Quant.New() Type: CLASS FUNCTION Purpose: Create a new Quant object. Usage: Quant = QUANT.New(Tag, Quantity, Prompt) Tag STRING Used by Setup(), Save/Restore, Tag.Printl() Quantity REAL Initial value for… read more →
PWRRAMP Type: CLASS Purpose: The PWRRAMP class describes a ramp signal that can control current, power, voltage, or load. This signal is used mainly in energy storage and conversion research.… read more →
PWRSTEP Type: CLASS Purpose: The PWRSTEP class describes a step signal that can control current, power, voltage, or load. This signal is used mainly in energy-storage and conversion research. Most… read more →
PWR_AE Type: CLASS Purpose: The PWR_AE class handles data-acquisition for Electrochemical Energy scripts where the Auxiliary Electrometer option of the Reference™ 3000 is used. The PWR_AE curve uses the potentiostat… read more →
QUANT Type: CLASS Purpose: Allows a user to edit, save and restore REAL values in Setup(). REALs, by themselves, cannot be given as parameters to Setup(), for Explain™ uses Call… read more →
Pwr.Activate() Type: INSTANCE FUNCTION Purpose: Make the real time plot of the Pwr object the Active plot. If the Runner window Curve List control is set to Active, the plot… read more →
PWR Type: CLASS Purpose: The PWR class handles data-acquisition for Electrochemical Energy scripts. The PWR curve uses the potentiostat in galvanostat mode. As data are acquired the PWR class decimates… read more →
PWRCONST Type: CLASS Purpose: The PWRCONST class describes a constant signal that can control current, power, voltage, or load. This signal is used mainly in energy-storage and conversion research. Most… read more →
Pstat.SetAuxBNCBandwidth() Type: INSTANCE FUNCTION Purpose: Pstat.SetAuxBNCBandwidth() controls the filtering of the Aux BNC voltage input on Reference™ family instruments. You can read a voltage connected to the Aux BNC using… read more →
Pstat.SetAuxBNCImpedance() Type: INSTANCE FUNCTION Purpose: Pstat.SetAuxBNCImpedance() controls the input impedance of the Aux BNC connection on Reference™ family instruments. You can read a voltage connected to the Aux BNC using… read more →