Model[Instrument, IonChromatography]
The model for an ion chromatography instrument used to resolve electrically-charges species from mixtures.
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: Model[Instrument, IonChromatography, _String]
Pattern Description: The object reference of this object.
Type
Type of this Object.
Format: Single
Class: Expression
Programmatic Pattern: Model[Instrument, IonChromatography]
Pattern Description: Model[Instrument, IonChromatography]
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]
Objects
Objects that represent instances of this model.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Deprecated
Indicates if this instrument model is historical and no longer used in the lab.
Format: Single
Class: Expression
Programmatic Pattern: BooleanP
Authors
The person(s) who created this instrument model.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[User]
ImageFile
An example photo of this model of 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: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
Instrument Specifications
InstrumentSchematics
Detailed drawings of the instrument that explain its capabilities and limitations.
Format: Multiple
[[1]] Schematic
Header: Schematic
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
[[2]] Caption
Header: Caption
Class: String
Programmatic Pattern: _String
PowerType
The type(s) of the power source(s) used by instruments of this model.
Format: Multiple
Class: Expression
Programmatic Pattern: PowerTypeP
BatteryRequirements
All battery requirements for battery-powered instruments of this model.
Format: Multiple
[[1]] Number of Batteries
Header: Number of Batteries
Class: Integer
Programmatic Pattern: GreaterP[0, 1]
[[2]] Battery Type
Header: Battery Type
Class: Expression
Programmatic Pattern: BatteryTypeP
PowerConsumption
Estimated power consumption rate of the instrument in Watts (Joule/Second).
Format: Single
Class: Real
Unit: 1 watt
Programmatic Pattern: GreaterEqualP[0 Watt]
Connector
All data connector requirements needed to interface the instruments of this model with a computer.
Format: Multiple
[[1]] Number of Connectors
Header: Number of Connectors
Class: Integer
Programmatic Pattern: GreaterP[0, 1]
[[2]] Connector Type
Header: Connector Type
Class: Expression
Programmatic Pattern: DataConnectorP
OperatingSystem
Operating system that the software of instruments of this model runs on.
Format: Single
Class: Expression
Programmatic Pattern: OperatingSystemP
PCICard
All PCICard requirements needed to install specialized hardware.
Format: Multiple
[[1]] Number of Cards
Header: Number of Cards
Class: Integer
Programmatic Pattern: GreaterEqualP[0, 1]
[[2]] Card Type
Header: Card Type
Class: Expression
Programmatic Pattern: PCICardP
Dongle
Indicates if an instrument of this model requires a security dongle in the computer to run.
Format: Single
Class: Expression
Programmatic Pattern: BooleanP
AssociatedAccessories
Items installed with the instrument for full function.
Format: Multiple
[[1]] Item
Header: Item
Class: Link
Programmatic Pattern: _Link
Relation: Model[Instrument][SupportedInstruments] | Model[Part][SupportedInstruments] | Model[Container, PlateSealMagazine][SupportedInstruments] | Model[Container, MagazineParkPosition][SupportedInstruments] | Model[Sensor][SupportedInstruments] | Model[Item][SupportedInstruments] | Model[Plumbing][SupportedInstruments] | Model[Wiring][SupportedInstruments]
[[2]] Quantity
Header: Quantity
Class: Integer
Programmatic Pattern: GreaterP[0, 1]
WasteType
The type of waste generated by this instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Model[Sample]
AnalysisChannels
The number of distinct flow paths in the instrument for analyzing anions and cations separately.
Format: Multiple
Class: Expression
Programmatic Pattern: AnalysisChannelP
AnionDetector
A list of the available detectors on the instrument for anion channel.
Format: Single
Class: Expression
Programmatic Pattern: IonChromatographyDetectorTypeP
CationDetector
A list of the available detectors on the instrument for cation channel.
Format: Single
Class: Expression
Programmatic Pattern: IonChromatographyDetectorTypeP
Detectors
A list of the available detectors on the Ion Chromatography instrument.
Format: Multiple
Class: Expression
Programmatic Pattern: IonChromatographyDetectorTypeP
DetectorLampType
A list of sources of illumination available for use in detection.
Format: Multiple
Class: Expression
Programmatic Pattern: LampTypeP
ElectrochemicalDetectionMode
The mode of operation supported by the electrochemical detector, including DC Amperometric Detection, Pulsed Amperometric Detection, and Integrated Pulsed Amperometric Detection. In DC Amperometric Detection, a constant voltage is applied. In contrast, Pulsed Amperometric Detections first apply a working potential followed by higher or lower potentials that are used for cleaning the electrode. Further, Integrated Amperometric Detection integrates current over a single potential whereas Integrated Pulsed Amperometric Detection integrates current over two or more potentials.
Format: Multiple
Class: Expression
Programmatic Pattern: ElectrochemicalDetectionModeP
ReferenceElectrode
The electrode used as a reference with a constant potential difference.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Model[Part, ReferenceElectrode]
IntegratedEluentGenerator
A cartridge that automatically generates eluent in the flow path of Ion Chromatography instrument through electrolysis of water.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
AnionSuppressor
The suppressor that converts high ionic strength buffers into water prior to detection that is integrated in the flow path of anion channel in the Ion Chromatography system.
Format: Single
Class: Link
Programmatic Pattern: _Link
CationSuppressor
The suppressor that converts high ionic strength buffers into water prior to detection that is integrated in the flow path of cation channel in the Ion Chromatography system.
Format: Single
Class: Link
Programmatic Pattern: _Link
AnionNumberOfBuffers
The number of different Buffers that can be connected to the pump system for anion channel. Refer to AnionPumpType for the number of solvents that can actually be mixed simultaneously.
Format: Single
Class: Integer
Programmatic Pattern: GreaterEqualP[1, 1]
CationNumberOfBuffers
The number of different Buffers that can be connected to the pump system for cation channel. Refer to CationPumpType for the number of solvents that can actually be mixed simultaneously.
Format: Single
Class: Integer
Programmatic Pattern: GreaterEqualP[1, 1]
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: Single
Class: Integer
Programmatic Pattern: GreaterEqualP[1, 1]
AnionPumpType
The number of solvents that can be blended with each other at a ratio for anion channel during the gradient (e.g. binary can mix 2 solvents and isocratic cannot mix multiple solvents).
Format: Single
Class: Expression
Programmatic Pattern: IonChromatographyPumpTypeP
CationPumpType
The number of solvents that can be blended with each other at a ratio for anion channel during the gradient (e.g. binary can mix 2 solvents and isocratic cannot mix multiple solvents).
Format: Single
Class: Expression
Programmatic Pattern: IonChromatographyPumpTypeP
PumpType
The number of solvents that can be blended with each other at a ratio for anion channel during the gradient (e.g. binary can mix 2 solvents and isocratic cannot mix multiple solvents).
Format: Single
Class: Expression
Programmatic Pattern: IonChromatographyPumpTypeP
AnionMixer
The type of mixer the pump uses to generate the gradient for anion channel.
Format: Single
Class: Expression
Programmatic Pattern: ChromatographyMixerTypeP
CationMixer
The type of mixer the pump uses to generate the gradient for anion channel.
Format: Single
Class: Expression
Programmatic Pattern: ChromatographyMixerTypeP
Mixer
The type of mixer the pump uses to generate the gradient.
Format: Single
Class: Expression
Programmatic Pattern: ChromatographyMixerTypeP
SampleLoop
The maximum volume of sample that can be put in the injection loop, before it is transferred into the flow path.
Format: Single
Class: Real
Unit: 1 microliter
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
BufferLoop
The volume of tubing between the syringe and the injection valve that is used to provide system fluid to the autosampler syringe.
Format: Single
Class: Real
Unit: 1 microliter
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
AnionSystemPrimeGradient
The gradient used to purge the instrument lines at the start of an IonChromatography protocol for anion channel.
Format: Single
Class: Link
Programmatic Pattern: Link
Relation: Object[Method]
CationSystemPrimeGradient
The gradient used to purge the instrument lines at the start of an IonChromatography protocol for cation channel.
Format: Single
Class: Link
Programmatic Pattern: Link
Relation: Object[Method]
SystemPrimeGradient
The gradient used to purge the instrument lines at the start of an IonChromatography protocol.
Format: Single
Class: Link
Programmatic Pattern: Link
Relation: Object[Method]
AnionSystemFlushGradient
The gradient used to purge the instrument lines at the end of an IonChromatography protocol for anion channel.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method]
CationSystemFlushGradient
The gradient used to purge the instrument lines at the end of an IonChromatography protocol for cation channel.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method]
SystemFlushGradient
The gradient used to purge the instrument lines at the end of an IonChromatography protocol.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method]
NeedleWashSolution
The default solution used to wash the injection needle and pumps during IonChromatography protocols.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Model[Sample]
ColumnConnector
The connector on the instrument to which a column will be attached to.
Format: Multiple
[[1]] Connector Type
Header: Connector Type
Class: Expression
Programmatic Pattern: ConnectorP
[[2]] Thread Type
Header: Thread Type
Class: String
Programmatic Pattern: ThreadP
[[3]] Material
Header: Material
Class: Expression
Programmatic Pattern: MaterialP
[[4]] Gender
Header: Gender
Class: Expression
Programmatic Pattern: ConnectorGenderP
[[5]] Inner Diameter
Header: Inner Diameter
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterEqualP[0 Milli Meter]
[[6]] Outer Diameter
Header: Outer Diameter
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterEqualP[0 Milli Meter]
TubingInnerDiameter
The diameter of the tubing in the flow path.
Format: Single
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterEqualP[0 Milli Meter]
Pricing Information
PricingRate
The rate charged by the ECL for time used on this instrument in the course of conducting user experiments.
Format: Single
Class: Real
Unit: 1 US dollar per hour
Programmatic Pattern: USD
Hold[GreaterEqualP[0 ----]]
Hour
PricingCategory
The generic billing category this instrument model will be listed under.
Format: Single
Class: String
Programmatic Pattern: PricingCategoryP
PricingLevel
With respect to cost, the category of devices, for which this Instrument falls into.
Format: Single
Class: Integer
Programmatic Pattern: GreaterEqualP[0, 1]
Compatibility
PlugRequirements
All electrical requirements for plug-in parts of this model.
Format: Multiple
[PlugNumber]
Header: PlugNumber
Class: Integer
[Phases]
Header: Phases
Class: Integer
[Voltage]
Header: Voltage
Class: Integer
Unit: 1 volt
[Current]
Header: Current
Class: Real
Unit: 1 ampere
[PlugType]
Header: PlugType
Class: String
AllowedPositions
Generates a pattern of all the valid position names for this model of instrument.
Format: Computable
Programmatic Pattern: _Alternatives
Expression: SafeEvaluate[{Field[Positions]}, Computables`Private`allowedPositions[Field[Positions]]]
WettedMaterials
A list of materials in the instrument which may be wetted by user-specified liquids.
Format: Multiple
Class: Expression
Programmatic Pattern: MaterialP
FacilityRequirementFiles
PDFs for facility requirements and pre-installation checkoff forms provided by the supplier for instruments of this model.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
Dimensions & Positions
Dimensions
The external dimensions of this model of instrument.
Format: Single
[[1]] DimensionX
Header: DimensionX
Class: Real
Unit: 1 meter
Programmatic Pattern: GreaterP[0 Meter]
[[2]] DimensionY
Header: DimensionY
Class: Real
Unit: 1 meter
Programmatic Pattern: GreaterP[0 Meter]
[[3]] DimensionZ
Header: DimensionZ
Class: Real
Unit: 1 meter
Programmatic Pattern: GreaterP[0 Meter]
CrossSectionalShape
The shape of this model of instrument in the X-Y plane.
Format: Single
Class: Expression
Programmatic Pattern: Circle | Rectangle
ContainerImage2DFile
A top-down (X-Y plane) image of this model of instrument which can be overlaid on a 2D container plot.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
Shape2D
A Graphics primitive corresponding to the 2D shape of this model of instrument.
Format: Single
Class: Expression
Programmatic Pattern: _Polygon | _Circle
Shape3D
A Graphics primitive corresponding to the 3D shape of this model of instrument.
Format: Single
Class: Expression
Programmatic Pattern: _Polygon
Positions
Spatial definitions of the positions that exist in this model of instrument.
Format: Multiple
[Name]
Header: Name
Class: String
[Footprint]
Header: Footprint
Class: Expression
[MaxWidth]
Header: MaxWidth
Class: Real
Unit: 1 meter
[MaxDepth]
Header: MaxDepth
Class: Real
Unit: 1 meter
[MaxHeight]
Header: MaxHeight
Class: Real
Unit: 1 meter
AvailableLayouts
Readily available configurations of container models in specified positions on the deck of this instrument model.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Model[DeckLayout][InstrumentModel]
Storage Information
LocalCacheContents
Items required to be present in the local cache for instruments of this model, along with the required quantity of each item.
Format: Multiple
[[1]] Item Model
Header: Item Model
Class: Link
Programmatic Pattern: _Link
[[2]] Required Quantity
Header: Required Quantity
Class: Integer
Programmatic Pattern: GreaterEqualP[0, 1]
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]
Plumbing Information
Connectors
Specifications for the ports on this model of instrument that may connect to other plumbing components.
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
Wiring Information
WiringConnectors
Specifications for the wiring ends 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
Qualifications & Maintenance
QualificationFrequency
A list of the Qualifications which should be run on instruments of this model and their required frequencies.
Format: Multiple
[[1]] Qualification Model
Header: Qualification Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Qualification][Targets]
[[2]] Time
Header: Time
Class: Real
Unit: 1 day
Programmatic Pattern: GreaterP[0 Second]
MaintenanceFrequency
A list of the maintenance protocols which should be run on instruments of this model and their required frequencies.
Format: Multiple
[[1]] Maintenance Model
Header: Maintenance Model
Class: Link
Programmatic Pattern: _Link
Relation: Model[Maintenance][Targets]
[[2]] Time
Header: Time
Class: Real
Unit: 1 day
Programmatic Pattern: GreaterP[0 Second]
ReplacementParts
A list of tracked replacement part models for this instrument.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
PassiveClean
Indicates if the exterior surfaces of this instrument model can be cleaned while in use.
Format: Single
Class: Expression
Programmatic Pattern: BooleanP
VentilationFlowRate Requirement
The minimum flow rate of air generated by the instrument's ventilator for its safe and proper function.
Format: Single
Class: Real
Unit: 1 meter per second
Programmatic Pattern: Meter
Hold[GreaterP[0 ------]]
Second
VentilationFlowRate Recommendation
The flow rate of air generated by the instrument's ventilator recommended by its manufacturer.
Format: Single
Class: Real
Unit: 1 meter per second
Programmatic Pattern: Meter
Hold[GreaterP[0 ------]]
Second
ContinuousOperation
Indicates if the instrument is required to operate continuously in the lab, regardless of if it is InUse by a specific protocol, such as a freezer.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
Inventory
Manufacturer
The company that originally manufactured this model of instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
SupportedInstruments
A list of instruments for which this model is an accompanying accessory.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Health & Safety
Sterile
Indicates that this model of instrument is used for protocols where SterileTechnique is indicated to be used.
Format: Single
Class: Expression
Programmatic Pattern: BooleanP
CultureHandling
Indicates the type of cellular samples (Mammalian or Microbial) that this instrument is used to handle.
Format: Single
Class: Expression
Programmatic Pattern: CellTypeP
GloveBoxStorage
Indiciates that this model of instrument permanently resides in the glove box.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
HazardCategories
Hazards to be aware of during operation of instruments of this model.
Format: Multiple
Class: Expression
Programmatic Pattern: HazardCategoryP
SampleHandlingCategories
Special handling considerations that samples on this instrument require.
Format: Multiple
Class: Expression
Programmatic Pattern: HandlingCategoryP
Sensor Information
SensorBarrier
Type of sensors which cannot monitor the internal contents of instruments of this model from the outside.
Format: Multiple
Class: Expression
Programmatic Pattern: TypeP[Object[Sensor]]
Operating Limits
MinSampleVolume
The minimum sample volume required for a single run.
Format: Single
Class: Real
Unit: 1 microliter
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
MaxSampleVolume
The maximum sample volume that that can be injected in a single run.
Format: Single
Class: Real
Unit: 1 microliter
Programmatic Pattern: GreaterP[0 Micro Liter]
MinSampleTemperature
The minimum possible temperature of the chamber where the samples are stored. Null indicates that temperature control for the sample chamber is not possible.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MaxSampleTemperature
The maximum possible temperature of the chamber where the samples are stored. Null indicates that temperature control for the sample chamber is not possible.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MinFlowRate
The minimum flow rate at which the instrument can pump Buffer through the system.
Format: Single
Class: Real
Unit: 1 milliliter per minute
Programmatic Pattern: 0 Milli Liter
Hold[GreaterEqualP[-------------]]
Minute
MaxFlowRate
The maximum flow rate at which the instrument can pump Buffer through the system absent any pressure limitations.
Format: Single
Class: Real
Unit: 1 milliliter per minute
Programmatic Pattern: 0 Milli Liter
Hold[GreaterP[-------------]]
Minute
AnionMinColumnTemperature
The minimum temperature at which the column oven can incubate for anion channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
AnionMaxColumnTemperature
The maximum temperature at which the column oven can incubate for anion channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
CationMinColumnTemperature
The minimum temperature at which the column oven can incubate for cation channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
CationMaxColumnTemperature
The maximum temperature at which the column oven can incubate for cation channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MinColumnTemperature
The minimum temperature at which the column oven can incubate.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MaxColumnTemperature
The maximum temperature at which the column oven can incubate.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
AnionMaxColumnLength
The maximum column length that can be accommodated inside of the column oven for anion channel.
Format: Single
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
AnionMaxColumnOutsideDiameter
The maximum column outside diameter that can be accommodated inside of the detector/chromatography module for anion channel.
Format: Single
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
CationMaxColumnLength
The maximum column length that can be accommodated inside of the column oven for cation channel.
Format: Single
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
CationMaxColumnOutside Diameter
The maximum column outside diameter that can be accommodated inside of the detector/chromatography module for cation channel.
Format: Single
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
MaxColumnLength
The maximum column length that can be accommodated inside of the column oven.
Format: Single
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
MaxColumnOutsideDiameter
The maximum column outside diameter that can be accommodated inside of the detector/chromatography module.
Format: Single
Class: Real
Unit: 1 millimeter
Programmatic Pattern: GreaterP[0 Milli Meter]
MinPressure
The minimum pressure at which the instrument can operate.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterEqualP[0 PSI]
TubingMaxPressure
The maximum pressure the tubing in the sample flow path can tolerate.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterP[0 PSI]
AnionPumpMinPressure
The minimum pressure at which the pump can operate for anion channel.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterEqualP[0 PSI]
AnionPumpMaxPressure
The maximum pressure at which the pump can operate for anion channel.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterP[0 PSI]
CationPumpMinPressure
The minimum pressure at which the pump can operate for cation channel.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterEqualP[0 PSI]
CationPumpMaxPressure
The maximum pressure at which the pump can operate for cation channel.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterP[0 PSI]
PumpMinPressure
The minimum pressure at which the pump can operate.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterEqualP[0 PSI]
PumpMaxPressure
The maximum pressure at which the pump can operate.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterP[0 PSI]
AnionMinDetectionTemperature
The minimum temperature at which the detector can incubate for anion channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
AnionMaxDetectionTemperature
The maximum temperature at which the detector can incubate for anion channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
CationMinDetectionTemperature
The minimum temperature at which the detector can incubate for cation channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
CationMaxDetectionTemperature
The maximum temperature at which the detector can incubate for cation channel.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MinDetectionTemperature
The minimum temperature at which the detector can incubate.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MaxDetectionTemperature
The maximum temperature at which the detector can incubate.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MinAbsorbanceWavelength
The minimum wavelength that the absorbance detector can monitor.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nano Meter]
MaxAbsorbanceWavelength
The Maximum wavelength that the absorbance detector can monitor.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nano Meter]
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: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterEqualP[0 Nano Meter]
MinDetectionVoltage
The minimum potential different that the electrochemical detector can supply.
Format: Single
Class: Real
Unit: 1 volt
Programmatic Pattern: VoltageP
MaxDetectionVoltage
The maximum potential different that the electrochemical detector can supply.
Format: Single
Class: Real
Unit: 1 volt
Programmatic Pattern: VoltageP
MinFlowCellpH
The minimum pH value that the electrochemical detector can monitor.
Format: Single
Class: Real
Programmatic Pattern: RangeP[0, 14]
MaxFlowCellpH
The maximum pH value that the electrochemical detector can monitor.
Format: Single
Class: Real
Programmatic Pattern: RangeP[0, 14]
Last modified on Mon 26 Sep 2022 15:43:54