Honeywell SMV800 User Manual page 58

Lower TempLimit Viscosity
TuMin
Upper TempLimit Viscosity
TuMax
Normal (Max) Volume
Max Flow Rate
Max Differential Pressure
Flow Coefficient (KUser)
Manual Input
KUser Value
Page 46
Minimum Temperature to select the initial
Temperature vs Viscosity value in the
polynomial equation for auto calculation of
Viscosity. Enter the temperature value in the
units selected in the Unit Configuration
screen.
Maximum Temperature to select the end
point Temperature vs Viscosity value in the
polynomial equation for auto calculation of
Viscosity. Enter the temperature value in the
units selected in the Unit Configuration
screen.
When Algorithm Option =
ASME 1989 Algorithms, Equation Model =
Standard.
Enter the value in the units selected in the
Unit Configuration screen.
Value cannot be <= 0
When Algorithm Option =
ASME 1989 Algorithms, Equation Model =
Standard.
Enter the value in the units selected in the
Unit Configuration screen.
Value must be greater than or less than 0,
but not 0.
ASME 1989 Algorithms, Equation Model =
Standard.
ON/OFF Select this to ON to enter KUser value
manually. Select this to OFF to have DTM
auto calculate the KUser value using
selected Fluid type, Flow output type, Max
Flow Rate and Max Differential Pressure.
#.# When Manual Input is ON, user enters the
KUser value for
ASME 1989 Algorithms. When Manual Input
is OFF, KUser value is auto calculated.
When Algorithm is Dynamic, Manual Input
ON/OF is not applicable and this value is set
to 1.
If Flow value or KUser value calculates to
NaN, make sure the Nominal Temperature
Value is within the Lower TempLimit Density
TpMin and Upper TempLimit Density TpMax
SMV800 Modbus User's Guide Revision 1.0