NOTE: All Schedule commands accept as optional arguments a list of antennas to which the command should selectively sent. Accepted syntaxes are: Command ant1 ant2 ant3 Command ant1-3 Command subarray1 Command subarray2 If no antenna list is indicated, the command is sent to all antennas currently in subarray1
Commands handled directly by ACC
Aborts all commands sent to ACC but not yet executed
CLEAROFF [antenna list]
Sets all AzEl or RaDec offsets to zero
DCMATTN HPOLattn VPOLattn [antenna list]
Indicates the VPOL and HPOL attenuations for the DCM modules indicated in the list. The attenuations are applied on the next second start.
Warning:The command is executed only if the DCM modules are in manual mode (see the DCMAUTO-ON and DCMAUTO-OFF command below)
DCMAUTO-OFF [antenna list]
Sets the DCM modules in the manual attenuation mode. This mode allows the attenuations requested by the DCMATTN to be applied.
DCMAUTO-ON [antenna list]
Sets the DCM modules in the automatic attenuation mode. This mode ignores the manual DCMATTN commands and applies the attenuation set through the DCMREGIME mechanism.
DCMOFFSET level1 level2…..level50
Sets the 50 DCM regime states to be cycled during each second, starting with the next second boundary. The command expects up to 50 arguments. If fewer arguments are provided, the existing set is repeated in the same sequence until all 50 slots are filled. This command is only intended for testing. During normal operations, the DCMREGIME states are requested by the DPP computer.
Warning: The command is executed only if the DCM modules are in auto mode (see the DCMAUTO-ON and DCMAUTO-OFF command below).
The DCMREGIME settings are changed on the edge of the next second after a TCP/IP message is received by ACC at the TCP.dpp.port (default port: 6344-set in ACC.ini file ). The message is expected to be a fixed length binary string having the following format
REGIME + blank space + 50 32bit integers (I32)
DCMTABLE [antennalist] filename
Request the antenna list portion of a specific DCM base attenuation table to be uploaded on the respective DCM modules. The DCM table must have 30 columns and 50 rows, each pair of adjacent columns listing the HPOL-VPOL pairs for each of the 50 slots of a tuning sequence. The DCM table text file must be located in the ACC “c:\parm” directory and its default name is “DCM.txt”.
The DCM/table_timeout key in the ACC.ini files have to be manually edited in order to modify the default timeout (ms) of the DCM modules when a table is broadcasted.
The actual DCM attenuations for a given tuning slot are calculated based on the following formula
Ignores DCM offset attenuation recommendations sent by DPP but still allows setting the offsets via the DCMOFFSET schedule command.
Applies DCM offset attenuation recommendations sent by DPP but still allows setting the offsets via the DCMOFFSET schedule command.
NOTE: This is the default behavior of the system after each hardware ACC reboot or after a REBOOT or RESET command is sent via TCP/IP to the emergency 6543 acc.solar.ini port
Initialize all front-end module base attenuations with the values read from the ACC initialization file: “c:\ni-rt\startup\acc.ini”.
FEMATTN level [antennalist]
Manually selects the front-end attenuation levels for the antennas indicated in the list to be applied on the next second boundary. The attenuation level selects the corresponding entry in the “c:\parms\FEMATTN.txt” attenuation FEM table located on each the cRIOs.
The attenuation level set by this command is saved in the [FEM AGC] section of the “c:\ni-rt\startup\crio.ini” and it is automatically applied when the module is restarted.
Warning: The attenuation level setting may be overwritten by the AGC loop, if active.
The format of the table is as shown below (column heads are added here for clarity) FEMATTN level First attenuation Second attenuation Total attenuation 0 0 0 0 1 0 3 3 2 0 6 6 3 0 9 9 4 0 12 12 5 0 15 15 6 0 18 18 7 9 12 21 8 9 15 24 9 9 18 27 10 9 21 30 11 9 24 33 12 9 27 36 13 18 21 39 14 18 24 42 15 31 31 62
The actual FEM attenuations applied as the result of a FEMATTN command are given by
Where Attenuation, Base, and FEMATTN.txt(level) are two elements vectors indicating the settings for the First and Second attenuators.
HATTN first second [antennalist]
Sets the FEM HPOL_BASE first and second attenuators for the antennas in the list, and overwrites the corresponding sections in the global “c:\ni-rt\startup\acc.ini” file, as well as in the local “c:\ni-rt\startup\crio.ini” files.
VATTN first second [antennalist]
Sets the FEM VPOL_BASE first and second attenuators for the antennas in the list, and overwrites the corresponding sections in the global “c:\ni-rt\startup\acc.ini” file, as well as in the local “c:\ni-rt\startup\crio.ini” files.
Tells ACC to upload to the Hittite synthesizer the frequency sequence located at “c:\parm\filename”.
Initializes the Hittite synthesizer according to the settings defined in the [LO Configuration] section of the “c:\ni-rt\startup\acc.ini” file.
Starts the tuning sequence
Stops the tuning sequence
Sends, line by line, to the Hittite synthesizer the command sequence listed in the “c:\parm\filename” script file.
Commands the PDU controller to recycle the power on the LO1A Hittite synthesizer
Not implemented yet
Sends the specified command to the LO1A Hittite synthesizer
Sends the specified command to the LO1B Hittite synthesizer
Takes the antennas in the list out of subarray1 or subarray2 and drives them to the service position.
Warning: Once in service position, the serviced antenna should be put in local operation mode in order to avoid it being controlled by a subsequent schedule command.
Puts all antennas in the list into subarray1. All antennas than are not listed, but currently in subarray1, are taken out from subarray1.
NOTE: As of Dec 03 2015, this command no longer switches by default the LO connector to an alternative source. To force the LO connector to switch switches, one must use the new explicit command SUBARRAY1_SWITCH antennalist
Puts all antennas in the list, which are not already in subarray1, into subarray2. In order to move a given antenna from subarray1 to subarray2, one should first redefine subarray1.
NOTE: As of Dec 03 2015, this command no longer switches by default the LO connector to an alternative source. To force the LO connector to switch switches, one must use the new explicit command SUBARRAY2_SWITCH antennalist
Restarts the real-time executable on all cRIOs corresponding to the antenna list.
NOTE: Unlike the general coinvention, not providing a list of antennas commands all cRIOs to restarts their execution. TRACKTABLE filename [antennalist]
Uploads to all antennas in the list the tracking table located at “c:\parm\filename”
TRAJ-FILE filename [antennalist]
Uploads to all cRIOs corresponding to antennas in the list the trajectory file table located at “c:\parm\filename” UNLISTEDCOMMAND [antennalist]
Any command not listed above is sent for local execution to all cRIOs corresponding to antennas in the list.