def reset_demo(): connection = SerialManager() a = ArduinoTree(connection=connection) print_millis(a) print ('soft reset') a.soft_reset() print_millis(a)
def counterdemo(): connection = SerialManager() a = ArduinoTree(connection=connection) p = a.pin.get(5) a.soft_reset() print('PWM frequencies_available: %s' % p.pwm.frequencies_available) p.write_mode(1) p.pwm.write_value(128) p.pwm.frequency = F print('frequency set: %s' % p.pwm.frequency) t1 = time.time() fread = a.counter.read_frequency(GATE_TIME) t2 = time.time() print('frequency read: %s' % fread) print('gate time: %s sec' % (GATE_TIME)) print('time elapsed: %s sec' % (t2 - t1))
def counterdemo(): connection = SerialManager() a = ArduinoTree(connection=connection) p = a.pin.get(5) a.soft_reset() print ('PWM frequencies_available: %s' % p.pwm.frequencies_available) p.write_mode(1) p.pwm.write_value(128) p.pwm.frequency = F print ('frequency set: %s' % p.pwm.frequency) t1 = time.time() fread = a.counter.read_frequency(GATE_TIME) t2 = time.time() print ('frequency read: %s' % fread) print ('gate time: %s sec' % (GATE_TIME)) print ('time elapsed: %s sec' % (t2 - t1))
def test_long(): a = ArduinoTree() for x in range(REPEAT_TEST): print (x, ('uptime: %s sec' % (a.api.millis() / 1000.0))) a.soft_reset()
def test_long(): a = ArduinoTree() for x in range(REPEAT_TEST): print(x, ('uptime: %s sec' % (a.api.millis() / 1000.0))) a.soft_reset()