This page configures the waveguide switches controlled by the IO-FEP. The standard IO-FEP offers I/O circuits for up to 8 waveguide switches, with the IO-FEP-E up to 16 switches may be controlled.
The following properties may be configured for each waveguide switch:
Type --- Defines actuation mode for the switch:
Name --- When you activate switch at the 'Type' setting, the IO-FEP names this switch as 'Sxx'. You may name the switch in a more meaningful way by entering a circuit name at this place.
Pulse Width --- The actuation pulse width (FIXED-PULSE) or the switch actuation timeout (AUTO-PULSE) in milliseconds.
Inhibit --- Set a check mark at a particular column to activate the software controlled HPA muting for this switch and the selected output. Multiple HPA muting outputs may be selected to be activiated from a single switch. An output must be configured to 'SW-INHIBIT' mode before it can be selected at this place.
FIXED vs. AUTO pulse width
You will find the AUTO-PULSE mode very handy in most cases: The actuation pulse width is as short as possible, making 'queued' switching sequences running much faster. The AUTO-PULSE however requires that the switch signals it's target position not before the switch mechanics has reached a stable position where it does not 'snap back' if the actuation is switched off.
You should therefore test each switch in AUTO-PULSE mode carefully if it operates reliably when controlled by the IO-FEP before you apply RF power to it.
READ-ONLY switches
The READ-ONLY mode is meant to be used for switches which have their actuation circuits wired in parallel to another switch, or do not provide any electrical actuation at all. The IO-FEP simply reads and displays the position decoded from the position indication inputs. However, the IO-FEP does no position fault checking with switches marked as READ-ONLY. This is because it neither knows the nominal position of such a switch nor when it gets switched and therefore may cause an 'indifferent position' state for a short moment.
SLAVE switches
SLAVE switches change their position any time the configured master switch is set. This is done by copying the switch position request from the master switch to all its slaves. Internally the slave switches are treated as individual switches, each switch controls its activation pulse timing and checks its position indicating inputs individually. Each slave uses its individual pulse width setting, it however inherits the AUTO/FIXED pulse mode from it's master.
As slave switches are commanded simuntaneously with their master, but processed individually, they are subject to the IO-FEP's switch action queing. For details see the correspondent paragraph below.
Software controlled HPA muting
The IO-FEP provides software controlled HPA muting during switch actuations for situations where the waveguide switches do not provide inhibit circuits or where such circuits are not usable for some reason. To use this feature, you have to configure the IO-FEP as follows:
The IO-FEP mutes the HPA(s) before the switch motor is actuated and unmutes it after the switch has reached it's target position. Multiple waveguide switches may activate the same muting output, the IO-FEP combines such requests with a logical 'or'. Each waveguide switch may activate multiple muting outputs.
When using the software controlled HPA muting, you should consider the following:
Switch actuation queuing
The IO-FEP is capable to queue / delay waveguide switch actuations in order to protect weak power supplies from overload. This in particular is valuable if the IO-FEP is operated by monitoring & control computer, as a M&C is capable to command actuations for all waveguide switches at a time. The IO-FEP takes care that no more switch actuation outputs than configured are active at a time. Commanded switch actuation are delayed for this, switches commanded in parallel are processed in the order of their switch number.
The maximum number of the parallel switch acutation is configured at the General Setup page.