experimentor.drivers.digilent package¶
Submodules¶
Digilent¶
-
class
experimentor.drivers.digilent.
AnalogDiscovery
[source]¶ Bases:
object
-
analog_in_acquisition_mode_get
()[source]¶ Returns: Current mode Return type: AcquisitionMode
-
analog_in_acquisition_mode_info
()[source]¶ Returns the supported AnalogIn acquisition modes. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the ACQMODE constants in dwf.h. The acquisition mode selects one of the following modes, ACQMODE:
Returns: Bitfield of modes, needs to be parsed Return type: int
-
analog_in_channel_attenuation_set
(channel, attenuation)[source]¶ Configures the attenuation for each channel. When channel index is specified as -1, each enabled AnalogIn channel attenuation will be configured to the same level. The attenuation does not change the attenuation on the device, just informs the library about the externally applied attenuation. :param channel: :type channel: int :param attenuation: :type attenuation: float
-
analog_in_channel_disable
(channel)[source]¶ Disables the specified channel. See
analog_in_channel_enable()
Parameters: channel (int) –
-
analog_in_channel_enable
(channel)[source]¶ Enables the specified channel. See
analog_in_channel_disable()
Parameters: channel (int) –
-
analog_in_channel_range_info
()[source]¶ Returns: - volts_min (float)
- volts_max (float)
- volts_steps (float)
-
analog_in_frequency_info
()[source]¶ Retrieves the minimum and maximum (ADC frequency) settable sample frequency.
Returns: - min_freq (float) – Minimum allowed frequency
- max_freq (float) – Maximum allowed frequency
-
analog_in_samples_left
()[source]¶ - Retrieves the number of samples left in the acquisition.
Returns: Number of samples remaining Return type: int
-
analog_in_sampling_slope_set
(slope)[source]¶ Parameters: slope (TriggerSlope) –
-
analog_in_sampling_source_set
(source)[source]¶ Parameters: source (TriggerSource) –
-
analog_in_status
(read_data=0)[source]¶ Checks the status of the acquisition
Parameters: read_data (int) – 0 or 1, to indicate whether data should be read from the device Returns: The instrument state Return type: InstrumentState
-
analog_in_status_auto_trigger
()[source]¶ - Verifies if the acquisition is auto triggered.
Returns: I guess it returns 1 if the acquisition was auto triggered Return type: int
-
analog_in_status_data
(channel, samples, buffer=None)[source]¶ - Retrieves the acquired data samples from the specified idxChannel on the AnalogIn instrument. It copies the
- data samples to the provided buffer.
Parameters: - channel (int) –
- samples (int) –
- buffer (c_double array, optional) –
Returns: Array with the data
Return type: np.array
-
analog_in_status_data_16
(channel, first, samples, buffer=None)[source]¶ Retrieves the acquired raw data samples from the specified idxChannel on the AnalogIn instrument. It copies the data samples to the provided buffer or creates a new one. This is the raw data, as opposed to what
analog_in_status_data()
returns.Parameters: - channel (int) –
- first (int) –
- samples (int) –
- buffer (c_double array, optional) –
Returns: Array with the data
Return type: numpy.array
-
analog_in_status_data_2
(channel, first, samples, buffer=None)[source]¶ - Retrieves the acquired data samples from the specified idxChannel on the AnalogIn instrument. It copies the data samples to the provided buffer or creates a new buffer. This method allows to specify which data will be copied. To retrieve all data see
analog_in_status_data()
.Parameters: - channel (int) –
- first (int) –
- samples (int) –
- buffer (c_double array, optional) –
Returns: Array with the data
Return type: numpy.array
-
analog_in_status_index
()[source]¶ Retrieves the buffer write pointer which is needed in ScanScreen acquisition mode to display the scan bar. :returns: Variable to receive the position of the acquisition. :rtype: int
-
analog_in_status_noise
(channel, samples)[source]¶ Retrieves the acquired noise samples from the specified idxChannel on the AnalogIn instrument.
Parameters: - channel (int) –
- samples (int) –
Returns: minimum noise data, maximum noise data
Return type: 2-colum numpy.array
-
analog_in_status_record
()[source]¶ Retrieves information about the recording process. The data loss occurs when the device acquisition is faster than the read process to PC. In this case, the device recording buffer is filled and data samples are overwritten. Corrupt samples indicate that the samples have been overwritten by the acquisition process during the previous read. In this case, try optimizing the loop process for faster execution or reduce the acquisition frequency or record length to be less than or equal to the device buffer size (record length <= buffer size/frequency).
Returns: - data_available (int) – Available number of samples
- data_lost (int) – Lost samples after the last check
- data_corrupt (int) – Number of samples that can be corrupt
-
analog_in_status_sample
(channel)[source]¶ Gets the last ADC conversion sample from the specified idxChannel on the AnalogIn instrument.
Parameters: channel (int) – Returns: Sample value Return type: float
-
analog_in_trigger_condition_info
()[source]¶ Returns the supported trigger type options for the instrument. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the DwfTriggerSlope constants in dwf.h. These trigger condition options are:
- DwfTriggerSlopeRise (This is the default setting):
- For edge and transition trigger on rising edge.
- For pulse trigger on positive pulse; For window exiting.
- DwfTriggerSlopeFall
- For edge and transition trigger on falling edge.
- For pulse trigger on negative pulse; For window entering.
- DwfTriggerSlopeEither
- For edge and transition trigger on either edge.
- For pulse trigger on either positive or negative pulse.
Returns: info Return type: int
-
analog_in_trigger_filter_info
()[source]¶ Returns the supported trigger filters. They are returned (by reference) as a bit field which can be parsed using the IsBitSet Macro. Individual bits are defined using the FILTER constants in DWF.h. Select trigger detector sample source, FILTER:
- filterDecimate: Looks for trigger in each ADC conversion, can detect glitches.
- filterAverage: Looks for trigger only in average of N samples, given by
analog_in_frequency_set()
.
-
analog_in_trigger_holdoff_info
()[source]¶ Returns the supported range of the trigger Hold-Off time in Seconds. The trigger hold-off is an adjustable period of time during which the acquisition will not trigger. This feature is used when you are triggering on burst waveform shapes, so the oscilloscope triggers only on the first eligible trigger point.
Returns: - min_holdoff (float)
- max_holdoff (float)
- steps (float)
-
analog_in_trigger_hysteresis_info
()[source]¶ Retrieves the range of valid trigger hysteresis voltage levels for the AnalogIn instrument in Volts. The trigger detector uses two levels: low level (TriggerLevel - Hysteresis) and high level (TriggerLevel + Hysteresis). Trigger hysteresis can be used to filter noise for Edge or Pulse trigger. The low and high levels are used in transition time triggering.
-
analog_in_trigger_length_condition_info
()[source]¶ Returns the supported trigger length condition options for the AnalogIn instrument. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the TRIGLEN constants in DWF.h. These trigger length condition options are:
- triglenLess: Trigger immediately when a shorter pulse or transition time is detected.
- triglenTimeout: Trigger immediately as the pulse length or transition time is reached.
- triglenMore: Trigger when the length/time is reached, and pulse or transition has ended.
Returns: Return type: supported trigger length conditions
-
analog_in_trigger_length_info
()[source]¶ Returns the supported range of trigger length for the instrument in Seconds. The trigger length specifies the minimal or maximal pulse length or transition time.
-
analog_in_trigger_position_info
()[source]¶ Returns the minimum and maximum values of the trigger position in seconds. For Single/Repeated acquisition mode the horizontal trigger position is used is relative to the buffer middle point. For Record mode the position is relative to the start of the capture.
Todo
The documentation specifies steps as double, but it makes more sense for it to be an integer. Other methods like
analog_in_trigger_auto_timeout_info()
use an integerReturns: - min_trigger (float)
- max_trigger (float)
- steps (float)
-
analog_out_count
()[source]¶ The number of analog output channels available on this board.
Returns: The number of analog channels available Return type: int
-
analogin_noise_size_get
()[source]¶ Returns the used AnalogIn instrument noise buffer size. This is automatically adjusted according to the sample buffer size. For instance, having maximum buffer size of 8192 and noise buffer size of 512, setting the sample buffer size to 4096 the noise buffer size will be 256.
Returns: Current noise buffer size Return type: int
-
analong_in_acquisition_mode_set
(mode)[source]¶ Parameters: mode (AcquisitionMode) –
-
digital_out_count
()[source]¶ Returns the number of Digital Out channels by the device specified by hdwf.
-
digital_out_counter_init_set
(channel, start_high, divider)[source]¶ Sets the initial state and counter value of the specified channel.
-
digital_out_counter_set
(channel, low, high)[source]¶ Sets the counter low and high values for the specified channel..
-
digital_out_data_info
(channel)[source]¶ Returns the maximum buffers size, the number of custom data bits.
-
digital_out_idle_info
(channel)[source]¶ Returns the supported idle output types of the channel. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using
DigitalOutIdle
:- DwfDigitalOutIdleInit: Output initial value.
- DwfDigitalOutIdleLow: Low level.
- DwfDigitalOutIdleHigh: High level.
- DwfDigitalOutIdleZet: Three state.
-
digital_out_output_info
(channel)[source]¶ Returns the supported output modes of the channel. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the
DigitalOutOutput
:- DwfDigitalOutOutputPushPull: Default setting.
- DwfDigitalOutOutputOpenDrain: External pull needed.
- DwfDigitalOutOutputOpenSource: External pull needed.
- DwfDigitalOutOutputThreeState: Available with custom and random types.
-
digital_out_repeat_trigger_set
(trigger)[source]¶ Sets the repeat trigger option. To include the trigger in wait-run repeat cycles, set fRepeatTrigger to TRUE. It is disabled by default.
-
digital_out_run_status
()[source]¶ Reads the remaining run length. It returns data from the last
digital_out_status()
call.
-
digital_out_type_info
(channel)[source]¶ Returns the supported types of the channel. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using
DigitalOutType
:- DwfDigitalOutTypePulse: Frequency = internal frequency/divider/(low + high counter).
- DwfDigitalOutTypeCustom: Sample rate = internal frequency / divider.
- DwfDigitalOutTypeRandom: Random update rate = internal frequency/divider/counter alternating between
low and high values. - DwfDigitalOutTypeROM: ROM logic, the DIO input value is used as address for output value - DwfDigitalOutTypePlay: Supported with Digital Discovery.
-
Module contents¶
-
class
experimentor.drivers.digilent.
AnalogDiscovery
[source] Bases:
object
-
analog_in_acquisition_mode_get
()[source] Returns: Current mode Return type: AcquisitionMode
-
analog_in_acquisition_mode_info
()[source] Returns the supported AnalogIn acquisition modes. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the ACQMODE constants in dwf.h. The acquisition mode selects one of the following modes, ACQMODE:
Returns: Bitfield of modes, needs to be parsed Return type: int
-
analog_in_bits_info
()[source]
-
analog_in_buffer_size_get
()[source]
-
analog_in_buffer_size_info
()[source]
-
analog_in_buffer_size_set
(buffer_size)[source]
-
analog_in_channel_attenuation_get
(channel)[source]
-
analog_in_channel_attenuation_set
(channel, attenuation)[source] Configures the attenuation for each channel. When channel index is specified as -1, each enabled AnalogIn channel attenuation will be configured to the same level. The attenuation does not change the attenuation on the device, just informs the library about the externally applied attenuation. :param channel: :type channel: int :param attenuation: :type attenuation: float
-
analog_in_channel_count
()[source]
-
analog_in_channel_disable
(channel)[source] Disables the specified channel. See
analog_in_channel_enable()
Parameters: channel (int) –
-
analog_in_channel_enable
(channel)[source] Enables the specified channel. See
analog_in_channel_disable()
Parameters: channel (int) –
-
analog_in_channel_enable_get
(channel)[source]
-
analog_in_channel_filter_get
(channel)[source]
-
analog_in_channel_filter_info
()[source]
-
analog_in_channel_filter_set
(channel, filter)[source]
-
analog_in_channel_offset_get
(channel)[source]
-
analog_in_channel_offset_info
()[source]
-
analog_in_channel_offset_set
(channel, offset)[source]
-
analog_in_channel_range_get
(channel)[source]
-
analog_in_channel_range_info
()[source] Returns: - volts_min (float)
- volts_max (float)
- volts_steps (float)
-
analog_in_channel_range_set
(channel, channel_range)[source]
-
analog_in_configure
(reconfigure=1, start=1)[source]
-
analog_in_frequency_get
()[source]
-
analog_in_frequency_info
()[source] Retrieves the minimum and maximum (ADC frequency) settable sample frequency.
Returns: - min_freq (float) – Minimum allowed frequency
- max_freq (float) – Maximum allowed frequency
-
analog_in_frequency_set
(frequency)[source]
-
analog_in_noise_size_info
()[source]
-
analog_in_record_length_get
()[source]
-
analog_in_record_length_set
(length)[source]
-
analog_in_reset
()[source]
-
analog_in_samples_left
()[source] - Retrieves the number of samples left in the acquisition.
Returns: Number of samples remaining Return type: int
-
analog_in_samples_valid
()[source]
-
analog_in_sampling_delay_get
()[source]
-
analog_in_sampling_delay_set
(delay)[source]
-
analog_in_sampling_slope_get
()[source]
-
analog_in_sampling_slope_set
(slope)[source] Parameters: slope (TriggerSlope) –
-
analog_in_sampling_source_get
()[source]
-
analog_in_sampling_source_set
(source)[source] Parameters: source (TriggerSource) –
-
analog_in_status
(read_data=0)[source] Checks the status of the acquisition
Parameters: read_data (int) – 0 or 1, to indicate whether data should be read from the device Returns: The instrument state Return type: InstrumentState
-
analog_in_status_auto_trigger
()[source] - Verifies if the acquisition is auto triggered.
Returns: I guess it returns 1 if the acquisition was auto triggered Return type: int
-
analog_in_status_data
(channel, samples, buffer=None)[source] - Retrieves the acquired data samples from the specified idxChannel on the AnalogIn instrument. It copies the
- data samples to the provided buffer.
Parameters: - channel (int) –
- samples (int) –
- buffer (c_double array, optional) –
Returns: Array with the data
Return type: np.array
-
analog_in_status_data_16
(channel, first, samples, buffer=None)[source] Retrieves the acquired raw data samples from the specified idxChannel on the AnalogIn instrument. It copies the data samples to the provided buffer or creates a new one. This is the raw data, as opposed to what
analog_in_status_data()
returns.Parameters: - channel (int) –
- first (int) –
- samples (int) –
- buffer (c_double array, optional) –
Returns: Array with the data
Return type: numpy.array
-
analog_in_status_data_2
(channel, first, samples, buffer=None)[source] - Retrieves the acquired data samples from the specified idxChannel on the AnalogIn instrument. It copies the data samples to the provided buffer or creates a new buffer. This method allows to specify which data will be copied. To retrieve all data see
analog_in_status_data()
.Parameters: - channel (int) –
- first (int) –
- samples (int) –
- buffer (c_double array, optional) –
Returns: Array with the data
Return type: numpy.array
-
analog_in_status_index
()[source] Retrieves the buffer write pointer which is needed in ScanScreen acquisition mode to display the scan bar. :returns: Variable to receive the position of the acquisition. :rtype: int
-
analog_in_status_noise
(channel, samples)[source] Retrieves the acquired noise samples from the specified idxChannel on the AnalogIn instrument.
Parameters: - channel (int) –
- samples (int) –
Returns: minimum noise data, maximum noise data
Return type: 2-colum numpy.array
-
analog_in_status_record
()[source] Retrieves information about the recording process. The data loss occurs when the device acquisition is faster than the read process to PC. In this case, the device recording buffer is filled and data samples are overwritten. Corrupt samples indicate that the samples have been overwritten by the acquisition process during the previous read. In this case, try optimizing the loop process for faster execution or reduce the acquisition frequency or record length to be less than or equal to the device buffer size (record length <= buffer size/frequency).
Returns: - data_available (int) – Available number of samples
- data_lost (int) – Lost samples after the last check
- data_corrupt (int) – Number of samples that can be corrupt
-
analog_in_status_sample
(channel)[source] Gets the last ADC conversion sample from the specified idxChannel on the AnalogIn instrument.
Parameters: channel (int) – Returns: Sample value Return type: float
-
analog_in_trigger_auto_timeout_get
()[source]
-
analog_in_trigger_auto_timeout_info
()[source]
-
analog_in_trigger_auto_timeout_set
(timeout=0)[source]
-
analog_in_trigger_channel_get
()[source]
-
analog_in_trigger_channel_info
()[source]
-
analog_in_trigger_channel_set
(channel)[source] Sets the trigger channel.
-
analog_in_trigger_condition_get
()[source]
-
analog_in_trigger_condition_info
()[source] Returns the supported trigger type options for the instrument. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the DwfTriggerSlope constants in dwf.h. These trigger condition options are:
- DwfTriggerSlopeRise (This is the default setting):
- For edge and transition trigger on rising edge.
- For pulse trigger on positive pulse; For window exiting.
- DwfTriggerSlopeFall
- For edge and transition trigger on falling edge.
- For pulse trigger on negative pulse; For window entering.
- DwfTriggerSlopeEither
- For edge and transition trigger on either edge.
- For pulse trigger on either positive or negative pulse.
Returns: info Return type: int
-
analog_in_trigger_condition_set
(condition)[source]
-
analog_in_trigger_filter_get
()[source]
-
analog_in_trigger_filter_info
()[source] Returns the supported trigger filters. They are returned (by reference) as a bit field which can be parsed using the IsBitSet Macro. Individual bits are defined using the FILTER constants in DWF.h. Select trigger detector sample source, FILTER:
- filterDecimate: Looks for trigger in each ADC conversion, can detect glitches.
- filterAverage: Looks for trigger only in average of N samples, given by
analog_in_frequency_set()
.
-
analog_in_trigger_filter_set
(trig_filter)[source]
-
analog_in_trigger_holdoff_get
()[source]
-
analog_in_trigger_holdoff_info
()[source] Returns the supported range of the trigger Hold-Off time in Seconds. The trigger hold-off is an adjustable period of time during which the acquisition will not trigger. This feature is used when you are triggering on burst waveform shapes, so the oscilloscope triggers only on the first eligible trigger point.
Returns: - min_holdoff (float)
- max_holdoff (float)
- steps (float)
-
analog_in_trigger_holdoff_set
(holdoff)[source]
-
analog_in_trigger_hysteresis_get
()[source]
-
analog_in_trigger_hysteresis_info
()[source] Retrieves the range of valid trigger hysteresis voltage levels for the AnalogIn instrument in Volts. The trigger detector uses two levels: low level (TriggerLevel - Hysteresis) and high level (TriggerLevel + Hysteresis). Trigger hysteresis can be used to filter noise for Edge or Pulse trigger. The low and high levels are used in transition time triggering.
-
analog_in_trigger_hysteresis_set
(level)[source]
-
analog_in_trigger_length_condition_get
()[source]
-
analog_in_trigger_length_condition_hysteresis_get
()[source]
-
analog_in_trigger_length_condition_info
()[source] Returns the supported trigger length condition options for the AnalogIn instrument. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the TRIGLEN constants in DWF.h. These trigger length condition options are:
- triglenLess: Trigger immediately when a shorter pulse or transition time is detected.
- triglenTimeout: Trigger immediately as the pulse length or transition time is reached.
- triglenMore: Trigger when the length/time is reached, and pulse or transition has ended.
Returns: Return type: supported trigger length conditions
-
analog_in_trigger_length_condition_set
(length)[source]
-
analog_in_trigger_length_info
()[source] Returns the supported range of trigger length for the instrument in Seconds. The trigger length specifies the minimal or maximal pulse length or transition time.
-
analog_in_trigger_length_set
(length)[source]
-
analog_in_trigger_level_get
()[source]
-
analog_in_trigger_level_info
()[source]
-
analog_in_trigger_level_set
(level)[source]
-
analog_in_trigger_position_get
()[source]
-
analog_in_trigger_position_info
()[source] Returns the minimum and maximum values of the trigger position in seconds. For Single/Repeated acquisition mode the horizontal trigger position is used is relative to the buffer middle point. For Record mode the position is relative to the start of the capture.
Todo
The documentation specifies steps as double, but it makes more sense for it to be an integer. Other methods like
analog_in_trigger_auto_timeout_info()
use an integerReturns: - min_trigger (float)
- max_trigger (float)
- steps (float)
-
analog_in_trigger_position_set
(position)[source]
-
analog_in_trigger_source_get
()[source]
-
analog_in_trigger_source_set
(source)[source]
-
analog_in_trigger_type_get
()[source]
-
analog_in_trigger_type_set
(trig_type)[source]
-
analog_out_count
()[source] The number of analog output channels available on this board.
Returns: The number of analog channels available Return type: int
-
analogin_noise_size_get
()[source] Returns the used AnalogIn instrument noise buffer size. This is automatically adjusted according to the sample buffer size. For instance, having maximum buffer size of 8192 and noise buffer size of 512, setting the sample buffer size to 4096 the noise buffer size will be 256.
Returns: Current noise buffer size Return type: int
-
analong_in_acquisition_mode_set
(mode)[source] Parameters: mode (AcquisitionMode) –
-
digital_out_configure
(status)[source]
-
digital_out_count
()[source] Returns the number of Digital Out channels by the device specified by hdwf.
-
digital_out_counter_get
(channel)[source]
-
digital_out_counter_info
(channel)[source]
-
digital_out_counter_init_get
(channel)[source]
-
digital_out_counter_init_set
(channel, start_high, divider)[source] Sets the initial state and counter value of the specified channel.
-
digital_out_counter_set
(channel, low, high)[source] Sets the counter low and high values for the specified channel..
-
digital_out_data_info
(channel)[source] Returns the maximum buffers size, the number of custom data bits.
-
digital_out_data_set
(channel, data_array, num_bits)[source]
-
digital_out_divider_get
(channel)[source]
-
digital_out_divider_info
(channel)[source]
-
digital_out_divider_init_get
(channel)[source]
-
digital_out_divider_init_set
(channel, divider)[source]
-
digital_out_divider_set
(channel, divider)[source]
-
digital_out_enable_get
(channel)[source]
-
digital_out_enable_set
(channel, enable)[source]
-
digital_out_idle_get
(channel)[source]
-
digital_out_idle_info
(channel)[source] Returns the supported idle output types of the channel. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using
DigitalOutIdle
:- DwfDigitalOutIdleInit: Output initial value.
- DwfDigitalOutIdleLow: Low level.
- DwfDigitalOutIdleHigh: High level.
- DwfDigitalOutIdleZet: Three state.
-
digital_out_idle_set
(channel, idle)[source]
-
digital_out_internal_clock_info
()[source]
-
digital_out_output_get
(channel)[source]
-
digital_out_output_info
(channel)[source] Returns the supported output modes of the channel. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using the
DigitalOutOutput
:- DwfDigitalOutOutputPushPull: Default setting.
- DwfDigitalOutOutputOpenDrain: External pull needed.
- DwfDigitalOutOutputOpenSource: External pull needed.
- DwfDigitalOutOutputThreeState: Available with custom and random types.
-
digital_out_output_set
(channel, output)[source]
-
digital_out_play_data_set
(bits, bits_per_sample, count)[source]
-
digital_out_play_rate_set
(rate)[source]
-
digital_out_repeat_get
()[source]
-
digital_out_repeat_info
()[source]
-
digital_out_repeat_set
(repeat)[source]
-
digital_out_repeat_status
()[source]
-
digital_out_repeat_trigger_get
()[source]
-
digital_out_repeat_trigger_set
(trigger)[source] Sets the repeat trigger option. To include the trigger in wait-run repeat cycles, set fRepeatTrigger to TRUE. It is disabled by default.
-
digital_out_reset
()[source]
-
digital_out_run_get
()[source]
-
digital_out_run_info
()[source]
-
digital_out_run_set
(run_len)[source]
-
digital_out_run_status
()[source] Reads the remaining run length. It returns data from the last
digital_out_status()
call.
-
digital_out_status
()[source]
-
digital_out_trigger_slope_get
()[source]
-
digital_out_trigger_slope_set
(slope)[source]
-
digital_out_trigger_source_get
()[source]
-
digital_out_trigger_source_set
(source)[source]
-
digital_out_type_get
(channel)[source]
-
digital_out_type_info
(channel)[source] Returns the supported types of the channel. They are returned (by reference) as a bit field. This bit field can be parsed using the IsBitSet Macro. Individual bits are defined using
DigitalOutType
:- DwfDigitalOutTypePulse: Frequency = internal frequency/divider/(low + high counter).
- DwfDigitalOutTypeCustom: Sample rate = internal frequency / divider.
- DwfDigitalOutTypeRandom: Random update rate = internal frequency/divider/counter alternating between
low and high values. - DwfDigitalOutTypeROM: ROM logic, the DIO input value is used as address for output value - DwfDigitalOutTypePlay: Supported with Digital Discovery.
-
digital_out_type_set
(channel, out_type)[source]
-
digital_out_wait_get
()[source]
-
digital_out_wait_info
()[source] Returns the supported wait length range in seconds. The wait length is how long the instrument waits after being triggered to generate the signal. Default value is zero.
-
digital_out_wait_set
(wait)[source]
-
initialize
(dev_num=-1)[source] Initialize the communication with a device identified by its order
Parameters: dev_num (int) – The device number to open, by default it opens the last device Raises: DriverException
– If the device can’t be opened
-