adc.sample edit

Initiate conversion and buffering of samples on an ADC channel.

adc.sample( id, count )

• id - ADC channel ID. Optionally, this may be a table containing a list of channel IDs (i.e.: {0, 2, 3}), allowing synchronization of acquisition. NOTE: This acceptance of mixed types is only for the sample function.
• count - number of samples to acquire and place in buffer.

Returns: nothing.

adc.getsample edit

Get a single conversion value from the buffer associated with a given channel.

sample = adc.getsample( id )

• id - ADC channel ID.

Returns:

• sample - numeric value of conversion, or nil if sample was not available.

adc.getsamples edit

Get multiple conversion values from the buffer associated with a given channel.

samples = adc.getsamples( id, count )

• id - ADC channel ID.
• count - optional parameter to indicate number of samples to return. If not included, all available samples are returned.

Returns:

• samples - table containing integer conversion values. If not enough samples are available, remaining indices will be nil.

adc.insertsamples edit

Get multiple conversion values from a channel's buffer, and write them into a table.

adc.insertsamples( id, table, idx, count )

• id - ADC channel ID.
• table - table to write samples to. Values at table[idx] to table[idx + count - 1] will be overwritten with samples (or nil if not enough samples are available).
• idx - first index to use in the table for writing samples.
• count - number of samples to return. If not enough samples are available (after blocking, if enabled) remaining values will be nil.

Returns: nothing.

adc.maxval edit

Get the maximum value (corresponding to the maximum voltage) that can be returned on a given channel.

maxval = adc.maxval( id )

• id - ADC channel ID.

Returns:

• maxval - maximum integer conversion value (based on channel resolution)

adc.setclock edit

Set the frequency (number of samples per second) at which voltages will be converted into samples.

NOTE: adc.setclock() is not implemented on AVR32 platforms.

clock = adc.setclock( id, clock, timer_id )

• id - ADC channel ID.
• clock - frequency to acquire samples at in Hz (number of samples per second), 0 to acquire as fast as possible.
• timer_id - Timer channel ID to use to control ADC conversion. Note: At this time, a timer selection will apply to all channels on a given ADC peripheral.

Returns: clock - actual acquisition frequency that was set

adc.isdone edit

Check whether samples are still being acquired on a channel.

status = adc.isdone( id )

• id - ADC channel ID.

Returns:

• status - 1 if no samples are being acquired, 0 if samples are pending acquisition.

adc.setblocking edit

Set whether or not functions that request converted samples should wait for requested samples or return immediately with what is available. If this function is not called, each channel starts in blocking mode.

adc.setblocking( id, mode )

• id - ADC channel ID.
• mode - 1 if requests to get samples should block until requested samples are available or sampling has completed, 0 to return immediately with available samples

Returns: nothing.

adc.setsmoothing edit

Set the length of the moving average filter. When length is greater than 1, samples pulled from the conversion buffer will be averaged with the preceding length - 1 buffered values.

adc.setsmoothing( id, length )

• id - ADC channel ID.
• length - number of preceding samples to include in moving average filter (must be a power of 2). If 1, filter is disabled. When enabled, a filter buffer is filled before the main conversion buffer, so that averages are always over the same number of samples.

Returns: nothing.