Unless otherwise indicated, properties are non-tunable, which means you cannot change their values after calling the object. Objects lock when you call them, and the release function unlocks them.
If a property is tunable, you can change its value at any time.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Frequency of NCO in fine decimators in transmit path. Property must be a [1,N] vector where each value is the frequency of an NCO in hertz.
Vector of logicals which enabled individual NCOs in channel interpolators
Vector of logicals which enabled individual NCOs in channel interpolators
Vector of logicals which enabled individual NCOs in channel interpolators
Vector of logicals which enabled individual NCOs in channel interpolators
At initialization update DAC full scale current
DAC full scale current in microamps. Only used when UpdateDACFullScaleCurrent is set.
Number of samples per frame, specified as an even positive integer from 2 to 16,777,216. Using values less than 3660 can yield poor performance.
Enable interpolation (TX) or decimation (RX) by 2 when enabled to correct interface rate to 125 MS/s. This will scale the input and output data length by either 1/2 (RX) or 2 (TX).
Indexs of channels to be enabled. Input should be a [1xN] vector with the indexes of channels to be enabled. Order is irrelevant
Hostname or IP address of remote libIIO deviceHelp for adi.QuadMxFE.Tx/uri is inherited from superclass matlabshared.libiio.base
Data source, specified as one of the following: 'DMA' — Specify the host as the source of the data. 'DDS' — Specify the DDS on the radio hardware as the source of the data. In this case, each channel has two additive tones.Help for adi.QuadMxFE.Tx/DataSource is inherited from superclass adi.common.DDS
Frequencies values in Hz of the DDS tone generators. For complex data devices the input is a [2xN] matrix where N is the available channels on the board. For complex data devices this is at most max(EnabledChannels)*2. For non-complex data devices this is at most max(EnabledChannels). If N < this upper limit, other DDSs are not set.Help for adi.QuadMxFE.Tx/DDSFrequencies is inherited from superclass adi.common.DDS
Scale of DDS tones in range [0,1]. For complex data devices the input is a [2xN] matrix where N is the available channels on the board. For complex data devices this is at most max(EnabledChannels)*2. For non-complex data devices this is at most max(EnabledChannels). If N < this upper limit, other DDSs are not set.Help for adi.QuadMxFE.Tx/DDSScales is inherited from superclass adi.common.DDS
Phases of DDS tones in range [0,360000]. For complex data devices the input is a [2xN] matrix where N is the available channels on the board. For complex data devices this is at most max(EnabledChannels)*2. For non-complex data devices this is at most max(EnabledChannels). If N < this upper limit, other DDSs are not set.Help for adi.QuadMxFE.Tx/DDSPhases is inherited from superclass adi.common.DDS
Enable Cyclic Buffers, configures transmit buffers to be cyclic, which makes them continuously repeatHelp for adi.QuadMxFE.Tx/EnableCyclicBuffers is inherited from superclass adi.common.DDS