pcdsdevices.valve.VGC

class pcdsdevices.valve.VGC(*args, input_branches=[], output_branches=[], **kwargs)

VGC = Vacuum Gate valve, Controlled

This is the gate valve class with detailed interlocking information available. These valves are typically along the beam path and are prevented from opening when the pressure differential is too great.

These are always normally closed valves, meaning that they are always safe to close (in terms of vacuum) and that turning the PLC off will cause them to close immediately.

This corresponds with ST_VGC in the lcls-twincat-vacuum library.

Ophyd Device Components
Attribute	Class	Suffix	Docs	Kind	Notes
lightpath_summary	`SummarySignal`			omitted	Inherited from `VRC`
valve_position	`EpicsSignalRO`	`:POS_STATE_RBV`	Ex: OPEN, CLOSED, MOVING, INVALID, OPEN_F	hinted	Inherited from `VRC`
open_command	`EpicsSignalWithRBV`	`:OPN_SW`	Epics command to Open valve	normal	Inherited from `VRC`
interlock_ok	`EpicsSignalRO`	`:OPN_OK_RBV`	Valve is OK to Open interlock	normal	Inherited from `VRC`
open_do	`EpicsSignalRO`	`:OPN_DO_RBV`	PLC Output to Open valve, 1 means 24V on command cable	normal	Inherited from `VRC`
error_reset	`EpicsSignalWithRBV`	`:ALM_RST`	Reset Error state to valid by toggling this	normal	Inherited from `VRC`
override_status	`EpicsSignalRO`	`:OVRD_ON_RBV`	Epics Readback on Override mode	omitted	Inherited from `VRC`
override_force_open	`EpicsSignalWithRBV`	`:FORCE_OPN`	Epics Command to force open the valve inoverride mode	omitted	Inherited from `VRC`
state	`EpicsSignalRO`	`:STATE_RBV`	Valve state	normal	Inherited from `VRC`
open_limit	`EpicsSignalRO`	`:OPN_DI_RBV`	Open limit switch digital input	hinted	Inherited from `VRC`
closed_limit	`EpicsSignalRO`	`:CLS_DI_RBV`	Closed limit switch digital input	hinted	Inherited from `VRC`
diff_press_ok	`EpicsSignalRO`	`:DP_OK_RBV`	Differential pressure interlock ok	normal
ext_ilk_ok	`EpicsSignalRO`	`:EXT_ILK_OK_RBV`	External interlock ok	normal
at_vac_setpoint	`EpicsSignalWithRBV`	`:AT_VAC_SP`	AT VAC Set point value	config
setpoint_hysterisis	`EpicsSignalWithRBV`	`:AT_VAC_HYS`	AT VAC Hysteresis	config
at_vac	`EpicsSignalRO`	`:AT_VAC_RBV`	at vacuum setpoint is reached	normal
error	`EpicsSignalRO`	`:ERROR_RBV`	Error Present	normal
mps_state	`EpicsSignalRO`	`:MPS_FAULT_OK_RBV`	individual valve MPS state for debugging	omitted
interlock_device_upstream	`EpicsSignalRO`	`:ILK_DEVICE_US_RBV`	Upstream vacuum device used forinterlocking this valve	config
interlock_device_downstream	`EpicsSignalRO`	`:ILK_DEVICE_DS_RBV`	Downstream vacuum device used forinterlocking this valve	config

Methods

calc_lightpath_state(open_limit: int, closed_limit: int) → LightpathState: Callback for updating inserted/removed for lightpath.

configure(d: Dict[str, Any]) → Tuple[Dict[str, Any], Dict[str, Any]]

Configure the device for something during a run

This default implementation allows the user to change any of the configuration_attrs. Subclasses might override this to perform additional input validation, cleanup, etc.

Parameters:

d (dict) – The configuration dictionary. To specify the order that the changes should be made, use an OrderedDict.

Returns:

(old, new) tuple of dictionaries
Where old and new are pre- and post-configure configuration states.

describe() → OrderedDictType[str, Dict[str, Any]]

Provide schema and meta-data for read().

This keys in the OrderedDict this method returns must match the keys in the OrderedDict return by read().

This provides schema related information, (ex shape, dtype), the source (ex PV name), and if available, units, limits, precision etc.

Returns:: data_keys (OrderedDict) – The keys must be strings and the values must be dict-like with the event_model.event_descriptor.data_key schema.

get(**kwargs)

Get the value of all components in the device

Keyword arguments are passed onto each signal.get(). Components beginning with an underscore will not be included.

get_lightpath_state(use_cache: bool = True) → LightpathState

Return the current LightpathState

Returns:: LightpathState – a dataclass containing the Lightpath state

read() → OrderedDictType[str, Dict[str, Any]]

Read data from the device.

This method is expected to be as instantaneous as possible, with any substantial acquisition time taken care of in trigger().

The OrderedDict returned by this method must have identical keys (in the same order) as the OrderedDict returned by describe().

By convention, the first key in the return is the ‘primary’ key and maybe used by heuristics in bluesky.

The values in the ordered dictionary must be dict (-likes) with the keys {'value', 'timestamp'}. The 'value' may have any type, the timestamp must be a float UNIX epoch timestamp in UTC.

Returns:: data (OrderedDict) – The keys must be strings and the values must be dict-like with the keys {'value', 'timestamp'}

read_configuration() → OrderedDictType[str, Dict[str, Any]]

Dictionary mapping names to value dicts with keys: value, timestamp

To control which fields are included, change the Component kinds on the device, or modify the configuration_attrs list.

stop(*, success=False): Stop the Device and all (instantiated) subdevices

summary()

trigger() → StatusBase

Trigger the device and return status object.

This method is responsible for implementing ‘trigger’ or ‘acquire’ functionality of this device.

If there is an appreciable time between triggering the device and it being able to be read (via the read() method) then this method is also responsible for arranging that the StatusBase object returned by this method is notified when the device is ready to be read.

If there is no delay between triggering and being readable, then this method must return a StatusBase object which is already completed.

Returns:: status (StatusBase) – StatusBase object which will be marked as complete when the device is ready to be read.

Attributes

configuration_attrs

connected

hints

kind

lightpath_cpts = ['open_limit', 'closed_limit']

md

subscriptions: ClassVar[FrozenSet[str]] = frozenset({'acq_done'})