-45-
Released 2018-01-12 Drawing No. LP0932
REGISTER
(4x)
REGISTER NAME LOW LIMIT HIGH LIMIT
FACTORY
SETTING
ACCESS COMMENTS
80 Setpoint Control Mode 0 2 0 Read/Write 0 = SP, 1 = PROF, 2 = REMO
81 Output Action 0 1 or 5 0 Read/Write
Single Output Model: 0 = r1, 1 = d1;
Dual Output Model: 0 = r1r2, 1 = d1r2, 2 = r1d2,
3 = d1d2, 4 = r1A2, 5 = d1A2
r = reverse acting, d = direct acting, A = Alarm 3,
numeric value indicates OP1 or OP2,
82 Auto Control Mode 0 1 0 Read/Write 0 = PId, 1 = OnOF
83 Output 1 Cycle Time 0 250 20 Read/Write 1 = 0.1 sec; A setting of zero will keep output off.
84 Output 1 Power Lower Limit 0
Output 1 Power
High Limit
0 Read/Write 1 = 0.1 %
85 Output 1 Power High Limit
Output 1 Power
Lower Limit
1000 1000 Read/Write 1 = 0.1 %
86 Input Fail OP1 Power Level 0 1000 0 Read/Write 1 = 0.1 %
87 Analog Out 1 Low Scaling Value -999 9999 0 Read/Write 1 = 0.1 %
88 Analog Out 1 High Scaling Value -999 9999 1000 Read/Write 1 = 0.1 %
89 Reserved 0
90 Reserved 0
91 Output 2 Cycle Time 0 250 20 Read/Write 1 = 0.1 sec; A setting of zero will keep output off.
92 Output 2 Power Lower Limit 0
Output 2 Power
High Limit
0 Read/Write 1 = 0.1 %
93 Output 2 Power High Limit
Output 2 Power
Lower Limit
1000 1000 Read/Write 1 = 0.1 %
94 Input Fail OP2 Power Level 0 1000 0 Read/Write 1 = 0.1 %
95 Relative Gain 1 9999 100 Read/Write
1 = 0.01; In combination Reverse(r) and Direct(d)
modes, this defines the gain of OP2 relative to OP1.
96 Deadband/Overlap
-99(.9) or
-999 (process)
999(.9)° or
9999 (process)
20 Read/Write
1 = 1 Display unit; In combination Reverse(r) and
Direct(d) modes, this defines the overlap area in
which both OP1 and OP2 are active
(negative value) or the deadband area (positive
value).
97 On/Off Control Hysteresis 2
250(.0)° or 2500
(process)
20 Read/Write 1 = 1 Display unit
98 Analog Out 2 Low Scaling Value -999 9999 0 Read/Write
99 Analog Out 2 High Scaling Value -999 9999 1000 Read/Write
LOCKOUT PARAMETERS
101 Setpoint Access 0 4 0 Read/Write 0 = dISP, 1 = PArA, 2 = HIdE, 3 = LOC, 4 = dSPr
102 Output 1 Power Access 0 4 1 Read/Write 0 = dISP, 1 = PArA, 2 = HIdE, 3 = LOC, 4 = dSPr
103 Output 2 Power Access 0 4 1 Read/Write 0 = dISP, 1 = PArA, 2 = HIdE, 3 = LOC, 4 = dSPr
104 Setpoint Ramp Rate Access 0 4 1 Read/Write 0 = dISP, 1 = PArA, 2 = HIdE, 3 = LOC, 4 = dSPr
105 PID Group Access 0 4 1 Read/Write 0 = dISP, 1 = PArA, 2 = HIdE, 3 = LOC, 4 = dSPr
106 Controller Status (Run/Stop) Access 0 4 0 Read/Write 0 = dISP, 1 = PArA, 2 = HIdE, 3 = LOC, 4 = dSPr
107 Output Power Offset Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
108 Proportional band Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
109 Integral time Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
110 Derivative time Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
111 Integration Default Access 1 3 3 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
112 Alarm 1 Value Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
113 Alarm 2 Value Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
114 Alarm 3 Value Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
115 Alarm Reset Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
116 Setpoint Select Access 1 3 1 Read/Write 1 = PArA, 2 = HIdE, 3 = LOC
117 Auto-Tune Start Access 2 3 2 Read/Write 2 = HIdE, 3 = LOC
118 Auto Control Mode Access 2 3 2 Read/Write 2 = HIdE, 3 = LOC
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