Object[Instrument, HPLC]
A high performance liquid chromatography (HPLC) instrument that separates mixtures of compounds.
Organizational Information
Name
Name of this Object.
Format: Single
Class: String
Programmatic Pattern: _String
Pattern Description: A string.
ID
ID of this Object.
Format: Single
Class: String
Programmatic Pattern: _String
Pattern Description: The ID of this object.
Object
Object of this Object.
Format: Single
Class: Expression
Programmatic Pattern: Object[Instrument, HPLC, _String]
Pattern Description: The object reference of this object.
Type
Type of this Object.
Format: Single
Class: Expression
Programmatic Pattern: Object[Instrument, HPLC]
Pattern Description: Object[Instrument, HPLC]
Notebook
Notebook this object belongs to.
Format: Single
Class: Link
Programmatic Pattern: _Link
Pattern Description: An object of that matches ObjectP[Object[LaboratoryNotebook]].
Relation: Object[LaboratoryNotebook][Objects]
Model
Theoretical model that this object is an instance of.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Model[Instrument, HPLC][Objects]
ModelName
The name of the model of instrument that defines this instrument.
Format: Computable
Programmatic Pattern: _String
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Name]]
CurrentProtocol
The experiment, maintenance, or Qualification that is currently using this instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Status
The current status of the instrument.
Format: Single
Class: Expression
Programmatic Pattern: InstrumentStatusP
StatusLog
A log of changes made to the instrument's status.
Format: Multiple
[[1]] Date
Header: Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[2]] Status
Header: Status
Class: Expression
Programmatic Pattern: InstrumentStatusP
[[3]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
ImageFile
A photo of this instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
UserManualFiles
PDFs for the manuals or instruction guides for this model of instrument.
Format: Computable
Programmatic Pattern: PDFFileP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], UserManualFiles]]
DateInstalled
Date the instrument was installed on site in the ECL.
Format: Single
Class: Date
Programmatic Pattern: _?DateObjectQ
DateRetired
Date the instrument was shut down and removed from use on site.
Format: Single
Class: Date
Programmatic Pattern: _?DateObjectQ
Site
The ECL site at which this instrument currently resides.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Site]
Instrument Specifications
PowerType
The type(s) of the power source(s) used by the instrument.
Format: Computable
Programmatic Pattern: {PowerTypeP...}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], PowerType]]
PowerConsumption
Estimated power consumption rate of the instrument.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Watt]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], PowerConsumption]]
HeliumValve
The gas valve that regulates the flow of argon gas to this instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Computer
Links to the computer object that drives this instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, Computer][Instruments]
ComputerName
The name of the computer that currently communicates with the instrument.
Format: Single
Class: String
Programmatic Pattern: _String
OperatingSystem
Operating system that the instrument's acquisition software runs on.
Format: Computable
Programmatic Pattern: OperatingSystemP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], OperatingSystem]]
Software
The acquisition software and version currently in use on the instrument.
Format: Single
Class: String
Programmatic Pattern: _String
InstrumentSoftware
The instrument-specific software that this computer has installed.
Format: Multiple
[[1]] Software Name
Header: Software Name
Class: Expression
Programmatic Pattern: InstrumentSoftwareP
[[2]] Version Number
Header: Version Number
Class: String
Programmatic Pattern: _String
ComputerIP
IP of the computer that currently communicates with the instrument.
Format: Single
Class: String
Programmatic Pattern: IpP
IP
The IP of the instrument itself on the network.
Format: Single
Class: String
Programmatic Pattern: IpP
PDU
The PDU that this instrument is connected to.
Format: Single
Class: Link
Programmatic Pattern: _Link
PDUIP
The IP address of the PDU this instrument is connected to.
Format: Computable
Programmatic Pattern: IpP
Expression: SafeEvaluate[{Field[PDU]}, Download[Field[PDU], IP]]
PDUPort
The specific PDU port this instrument is connected to.
Format: Computable
Programmatic Pattern: PDUPortP
Expression: SafeEvaluate[{Field[PDU], Field[Object]}, Computables`Private`getPDUPort[Field[Object], Field[PDU], PDUInstrument]]
WasteContainer
The container connected to the instrument used to collect any liquid waste produced by the instrument during operation.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Vessel]
Dongle
Indicates if the instrument requires a security dongle in the computer to run.
Format: Computable
Programmatic Pattern: BooleanP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Dongle]]
Balances
The balances that are contained within this instrument for weighing purposes.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Instrument, Balance]
FailsafeImageLog
A record of the hard drive clones made for this instrument and its associated computers.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] HardDrive Object
Header: HardDrive Object
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, InformationTechnology]
[[3]] Cloned By
Header: Cloned By
Class: Link
Programmatic Pattern: _Link
Relation: Object[User]
SeparationMode
The chromatographic method the instrument is currently configured to perform.
Format: Single
Class: Expression
Programmatic Pattern: SeparationModeP
NumberOfBuffers
The number of different buffers that can be connected to the pump system. Refer to PumpType for the number of solvents that can actually be mixed simultaneously.
Format: Computable
Programmatic Pattern: GreaterEqualP[1, 1]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], NumberOfBuffers]]
PumpType
The number of solvents that can be blended with each other at a ratio during the gradient (e.g. quaternary can mix up to 4 solvents, while ternary can mix 3 and binary can mix 2 solvents). Binary pumps perform high-pressure mixing which is accomplished by two independent pumps and a mixing chamber located after the pumps, leading to increased gradient accuracy. Quaternary and ternary pumps provide low-pressure mixing environments where the mixing happens before the pumps.
Format: Computable
Programmatic Pattern: HPLCPumpTypeP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], PumpType]]
InjectorType
The technique by which the sample is injected. The FlowThroughNeedle injector is typically less prone to carryover and only the sample drawn is injected. The inside of the needle is washed with the gradient. In contrast, FixedLoop injectors transport the sample into a sample loop from which it gets sandwiched by air gaps and wash solution and then injected. The interior and the exterior of the needle needs to be washed with solvent to avoid contamination.
Format: Computable
Programmatic Pattern: InjectorTypeP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], InjectorType]]
Scale
Sample scale for which the instrument is currently configured.
Format: Single
Class: Expression
Programmatic Pattern: PurificationScaleP
Detectors
A list of the available detectors on the instrument.
Format: Computable
Programmatic Pattern: {ChromatographyDetectorTypeP..}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Detectors]]
FractionCollectionDetectors
The detectors of the instrument for which the detector hardware can communicate with the fraction collection.
Format: Computable
Programmatic Pattern: {ChromatographyDetectorTypeP..}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], FractionCollectionDetectors]]
DetectorLampType
A list of sources of illumination available for use in detection.
Format: Computable
Programmatic Pattern: {LampTypeP..}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], DetectorLampType]]
AbsorbanceDetector
The type of detector available to measure the absorbance.
Format: Computable
Programmatic Pattern: OpticalDetectorP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], AbsorbanceDetector]]
AbsorbanceFilterType
The type of wavelength selection available for absorbance measurement.
Format: Computable
Programmatic Pattern: WavelengthSelectionTypeP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], AbsorbanceFilterType]]
ExcitationSource
The light source available to excite and probe the sample in the fluorescence detector.
Format: Computable
Programmatic Pattern: ExcitationSourceP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], ExcitationSource]]
ExcitationFilterType
The type of wavelength selection available for the excitation in the fluorescence detector.
Format: Computable
Programmatic Pattern: PlateReaderWavelengthSelectionTypeP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], ExcitationFilterType]]
EmissionFilterType
The type of wavelength selection available for the emission paths in the fluorescence detector.
Format: Computable
Programmatic Pattern: PlateReaderWavelengthSelectionTypeP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], EmissionFilterType]]
EmissionCutOffFilters
The cut-off filter(s) available in the fluorescence detector to pre-select the emitted light and allow the light with wavelength above the specified value to pass before the light emission monochromator for final wavelength selection.
Format: Computable
Programmatic Pattern: GreaterP[0 Nanometer]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], EmissionCutOffFilters]]
EmissionDetector
The type of detector available to measure the emissions from the sample in the fluorescence detector.
Format: Computable
Programmatic Pattern: OpticalDetectorP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], EmissionDetector]]
LightScatteringSource
The light source available to illuminate the sample in the Multi-Angle static Light Scattering (MALS) and Dynamic Light Scattering (DLS) detector.
Format: Computable
Programmatic Pattern: ExcitationSourceP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], LightScatteringSource]]
LightScatteringWavelength
The laser wavelength of the LightScatteringSource in the Multi-Angle static Light Scattering (MALS) and Dynamic Light Scattering (DLS) detector.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], LightScatteringWavelength]]
MALSDetector
The type of Multi-Angle static Light Scattering light detector available to measure the scattered light intensity in the Multi-Angle static Light Scattering (MALS) detector.
Format: Computable
Programmatic Pattern: OpticalDetectorP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MALSDetector]]
MALSDetectorAngles
The angles with regards to the incident light beam at which the MALS detection photodiodes are mounted around the flow cell inside the Multi-Angle static Light Scattering (MALS) detector.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Degree]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MALSDetectorAngles]]
DLSDetector
The type of Dynamic Light Scattering (DLS) light detector available to measure the scattered light fluctuation in the Multi-Angle static Light Scattering (MALS) detector.
Format: Computable
Programmatic Pattern: OpticalDetectorP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], DLSDetector]]
DLSDetectorAngle
The angle with regards to the incident light beam at which the DLS detection photodiode is located inside the Multi-Angle static Light Scattering (MALS) detector.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Degree]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], DLSDetectorAngle]]
RefractiveIndexSource
The light source used to traverse the sample and measure its refractive index in the differential refractive index (dRI) detector.
Format: Computable
Programmatic Pattern: ExcitationSourceP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], RefractiveIndexSource]]
RefractiveIndexWavelength
The wavelength of the light used to traverse the sample and measure its refractive index in the differential refractive index (dRI) detector.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], RefractiveIndexWavelength]]
RefractiveIndexDetector
The type of detector available used to detect the refracted light in the differential refractive index (dRI) detector for the determination of the differential refractive index of the sample.
Format: Computable
Programmatic Pattern: OpticalDetectorP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], RefractiveIndexDetector]]
CircularDichroismSource
The light source used for the circular dichroism (CD) measurement in the CD detector of the instrument.
Format: Computable
Programmatic Pattern: ExcitationSourceP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], CircularDichroismSource]]
CircularDichroismWavelength
The wavelength of the light source of the circular dichroism (CD) detector.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], CircularDichroismWavelength]]
Mixer
The type of mixer the pump uses to generate the gradient.
Format: Computable
Programmatic Pattern: ChromatographyMixerTypeP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Mixer]]
SampleLoop
The maximum volume of sample that can fit in the injection loop, before it is transferred into the flow path.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], SampleLoop]]
BufferLoop
The maximum volume the buffer loop currently installed can hold.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], BufferLoop]]
DelayVolume
The tubing volume between the detector and the fraction collector head.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], DelayVolume]]
DelayLength
The length of tubing between the detector and the fraction collector.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Centi Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], DelayLength]]
FlowCellVolume
The volume of the instrument's detector's flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], FlowCellVolume]]
FluorescenceFlowCellVolume
The volume of the instrument's fluorescence detector's flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], FluorescenceFlowCellVolume]]
LightScatteringFlowCellVolume
The volume of the instrument's Multi-Angle static Light Scattering (MALS) and Dynamic Light Scattering (DLS) detector's flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], LightScatteringFlowCellVolume]]
RefractiveIndexFlowCellVolume
The volume of the instrument's differential refractive index (dRI) detector's flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], RefractiveIndexFlowCellVolume]]
CircularDichroismFlowCell Volume
The volume of the instrument's circular dichroism detector's flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], CircularDichroismFlowCellVolume]]
pHFlowCellVolume
The volume of the instrument's pH detector's flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], pHFlowCellVolume]]
ConductivityFlowCellVolume
The volume of the instrument's conductivity detector's flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], ConductivityFlowCellVolume]]
FlowCellPathLength
The pathlength of the instrument's detector flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Milli Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], FlowCellPathLength]]
FluorescenceFlowCellPath Length
The pathlength of the instrument's fluorescence detector flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Milli Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], FluorescenceFlowCellPathLength]]
CircularDichroismFlowCellPath Length
The pathlength of the instrument's circular dichroism detector flow cell.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Milli Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], CircularDichroismFlowCellPathLength]]
MaxAcceleration
The maximum flow rate acceleration at which the pumping speed can safely be increased for the instrument.
Format: Computable
Programmatic Pattern: Milliliter
Hold[GreaterP[0 ----------]]
2
Minute
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxAcceleration]]
ColumnConnector
The connector on the instrument to which a column will be attached to, in the form: {connector type, thread type, material of connector, connector gender, inner diameter, outer diameter}.
Format: Computable
Programmatic Pattern: {{ConnectorP, ThreadP | NullP, MaterialP, ConnectorGenderP, GreaterEqualP[0 Milli Meter] | NullP, GreaterEqualP[0 Milli Meter] | NullP}..}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], ColumnConnector]]
TubingInnerDiameter
The diameter of the tubing in the flow path.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Milli Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], TubingInnerDiameter]]
WastePump
Vacuum pump that drains waste liquid into the carboy.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Instrument, VacuumPump][HPLC]
ColumnJoins
Column joins or joining columns that stay installed on the instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
BufferAInlet
The buffer A inlet tubing used to uptake buffer A from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferBInlet
The buffer B inlet tubing used to uptake buffer B from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferCInlet
The buffer C inlet tubing used to uptake buffer C from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferDInlet
The buffer D inlet tubing used to uptake buffer C from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferACap
The aspiration cap used to uptake buffer A from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferBCap
The aspiration cap used to uptake buffer B from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferCCap
The aspiration cap used to uptake buffer C from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferDCap
The aspiration cap used to uptake buffer D from buffer container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
NeedleWashCap
The aspiration cap used to take up NeedleWash solution from the container to the instrument pump.
Format: Single
Class: Link
Programmatic Pattern: _Link
Storage Information
ProvidedStorageCondition
The physical conditions such as temperature and humidity this instrument provides for samples stored long term within it.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Model[StorageCondition]
LocalCache
Containers located near this instrument that hold items required for standard operation.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container]
Container Specifications
Container
The container which houses this instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Position
The name of the position this instrument occupies in or on its container.
Format: Single
Class: String
Programmatic Pattern: LocationPositionP
Decks
Decks of this instrument used to contain or manipulate samples.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Deck][Instruments]
LocationLog
The locations previously occupied by this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Change Type
Header: Change Type
Class: Expression
Programmatic Pattern: In|Out
[[3]] Container
Header: Container
Class: Link
Programmatic Pattern: _Link
[[4]] Position
Header: Position
Class: String
Programmatic Pattern: _String
[[5]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
ResourcePickingGrouping
The parent container of this object which can be used to give the object's approximate location and to see show its proximity to other objects which may be resource picked at the same time or in use by the same protocol.
Format: Single
Class: Link
Programmatic Pattern: _Link
Contents
A list of everything stored in this instrument.
Format: Multiple
[[1]] Position
Header: Position
Class: Expression
Programmatic Pattern: LocationPositionP
[[2]] Object in Position
Header: Object in Position
Class: Link
Programmatic Pattern: _Link
ContentsLog
The record of items moved into and out of this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Change Type
Header: Change Type
Class: Expression
Programmatic Pattern: In|Out
[[3]] Content
Header: Content
Class: Link
Programmatic Pattern: _Link
[[4]] Position
Header: Position
Class: String
Programmatic Pattern: _String
[[5]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
Dimensions & Positions
DeckLayout
The current configuration of container models in specified positions on this instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Model[DeckLayout][ConfiguredInstruments]
Dimensions
The external dimensions of this instrument.
Format: Computable
Programmatic Pattern: {GreaterP[0 Meter], GreaterP[0 Meter], GreaterP[0 Meter]}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Dimensions]]
CrossSectionalShape
The shape of this instrument in the X-Y plane.
Format: Computable
Programmatic Pattern: CrossSectionalShapeP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], CrossSectionalShape]]
Cameras
Cameras monitoring the positions on this instrument.
Format: Multiple
[[1]] Position
Header: Position
Class: String
Programmatic Pattern: _String
[[2]] Cameras monitoring each positions
Header: Cameras monitoring each positions
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, Camera][MonitoredLocation]
ContainerImage2DFile
A top-down (X-Y plane) image of this model of instrument which can be overlaid on a 2D container plot.
Format: Computable
Programmatic Pattern: ImageFileP
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], ContainerImage2DFile]]
Shape2D
A Graphics primitive corresponding to the 2D shape of this instrument.
Format: Computable
Programmatic Pattern: _Polygon | _Circle
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Shape2D]]
Shape3D
A Graphics primitive corresponding to the 3D shape of this instrument.
Format: Computable
Programmatic Pattern: _Polygon
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Shape3D]]
AutosamplerDeck
The platform from which samples are robotically aspirated and injected onto the column.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Deck][Instruments]
FractionCollectorDeck
The platform that houses containers into which the instrument will direct the fractions into individual wells robotically.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Deck][Instruments]
BufferDeck
The platform which contains the liquids that are used as buffers/solvents for elution by the instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Deck][Instruments]
WashBufferDeck
The platform which contains solvents used to flush and clean the fluid lines of the instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Deck][Instruments]
ColumnCapRack
The rack which contains the column caps and joins while the columns themselves are being used by the instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container, Rack]
Plumbing Information
Connectors
Specifications for the interfaces on this instrument that may connect to other plumbing components or instrument ports.
Format: Multiple
[[1]] Connector Name
Header: Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
[[2]] Connector Type
Header: Connector Type
Class: Expression
Programmatic Pattern: ConnectorP
[[3]] Thread Type
Header: Thread Type
Class: Expression
Programmatic Pattern: ThreadP|GroundGlassJointSizeP|None
[[4]] Inner Diameter
Header: Inner Diameter
Class: Real
Unit: 1 inch
Programmatic Pattern: GreaterP[0 Inch]
[[5]] Outer Diameter
Header: Outer Diameter
Class: Real
Unit: 1 inch
Programmatic Pattern: GreaterP[0 Inch]
[[6]] Gender
Header: Gender
Class: Expression
Programmatic Pattern: ConnectorGenderP|None
Nuts
A list of the ferrule-compressing connector components that have been attached to the connecting ports on this instrument.
Format: Multiple
[[1]] Connector Name
Header: Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
[[2]] Installed Nut
Header: Installed Nut
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, Nut][InstalledLocation]
[[3]] Connector Gender
Header: Connector Gender
Class: Expression
Programmatic Pattern: ConnectorGenderP|None
Ferrules
A list of the compressible sealing rings that have been attached to the connecting ports on this instrument.
Format: Multiple
[[1]] Connector Name
Header: Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
[[2]] Installed Ferrule
Header: Installed Ferrule
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, Ferrule][InstalledLocation]
[[3]] Ferrule Offset
Header: Ferrule Offset
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
Connections
A list of the plumbing components to which this instrument is directly connected to allow flow of liquids/gases.
Format: Multiple
[[1]] Connector Name
Header: Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
[[2]] Connected Object
Header: Connected Object
Class: Link
Programmatic Pattern: _Link
[[3]] Object Connector Name
Header: Object Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
ConnectionLog
The plumbing connection history of this instrument's ports.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Change Type
Header: Change Type
Class: Expression
Programmatic Pattern: Connect|Disconnect
[[3]] Connector Name
Header: Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
[[4]] Connected Object
Header: Connected Object
Class: Link
Programmatic Pattern: _Link
[[5]] Object Connector Name
Header: Object Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
[[6]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
ConnectedPlumbing
All plumbing components that are most closely associated with this instrument's plumbing system.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
PlumbingFittingsLog
The history of the connection type present at each connector on this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Connector Name
Header: Connector Name
Class: String
Programmatic Pattern: ConnectorNameP
[[3]] Connector Gender
Header: Connector Gender
Class: Expression
Programmatic Pattern: ConnectorGenderP|None
[[4]] Installed Nut
Header: Installed Nut
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, Nut]
[[5]] Installed Ferrule
Header: Installed Ferrule
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, Ferrule]
[[6]] Ferrule Offset
Header: Ferrule Offset
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
[[7]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
GasSources
A list of containers that supply this instrument with gas through plumbing connections.
Format: Multiple
[[1]] Gas Type
Header: Gas Type
Class: Expression
Programmatic Pattern: GasP
[[2]] Source Container
Header: Source Container
Class: Link
Programmatic Pattern: _Link
Relation: Object[Container][ConnectedInstruments]
GasSourceLog
The record of containers that supply this instrument with gas through plumbing connections.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Change Type
Header: Change Type
Class: Expression
Programmatic Pattern: Connect|Disconnect
[[3]] Gas Type
Header: Gas Type
Class: Expression
Programmatic Pattern: GasP
[[4]] Source Container
Header: Source Container
Class: Link
Programmatic Pattern: _Link
[[5]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
Wiring Information
WiringConnectors
Specifications for the wiring interfaces of this instrument that may plug into and conductively connect to other items, parts or instruments.
Format: Multiple
[[1]] Wiring Connector Name
Header: Wiring Connector Name
Class: String
Programmatic Pattern: WiringConnectorNameP
[[2]] Wiring Connector Type
Header: Wiring Connector Type
Class: Expression
Programmatic Pattern: WiringConnectorP
[[3]] Gender
Header: Gender
Class: Expression
Programmatic Pattern: ConnectorGenderP|None
WiringConnections
A list of the wiring components to which this instrument is directly connected to allow the flow of electricity.
Format: Multiple
[[1]] Wiring Connector Name
Header: Wiring Connector Name
Class: String
Programmatic Pattern: WiringConnectorNameP
[[2]] Connected Object
Header: Connected Object
Class: Link
Programmatic Pattern: _Link
[[3]] Object Wiring Connector Name
Header: Object Wiring Connector Name
Class: String
Programmatic Pattern: WiringConnectorNameP
WiringConnectionLog
The wiring connection history of this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Change Type
Header: Change Type
Class: Expression
Programmatic Pattern: Connect|Disconnect
[[3]] Wiring Connector Name
Header: Wiring Connector Name
Class: String
Programmatic Pattern: WiringConnectorNameP
[[4]] Connected Object
Header: Connected Object
Class: Link
Programmatic Pattern: _Link
[[5]] Object Wiring Connector Name
Header: Object Wiring Connector Name
Class: String
Programmatic Pattern: WiringConnectorNameP
[[6]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
ConnectedWiring
All wiring components that are most closely associated with this instrument's wiring system.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Wiring][ConnectedLocation]
Compatibility
AllowedPositions
A pattern representing all the valid position names for this instrument.
Format: Computable
Programmatic Pattern: _Alternatives
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], AllowedPositions]]
Sensor Information
ArgonPressureSensor
Sensor used to monitor the pressure of the argon gas source (before any pressure reduction stage).
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor][DevicesMonitored]
ArgonPressureRegulators
The pressure regaultor used to control argon gas flow into this instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
CO2PressureSensor
Sensor used to monitor the pressure of the carbon dioxide gas source (before any pressure reduction stage).
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor][DevicesMonitored]
CO2PressureRegulators
The pressure regaultor used to control CO2 gas flow into this instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
HeliumPressureSensor
Sensor used to monitor the pressure of the helium gas source (before any pressure reduction stage).
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor][DevicesMonitored]
HeliumPressureRegulators
The pressure regaultor used to control helium gas flow into this instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
NitrogenPressureSensor
Sensor used to monitor the pressure of the nitrogen gas source (before any pressure reduction stage).
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor][DevicesMonitored]
NitrogenPressureRegulators
The pressure regaultor used to control nitrogen gas flow into this instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
EnvironmentalSensors
Any additional external sensors that are monitoring this particular instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor][DevicesMonitored]
Enclosures
The types of physical enclosures that surround this instrument.
Format: Multiple
Class: Expression
Programmatic Pattern: EnclosureTypeP
BufferACarboySensor
The ultrasonic liquid level sensor used to assess Buffer A volumes in carboys.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
BufferBCarboySensor
The ultrasonic liquid level sensor used to assess Buffer B volumes in carboys.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
BufferCCarboySensor
The ultrasonic liquid level sensor used to assess Buffer C volumes in carboys.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
BufferDCarboySensor
The ultrasonic liquid level sensor used to assess Buffer D volumes in carboys.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
BufferABottleSensor
The ultrasonic liquid level sensor used to assess Buffer A volumes in bottles.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
BufferBBottleSensor
The ultrasonic liquid level sensor used to assess Buffer B volumes in bottles.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
BufferCBottleSensor
The ultrasonic liquid level sensor used to assess Buffer C volumes in bottles.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
BufferDBottleSensor
The ultrasonic liquid level sensor used to assess Buffer D volumes in bottles.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor, Volume]
Qualifications & Maintenance
QualificationResultsLog
A record of the qualifications run on this instrument and their results.
Format: Multiple
[Date]
Header: Date
Class: Date
[Qualification]
Header: Qualification
Class: Link
Relation: Object[Qualification]
[Result]
Header: Result
Class: Expression
QualificationFrequency
The frequencies of the Qualifications targeting this instrument.
Format: Computable
Header: ['Qualification Model', 'Time Interval']
Programmatic Pattern: {{ObjectReferenceP[Model[Qualification]], GreaterP[0 Day] | Null}...}
Expression: SafeEvaluate[{Field[Model]}, Computables`Private`qualificationFrequency[Field[Model]]]
RecentQualifications
List of the most recent Qualifications run on this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[2]] Qualification
Header: Qualification
Class: Link
Programmatic Pattern: _Link
Relation: Object[Qualification]
[[3]] Qualification Model
Header: Qualification Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Qualification]
QualificationExtensionLog
A list of amendments made to the regular qualification schedule of this instrument, and the reason for the deviation.
Format: Multiple
[[1]] Qualification Model
Header: Qualification Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Qualification]
[[2]] Original Due Date
Header: Original Due Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[3]] Revised Due Date
Header: Revised Due Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[4]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
Relation: Object[User]
[[5]] Extension Category
Header: Extension Category
Class: Expression
Programmatic Pattern: QualificationExtensionCategoryP
[[6]] Extension Reason
Header: Extension Reason
Class: String
Programmatic Pattern: _String
MaintenanceFrequency
A list of the maintenances which are run on this instrument.
Format: Computable
Header: ['Maintenance Model', 'Time Interval']
Programmatic Pattern: {{ObjectReferenceP[Model[Maintenance]], GreaterP[0 Day] | Null}...}
Expression: SafeEvaluate[{Field[Model]}, Computables`Private`maintenanceFrequency[Field[Model]]]
RecentMaintenance
List of the most recent maintenance runs on this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[2]] Maintenance
Header: Maintenance
Class: Link
Programmatic Pattern: _Link
Relation: Object[Maintenance]
[[3]] Maintenance Model
Header: Maintenance Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Maintenance]
MaintenanceLog
All maintenance runs on this instrument over time.
Format: Multiple
[[1]] Date
Header: Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[2]] Maintenance
Header: Maintenance
Class: Link
Programmatic Pattern: _Link
Relation: Object[Maintenance]
[[3]] Maintenance Model
Header: Maintenance Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Maintenance]
MaintenanceExtensionLog
A list of amendments made to the regular maintenance schedule of this instrument, and the reason for the deviation.
Format: Multiple
[[1]] Maintenance Model
Header: Maintenance Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Maintenance]
[[2]] Original Due Date
Header: Original Due Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[3]] Revised Due Date
Header: Revised Due Date
Class: Expression
Programmatic Pattern: _?DateObjectQ
[[4]] Responsible Party
Header: Responsible Party
Class: Link
Programmatic Pattern: _Link
Relation: Object[User]
[[5]] Extension Category
Header: Extension Category
Class: Expression
Programmatic Pattern: MaintenanceExtensionCategoryP
[[6]] Extension Reason
Header: Extension Reason
Class: String
Programmatic Pattern: _String
Parts
Parts currently installed on this instrument. For parts that have NumberOfHours tracked (e.g. lamps), this is displayed in the Time on Instrument key.
Format: Computable
Header: ['Part', 'Date Installed', 'Time on Instrument']
Programmatic Pattern: {{ObjectReferenceP[Object[Part]], _?DateObjectQ | Null, Null | GreaterEqualP[0 Day]}...}
Expression: SafeEvaluate[{Field[ContentsLog], Field[Contents]}, Computables`Private`partsCurrentComputable[Field[ContentsLog], Field[Contents]]]
SharedParts
Parts currently shared among multiple instruments.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
PartsLog
A log of the parts that were previously installed on this instrument.
Format: Computable
Header: ['Part', 'Date Installed', 'Date Removed']
Programmatic Pattern: {{ObjectReferenceP[Object[Part]], _?DateObjectQ | Null, _?DateObjectQ | Null}...}
Expression: SafeEvaluate[{{Field[ContentsLog], Field[Parts]}}, Computables`Private`partsHistoryComputable[Field[ContentsLog], Field[Parts]]]
PreventativeMaintenanceLog
A record of the preventative maintenance that has been performed on this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Vendor
Header: Vendor
Class: Link
Programmatic Pattern: _Link
Relation: Object[Company, Supplier]
[[3]] Documentation
Header: Documentation
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
TroubleshootingTickets
Troubleshooting tickets that triggered maintenance on this instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
VentilationVerificationLog
A record of ventilation tests performed for this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Qualification
Header: Qualification
Class: Link
Programmatic Pattern: _Link
Relation: Object[Qualification]
[[3]] Qualification Model
Header: Qualification Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Qualification]
Certificates
All instrument-related certificates received from vendors.
Format: Multiple
[[1]] Name
Header: Name
Class: String
Programmatic Pattern: _String
[[2]] Certificate
Header: Certificate
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
SystemPrimeLog
A historical record of chromatography data generated for the system prime runs on this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Chromatogram
Header: Chromatogram
Class: Link
Programmatic Pattern: _Link
Relation: Object[Data]
[[3]] Protocol
Header: Protocol
Class: Link
Programmatic Pattern: _Link
Relation: Object[Protocol]
SystemFlushLog
A historical record of chromatography data generated for the system flush runs on this instrument.
Format: Multiple
[[1]] Date
Header: Date
Class: Date
Programmatic Pattern: _?DateObjectQ
[[2]] Chromatogram
Header: Chromatogram
Class: Link
Programmatic Pattern: _Link
Relation: Object[Data]
[[3]] Protocol
Header: Protocol
Class: Link
Programmatic Pattern: _Link
Health & Safety
HazardCategories
Hazards to be aware of during operation of this instrument.
Format: Computable
Programmatic Pattern: {HazardCategoryP...}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], HazardCategories]]
SampleHandlingCategories
Specifies the types of handling classifications that need to be undertaken for this instrument and items on this instrument.
Format: Computable
Programmatic Pattern: {HandlingCategoryP...}
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], SampleHandlingCategories]]
Inventory
Receiving
The MaintenanceReceiveInventory in which this instrument was received.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Manufacturer
The company that manufactured the instrument.
Format: Computable
Programmatic Pattern: ObjectReferenceP[Object[Company, Supplier]]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], Manufacturer]]
SerialNumbers
A list of serial numbers of the instrument and/or its modules.
Format: Multiple
[[1]] Component Name
Header: Component Name
Class: String
Programmatic Pattern: _String
[[2]] Serial Number
Header: Serial Number
Class: String
Programmatic Pattern: _String
Integrations
IntegratedVacuumPumps
The vacuum pumps that are connected to this instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
IntegratedMassSpectrometer
The mass spectrometer that is connected to this HPLC such that the analytes in the samples may be ionized and measured by mass spectrometry.
Format: Single
Class: Link
Programmatic Pattern: _Link
Operating Limits
MinSampleVolume
The minimum sample volume required for a single run.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinSampleVolume]]
RecommendedSampleVolume
The smallest recommended sample volume required for a single run.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], RecommendedSampleVolume]]
MaxSampleVolume
The maximum sample volume that that can be injected in a single run.
Format: Computable
Programmatic Pattern: GreaterP[0 Micro Liter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxSampleVolume]]
MinFlowRate
The minimum flow rate at whch the instrument can pump buffer through the system.
Format: Computable
Programmatic Pattern: 0 Milli Liter
Hold[GreaterEqualP[-------------]]
Minute
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinFlowRate]]
MaxFlowRate
The maximum flow rate at whch the instrument can pump buffer through the system.
Format: Computable
Programmatic Pattern: 0 Milli Liter
Hold[GreaterP[-------------]]
Minute
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxFlowRate]]
MinAbsorbanceWavelength
The minimum wavelength that the absorbance detector can monitor.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinAbsorbanceWavelength]]
MaxAbsorbanceWavelength
The Maximum wavelength that the absorbance detector can monitor.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxAbsorbanceWavelength]]
AbsorbanceWavelengthBandpass
The range of wavelengths centered around the desired wavelength that the absorbance detector will measure. For e.g. if the bandpass is 10nm and the desired measurement wavelength is 260nm, the detector will measure wavelengths from 255nm - 265nm.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], AbsorbanceWavelengthBandpass]]
MinExcitationWavelength
The minimum wavelength at which the fluorescence detector can excite the sample.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinExcitationWavelength]]
MaxExcitationWavelength
The maximum wavelength at which the fluorescence detector can excite the sample.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxExcitationWavelength]]
MinEmissionWavelength
The minimum wavelength at which the fluorescence detector can take emission readings.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinEmissionWavelength]]
MaxEmissionWavelength
The maximum wavelength at which the fluorescence detector can take emission readings.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxEmissionWavelength]]
MinColumnTemperature
The minimum temperature at which the column oven can incubate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinColumnTemperature]]
MaxColumnTemperature
The maximum temperature at which the column oven can incubate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxColumnTemperature]]
MaxColumnLength
The maximum column length that can be accommodated inside of the column oven.
Format: Computable
Programmatic Pattern: GreaterP[0 Milli Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxColumnLength]]
MaxColumnOutsideDiameter
The maximum column outside diameter that can be accommodated inside of the column oven.
Format: Computable
Programmatic Pattern: GreaterP[0 Milli Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxColumnOutsideDiameter]]
MinPressure
The minimum pressure at which the instrument can operate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 PSI]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinPressure]]
PumpMaxPressure
The maximum pressure at which the pump can still operate.
Format: Computable
Programmatic Pattern: GreaterP[0 PSI]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], PumpMaxPressure]]
TubingMaxPressure
The maximum pressure the tubing in the sample flow path can tolerate.
Format: Computable
Programmatic Pattern: GreaterP[0 PSI]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], TubingMaxPressure]]
FlowCellMaxPressure
The maximum pressure the detector's flow cell can tolerate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 PSI]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], FlowCellMaxPressure]]
MinFluorescenceFlowCell Temperature
The minimum temperature that the temperature of the fluorescence flow cell of the instrument's fluorescence detector can be set to.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinFluorescenceFlowCellTemperature]]
MaxFluorescenceFlowCell Temperature
The maximum temperature that the temperature of the fluorescence flow cell of the instrument's fluorescence detector can be set to.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxFluorescenceFlowCellTemperature]]
MinLightScatteringFlowCell Temperature
The minimum temperature that the temperature of the flow cell of the instrument's Multi-Angle static Light Scattering (MALS) and Dynamic Light Scattering (DLS) detector can be set to.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinLightScatteringFlowCellTemperature]]
MaxLightScatteringFlowCell Temperature
The maximum temperature that the temperature of the flow cell of the instrument's Multi-Angle static Light Scattering (MALS) and Dynamic Light Scattering (DLS) detector can be set to.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxLightScatteringFlowCellTemperature]]
MinMALSMolecularWeight
The minimum molecular weight analyte the Multi-Angle static Light Scattering (MALS) detector of the instrument can detect.
Format: Computable
Programmatic Pattern: GreaterP[0 Dalton]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinMALSMolecularWeight]]
MaxMALSMolecularWeight
The maximum molecular weight analyte the Multi-Angle static Light Scattering (MALS) detector of the instrument can detect.
Format: Computable
Programmatic Pattern: GreaterP[0 Dalton]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxMALSMolecularWeight]]
MinMALSGyrationRadius
The minimum radius of gyration that the Multi-Angle static Light Scattering (MALS) detector of the instrument can detect.
Format: Computable
Programmatic Pattern: GreaterP[0 Nanometer]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinMALSGyrationRadius]]
MaxMALSGyrationRadius
The maximum radius of gyration that the Multi-Angle static Light Scattering (MALS) detector of the instrument can detect.
Format: Computable
Programmatic Pattern: GreaterP[0 Nanometer]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxMALSGyrationRadius]]
MinDLSHydrodynamicRadius
The minimum hydrodynamic radius that the Dynamic Light Scattering (DLS) detector of the instrument can detect.
Format: Computable
Programmatic Pattern: GreaterP[0 Nanometer]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinDLSHydrodynamicRadius]]
MaxDLSHydrodynamicRadius
The maximum hydrodynamic radius that the Dynamic Light Scattering (DLS) detector of the instrument can detect.
Format: Computable
Programmatic Pattern: GreaterP[0 Nanometer]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxDLSHydrodynamicRadius]]
MinRefractiveIndexFlowCell Temperature
The minimum temperature that the temperature of the flow cell of the instrument's differential refractive index (dRI) detector can be set to.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinRefractiveIndexFlowCellTemperature]]
MaxRefractiveIndexFlowCell Temperature
The maximum temperature that the temperature of the flow cell of the instrument's differential refractive index (dRI) detector can be set to.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxRefractiveIndexFlowCellTemperature]]
MinCiruclarDichrosimFlowCell Temperature
The minimum temperature at which the Circular Dichroism (CD) flow cell of the instrument's CD detector can operate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinCiruclarDichrosimFlowCellTemperature]]
MaxCiruclarDichrosimFlowCell Temperature
The maximum temperature at which the Circular Dichroism (CD) flow cell of the instrument's CD detector can operate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxCiruclarDichrosimFlowCellTemperature]]
MinCiruclarDichrosim Wavelength
The minimum light wavelength that the light source of the circular dichroism detector can produce.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinCiruclarDichrosimWavelength]]
MaxCiruclarDichrosim Wavelength
The maximum light wavelength that the light source of the circular dichroism detector can produce.
Format: Computable
Programmatic Pattern: GreaterP[0 Nano Meter, 1 Nano Meter]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxCiruclarDichrosimWavelength]]
MinDetectorpH
The minimum pH to which the pH detector of this instrument can measure.
Format: Computable
Programmatic Pattern: RangeP[0, 14]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinDetectorpH]]
MaxDetectorpH
The maximum pH to which the pH detector of this instrument can measure.
Format: Computable
Programmatic Pattern: RangeP[0, 14]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxDetectorpH]]
MinpHFlowCellTemperature
The minimum temperature at which the pH flow cell of the instrument's pH detector can operate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinpHFlowCellTemperature]]
MaxpHFlowCellTemperature
The maximum temperature at which the pH flow cell of the instrument's pH detector can operate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxpHFlowCellTemperature]]
MinConductivity
The minimum conductivity that the conductivity detector of this instrument can measure.
Format: Computable
Programmatic Pattern: Siemens
Hold[GreaterP[0 Micro ----------]]
Centimeter
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinConductivity]]
MaxConductivity
The maximum conductivity that the conductivity detector of this instrument can measure.
Format: Computable
Programmatic Pattern: Siemens
Hold[GreaterP[0 Micro ----------]]
Centimeter
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxConductivity]]
MinConductivityFlowCell Temperature
The minimum temperature at which the conductivity flow cell of the instrument's conductivity detector can operate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MinConductivityFlowCellTemperature]]
MaxConductivityFlowCell Temperature
The maximum temperature at which the conductivity flow cell of the instrument's conductivity detector can operate.
Format: Computable
Programmatic Pattern: GreaterEqualP[0 Kelvin]
Expression: SafeEvaluate[{Field[Model]}, Download[Field[Model], MaxConductivityFlowCellTemperature]]
Last modified on Mon 26 Sep 2022 15:43:45