how to create a cfg file to ad9361 ?

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Hello everyone.
we have zynq-zc706-adv7511-ad9361-fmcomms2-3 and it includes the SD-card image which provided by analog devices(including the analog devices linux environment and iio oscilloscope/libiio)
we want to simulate in the simulink (stream data not hdl coder) the next matlab system block
the problem with that block that we want to include in the simulation the ad-freqcvt1-ebz down-up converter. we understand that we may need to change the cfg file which for the moment is written like this :
data_in_device = cf-ad9361-dds-core-lpc
data_out_device = cf-ad9361-lpc
ctrl_device = ad9361-phy
channel = RX_LO_FREQ,IN,out_altvoltage0_RX_LO_frequency,
channel = RX_SAMPLING_FREQ,IN,in_voltage_sampling_frequency,
channel = RX_RF_BANDWIDTH,IN,in_voltage_rf_bandwidth,
channel = RX1_GAIN_MODE,IN,in_voltage0_gain_control_mode,
channel = RX1_GAIN,IN,in_voltage0_hardwaregain,
channel = RX1_RSSI,OUT,in_voltage0_rssi,
channel = RX2_GAIN_MODE,IN,in_voltage1_gain_control_mode,
channel = RX2_GAIN,IN,in_voltage1_hardwaregain,
channel = RX2_RSSI,OUT,in_voltage1_rssi,
channel = TX_LO_FREQ,IN,out_altvoltage1_TX_LO_frequency,
channel = TX_SAMPLING_FREQ,IN,out_voltage_sampling_frequency,
channel = TX_RF_BANDWIDTH,IN,out_voltage_rf_bandwidth,
what are the changes that need to be done in order to achieve the required block ? (and how to write them in cfg file )
further more is there any other changes that needs to be done in the system object file ? (wrote below )
classdef iio_sys_obj < matlab.System & matlab.system.mixin.Propagates ...
& matlab.system.mixin.CustomIcon
% iio_sys_obj System Object block for IIO devices
properties (Nontunable)
% Public, non-tunable properties.
%ip_address IP address
ip_address = '';
%dev_name Device name
dev_name = 'ad9361';
%in_ch_no Number of input data channels
in_ch_no = 0;
%in_ch_size Input data channel size [samples]
in_ch_size = 8192;
%out_ch_no Number of output data channels
out_ch_no = 0;
%out_ch_size Output data channel size [samples]
out_ch_size = 8192;
end
properties (Access = protected)
% Protected class properties.
%iio_dev_cfg Device configuration structure
iio_dev_cfg = [];
end
properties (Access = private)
% Private class properties.
%libiio_data_in_dev libiio IIO interface object for the input data device
libiio_data_in_dev = {};
%libiio_data_out_dev libiio IIO interface object for the output data device
libiio_data_out_dev = {};
%libiio_ctrl_dev libiio IIO interface object for the control device
libiio_ctrl_dev = {};
%sys_obj_initialized Holds the initialization status of the system object
sys_obj_initialized = 0;
end
properties (DiscreteState)
% Discrete state properties.
%num_cfg_in Numeric type input control channels data
num_cfg_in;
%str_cfg_in String type input control channels data
str_cfg_in;
end
methods
%% Constructor
function obj = iio_sys_obj(varargin)
% Construct the libiio interface objects
obj.libiio_data_in_dev = libiio_if();
obj.libiio_data_out_dev = libiio_if();
obj.libiio_ctrl_dev = libiio_if();
% Support name-value pair arguments when constructing the object.
setProperties(obj,nargin,varargin{:});
end
end
methods (Access = protected)
%% Utility functions
function config = getObjConfig(obj)
% Read the selected device configuration
% Open the configuration file
fname = sprintf('%s.cfg', obj.dev_name);
fp_cfg = fopen(fname);
if(fp_cfg < 0)
config = {};
return;
end
% Build the object configuration structure
config = struct('data_in_device', '',... % Pointer to the data input device
'data_out_device', '',... % Pointer to the data output device
'ctrl_device', '',... % Pointer to the control device
'cfg_ch', [],... % Configuration channels list
'mon_ch', []); % Monitoring channels list
% Build the configuration/monitoring channels structure
ch_cfg = struct('port_name', '',... % Name of the port to be displayed on the object block
'port_attr', '',... % Associated device attribute name
'ctrl_dev_name', '',... % Control device name
'ctrl_dev', 0); % Pointer to the control device object
% Read the object's configuration
while(~feof(fp_cfg))
line = fgets(fp_cfg);
if(strfind(line,'#'))
continue;
end
if(~isempty(strfind(line, 'channel')))
% Get the associated configuration/monitoring channels
idx = strfind(line, '=');
line = line(idx+1:end);
line = strsplit(line, ',');
ch_cfg.port_name = strtrim(line{1});
ch_cfg.port_attr = strtrim(line{3});
if(length(line) > 4)
ch_cfg.ctrl_dev_name = strtrim(line{4});
else
ch_cfg.ctrl_dev_name = 'ctrl_device';
end
if(strcmp(strtrim(line{2}), 'IN'))
config.cfg_ch = [config.cfg_ch ch_cfg];
elseif(strcmp(strtrim(line{2}), 'OUT'))
config.mon_ch = [config.mon_ch ch_cfg];
end
elseif(~isempty(strfind(line, 'data_in_device')))
% Get the associated data input device
idx = strfind(line, '=');
tmp = line(idx+1:end);
tmp = strtrim(tmp);
config.data_in_device = tmp;
elseif(~isempty(strfind(line, 'data_out_device')))
% Get the associated data output device
idx = strfind(line, '=');
tmp = line(idx+1:end);
tmp = strtrim(tmp);
config.data_out_device = tmp;
elseif(~isempty(strfind(line, 'ctrl_device')))
% Get the associated control device
idx = strfind(line, '=');
tmp = line(idx+1:end);
tmp = strtrim(tmp);
config.ctrl_device = tmp;
end
end
fclose(fp_cfg);
end
end
methods (Access = protected)
%% Common functions
function setupImpl(obj)
% Implement tasks that need to be performed only once.
% Set the initialization status to fail
obj.sys_obj_initialized = 0;
% Read the object's configuration from the associated configuration file
obj.iio_dev_cfg = getObjConfig(obj);
if(isempty(obj.iio_dev_cfg))
msgbox('Could not read device configuration!', 'Error','error');
return;
end
% Initialize discrete-state properties.
obj.num_cfg_in = zeros(1, length(obj.iio_dev_cfg.cfg_ch));
obj.str_cfg_in = zeros(length(obj.iio_dev_cfg.cfg_ch), 64);
% Initialize the libiio data input device
if(obj.in_ch_no ~= 0)
[ret, err_msg, msg_log] = init(obj.libiio_data_in_dev, obj.ip_address, ...
obj.iio_dev_cfg.data_in_device, 'OUT', ...
obj.in_ch_no, obj.in_ch_size);
fprintf('%s', msg_log);
if(ret < 0)
msgbox(err_msg, 'Error','error');
return;
end
end
% Initialize the libiio data output device
if(obj.out_ch_no ~= 0)
[ret, err_msg, msg_log] = init(obj.libiio_data_out_dev, obj.ip_address, ...
obj.iio_dev_cfg.data_out_device, 'IN', ...
obj.out_ch_no, obj.out_ch_size);
fprintf('%s', msg_log);
if(ret < 0)
msgbox(err_msg, 'Error','error');
return;
end
end
% Initialize the libiio control device
if(~isempty(obj.iio_dev_cfg.ctrl_device))
[ret, err_msg, msg_log] = init(obj.libiio_ctrl_dev, obj.ip_address, ...
obj.iio_dev_cfg.ctrl_device, '', ...
0, 0);
fprintf('%s', msg_log);
if(ret < 0)
msgbox(err_msg, 'Error','error');
return;
end
end
% Assign the control device for each monitoring channel
for i = 1 : length(obj.iio_dev_cfg.mon_ch)
if(strcmp(obj.iio_dev_cfg.mon_ch(i).ctrl_dev_name, 'data_in_device'))
obj.iio_dev_cfg.mon_ch(i).ctrl_dev = obj.libiio_data_in_dev;
elseif(strcmp(obj.iio_dev_cfg.mon_ch(i).ctrl_dev_name, 'data_out_device'))
obj.iio_dev_cfg.mon_ch(i).ctrl_dev = obj.libiio_data_out_dev;
else
obj.iio_dev_cfg.mon_ch(i).ctrl_dev = obj.libiio_ctrl_dev;
end
end
% Assign the control device for each configuration channel
for i = 1 : length(obj.iio_dev_cfg.cfg_ch)
if(strcmp(obj.iio_dev_cfg.cfg_ch(i).ctrl_dev_name, 'data_in_device'))
obj.iio_dev_cfg.cfg_ch(i).ctrl_dev = obj.libiio_data_in_dev;
elseif(strcmp(obj.iio_dev_cfg.cfg_ch(i).ctrl_dev_name, 'data_out_device'))
obj.iio_dev_cfg.cfg_ch(i).ctrl_dev = obj.libiio_data_out_dev;
else
obj.iio_dev_cfg.cfg_ch(i).ctrl_dev = obj.libiio_ctrl_dev;
end
end
% Set the initialization status to success
obj.sys_obj_initialized = 1;
end
function releaseImpl(obj)
% Release any resources used by the system object.
obj.iio_dev_cfg = {};
delete(obj.libiio_data_in_dev);
delete(obj.libiio_data_out_dev);
delete(obj.libiio_ctrl_dev);
end
function varargout = stepImpl(obj, varargin)
% Implement the system object's processing flow.
varargout = cell(1, obj.out_ch_no + length(obj.iio_dev_cfg.mon_ch));
if(obj.sys_obj_initialized == 0)
%error("error");
return ;
end
% Implement the device configuration flow
for i = 1 : length(obj.iio_dev_cfg.cfg_ch)
if(~isempty(varargin{i + obj.in_ch_no}))
if(length(varargin{i + obj.in_ch_no}) == 1)
new_data = (varargin{i + obj.in_ch_no} ~= obj.num_cfg_in(i));
else
new_data = ~strncmp(char(varargin{i + obj.in_ch_no}'), char(obj.str_cfg_in(i,:)), length(varargin{i + obj.in_ch_no}));
end
if(new_data == 1)
if(length(varargin{i + obj.in_ch_no}) == 1)
obj.num_cfg_in(i) = varargin{i + obj.in_ch_no};
str = num2str(obj.num_cfg_in(i));
else
for j = 1:length(varargin{i + obj.in_ch_no})
obj.str_cfg_in(i,j) = varargin{i + obj.in_ch_no}(j);
end
obj.str_cfg_in(i,j+1) = 0;
str = char(obj.str_cfg_in(i,:));
end
writeAttributeString(obj.iio_dev_cfg.cfg_ch(i).ctrl_dev, obj.iio_dev_cfg.cfg_ch(i).port_attr, str);
end
end
end
% Implement the data transmit flow
writeData(obj.libiio_data_in_dev, varargin);
% Implement the data capture flow
[~, data] = readData(obj.libiio_data_out_dev);
for i = 1 : obj.out_ch_no
varargout{i} = data{i};
end
% Implement the parameters monitoring flow
for i = 1 : length(obj.iio_dev_cfg.mon_ch)
[~, val] = readAttributeDouble(obj.iio_dev_cfg.mon_ch(i).ctrl_dev, obj.iio_dev_cfg.mon_ch(i).port_attr);
varargout{obj.out_ch_no + i} = val;
end
end
function resetImpl(obj)
% Initialize discrete-state properties.
obj.num_cfg_in = zeros(1, length(obj.iio_dev_cfg.cfg_ch));
obj.str_cfg_in = zeros(length(obj.iio_dev_cfg.cfg_ch), 64);
end
function num = getNumInputsImpl(obj)
% Get number of inputs.
num = obj.in_ch_no;
config = getObjConfig(obj);
if(~isempty(config))
num = num + length(config.cfg_ch);
end
end
function varargout = getInputNamesImpl(obj)
% Get input names
% Get the number of input data channels
data_ch_no = obj.in_ch_no;
% Get number of control channels
cfg_ch_no = 0;
config = getObjConfig(obj);
if(~isempty(config))
cfg_ch_no = length(config.cfg_ch);
end
if(data_ch_no + cfg_ch_no ~= 0)
varargout = cell(1, data_ch_no + cfg_ch_no);
for i = 1 : data_ch_no
varargout{i} = sprintf('DATA_IN%d', i);
end
for i = data_ch_no + 1 : data_ch_no + cfg_ch_no
varargout{i} = config.cfg_ch(i - data_ch_no).port_name;
end
else
varargout = {};
end
end
function num = getNumOutputsImpl(obj)
% Get number of outputs.
num = obj.out_ch_no;
config = getObjConfig(obj);
if(~isempty(config))
num = num + length(config.mon_ch);
end
end
function varargout = getOutputNamesImpl(obj)
% Get output names
% Get the number of output data channels
data_ch_no = obj.out_ch_no;
% Get number of monitoring channels
mon_ch_no = 0;
config = getObjConfig(obj);
if(~isempty(config))
mon_ch_no = length(config.mon_ch);
end
if(data_ch_no + mon_ch_no ~= 0)
varargout = cell(1, data_ch_no + mon_ch_no);
for i = 1 : data_ch_no
varargout{i} = sprintf('DATA_OUT%d', i);
end
for i = data_ch_no + 1 : data_ch_no + mon_ch_no
varargout{i} = config.mon_ch(i - data_ch_no).port_name;
end
else
varargout = {};
end
end
function varargout = isOutputFixedSizeImpl(obj)
% Get outputs fixed size.
varargout = cell(1, getNumOutputs(obj));
for i = 1 : getNumOutputs(obj)
varargout{i} = true;
end
end
function varargout = getOutputDataTypeImpl(obj)
% Get outputs data types.
varargout = cell(1, getNumOutputs(obj));
for i = 1 : getNumOutputs(obj)
varargout{i} = 'double';
end
end
function varargout = isOutputComplexImpl(obj)
% Get outputs data types.
varargout = cell(1, getNumOutputs(obj));
for i = 1 : getNumOutputs(obj)
varargout{i} = false;
end
end
function varargout = getOutputSizeImpl(obj)
% Implement if input size does not match with output size.
varargout = cell(1, getNumOutputs(obj));
for i = 1:obj.out_ch_no
varargout{i} = [obj.out_ch_size 1];
end
for i = obj.out_ch_no + 1 : length(varargout)
varargout{i} = [1 1];
end
end
function icon = getIconImpl(obj)
% Define a string as the icon for the System block in Simulink.
if(~isempty(obj.dev_name))
icon = obj.dev_name;
else
icon = mfilename('class');
end
end
%% Backup/restore functions
function s = saveObjectImpl(obj)
% Save private, protected, or state properties in a
% structure s. This is necessary to support Simulink
% features, such as SimState.
end
function loadObjectImpl(obj, s, wasLocked)
% Read private, protected, or state properties from
% the structure s and assign it to the object obj.
end
%% Simulink functions
function z = getDiscreteStateImpl(obj)
% Return structure of states with field names as
% DiscreteState properties.
z = struct([]);
end
end
methods(Static, Access = protected)
%% Simulink customization functions
function header = getHeaderImpl(obj)
% Define header for the System block dialog box.
header = matlab.system.display.Header(mfilename('class'));
end
function group = getPropertyGroupsImpl(obj)
% Define section for properties in System block dialog box.
group = matlab.system.display.Section(mfilename('class'));
end
end
end
thank for all the answers.

回答(1 个)

Neil MacEwen
Neil MacEwen 2021-1-14
Hi Raz,
As you are using ADI's Simulink block and code, the best place to get answers is on their Engineer Zone. MathWorks provides support for the AD9361 via the Xilinx Zynq-Based Radio Hardware Support Package.
Kind regards,
Neil
  3 个评论
Neil MacEwen
Neil MacEwen 2021-1-14
Hi Raz,
I'm afraid MathWorks workflow for the AD9361 doesn't support ad-freqcvt1-ebz either. I think ADI have covered the answer pretty well in their answer on Engineer Zone.
As stated in that answer, you have two options for AD9361 support with MathWorks tools:
1. Official MathWorks support through the Zynq support package: https://www.mathworks.com/hardware-support/zynq-sdr.html
2. ADI Support through the Transceiver Toolbox: https://wiki.analog.com/resources/tools-software/transceiver-toolbox
The recommended starting point is the official MathWorks support. The support you are presenting in your question (including the cfg files) is no longer supported by ADI.
Thanks,
Neil
Raz Elimelech
Raz Elimelech 2021-1-14
thank you Neil we appreciate your help.

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