n. 2
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    def __init__(self, **params):
        super().__init__()

        self.id = 'piT'
        self.params = params
        self._timing_tick = 0
        self._time_EOT = 0
        self._last_waiting = 0
        self._state = None
        self._time_squelch = 0
        self._use_squelch = True
        self._keep_alive_counter = 0

        self._tx_buffer = []
        self._rx_buffer = []

        # get setting params

        self._mode = params.get('mode', 'TW39')

        self._baudrate = params.get('baudrate', 50)
        self._bytesize = params.get('bytesize', 5)
        self._stopbits = params.get('stopbits', 1.5)
        self._stopbits2 = int(self._stopbits * 2 + 0.5)

        self._pin_txd = params.get('pin_txd', 17)
        #self._inv_txd = params.get('inv_txd', False)   # not possible with PIGPIO
        self._pin_dir = params.get('pin_dir', 0)
        self._pin_rxd = params.get('pin_rxd', 27)
        self._inv_rxd = params.get('inv_rxd', False)
        self._pin_relay = params.get('pin_relay', 22)
        self._inv_relay = params.get('inv_relay', False)
        self._pin_power = params.get('pin_power', 0)
        self._inv_power = params.get('inv_power', False)
        self._pin_number_switch = params.get(
            'pin_number_switch', params.get('pin_fsg_ns',
                                            6))  # pin typical wired to rxd pin
        self._inv_number_switch = params.get('inv_number_switch', False)

        self._line_observer = None
        if params.get('use_observe_line', True):
            self._pin_observe_line = params.get('pin_observe_line',
                                                self._pin_rxd)
            self._inv_observe_line = params.get('inv_observe_line',
                                                self._inv_rxd)
            self._line_observer = Observer(self._pin_observe_line,
                                           self._inv_observe_line,
                                           10)  # 10ticks = 0.5sec

        self._coding = params.get('coding', 0)
        self._loopback = params.get('loopback', True)
        self._timing_rxd = params.get('timing_rxd', False)
        self._WB_pulse_length = params.get('WB_pulse_length', 40)
        self._double_WR = params.get('double_WR', False)

        # init codec

        self._character_duration = (self._bytesize + 1.0 +
                                    self._stopbits) / self._baudrate
        self._mc = txCode.BaudotMurrayCode(
            self._loopback,
            coding=self._coding,
            character_duration=self._character_duration)

        # init GPIOs

        pi.set_mode(self._pin_rxd, pigpio.INPUT)
        pi.set_pull_up_down(self._pin_rxd, pigpio.PUD_UP)
        pi.set_glitch_filter(self._pin_rxd,
                             50000 // self._baudrate)  # 1ms @ 50Bd

        self._number_switch = None
        if self._pin_number_switch > 0:  # 0:keyboard pos:TW39 neg:TW39@RPiCtrl
            self._number_switch = NumberSwitch(self._pin_number_switch,
                                               self._callback_number_switch,
                                               self._inv_number_switch)

        pi.set_mode(self._pin_txd, pigpio.OUTPUT)
        #pi.write(self._pin_txd, not self._inv_txd)
        pi.write(self._pin_txd, 1)
        if self._pin_power:
            pi.set_mode(self._pin_power, pigpio.OUTPUT)
            pi.write(self._pin_power, self._inv_power)
        if self._pin_relay:
            pi.set_mode(self._pin_relay,
                        pigpio.OUTPUT)  # relay for commutating
            pi.write(self._pin_relay, self._inv_relay)  # pos polarity
        if self._pin_dir:
            pi.set_mode(self._pin_dir,
                        pigpio.OUTPUT)  # direction of comminication
            pi.write(self._pin_dir, 0)  # 1=transmitting

        # init bit bongo serial read

        try:
            _ = pi.bb_serial_read_close(
                self._pin_rxd
            )  # try to close if it is still open from last debug
        except:
            pass
        _ = pi.bb_serial_read_open(self._pin_rxd, self._baudrate,
                                   self._bytesize)
        pi.bb_serial_invert(self._pin_rxd, self._inv_rxd)

        if self._timing_rxd:
            self._cb = pi.callback(self._pin_rxd, pigpio.EITHER_EDGE,
                                   self._callback_timing)

        # init bit bongo serial write

        self.last_wid = None

        # init state

        self._set_state(S_OFFLINE)
Esempio n. 3
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    def __init__(self, **params):
        super().__init__()

        self.id = 'piC'
        self.params = params

        self._pin_number_switch = params.get('pin_number_switch',
                                             0)  # connected to NS
        self._inv_number_switch = params.get('inv_number_switch', True)

        self._pin_button_1T = params.get('pin_button_1T',
                                         0)  # single button optional
        self._pin_button_AT = params.get('pin_button_AT',
                                         0)  # button AT optional
        self._pin_button_ST = params.get('pin_button_ST',
                                         0)  # button ST optional
        self._pin_button_LT = params.get('pin_button_LT',
                                         0)  # button LT optional
        self._pin_button_U1 = params.get('pin_button_U1',
                                         0)  # button user 1 optional
        self._pin_button_U2 = params.get('pin_button_U2',
                                         0)  # button user 2 optional
        self._pin_button_U3 = params.get('pin_button_U3',
                                         0)  # button user 3 optional
        self._pin_button_U4 = params.get('pin_button_U4',
                                         0)  # button user 4 optional

        self._pin_LED_A = params.get('pin_LED_A', 0)
        self._pin_LED_WB = params.get('pin_LED_WB', 0)
        self._pin_LED_WB_A = params.get('pin_LED_WB_A', 0)
        self._pin_LED_status_R = params.get('pin_LED_status_R', 0)  # LED red
        self._pin_LED_status_G = params.get('pin_LED_status_G', 0)  # LED green

        self._pin_power = params.get('pin_power', 0)
        self._inv_power = params.get('inv_power', False)

        self._rx_buffer = []
        self._mode = None

        self._status_out = 0
        self._status_act = 0
        self._status_dst = 0

        self._LED_status_R = None
        self._LED_status_G = None
        if self._pin_LED_status_R and self._pin_LED_status_G:
            self._LED_status_R = LED_PWM(self._pin_LED_status_R)
            self._LED_status_G = LED_PWM(self._pin_LED_status_G)
            self._set_status('INIT')

        self._LED_A = None
        self._LED_WB = None
        self._LED_WB_A = None
        if self._pin_LED_A:
            self._LED_A = LED(self._pin_LED_A)
        if self._pin_LED_WB:
            self._LED_WB = LED(self._pin_LED_WB)
        if self._pin_LED_WB_A:
            self._LED_WB_A = LED(self._pin_LED_WB_A)

        if self._pin_button_1T:
            self._button_1T = Button(self._pin_button_1T,
                                     self._callback_button_1T)
        if self._pin_button_AT:
            self._button_AT = Button(self._pin_button_AT,
                                     self._callback_button_AT)
        if self._pin_button_ST:
            self._button_ST = Button(self._pin_button_ST,
                                     self._callback_button_ST)
        if self._pin_button_LT:
            self._button_LT = Button(self._pin_button_LT,
                                     self._callback_button_LT)

        if self._pin_button_U1:
            self._button_U1 = Button(self._pin_button_U1,
                                     self._callback_button_U1)
        if self._pin_button_U2:
            self._button_U2 = Button(self._pin_button_U2,
                                     self._callback_button_U2)
        if self._pin_button_U3:
            self._button_U3 = Button(self._pin_button_U3,
                                     self._callback_button_U3)
        if self._pin_button_U4:
            self._button_U4 = Button(self._pin_button_U4,
                                     self._callback_button_U4)

        self._number_switch = None
        if self._pin_number_switch:
            self._number_switch = NumberSwitch(self._pin_number_switch,
                                               self._callback_number_switch,
                                               self._inv_number_switch)

        if self._pin_power:
            pi.set_mode(self._pin_power, pigpio.OUTPUT)
            pi.write(self._pin_power, self._inv_power)

        self._set_mode('Z')
Esempio n. 4
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 def _enable_relay(self, enable: bool):
     ''' set GPIO for the relay '''
     if self._pin_relay:
         l.debug('enable_relay {}'.format(enable))
         pi.write(self._pin_relay,
                  enable != self._inv_relay)  # pos polarity