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README.md

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/* Documentation of back-end functions used in PSLab, taken from sciencelab.py */

get_resistance(self)
get__version(self)
getRadioLinks(self)
newRadioLink(self, **args)
reconnect(self, **kwargs)
capture1(self, ch, ns, tg, *args, **kwargs)
capture2(self, ns, tg, TraceOneRemap='CH1')
capture4(self, ns, tg, TraceOneRemap='CH1')
capture_multiple(self, samples, tg, *args)
capture_fullspeed(self, chan, samples, tg, *args, **kwargs)
capture_fullspeed_hr(self, chan, samples, tg, *args)
capture_traces(self, num, samples, tg, channel_one_input='CH1', CH123SA=0, *kwargs)
capture_highres_traces(self, channel, samples, tg, **kwargs)
fetch_trace(self, channel_number)
oscilloscope_progress(self)
configure_trigger(self, chan, name, voltage, resolution=10, **kwargs)
set_gain(self, channel, gain, Force=False)
select_range(self, channel, voltage_range)
get_voltage(self, channel_name, **kwargs)
voltmeter_autorange(self, channel_name)
get_average_voltage(self, channel_name, **kwargs)
fetch_buffer(self, starting_position=0, total_points=100)
clear_buffer(self, starting_position, total_points)
fill(slef, starting_position, poin_array)
start_streaming(self, tg, channel='CH1')
stop_streaming(self)
get_high_freq(self, pin)
get_freq(self, channel='CNTR', timeout=2)
r2r_time(self, channel, skip_cycle=0, timeout=5)
f2f_time(self,channel, skip_cycle=0, timeout=5)
MeasureInterval(self, channel1, channel2, edge1, edge2, timeout=0.1)
DutyCycle(self, channel='ID1', timeout=1.)
PulseTime(self, channel='ID1', PulseType='LOW', timeout=0.1)
MeasureMultipleDigitalEdges(self, channel1, channel2, edgeType1, edgeType2, points1, points2, timeout=0.1, **kwargs)
capture_edges1(self, waiting_time=1., **args)
start_one_channel_LA_backup__(self, trigger=1, channel='ID1', maximum_time=67, **args)
start_one_channel_LA(self, **args)
start_two_channel_LA(self, **args)
start_three_channel_LA(self, **args)
start_four_channel_LA(self, trigger=1, maximum_time=0.001, mode=[1, 1, 1, 1], **args)
get_LA_initial_states(self)
stop_LA(self)
fetch_int_data_from_LA(self, bytes, chan=1)
fetch_LA_channels(self)
get_states(self)
get_state(self, input_id)
set_state(self, **kwargs)
countPulses(self, channel='SEN')
readPulseCount(self)
capacitance_via_RC_discharge(self)
get_capacitor_range(self)
get_capacitance(self)
get_temperature(self)
resetHardware(self)
read_flash(self, page, location)
read_bulk_flash(self, page, numbytes)
write_flash(self, page, location, string_to_write)
write_bulk_flash(self, location, data)
set_wave(self, chan, freq)
set_sine1(self, freq)
set_sine2(self, freq)
set_w1(self, freq, waveType=None)
set_w2(self, freq, waveType=None)
readbackWavefrom(self, chan)
set_waves(self, freq, phase, f2=None)
load_equation(self, chan, function, span=None, **kwargs)
load_table(self, chan, points, mode='arbit', **kwargs)
sqr1(self, freq, duty_cycle=50, onlyPrepare=False)
sqr1_pattern(self, timing_array)
sqr2(self, freq, duty_cycle)
set_sqrs(self, wavelength, phase, high_time1, high_time2, prescaler=1)
sqrPWM(self, freq, h0, p1, h1, p2, h2, p3, h3, **kwargs)
map_reference_clock(self, scaler, *args)
set_pv1(self, val)
set_pv2(self, val)
set_pv3(self, val)
set_pcs(self, val)
get_pv1(self)
get_pv2(self)
get_pv3(self)
get_pcs(self)
WS2812B(self, cols, output='CS1')
read_program_address(self, address)
device_id(self)
read_data_address(self, address)
stepForward(self, steps, delay)
stepBackward(self, steps, delay)
servo(self, angle, chan='SQR1')
servo4(self, a1, a2, a3, a4)
enableUartPassthrough(self, baudrate, persist=False)
estimateDistance(self)
opticalArray(self, SS, delay, channel='CH3', **kwargs)
setUARTBAUD(self, BAUD)
writeUART(self, character)
readUART(self)
readUARTStatus(self)
readLog(self)
raiseException(self, ex, msg)