Ten-segment linearizer input/output, Pattern initial setting, Pattern initial setting pb sets initial pattern – Yokogawa Data Acquisition with PID Control CX2000 User Manual
Page 149: Pi operating loop designation, He sets the ten-segment linearizer segment
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IM 04L31A01-17E
When PV/SP Computation Function is ON
Syntax
HE p1,p2,p3,p4<terminator>
p1: Control input channel numbers (CI01–CI10,
or CI01–CI05 for the CX1000)
p2: Ten segment linearizer number (1–11)
p3: Ten segment linearizer input
Ten segment linearizer approximation
EU(-5.0-105.0%)
Ten segment linearizer bias
EU(-5.0-105.0%)
p4: Ten segment linearizer output
Ten segment linearizer approximation
EU(-5.0-105.0%)
Ten segment linearizer bias
EUS(-100.0-100.0%)
Query
HE[ p1,p2]?
Example
Set the CI01 (whose input type is set to RTD
type JPT and ten-segment linearizer mode set to
ten-segment linearizer bias) as follows: ten-
segment linearizer input of segment number 2:
500.0, output: maximum value in the selectable
range.
HECI01,2,5000,7750
Pattern Initial Setting
PB
Sets initial pattern
Syntax
PB p1,p2,p3,p4,p5,p6<terminator>
p1: Pattern number (1 to 30)
p2: Used segments (0 to 99). However, the
total number of segments used in all
patterns must be 300 or less.
p3: Segment setting method (Time, Ramp)
p4: Pattern name (up to 16 alphanumeric
characters.)
p5: Edit segment (Off/Delete/Insert)
Can be specified only when P2 is not 0.
p6: Edit segment number (1 to 99). However,
within the number of used segments. Can
be specified only when p5 is not off.
Query
PB[ p1]?
Description • When program control is in execution, p1 and
p2 are pattern number and pattern name,
respectively. Other parameters cannot be set.
• When the setup data file is being output
(specified using the FE command), this
command cannot be used.
PI
Operating loop designation
Syntax
PI p1,p2<terminator>
p1: Loop number (1–6, or 2 on the CX1000)
p2: Operation designation (On/Off)
Query
PI[ p1]?
6.4 Setting Commands (Control)
Ten-segment Linearizer Input/Output
HA
Sets the ten-segment linearizer
mode
When the PV/SP Computation Function is OFF
Syntax
HA p1,p2,p3<terminator>
p1: Loop number (1 to 6) (1 or 2 on the CX1000)
p2: Input type (PV1, PV2)
p3: Ten-segment linearizer mode (Off, Biasing,
and Approximation)
Query
HA[ p1,p2]?
Example
Set the ten-segment linearizer mode of loop 6
PV1 to ten-segment linearizer bias.
HA6,PV1,BIASING
When the PV/SP Computation Function Is ON
Syntax
HA p1,p2<terminator>
p1: Control input channel numbers (CI01–CI10,
or CI01–CI05 for the CX1000)
p2: Ten segment linearizer mode (Off, Biasing,
and Approximation)
Query
HA[ p1]?
Example
The ten segment linearizer mode of CI01 is set
to ten segment linearizer bias.
HACI01,BIASING
HE
Sets the ten-segment linearizer
segment
When the PV/SP Computation Function is OFF
Syntax
HE p1,p2,p3,p4,p5<terminator>
p1: Loop number (1 to 6) (1 or 2 on the CX1000)
p2: Input type (PV1, PV2)
p3: Segment number (1 to 11)
p4: Ten-segment linearizer input
Ten-segment linearizer approximation
EU(–5.0 to 105.0%)
Ten-segment linearizer bias
EU(–5.0 to 105.0%)
p5: Ten-segment linearizer output
Ten-segment linearizer approximation
EU(–5.0 to 105.0%)
Ten-segment linearizer bias
EUS (–100.0 to 100.0%)
Query
HE[ p1,p2,p3]?
Example
Set the PV1 of loop 1 (whose input type is set to
RTD type JPT and ten-segment linearizer mode
set to ten-segment linearizer bias) as follows:
ten-segment linearizer input of segment number
2: 500.0, output: maximum value in the
selectable range.
HE1,PV1,2,5000,875