Capture contiguous RF data using Xilinx Zynq-based radio hardware
mdata] = capture(
ceil( number of contiguous data
samples using the Xilinx®
Zynq®-based radio hardware associated with the
System object™. The function returns the captured data samples in the output
data. The function also returns capture-time configuration settings
for the radio device in the output
specifies options using one or more name-value pair arguments. For example,
fn] = capture(___,'Filename',
'UserMetadata',moreInfo adds the
structure defined in the workspace to the
mdata output. Specify
name-value pair arguments after all other input arguments.
Capture RF Data to Baseband File Using Analog Devices AD9361/AD9364
Record RF signals for post-capture processing in MATLAB®. Save an FM broadcast signal to a file as baseband samples. Read the file containing the recorded signal and demodulate the baseband samples.
Configure SDR Hardware
If your radio hardware is already configured for host-radio communication, skip this section. To configure your radio hardware for host-radio communication, follow the steps in the Guided Host-Radio Hardware Setup. Attach an antenna suitable for the 88–108 MHz band to the first RX channel.
Configure Receiver System Object
Create a receiver System object with the specified properties. The specified center frequency corresponds to a local FM station. If you have an FMCOMMS5 radio hardware, set
stationCenterFrequency = 95e6; deviceName = 'AD936x'; rx = sdrrx(deviceName,'BasebandSampleRate',528e3,... 'CenterFrequency',stationCenterFrequency,'OutputDataType','Double');
Initiate Data Capture to File
capture function, specifying the receiver object, a capture duration, and a file name. The function returns the captured data in a file named "FMRecording.bb". After capturing the FM signal, unlock the receiver object by using the
## Establishing connection to hardware. This process can take several seconds.
Demodulate FM Recording
comm.BasebandFileReader System object to read the captured signal and extract frames of data from the file. Set the baseband file reader to take 4400 samples per frame when reading the saved baseband signal.
bbr = comm.BasebandFileReader('FMRecording.bb'); bbr.SamplesPerFrame = 4400;
BasebandSampleRate field of the baseband file reader object to set the
SampleRate property of the demodulator. You can find the
BasebandSampleRate field in the
MetaData structure. Create a
comm.FMBroadcastDemodulator System object. Demodulate and play back each frame of the FM data. Use a
while loop to read all frames of the captured data.
fmbDemod = comm.FMBroadcastDemodulator( ... 'AudioSampleRate', 48e3, ... 'SampleRate',bbr.Metadata.BasebandSampleRate,'PlaySound',true); while ~isDone(bbr) fmbDemod(bbr()); end
rx — Receiver
System object |
Receiver, specified as a
System object. To create these objects, use the
length — Capture duration
Capture duration, specified as a numeric scalar. The input argument
unit specifies the unit of
default unit is samples of data. The maximum number of samples to capture depends on the
comm.SDRRxAD936xSystem object, the number of samples must be in the range [1, 16,777,216].
comm.SDRRxFMCOMMS5System object, the number of samples must be in the range [1, 33,554,432].
You can remove the limit on the maximum number of samples to capture at the cost of
guaranteed data contiguity. For more details, see the
EnableOversizeCapture' name-value pair argument.
unit — Capture duration unit
'Samples' (default) |
filename — File name for saving captured data
character vector | string scalar
File name for saving captured data as a file, specified as a character vector or
string scalar. The saved file has the file name extension
read this file, use the
'rxdata.bb' configures the
function to save data to a file named
Specify optional pairs of arguments as
the argument name and
Value is the corresponding value.
Name-value arguments must appear after other arguments, but the order of the
pairs does not matter.
Before R2021a, use commas to separate each name and value, and enclose
Name in quotes.
'Timestamp',true appends a timestamp to the file name of the
Timestamp — Append capture timestamp to saved file name
Append a capture timestamp to the saved file name, specified as the comma
separated pair consisting of '
When you specify
false, no timestamp is appended to the saved file name.
When you specify
true, the name of the created file takes the form
_<, indicating when the data was captured.
UserMetadata — User data
User data, specified as the comma separated pair consisting of
UserMetadata' and a single-level structure of data. The function
adds this data to the
mdata structure output. By default, the
function includes no user data in
EnableOversizeCapture — Remove limit on capture duration
false (default) |
Remove limit on capture duration, specified as the comma separated pair consisting
true. When you specify
true, the function
removes the limit on the number of samples and data contiguity is not
data — Output signal
Output signal received from the radio hardware, returned as a complex matrix. The
number of columns in the matrix depends on the number of channels in use, as specified
ChannelMapping property of input receiver
rx. Each column corresponds to a channel of complex data received
on one channel.
The output signal supports complex values with these data types:
16-bit signed integers — Complex values are the raw 16-bit I and Q samples from the board. The 12-bit value from the ADC of the AD9361/AD9364 RF chip is sign-extended to 16 bits.
Single-precision floating point — Complex values are scaled to the range of [–0.0625, 0.0625]. The object derives this value from the sign-extended 16 bits received from the board.
Double-precision floating point — Complex values are scaled to the range of [–0.0625, 0.0625]. The object derives this value from the sign-extended 16 bits received from the board.
To specify the base data type, use the
OutputDataType property of input receiver
Complex Number Support: Yes
mdata — Capture-time configuration settings for radio device
Capture-time configuration settings for the radio device, returned as a structure that contains these fields:
Date of the data capture
Baseband sample rate, in Hz, configured in the SDR device
Center frequency, in Hz, configured in the SDR device
Name of the SDR device
Channel mapping value configured in the SDR device
Channel mapping is always 1
Length of data capture, as specified by inputs
Length of data capture, as specified by inputs
Character vector list of property values and settings that describe the System object state
Gain source value configured in the SDR device
Vector of row indices into the output
This field only applies when the
|Additional structure containing user-defined information included as an
input to the |
fn — File name for saved captured data and metadata
File name for saved captured data and metadata, returned as a character vector.
Introduced in R2019b