This is historical information of device classes implemented in ContinousAI device server.

Use this link to find the valid information.

Development status: Released
Information status: New

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Class Description


Perform continuous analog input acquisition simultaneously on four channels.
The device is available for boards SAI_2005 and SAI_2010.

Families: InputOutput

Key words: - ADLINK

Platform: Windows

Language: Cpp

License:

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Hardware


Manufacturer: SOLEIL

Bus: Not Applicable

Class interface


Attributes:

Name Description
dataCounterScalar: DevLong
timeoutCounterScalar: DevLong
overrunCounterScalar: DevLong
errorCounterScalar: DevLong
frequencyScalar: DevDouble
bufferDepthScalar: DevDouble
totalNbPointScalar: DevLong
integrationTimeScalar: DevDouble
generateNexusFileScalar: DevBoolean
nexusFilePathScalar: DevString

Commands:

Name Description
StateInput: DevVoid
Output: State
This command gets the device state (stored in its device_state data member) and returns it to the caller.
StatusInput: DevVoid
Output: DevString
This command gets the device status (stored in its device_status data member) and returns it to the caller.
StartInput: DevVoid
Output: DevVoid
Start the acquisition.
StopInput: DevVoid
Output: DevVoid
Stop the acquisition.
CalibrateInput: DevVoid
Output: DevVoid
Calibrate hardware.

Pipes:

Properties:

Name Description
DTRIGPolarityDevShort The digital level polarity. It can be detected on rising edge or falling edge. The possible values are RISING or FALLING.
TriggerSourceDevShort To choose analog (ATRIG) or digital trigger(DTRIG).
ATRIGSelectionDevShort To select the type of analog trigger. The trigger can be generated when the analog trigger passes below a level or above a level. The possible values are BELOW and ABOVE.
ATRIGLevelDevDouble The level of the analog trigger in volts.
BoardTypeDevShort The board type ( the possible values are SAI_2005, SAI_2010).
BoardNumDevShort The number of the board in the cPCI chassis (between 0 and 7).
DataTypeDevString The data type of acquisition( the possible values are RAW, SCALED).
InputRange0DevShort The input range for channel 0 , possible values are : B_10 B_5 B_2_5 B_1_25 U_10 U_5 U_2_5 U_1_25
InputRange1DevShort The input range for channel 1 , possible values are : B_10 B_5 B_2_5 B_1_25 U_10 U_5 U_2_5 U_1_25
InputRange2DevShort The input range for channel 2 , possible values are : B_10 B_5 B_2_5 B_1_25 U_10 U_5 U_2_5 U_1_25
InputRange3DevShort The input range for channel 3 , possible values are : B_10 B_5 B_2_5 B_1_25 U_10 U_5 U_2_5 U_1_25
OverrunStrategyDevShort The overrun strategy (the strategy adopted in case of data lost). The possible values are NOTIFY, ABORT, TRASH, RESTART, IGNORE.
TriggerModeDevString The trigger mode. It is possible to use a start trigger or a stop trigger or no trigger. The possible values are START, STOP, NONE.
ConversionSourceDevShort Set the AI conversion signal source (i.e. DAC sampling source). Use one of the following : INTERNAL, EXTSAMPLING.
TemporaryNexusFilePathDevString Define the root path for temporary generated nexus files.
NexusFileSuffixDevString Define a suffix to the generated nexus file and for each dataset name .
MemorizedGenerateNexusFileDevBoolean Allows storage of acquired data into Nexus files.
MemorizedNexusFilePathDevString Contains the last value of the nexusFilePath attribute. [default value =d:\\quickexaf]
MemorizedFrequencyDevDouble Contains the last value of the frequency attribute. [default value =50000]
MemorizedBufferDepthDevDouble Contains the last value of the bufferDepth attribute. [default value =5]

README

b'//-============================================================\n//\n// This class has been generated by POGO\n// (Program Obviously used to Generate tango Object)\n//\n// (c) - Software Engineering Group - ESRF\n//=============================================================\n\n\nFiles generated:\n===============\nContinuousAI.cpp: Source code for the ContinuousAI class and its commands.\n This class is derived from DeviceImpl_2 class.\n It represents the CORBA servant obbject which\n will be accessed from the network.\n All commands which can be executed on the\n ContinuousAI are implemented in this file.\n\nContinuousAI.h: Include for the ContinuousAI class.\n Server class prototypes and descriptions.\n\nContinuousAIClass.cpp: A singleton class derived fromContinuousAI.\n It implements the command list and all properties\n and methods required by the ContinuousAI once per process\n\nContinuousAIClass.h:\tInclude for the ContinuousAIClass root class.\n This class is represents the singleton class for\n the ContinuousAI device class.\n It contains all properties and methods which the \n ContinuousAI requires only once e.g. the commands.\n\nmain.cpp:\t\tC++ source for a TANGO device server main.\n The main rule is to initialise (and create) the Tango\n system and to create the DServerClass singleton.\n The main should be the same for every Tango device server.\n\nClassFactory.cpp:\tC++ source for the class_factory method of the DServer\n device class. This method is responsible to create\n all class singletin for a device server. It is called\n at device server startup\n'

22 Feb 2018, DS Admin
Updated:
The device class has been updated.
You can see previous version here .



20 Apr 2017, Piotr Goryl
Updated:
The device class has been updated.
You are looking at this version now.



23 Feb 2017, Piotr Goryl
Created:
The device class has been added to catalogue.
Added by:pgoryl2 on:20 Apr 2017, 1:09 p.m.