Dual Process Input - Omega DP6060 User Manual

DP6060 Dual-Input Process Meter

Dual Process Input

TWO INPUTS
CHANNELS
PROGRAMMA-
BLE CONSTANTS
MATH
FUNCTIONS
SEQUENCE OF
OPERATIONS
FOR INPUT
PROGRAMMING
ACCURACY
TEMPERATURE
DRIFT
SIGNAL INPUT
CONDITIONING
MULTI-POINT
LINEARIZATION
PROGRAMMA-
Two inputs, each separately field selectable:
0-20, 4-20 mA, 10 V (0-5, 1-5, 0-10 V), Modbus PV (Slave)
Channel A, Channel B, Channel C (Math channel)
Constant P (Adder): -99999 to 999999, default: 0.000
Constant F (Factor): 0.00001 to 999999, default: 1.000
Name
Addition
Difference
Absolute diff.
Average
Multiplication
Divide
Max of A or B
Min of A or B
Draw
Weighted avg.
Ratio
Concentration
Note: The F constant can be any value from 0.00001 to
999999. If the value is less than 1, it will have the same effect
as a divider. For example, the average could also be derived
by using (A+B)*F, where F = 0.500.
1. Select Input for A and B
2. Set up the engineering units for A, B, and C
3. Set up decimal point for A, B, and C
4. Program A & B
5. Set up the displays for A, B, or C
6. Select the transfer function for A & B (e.g. Linear)
7. Select Math function for Channel C
8. Program constants for Factor (F) and Adder (P).
9. Program cutoff values for A and B
±0.03% of calibrated span ±1 count,
square root & programmable exponent accuracy
range: 10-100% of calibrated span
0.005% of calibrated span/C max from 0 to 65C ambient,
0.01% of calibrated span/C max from -40 to 0C ambient
Linear, square root, programmable exponent, or
round horizontal tank volume calculation
2 to 32 points for channel A and B
1.0001 to 2.9999
Function
(A+B+P)*F
(A-B+P)*F
((Abs(A-B))+P)*F
(((A+B)/2)+P)*F
((A*B)+P)*F
((A/B)+P)*F
((AB-Hi)+P)*F
((AB-Lo)+P)*F
((A/B)-1)*F
((B-A)*F)+A
(A/B)*F
(A/(A+B))*F
12
Instruction Manual
Setting
Sunm
diF
diFAbS
AvG
nmulti
divide
Hi-Ab
Lo-Ab
drAuw
uw avg
ratio
Concen