red lion PAX2CHZ/VR Modbus Register Table User manual

red lion PAX2CHZ/VR Modbus Register Table User manual
PAX2C, PX2FCA0, and PX2FCA1 Modbus Register Tables
LP0905F
REVISED 2017-02-27
The following is an example of the necessary query and corresponding response for holding register 2. In this example register 2 is the decimal value 123.
Query: 01 03 00 01 00 01 D5 CA
Response: 01 03 02 00 7B F8 67
Notes:
1. The PAX2C registers can be read as holding (4x) or input (3x) registers.
2. The PAX2C should not be powered down while parameters are being changed. Doing so may corrupt the non-volatile memory resulting in checksum errors.
PAX2C Ver 2.0 Modbus Register Table
REGISTER
ADDRESS
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
N/A
-1999
-1999
SPLO
SPLO
SPLO
N/A
-1000
0
0
0
0
N/A
9999
9999
SPHI
SPHI
SPHI
N/A
1000
9999
65000
9999
600
N/A
N/A
N/A
0
0
0
N/A
N/A
700
120
30
10
Read
Read
Read
Read/Write
Read/Write
Read/Write
Read Only
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
01
02
03
04
05
06
07
08
09
10
11
12
FREQUENTLY USED REGISTERS
Input Process Value
Maximum Value
Minimum Value
Active Setpoint Value
Setpoint 1 Value
Setpoint 2 Value
Setpoint Deviation
Output Power
Active Proportional Band
Active Integral Time
Active Derivative Time
Active Power Filter
13
Auto-Tune Code
0
4
2
Read/Write
14
Auto-Tune Request
0
1
0
Read/Write
15
16
17
18
19
20
Auto-Tune Phase
Auto-Tune Done
Auto-Tune Fail
Control Mode
Setpoint Selection
Remote/Local Setpoint Selection
0
0
0
0
0
0
4
1
1
1
1
1
0
0
0
0
0
0
Read
Read
Read
Read/Write
Read/Write
Read/Write
21
PID Set Selection
0
1
0
Read/Write
22
23
24
25
26
27
28
Disable Integral Action
Disable Setpoint Ramping
Setpoint Ramping In Process
Setpoint Ramp Rate Value
Alarm (1-16) Status Register
0
0
0
-1999
0
1
1
1
9999
65535
0
0
0
0
3
Read/Write
Read/Write
Read/Write
Read/Write
Read
PID Stop/Run
0
1
0
Read/Write
User Input Status
0
2
0
Read
29
Digital Output Status
0
15
N/A
Read/Write
30
Output Manual Mode Register (MMR)
0
31
0
Read/Write
31
Alarm Reset Register
0
65535
0
Read/Write
COMMENTS
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit; Limited by setpoint low/high limits
1 = 1 Display Unit; Limited by setpoint low/high limits
1 = 1 Display Unit; Limited by setpoint low/high limits
1 = 1 Display Unit
Output Power: Heat/Cool; * writable only in manual mode; 1 = 0.1%
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
0 = Very Aggressive, 1 = Aggressive, 2 = Default, 3 = Conservative,
4 = Very Conservative
0 = Off, 1 = Invoke Auto-Tune , 2 = Auto-Tune CS1, 3 = Auto-Tune CS2, 4
= Auto-Tune CS3, 5 = Auto-Tune CS4, 6 = Auto-Tune CS5, 7 = Auto-Tune
CS6
0 = Off, 4 = Last Phase of Auto-Tune
1 = Successful Auto-Tune since last power cycle.
0 = Off, 1 = Auto-Tune failed
0 = Automatic, 1 = Manual Mode
0 = Setpoint 1, 1 = Setpoint 2 ... 5 = Setpoint 6
0 = Local, 1 = Remote
0 = PID Set 1 (Pri), 1 = PID Set 2(Alt), 2 = PID Set 3, 3 = PID Set 4, 4 =
PID Set 5, 5 = PID Set 6 , 6 = SPSL, 7 = Auto
0 = Enabled, 1 = Disabled
0 = Enabled, 1 = Disabled
0 = Off, 1 = In Process
1 = 0.1 Setpoint Ramping @ Timebase unit selection
Bit 15 = A16, Bit 0 = A1
0 = Run PID, 1 = Stop PID (Output Power = 0%)
Bit 1 = User Input 2, Bit 0 = User Input 1
Status of Digital Outputs. Bit State: 0 = Off, 1 = On.
Bit 3 = Out1, Bit 2 = Out2, Bit 1 = Out3, Bit 0 = Out4.
Outputs can only be activated/reset with this register when the respective
bits in the Manual Mode Register (MMR) are set.
Bit State: 0 = Auto Mode, 1 = Manual Mode
Bit 4 = DO1, Bit 3 = DO2, Bit 2 = DO3, Bit 1 = DO4, Bit 0 = Linear Output
Bit State: 1= Reset Alarm, bit is returned to zero following reset processing;
Bit 15 = A16, Bit 0 = A1
REGISTER
ADDRESS
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
0
4095
0
Read/Write
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read Only
32
Analog Output Register (AOR)
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
Active Alarm 1 Value
Active Alarm 2 Value
Active Alarm 3 Value
Active Alarm 4 Value
Active Alarm 5 Value
Active Alarm 6 Value
Active Alarm 7 Value
Active Alarm 8 Value
Active Alarm 9 Value
Active Alarm 10 Value
Active Alarm 11 Value
Active Alarm 12 Value
Active Alarm 13 Value
Active Alarm 14 Value
Active Alarm 15 Value
Active Alarm 16 Value
Active Alarm 1 Band/Dev. Value
Active Alarm 2 Band/Dev. Value
Active Alarm 3 Band/Dev. Value
Active Alarm 4 Band/Dev. Value
Active Alarm 5 Band/Dev. Value
Active Alarm 6 Band/Dev. Value
Active Alarm 7 Band/Dev. Value
Active Alarm 8 Band/Dev. Value
Active Alarm 9 Band/Dev. Value
Active Alarm 10 Band/Dev. Value
Active Alarm 11 Band/Dev. Value
Active Alarm 12 Band/Dev. Value
Active Alarm 13 Band/Dev. Value
Active Alarm 14 Band/Dev. Value
Active Alarm 15 Band/Dev. Value
Active Alarm 16 Band/Dev. Value
Remote SP Value
66
Profile Operating Status
0
5
0
Read/Write
67
68
69
70
Active Profile
Active Segment
Profile Segment Type
Active Profile Cycle Count Remaining
1
1
0
0
16
20
1
250
1
1
0
0
Read
Read
Read
Read/Write
71
Active Profile Segment Time Remaining (Hi Word)
72
Active Profile Segment Time Remaining (Lo Word)
0
9999
N/A
Read/Write
73
Profile Event Status
0
15
0
Read/Write
COMMENTS
Functional only if Linear Output is in Manual Mode.(MMR bit 0 = 1)
Linear Output Card written to only if Linear Out (MMR bit 0) is set.
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B); 1 = 1 Display Unit
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
Active List (A or B). Applicable only for Band or Deviation Alarm Action.
0 = Profile Control Mode Off; Unit will control to active setpoint, 1 = End
Profile; Control per profile end action, 2 = Pause, 3 = Error Delay (status
only), 4 = Run/Resume/Start, 5 = Advance Profile Segment
(0 = Stop, 1-16 = Current Profile)
(0 = Stop, 1-20 = Current Segment)
0 = Ramp, 1 = Hold
0-250; If Cycle Count is 0 unit is configured for continuous cycling
1 = 0.1 Minute; Can make temporary change on the fly, however, if Active
Profile Segment’s Time resolution is in minutes, the least significant
decade is ignored (i.e., 38 = 30 minutes)
Bit 3 = Event 4, Bit 2 = Event 3, Bit 1 = Event 2; Bit 0 = Event 1
REGISTER
ADDRESS
REGISTER NAME
INPUT PARAMETERS
Analog Input Parameters
101
Input Range
102
103
104
105
106
107
108
109
110
111
Square Root Linearization
Temperature Scale (TC or RTD only)
Ice Point Compensation (TC only)
ADC Conversion Rate (samples/sec)
Decimal Point
Rounding Factor
Input Offset Value
Digital Input Filter
Input Scaling Points in List Function
Display Input Units
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
SEE INPUT MODULE FOR PARAMETER DESCRIPTIONS
0
26
16
Read/Write
0
0
0
0
0
0
-1999
0
0
0
1
1
1
5
3
6
9999
250
1
1
0
1
1
2
1
0
0
10
0
1
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
112
Input Units Character 1
0
113
114
151
Input Units Character 2
Input Units Character 3
User Input / Function Keys
User Input Active State
0
152
User Input 1 Action
153
57
COMMENTS
0
Read/Write
56
6
Read/Write
Read/Write
1
0
Read/Write
0
29*
0
Read/Write
User Input 1 Alarm Mask
0
65535
0
Read/Write
154
155
User Input 2 Action
User Input 2 Alarm Mask
0
0
29*
65535
0
0
Read/Write
Read/Write
156
User F1 Key Action
0
26*
0
Read/Write
157
User F1 Key Alarm Mask
0
65535
0
Read/Write
0 = 250µA
1 = 2.5mA
2 = 25mA
3 = 250mA
4 = 2A
5 = 250mV 11 = 100Ω 17 = TC-K
6 = 2V
12 = 1KΩ 18 = TC-R
7 = 10V
13 = 10KΩ 19 = TC-S
8 = 25V
14 = TC-T
20 = TC-B
9 = 100V 15 = TC-E 21 = TC-N
10 = 200V 16 = TC-J
22 = TC-C
0 = No, 1 = Yes (Valid on Process Inputs)
0 = °C, 1 = °F
0 = Off, 1 = On
0 = 5, 1 = 10, 2 = 20, 3 = 40, 4 = 80, 5 = 160
0 = 0, 1 = 0.0, 2 = 0.00, 3 = 0.000
0 = 1, 1 = 2, 2 = 5, 3 = 10, 4 = 20, 5 = 50, 6 = 100
1 = 1 Display Unit
1 = 0.1 Second
0 = No, 1 = Yes
0 = No, 1 = Yes
Label Mnemonic Characters
0=
9=I
18 = Q
27 = Z
36 = 8
1 = A 10 = J
19 = R
28 = 0
37 = 9
2 = b 11 = K
20 = S
29 = 1
38 = a
3 = C 12 = L
21 = t
30 = 2
39 = c
4 = d 13 = M(l) 22 = U
31 = 3
40 = e
5 = E 14 = M(r) 23 = V
32 = 4
41 = g
6 = F 15 = N
24 = W(l) 33 = 5
42 = h
7 = G 16 = O
25 = W(r) 34 = 6
43 = i
8 = H 17 = P
26 = Y
35 = 7
44 = n
See Input Units Character 1
See Input Units Character 1
0 = Active Low, 1 = Active High
0 = NONE
7 = SPrP 14 = dLEV
1 = PLOC
8 = d-HI 15 = dISP
2 = ILOC
9 = r-HI
16 = LISt
3 = trnF
10 = d-Lo 17 = Prnt
4 = SPSL
11 = r-Lo
18 = RnSt
5 = RSPt
12 = r-HL 19 = PlrS
6 = PSEL
13 = r-AL 20 = PlrH
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12
Same as User Input 1 Action
Same as User Input 1 Alarm Mask
0 = NONE
6 = SPrP 12 = dISP
1 = ILOC
7 = r-HI
13 = LISt
2 = trnF
8 = r-Lo
14 = Prnt
3 = SPSL
9 = r-HL 15 = RnSt
4 = RSPt
10 = r-AL 16 = PlrS
5 = PSEL
11 = dLEV 17 = PlrH
Same as User Input 1 Alarm Mask
23 = RTD 385
24 = RTD 392
25 = RTD 672
26 = RTD 427
45 = m(r)
46 = o
47 = q
48 = r
49 = u
50 = w(r)
51 = 52 = =
53 = [
54 = ]
55 = /
56 = º
57 = _
21 = PrrS 28 = NA-1
22 = PrrH 29 = NA-2
23 = PStr 30+ = FC Functions
24 = Adnc
25 = PAUS
26 = PEnd
27 = r-Ev
Bit 12 = A13
Bit 13 = A14
Bit 14 = A15
Bit 15 = A16
18 = PrrS
19 = PrrH
20 = PStr
21 = Adnc
22 = PAUS
23 = PEnd
24 = r-Ev
25 = NA-1
26 = NA-2
27+ = FC Functions
REGISTER
ADDRESS
158
159
160
161
162
163
REGISTER NAME
User F2 Key Action
User F2 Key Alarm Mask
User F1 Second Action
User F1 Second Alarm Mask
User F2 Second Action
User F2 Second Alarm Mask
Advanced Input Parameters
List A List B Input Scaling Points Parameters
171
211 Number of Scaling Points
172
212 Reserved
173
213 Scaling Pt. 1 Input Value
174
214 Scaling Pt. 1 Display Value
175
215 Scaling Pt. 2 Input Value
176
216 Scaling Pt. 2 Display Value
177 thru 217 thru
Scaling Pts. 3 thru 15 Values
202
242
203
243 Scaling Pt. 16 Input Value
204
244 Scaling Pt. 16 Display Value
OUTPUT PARAMETERS
LOW
LIMIT
0
0
0
0
0
0
HIGH
LIMIT
26*
65535
26*
65535
26*
65535
FACTORY
SETTING
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Same as User F1 Key Action
Same as User Input 1 Alarm Mask
Same as User F1 Key Action
Same as User Input 1 Alarm Mask
Same as User F1 Key Action
Same as User Input 1 Alarm Mask
2
N/A
-1999
-1999
-1999
-1999
16
N/A
9999
9999
9999
9999
2
N/A
0
0
1000
1000
Read/Write
N/A
Read/Write
Read/Write
Read/Write
Read/Write
Number of Linearization Scaling Points
-1999
9999
0
Read/Write
-1999
-1999
9999
9999
0
0
Read/Write
Read/Write
ACCESS
251
Output 1 Assignment
0
23*
1
Read/Write
252
Output 1 Logic/Alarm Logic Mode
0
2
0
Read/Write
253
Output 1 Alarm Mask
0
65535
0
Read/Write
254
255
256
257
258
259
260
261
262
263
264
265
266
0
0
0
0
0
0
0
0
0
0
0
0
0
600
23*
2
65535
600
23*
2
65535
600
23*
2
65535
600
20
0
0
0
20
0
0
0
20
0
0
0
20
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
271
272
Output 1 Cycle Time
Output 2 Assignment
Output 2 Logic/Alarm Logic Mode
Output 2 Alarm Mask
Output 2 Cycle Time
Output 3 Assignment
Output 3 Logic/Alarm Logic Mode
Output 3 Alarm Mask
Output 3 Cycle Time
Output 4 Assignment
Output 4 Logic/Alarm Logic Mode
Output 4 Alarm Mask
Output 4 Cycle Time
Analog Output
Non-Linear Analog Output Scaling
Type
0
0
1
2
0
1
Read/Write
Read/Write
273
Assignment
0
6*
0
Read/Write
274
275
Analog Low Scale Value
Analog High Scale Value
-1999
-1999
9999
9999
0
1000
Read/Write
Read/Write
COMMENTS
1 = 0.001
1 = 1 Display Unit
1 = 0.001
1 = 1 Display Unit
Registers 40177-40202 and 40217-40242 hold values for Scaling Points 3
thru 15, and follow the same ordering as Scaling Point 1.
1 = 0.001
1 = 1 Display Unit
0 = NONE
7 = RSPt
14 = PHLd
21 = PEv4
1 = HEAt
8 = ILOC
15 = PAUS 22 = NA-1
2 = COOL
9 = tunE
16 = PErb
23 = NA-2
3 = ALr
10 = tndn
17 = PErt
24+ = FlexCard
4 = MAN
11 = tnFL
18 = PEv1
Assignments
5 = SPSL
12 = PCtL
19 = PEv2
6 = SPrP
13 = Prun
20 = PEv3
If Out Assignment ≠ ALr; 0 = NOR, 1 = REV
If Output Assignment = ALr; 0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 12 = A13
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 13 = A14
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11 Bit 14 = A15
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12 Bit 15 = A16
1 = 0.1 Second
Same as Output 1 Assignment
Same as Output 1 Logic/Alarm Logic Mode
Same as Output 1 Alarm Mask
1 = 0.1 Second
Same as Output 1 Assignment
Same as Output 1 Logic/Alarm Logic Mode
Same as Output 1 Alarm Mask
1 = 0.1 Second
Same as Output 1 Assignment
Same as Output 1 Logic/Alarm Logic Mode
Same as Output 1 Alarm Mask
1 = 0.1 Second
0 = No, 1 = Yes (Use Non-Linear Analog Output Scaling Parameters)
0 = 0-20 mA, 1 = 4-20 mA, 2 = 0-10 V
0 = NONE, 1 = PV, 2 = HI, 3 = LO, 4 = OP, 5 = SP (Active), 6 = dEv,
7+ = FlexCard Assignments
Display value that corresponds with 0 V, 0 mA or 4 mA output
Display value that corresponds with 10 V or 20 mA output
REGISTER
ADDRESS
276
277
REGISTER NAME
Update time
Probe Failure Action (TC or RTD only)
Non-Linear Analog Output Scaling
List A List B Analog Output Scaling Point Parameters
1721
1761 Number of Scaling Points
1722
1762 Reserved
1723
1763 Output Value for Scaling Point 1
1724
1764 Parameter Value for Scaling Point 1
1725 to 1765 to
Scaling Pts. 2 thru 16 Values
1754
1794
DISPLAY CONFIGURATION PARAMETERS
General
281
Display Intensity Level
282
Display Contrast Level
283
Display Update (readings per second)
284
Configuration Mode
LOW
LIMIT
0
0
HIGH
LIMIT
100
1
FACTORY
SETTING
0
0
Read/Write
Read/Write
0 = Max update rate, 1 = 0.1 Second
0 = Low Scale, 1 = High Scale (only applies for TC or RTD input)
2
N/A
0
-1999
16
N/A
2000
9999
2
N/A
0
0
Read/Write
N/A
Read/Write
Read/Write
Number of Linearization Scaling Points
0
0
0
0
4
15
4
1
4
5
1
1
Read/Write
Read/Write
Read/Write
Read/Write
0 = Min.(off), 4 = Max.
ACCESS
Hardware Label Mnemonic
COMMENTS
1 = 0.01
1 = 1 Analog Output Assignment value unit
Registers 41725-41754 and 41765-41794 hold values for Scaling Points 2
thru 16, and follow the same ordering as Scaling Point 1.
0 = 1, 1 = 2, 2 = 5, 3 = 10, 4 = 20
0 = Advanced, 1 = Basic (Caution: Affects other parameters, see manual)
Adds a user programmable hardware label mnemonic to all PAX2C
line 2 parameters in main, parameter, and hidden display loops when
programmed (non-blank).
Label Mnemonic Characters
0=
9=I
18 = Q
27 = Z
36 = 8
45 = m(r)
54 = ]
1 = A 10 = J
19 = R
28 = 0
37 = 9
46 = o
55 = /
2 = b 11 = K
20 = S
29 = 1
38 = a
47 = q
56 = º
3 = C 12 = L
21 = t
30 = 2
39 = c
48 = r
57 = _
4 = d 13 = M(l) 22 = U
31 = 3
40 = e
49 = u
5 = E 14 = M(r) 23 = V
32 = 4
41 = g
50 = w(r)
6 = F 15 = N
24 = W(l) 33 = 5
42 = h
51 = 7 = G 16 = O
25 = W(r) 34 = 6
43 = i
52 = =
8 = H 17 = P
26 = Y
35 = 7
44 = n
53 = [
See Hardware Label Character 1
See Hardware Label Character 1
286
Hardware Label Character 1
0
57
0
Read/Write
287
288
0
0
57
57
0
0
Read/Write
Read/Write
291
292
293
294
295
296
297
298
299
Hardware Label Character 2
Hardware Label Character 3
Line 1
Line 1 Display Assignment
Line 1 Default Display Color
Deprecated
Deprecated
Deprecated
Deprecated
Line 1 Bargraph Assignment
Line 1 Bargraph Low Scale Value
Line 1 Bargraph High Scale Value
0
0
3*
2
1
2
Read/Write
Read/Write
0 = NONE, 1 = PV, 2 = HI, 3 = LO, 4+ = FlexCard Assignments
0 = Grn, 1 = OrNG, 2 = rEd
See Registers 111-114 for Input Units programming
0
0
0
3*
9999
9999
1
0
1000
Read/Write
Read/Write
Read/Write
0 = NONE, 1 = OP, 2 = dEv, 3 = SP, 4+ = FlexCard Assignments
300
Line 1 Green Backlight Assignment
0
25*
0
Read/Write
301
Line 1 Green Backlight Alarm Logic Mode
0
2
0
Read/Write
302
Line 1 Green Backlight Alarm Mask
0
65535
0
Read/Write
303
Line 1 Orange Backlight Assignment
0
25*
0
Read/Write
0 = NONE 5 = ALr
10 = ILOC 15 = Prun 20 = PEv1 25 = NA-2
1 = Out1 6 = MAN 11 = tunE 16 = PHLd 21 = PEv2 26+ = FlexCard
2 = Out2 7 = SPSL 12 = tndn 17 = PAUS 22 = PEv3
Assignments
3 = Out3 8 = SPrP 13 = tnFL 18 = PErb 23 = PEv4
4 = Out4 9 = RSPt 14 = PCtL 19 = PErt
24 = NA-1
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 12 = A13
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 13 = A14
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11 Bit 14 = A15
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12 Bit 15 = A16
Same as Line 1 Green Backlight Assignment
REGISTER
ADDRESS
304
305
306
307
308
309
310
311
312
313
314
315
316
317
REGISTER NAME
LOW
LIMIT
0
0
0
0
0
0
0
0
0
0
0
0
0
0
HIGH
LIMIT
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
FACTORY
SETTING
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
Same as Line 1 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
Same as Line 1 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
Same as Line 1 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
Same as Line 1 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
0
2
0
Read/Write
0 = Grn, 1 = OrNG, 2 = rEd
See registers 111-114 for Input Unit's programming
See registers 111-114 for Input Unit's programming
See registers 111-114 for Input Unit's programming
See registers 111-114 for Input Unit's programming
0 = NONE, 1 = OP, 2 = dEv, 3 = SP, 4 = OP ANy,
6 = SP ANy, 7+ = FlexCard Assignments
ACCESS
331
332
333
334
335
Line 1 Orange Backlight Alarm Logic Mode
Line 1 Orange Backlight Alarm Mask
Line 1 Red Backlight Assignment
Line 1 Red Backlight Alarm Logic Mode
Line 1 Red Backlight Alarm Mask
Line 1 Green-Orange Backlight Assignment
Line 1 Green-Orange Backlight Alarm Logic Mode
Line 1 Green-Orange Backlight Alarm Mask
Line 1 Red-Orange Backlight Assignment
Line 1 Red-Orange Backlight Alarm Logic Mode
Line 1 Red-Orange Backlight Alarm Mask
Line 1 Red-Green Backlight Assignment
Line 1 Red-Green Backlight Alarm Logic Mode
Line 1 Red-Green Backlight Alarm Mask
Line 2
Line 2 Default Display Color
Deprecated
Deprecated
Deprecated
Deprecated
336
Line 2 Bargraph Assignment
0
6*
2
Read/Write
337
338
Line 2 Bargraph Low Scale Value
Line 2 Bargraph High Scale Value
0
0
9999
9999
0
100
Read/Write
Read/Write
339
Line 2 Green Backlight Assignment
0
25*
0
Read/Write
340
Line 2 Green Backlight Alarm Logic Mode
0
2
0
Read/Write
341
Line 2 Green Backlight Alarm Mask
0
65535
0
Read/Write
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
Line 2 Orange Backlight Assignment
Line 2 Orange Backlight Alarm Logic Mode
Line 2 Orange Backlight Alarm Mask
Line 2 Red Backlight Assignment
Line 2 Red Backlight Alarm Logic Mode
Line 2 Red Backlight Alarm Mask
Line 2 Green-Orange Backlight Assignment
Line 2 Green-Orange Backlight Alarm Logic Mode
Line 2 Green-Orange Backlight Alarm Mask
Line 2 Red-Orange Backlight Assignment
Line 2 Red-Orange Backlight Alarm Logic Mode
Line 2 Red-Orange Backlight Alarm Mask
Line 2 Red-Green Backlight Assignment
Line 2 Red-Green Backlight Alarm Logic Mode
Line 2 Red-Green Backlight Alarm Mask
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
COMMENTS
5 = dEv ANy,
0 = NONE 5 = ALr
10 = ILOC 15 = Prun 20 = PEv1 25 = NA-2
1 = Out1 6 = MAN 11 = tunE 16 = PHLd 21 = PEv2 26+ = FlexCard
2 = Out2 7 = SPSL 12 = tndn 17 = PAUS 22 = PEv3
Assignments
3 = Out3 8 = SPrP 13 = tnFL 18 = PErb 23 = PEv4
4 = Out4 9 = RSPt 14 = PCtL 19 = PErt
24 = NA-1
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 12 = A13
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 13 = A14
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11 Bit 14 = A15
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12 Bit 15 = A16
Same as Line 2 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 2 Green Backlight Alarm Mask
Same as Line 2 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 2 Green Backlight Alarm Mask
Same as Line 2 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 2 Green Backlight Alarm Mask
Same as Line 2 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 2 Green Backlight Alarm Mask
Same as Line 2 Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 2 Green Backlight Alarm Mask
REGISTER
ADDRESS
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
COMMENTS
0
0
2
1
0
1
Read/Write
Read/Write
0 = Grn, 1 = OrNG, 2 = rEd
0 = Off, 1 = On
0=
9=I
18 = Q
27 = Z
36 = 8
45 = m(r)
54 = ]
1 = A 10 = J
19 = R
28 = 0
37 = 9
46 = o
55 = /
2 = b 11 = K
20 = S
29 = 1
38 = a
47 = q
56 = º
3 = C 12 = L
21 = t
30 = 2
39 = c
48 = r
57 = _
4 = d 13 = M(l) 22 = U
31 = 3
40 = e
49 = u
5 = E 14 = M(r) 23 = V
32 = 4
41 = g
50 = w(r)
6 = F 15 = N
24 = W(l) 33 = 5
42 = h
51 = 7 = G 16 = O
25 = W(r) 34 = 6
43 = i
52 = =
8 = H 17 = P
26 = Y
35 = 7
44 = n
53 = [
0 = nor, 1 = rEv, 2 = FLSh
0 = NONE 5 = ALr
10 = ILOC 15 = Prun 20 = PEv1 25 = NA-2
1 = Out1 6 = MAN 11 = tunE 16 = PHLd 21 = PEv2 26+ = FlexCard
2 = Out2 7 = SPSL 12 = tndn 17 = PAUS 22 = PEv3
Assignments
3 = Out3 8 = SPrP 13 = tnFL 18 = PErb 23 = PEv4
4 = Out4 9 = RSPt 14 = PCtL 19 = PErt
24 = NA-1
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 12 = A13
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 13 = A14
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11 Bit 14 = A15
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12 Bit 15 = A16
Same as UA 1 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 1 Assignment Alarm Mask
Same as UA 1 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 1 Assignment Alarm Mask
Same as UA 1 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 1 Assignment Alarm Mask
Same as UA 1 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 1 Assignment Alarm Mask
Same as UA 1 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 1 Assignment Alarm Mask
Same as UA 1 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 1 Assignment Alarm Mask
361
362
Universal Annunciator 1
UA 1 Default Display Color
UA 1 Units Mnemonic
363
UA 1 Units Digit 1 (Left)
0
57
16
Read/Write
364
UA 1 Units Digit 2 (Right)
0
57
29
Read/Write
365
UA 1 Units Logic Mode (Active)
0
2
0
Read/Write
366
UA 1 Units Assignment
0
25*
1
Read/Write
367
UA 1 Assignment Alarm Logic Mode
0
2
0
Read/Write
368
UA 1 Assignment Alarm Mask
0
65535
0
Read/Write
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
391
392
393
394
395
UA 1 Green Backlight Assignment
UA 1 Green Backlight Alarm Logic Mode
UA 1 Green Backlight Alarm Mask
UA 1 Orange Backlight Assignment
UA 1 Orange Backlight Alarm Logic Mode
UA 1 Orange Backlight Alarm Mask
UA 1 Red Backlight Assignment
UA 1 Red Backlight Alarm Logic Mode
UA 1 Red Backlight Alarm Mask
UA 1 Green-Orange Backlight Assignment
UA 1 Green-Orange Backlight Alarm Logic Mode
UA 1 Green-Orange Backlight Alarm Mask
UA 1 Red-Orange Backlight Assignment
UA 1 Red-Orange Backlight Alarm Logic Mode
UA 1 Red-Orange Backlight Alarm Mask
UA 1 Red-Green Backlight Assignment
UA 1 Red-Green Backlight Alarm Logic Mode
UA 1 Red-Green Backlight Alarm Mask
Universal Annunciator 2
UA 2 Default Display Color
UA 2 Units Mnemonic
UA 2 Units Digit 1 (Left)
UA 2 Units Digit 2 (Right)
UA 2 Units Logic Mode (Active)
0
0
0
0
0
2
1
57
57
2
0
1
1
29
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
396
UA 2 Units Assignment
0
25*
5
Read/Write
0 = Grn, 1 = OrNG, 2 = rEd
0 = Off, 1 = On
Same as UA1 Units Selection
0 = nor, 1 = rEv, 2 = FLSh
0 = NONE 5 = ALr
10 = ILOC
1 = Out1 6 = MAN 11 = tunE
2 = Out2 7 = SPSL 12 = tndn
3 = Out3 8 = SPrP 13 = tnFL
4 = Out4 9 = RSPt 14 = PCtL
15 = Prun
16 = PHLd
17 = PAUS
18 = PErb
19 = PErt
20 = PEv1 25 = NA-2
21 = PEv2 26+ = FlexCard
22 = PEv3
Assignments
23 = PEv4
24 = NA-1
REGISTER
ADDRESS
397
REGISTER NAME
UA 2 Assignment Alarm Logic Mode
LOW
LIMIT
0
HIGH
LIMIT
2
FACTORY
SETTING
0
Read/Write
ACCESS
398
UA 2 Assignment Alarm Mask
0
65535
1
Read/Write
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
0
0
0
0
0
0
5
0
1
0
0
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
421
422
423
424
425
UA 2 Green Backlight Assignment
UA 2 Green Backlight Alarm Logic Mode
UA 2 Green Backlight Alarm Mask
UA 2 Orange Backlight Assignment
UA 2 Orange Backlight Alarm Logic Mode
UA 2 Orange Backlight Alarm Mask
UA 2 Red Backlight Assignment
UA 2 Red Backlight Alarm Logic Mode
UA 2 Red Backlight Alarm Mask
UA 2 Green-Orange Backlight Assignment
UA 2 Green-Orange Backlight Alarm Logic Mode
UA 2 Green-Orange Backlight Alarm Mask
UA 2 Red-Orange Backlight Assignment
UA 2 Red-Orange Backlight Alarm Logic Mode
UA 2 Red-Orange Backlight Alarm Mask
UA 2 Red-Green Backlight Assignment
UA 2 Red-Green Backlight Alarm Logic Mode
UA 2 Red-Green Backlight Alarm Mask
Universal Annunciator 3
UA 3 Default Display Color
UA 3 Units Mnemonic
UA 3 Units Digit 1 (Left)
UA 3 Units Digit 2 (Right)
UA 3 Units Logic Mode (Active)
0
0
0
0
0
2
1
57
57
2
0
1
1
30
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
426
UA 3 Units Assignment
0
25*
5
Read/Write
427
UA 3 Assignment Alarm Logic Mode
0
2
0
Read/Write
428
UA 3 Assignment Alarm Mask
0
65535
2
Read/Write
429
430
431
432
433
434
435
436
437
438
439
440
441
UA 3 Green Backlight Assignment
UA 3 Green Backlight Alarm Logic Mode
UA 3 Green Backlight Alarm Mask
UA 3 Orange Backlight Assignment
UA 3 Orange Backlight Alarm Logic Mode
UA 3 Orange Backlight Alarm Mask
UA 3 Red Backlight Assignment
UA 3 Red Backlight Alarm Logic Mode
UA 3 Red Backlight Alarm Mask
UA 3 Green-Orange Backlight Assignment
UA 3 Green-Orange Backlight Alarm Logic Mode
UA 3 Green-Orange Backlight Alarm Mask
UA 3 Red-Orange Backlight Assignment
0
0
0
0
0
0
0
0
0
0
0
0
0
25*
2
65535
25*
2
65535
25**
2
65535
25
2
65535
25*
0
0
0
0
0
0
5
0
2
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
COMMENTS
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12
Same as UA 2 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 2 Assignment Alarm Mask
Same as UA 2 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 2 Assignment Alarm Mask
Same as UA 2 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 2 Assignment Alarm Mask
Same as UA 2 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 2 Assignment Alarm Mask
Same as UA 2 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 2 Assignment Alarm Mask
Same as UA 2 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 2 Assignment Alarm Mask
Bit 12 = A13
Bit 13 = A14
Bit 14 = A15
Bit 15 = A16
0 = Grn, 1 = OrNG, 2 = rEd
0 = Off, 1 = On
Same as UA1 Units Selection
0 = nor, 1 = rEv, 2 = FLSh
0 = NONE 5 = ALr
10 = ILOC 15 = Prun 20 = PEv1 25 = NA-2
1 = Out1 6 = MAN 11 = tunE 16 = PHLd 21 = PEv2 26+ = FlexCard
2 = Out2 7 = SPSL 12 = tndn 17 = PAUS 22 = PEv3
Assignments
3 = Out3 8 = SPrP 13 = tnFL 18 = PErb 23 = PEv4
4 = Out4 9 = RSPt 14 = PCtL 19 = PErt
24 = NA-1
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1
Bit 4 = A5
Bit 8 = A9
Bit 12 = A13
Bit 1 = A2
Bit 5 = A6
Bit 9 = A10
Bit 13 = A14
Bit 2 = A3
Bit 6 = A7
Bit 10 = A11
Bit 14 = A15
Bit 3 = A4
Bit 7 = A8
Bit 11 = A12
Bit 15 = A16
Same as UA 3 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 3 Assignment Alarm Mask
Same as UA 3 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 3 Assignment Alarm Mask
Same as UA 3 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 3 Assignment Alarm Mask
Same as UA 3 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 3 Assignment Alarm Mask
Same as UA 3 Units Assignment
REGISTER
ADDRESS
442
443
444
445
446
REGISTER NAME
LOW
LIMIT
0
0
0
0
0
HIGH
LIMIT
2
65535
25*
2
65535
FACTORY
SETTING
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 3 Assignment Alarm Mask
Same as UA 3 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 3 Assignment Alarm Mask
0
0
0
0
0
2
1
57
57
2
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = Grn, 1 = OrNG, 2 = rEd
0 = Off, 1 = On
Same as UA1 Units Selection
ACCESS
451
452
453
454
455
UA 3 Red-Orange Backlight Alarm Logic Mode
UA 3 Red-Orange Backlight Alarm Mask
UA 3 Red-Green Backlight Assignment
UA 3 Red-Green Backlight Alarm Logic Mode
UA 3 Red-Green Backlight Alarm Mask
Universal Annunciator 4
UA 4 Default Display Color
UA 4 Units Mnemonic
UA 4 Units Digit 1 (Left)
UA 4 Units Digit 2 (Right)
UA 4 Units Logic Mode (Active)
456
UA 4 Units Assignment
0
25*
0
Read/Write
457
UA 4 Assignment Alarm Logic Mode
0
2
0
Read/Write
458
UA 4 Assignment Alarm Mask
0
65535
0
Read/Write
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
25*
2
65535
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
501
UA 4 Green Backlight Assignment
UA 4 Green Backlight Alarm Logic Mode
UA 4 Green Backlight Alarm Mask
UA 4 Orange Backlight Assignment
UA 4 Orange Backlight Alarm Logic Mode
UA 4 Orange Backlight Alarm Mask
UA 4 Red Backlight Assignment
UA 4 Red Backlight Alarm Logic Mode
UA 4 Red Backlight Alarm Mask
UA 4 Green-Orange Backlight Assignment
UA 4 Green-Orange Backlight Alarm Logic Mode
UA 4 Green-Orange Backlight Alarm Mask
UA 4 Red-Orange Backlight Assignment
UA 4 Red-Orange Backlight Alarm Logic Mode
UA 4 Red-Orange Backlight Alarm Mask
UA 4 Red-Green Backlight Assignment
UA 4 Red-Green Backlight Alarm Logic Mode
UA 4 Red-Green Backlight Alarm Mask
Mnemonics
Mnemonic Default Display Color
0
2
0
Read/Write
502
Mnemonic Green Backlight Assignment
0
25*
0
Read/Write
503
Mnemonic Green Backlight Alarm Logic Mode
0
2
0
Read/Write
504
Mnemonic Green Backlight Alarm Mask
0
65535
0
Read/Write
505
Mnemonic Orange Backlight Assignment
0
25*
0
Read/Write
COMMENTS
0 = nor, 1 = rEv, 2 = FLSh
0 = NONE 5 = ALr
10 = ILOC 15 = Prun 20 = PEv1 25 = NA-2
1 = Out1 6 = MAN 11 = tunE 16 = PHLd 21 = PEv2 26+ = FlexCard
2 = Out2 7 = SPSL 12 = tndn 17 = PAUS 22 = PEv3
Assignments
3 = Out3 8 = SPrP 13 = tnFL 18 = PErb 23 = PEv4
4 = Out4 9 = RSPt 14 = PCtL 19 = PErt
24 = NA-1
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1
Bit 4 = A5
Bit 8 = A9
Bit 12 = A13
Bit 1 = A2
Bit 5 = A6
Bit 9 = A10
Bit 13 = A14
Bit 2 = A3
Bit 6 = A7
Bit 10 = A11
Bit 14 = A15
Bit 3 = A4
Bit 7 = A8
Bit 11 = A12
Bit 15 = A16
Same as UA 4 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 4 Assignment Alarm Mask
Same as UA 4 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 4 Assignment Alarm Mask
Same as UA 4 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 4 Assignment Alarm Mask
Same as UA 4 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 4 Assignment Alarm Mask
Same as UA 4 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 4 Assignment Alarm Mask
Same as UA 4 Units Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as UA 4 Assignment Alarm Mask
0 = Grn, 1 = OrNG, 2 = rEd
0 = NONE 5 = ALr
10 = ILOC 15 = Prun 20 = PEv1 25 = NA-2
1 = Out1 6 = MAN 11 = tunE 16 = PHLd 21 = PEv2 26+ = FlexCard
2 = Out2 7 = SPSL 12 = tndn 17 = PAUS 22 = PEv3
Assignments
3 = Out3 8 = SPrP 13 = tnFL 18 = PErb 23 = PEv4
4 = Out4 9 = RSPt 14 = PCtL 19 = PErt
24 = NA-1
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 12 = A13
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 13 = A14
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11 Bit 14 = A15
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12 Bit 15 = A16
Same as Mnemonic Green Backlight Assignment
REGISTER
ADDRESS
506
507
508
509
510
511
REGISTER NAME
LOW
LIMIT
0
0
0
0
0
0
HIGH
LIMIT
2
65535
25*
2
65535
25*
FACTORY
SETTING
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
Same as Mnemonic Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
Same as Mnemonic Green Backlight Assignment
0
2
0
Read/Write
0 = SINGLE, 1 = AND, 2 = OR
0
0
65535
25*
0
0
Read/Write
Read/Write
Same as Line 1 Green Backlight Alarm Mask
Same as Mnemonic Green Backlight Assignment
0
2
0
Read/Write
0 = SINGLE, 1 = AND, 2 = OR
0
0
0
0
65535
25*
2
65535
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Same as Line 1 Green Backlight Alarm Mask
Same as Mnemonic Green Backlight Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Line 1 Green Backlight Alarm Mask
0
21
0
Read/Write
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
ACCESS
531
Mnemonic Orange Backlight Alarm Logic Mode
Mnemonic Orange Backlight Alarm Mask
Mnemonic Red Backlight Assignment
Mnemonic Red Backlight Alarm Logic Mode
Mnemonic Red Backlight Alarm Mask
Mnemonic Green-Orange Backlight Assignment
Mnemonic Green-Orange Backlight Alarm Logic
Mode
Mnemonic Green-Orange Backlight Alarm Mask
Mnemonic Red-Orange Backlight Assignment
Mnemonic Red-Orange Backlight Alarm Logic
Mode
Mnemonic Red-Orange Backlight Alarm Mask
Mnemonic Red-Green Backlight Assignment
Mnemonic Red-Green Backlight Alarm Logic Mode
Mnemonic Red-Green Backlight Alarm Mask
Line 2 Profile LOCS
Line 2 Profile Control Status Access
532
Line 2 Profile Segment Time Remaining Access
0
42
0
Read/Write
533
Line 2 Profile Cycle Count Access
0
42
0
Read/Write
534
Line 2 Profile Programming Access
0
42
0
Read/Write
541
Line 2 Display LOCS
Line 2 Input Display Access
0
21
0
Read/Write
542
Line 2 Maximum (Hi) Value Access
0
42
0
Read/Write
543
Line 2 Minimum (Lo) Value Access
0
42
0
Read/Write
512
513
514
515
516
517
518
519
Line 2 Display LOCS
551
Display Intensity Level Access
0
42
0
Read/Write
552
Display Contrast Level Access
0
42
0
Read/Write
Line 2 Alarm LOCS
561
Line 2 Alarm 1 Value Access
0
42
0
Read/Write
562
Line 2 Alarm 1 Band/Dev.Value Access
0
42
0
Read/Write
563
Line 2 Alarm 2 Value Access
0
42
0
Read/Write
564
Line 2 Alarm 2 Band/Dev.Value Access
0
42
0
Read/Write
565
Line 2 Alarm 3 Value Access
0
42
0
Read/Write
566
Line 2 Alarm 3 Band/Dev.Value Access
0
42
0
Read/Write
567
Line 2 Alarm 4 Value Access
0
42
0
Read/Write
568
Line 2 Alarm 4 Band/Dev.Value Access
0
42
0
Read/Write
COMMENTS
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
REGISTER
ADDRESS
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
569
Line 2 Alarm 5 Value Access
0
42
0
Read/Write
570
Line 2 Alarm 5 Band/Dev.Value Access
0
42
0
Read/Write
571
Line 2 Alarm 6 Value Access
0
42
0
Read/Write
572
Line 2 Alarm 6 Band/Dev.Value Access
0
42
0
Read/Write
573
Line 2 Alarm 7 Value Access
0
42
0
Read/Write
574
Line 2 Alarm 7 Band/Dev.Value Access
0
42
0
Read/Write
575
Line 2 Alarm 8 Value Access
0
42
0
Read/Write
576
Line 2 Alarm 8 Band/Dev.Value Access
0
42
0
Read/Write
577
Line 2 Alarm 9 Value Access
0
42
0
Read/Write
578
Line 2 Alarm 9 Band/Dev.Value Access
0
42
0
Read/Write
579
Line 2 Alarm 10 Value Access
0
42
0
Read/Write
580
Line 2 Alarm 10 Band/Dev.Value Access
0
42
0
Read/Write
581
Line 2 Alarm 11 Value Access
0
42
0
Read/Write
582
Line 2 Alarm 11 Band/Dev.Value Access
0
42
0
Read/Write
583
Line 2 Alarm 12 Value Access
0
42
0
Read/Write
584
Line 2 Alarm 12 Band/Dev.Value Access
0
42
0
Read/Write
585
Line 2 Alarm 13 Value Access
0
42
0
Read/Write
586
Line 2 Alarm 13 Band/Dev.Value Access
0
42
0
Read/Write
587
Line 2 Alarm 14 Value Access
0
42
0
Read/Write
588
Line 2 Alarm 14 Band/Dev.Value Access
0
42
0
Read/Write
589
Line 2 Alarm 15 Value Access
0
42
0
Read/Write
590
Line 2 Alarm 15 Band/Dev.Value Access
0
42
0
Read/Write
591
Line 2 Alarm 16 Value Access
0
42
0
Read/Write
592
Line 2 Alarm 16 Band/Dev.Value Access
0
42
0
Read/Write
Line 2 PID LOCS
601
Line 2 Actual Setpoint Value Access
0
42
2
Read/Write
602
Line 2 Setpoint 1 Value Access
0
42
0
Read/Write
COMMENTS
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
REGISTER
ADDRESS
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
603
Line 2 Setpoint 2 Value Access
0
42
0
Read/Write
604
Line 2 Setpoint List
0
40
0
Read/Write
605
Line 2 Remote Setpoint Value Access
0
42
0
Read/Write
606
Line 2 Output Power Value Access
0
42
0
Read/Write
607
Line 2 Deviation Value Access
0
42
0
Read/Write
608
Line 2 Setpoint Ramp Rate Value Access
0
42
0
Read/Write
609
610
611
Line 2 Remote Setpoint Ratio Value Access
Line 2 Remote Setpoint Bias Value Access
Line 2 Actual Offset Power Value Access
0
0
0
42
42
42
0
0
0
Read/Write
Read/Write
Read/Write
612
Line 2 Actual Proportional Band Value Access
0
42
0
Read/Write
613
Line 2 Actual Integral Time Value Access
0
42
0
Read/Write
614
Line 2 Actual Derivitive Time Value Access
0
42
0
Read/Write
615
Line 2 PS1 Offset Power Value Access
0
42
0
Read/Write
616
Line 2 PS1 Proportional Band Value Access
0
42
0
Read/Write
617
Line 2 PS1 Integral Time Value Access
0
42
0
Read/Write
618
Line 2 PS1 Derivitive Time Value Access
0
42
0
Read/Write
619
Line 2 PS2 Offset Power Value Access
0
42
0
Read/Write
620
Line 2 PS2 Proportional Band Value Access
0
42
0
Read/Write
621
Line 2 PS2 Integral Time Value Access
0
42
0
Read/Write
622
Line 2 PS2 Derivitive Time Value Access
0
42
0
Read/Write
623
Line 2 PID Set Selection Value Access
Line 2 Function LOCS
0
40
0
Read/Write
631
Line 2 Setpoint Selection Value Access
0
42
0
Read/Write
632
Line 2 Remote Setpoint Transfer (Local/Remote)
0
42
0
Read/Write
633
Line 2 Setpoint Ramping Disable
0
42
0
Read/Write
634
Line 2 Integral Lock Access
0
42
0
Read/Write
635
Line 2 Auto/Manual Mode Selection Value Access
0
42
0
Read/Write
636
Line 2 PID Bank Selection Value Access
0
42
0
Read/Write
637
Line 2 Tune Selection Value Access
0
42
0
Read/Write
638
639
Line 2 Reset Max Display Access
Line 2 Reset Min Display Access
0
0
21
21
0
0
Read/Write
Read/Write
COMMENTS
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 3 = PEnt, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC, 1 = drEd, 2 = dEnt, 3 = PrEd, 4 = PEnt, 5 = HrEd, 6 = HEnt
0 = LOC, 1 = drEd, 2 = dEnt, 3 = PrEd, 4 = PEnt, 5 = HrEd, 6 = HEnt
0 = LOC, 1 = drEd, 2 = dEnt, 3 = PrEd, 4 = PEnt, 5 = HrEd, 6 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 3 = PEnt, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt
REGISTER
ADDRESS
640
641
REGISTER NAME
HIGH
LIMIT
21
21
FACTORY
SETTING
0
0
Read/Write
Read/Write
ACCESS
COMMENTS
642
Line 2 List Selection Access
0
42
0
Read/Write
643
Line 2 Print Request Access
0
42
0
Read/Write
644
Line 2 Reset Alarm Mask
0
65535
0
Read/Write
645
Line 2 PID Run/Stop Access
0
42
0
Read/Write
646
647
Line 2 Profile Reset Event Access
Line 2 Profile Reset Event Mask
Max (HI)/Min(LO) Values
Max (HI) Capture Delay Time
Min (LO) Capture Delay Time
Line 2 Code Configuration
Line 2 Security Code Value
PID CONFIGURATION PARAMETERS
Control
Assign
Control Type
Control Mode
Manual Power
Remote Setpoint
Remote SP Assignment
Reserved for future use.
Ratio
Bias
Select Local / Remote SP
Setpoint
Setpoint Selection
Sepoint 1 Value
Setpoint 2 Value
Setpoint Lo Limit Value
Setpoint Hi Limit Value
Ramp Timebase
Ramp Rate
PID Parameters
PID Parameter Selection
PS1 Proportional Band
PS1 Integral Time
PS1 Derivative Time
PS1 Power Filter Value
PS1 Output Power Offset
PS2 Proportional Band
PS2 Integral Time
PS2 Derivative Time
PS2 Power Filter Value
PS2 Output Power Offset
0
0
21
15
0
0
Read/Write
Read/Write
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 12 = A13
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 13 = A14
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11 Bit 14 = A15
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12 Bit 15 = A16
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt
Bit 0 = Ev1, Bit 1 = Ev2, Bit 2 = Ev3, Bit 3 = Ev4
0
0
9999
9999
10
10
Read/Write
Read/Write
0 = Max Update Rate, 1 = 0.1Sec
0 = Max Update Rate, 1 = 0.1Sec
0
250
0
Read/Write
0
0
0
-1000
1*
2
1
1000
1
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
0 = NONE, 1 = PV, 2+ = Flex Card Assignments
0 = HEAt, 1 = COOL, 2 = both
0 = Auto, 1 = MAN
Output Power: Heat/Cool; * writable only in manual mode; 1 = 0.1%
0
4*
0
Read/Write
0 = NONE, 1 = SP, 2 = PV, 3 = OP, 4 = ScSP, 5+ = Flex Card Assignments
1
-1999
0
9999
9999
1
1000
0
0
Read/Write
Read/Write
Read/Write
1 = 0.1
1 = 1 Display Unit
0
-1999
-1999
-1999
-1999
0
0
5
9999
9999
9999
9999
3
9999
0
0
0
0
9999
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = SP1, 1 = SP2, 2 = SP3, 3 = SP4, 4 = SP5, 5 = SP6, 6 = SPu
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
0 = Off, 1 = Seconds, 2 = Minutes, 3 = Hours
1 = 0.1 Ramp Timebase unit
0
0
0
0
0
-1000
0
0
0
0
-1000
1
9999
65000
9999
600
1000
9999
65000
9999
600
1000
0
700
120
30
10
0
700
120
30
10
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = PS1 PID Values, 1 = Alternate PID Values
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 %; Applicable when PS1 Integral Time is 0
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 %; Applicable when PS2 Integral Time is 0
651
652
661
671
672
673
674
676
677
678
679
680
681
682
683
684
685
686
687
691
692
693
694
695
696
697
698
699
700
701
Line 2 Reset Max and Min Access
Line 2 Reset Alarm Access
LOW
LIMIT
0
0
0 = LOC, 1 = REM
REGISTER
ADDRESS
711
712
713
714
715
716
717
718
741
742
REGISTER NAME
Power Transfer
Input Fault Power Value
Output Deadband
Output Heat Gain
Heat Low Limit
Heat High Limit
Output Cool Gain
Cool Low Limit
Cool High Limit
ON/OFF Control
On-Off Hysteresis
On-Off Deadband
Tuning
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
-1999
-1000
0
0
0
0
0
0
2000
1000
5000
2000
2000
5000
2000
2000
0
0
1000
0
1000
1000
0
1000
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
0
-1999
500
9999
2
0
Read/Write
Read/Write
1 = 1 Display Unit
1 = 1 Display Unit
COMMENTS
751
Tuning Code
0
4
2
Read/Write
752
Auto-Tune Start
PID Setpoints
Setpoint 1 Value
Setpoint 2 Value
Setpoint 3 Value
Setpoint 4 Value
Setpoint 5 Value
Setpoint 6 Value
User Setpoint Value
PID Constants Sets (PSn)
SP1 / PID Set PS1 Constants
Setpoint 1
PS1 Proportional Band
PS1 Integral Time
PS1 Derivative Time
PS1 Power Filter Value
PS1 Output Power Offset
PS1 Heat Gain
PS1 Cool Gain
SP2 / PID Set PS2 Constants
SP3 /PID Set PS3 Constants
SP4 /PID Set PS4 Constants
SP5 /PID Set PS5 Constants
SP6 /PID Set PS6 Constants
Slave ID / GUID
0
1
0
Read/Write
0 = Very Aggressive, 1 = Aggressive, 2 = Default, 3 = Conservative,
4 = Very Conservative
0 = NO 1 = YES
-1999
-1999
-1999
-1999
-1999
-1999
-1999
9999
9999
9999
9999
9999
9999
9999
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1 = 1 Display Unit (Mirrors Register 682)
1 = 1 Display Unit (Mirrors Register 683)
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
-1999
0
0
0
0
-1000
0
0
9999
9999
65000
9999
600
1000
5000
5000
0
700
120
30
10
0
1000
1000
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Mirrors PS1 PID Constants, registers 692-696
1 = 1 Display Unit
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 %; Applicable when PS1 Integral Time is 0
1 = 0.1 %
1 = 0.1 %
Same order as SP1 /PID Set PS1 Constants (Register 801-807)
761
762
763
764
765
766
767
801-807
801
802
803
804
805
806
807
808
811-817
821-827
831-837
841-847
851-857
1001-1010
Slave ID
N/A
N/A
N/A
Read Only
1101-1116
GUID/Scratch
FACTORY SERVICE
Factory Service Registers
Math / Logic
Reserved for Math/Logic Operations
N/A
N/A
N/A
Read/Write
<'P' 'X'> <'2' 'C'> <'1' '5'> <2020h> <2020h> <'a' 'b'> <00h 'c'> <0040h>
<0040h> <0010h>
a = SP Card Status. '0'-No Card, '2'-Dual SP, '4'-Quad SP
b = Linear Card Status. "0"-Not Installled, "1"-Installed
c = Version Number (1.50 or higher)
<0040h> <0040h> = 64 Register Writes, 64 Register Reads (Max.)
<0010h> = 16 Register GUID/Scratch
Reserved (may be used in future RLC software)
N/A
N/A
N/A
Read/Write
Factory Use Only - Do Not Modify
1151-1156
1121-1200
REGISTER
ADDRESS
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
COMMENTS
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
1201
ALARM PARAMETERS
Alarm 1
Assign
0
1*
1
Read/Write
1202
Action
0
9
1
Read/Write
1203
1204
1205
1206
1207
1208
1209
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1221
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 2
Assign
0
1*
1
Read/Write
1222
Action
0
9
1
Read/Write
1223
1224
1225
1226
1227
1228
1229
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1241
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 3
Assign
0
1*
0
Read/Write
1242
Action
0
9
0
Read/Write
1243
1244
1245
1246
1247
1248
1249
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1261
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 4
Assign
0
1*
0
Read/Write
1262
Action
0
9
0
Read/Write
1263
1264
1265
1266
1267
1268
1269
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1281
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 5
Assign
0
1*
0
Read/Write
1282
Action
0
9
0
Read/Write
1283
1284
1285
Hysteresis Value
On Time Delay
Off Time Delay
1
0
0
9999
9999
9999
2
0
0
Read/Write
Read/Write
Read/Write
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
REGISTER
ADDRESS
1286
1287
1288
1289
REGISTER NAME
LOW
LIMIT
0
0
0
0
HIGH
LIMIT
1
2
1
1
FACTORY
SETTING
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0
1*
0
Read/Write
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
ACCESS
1301
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 6
Assign
1302
Action
0
9
0
Read/Write
1303
1304
1305
1306
1307
1308
1309
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1321
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 7
Assign
0
1*
0
Read/Write
1322
Action
0
9
0
Read/Write
1323
1324
1325
1326
1327
1328
1329
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1341
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 8
Assign
0
1*
0
Read/Write
1342
Action
0
9
0
Read/Write
1343
1344
1345
1346
1347
1348
1349
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1361
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 9
Assign
0
1*
0
Read/Write
1362
Action
0
9
0
Read/Write
1363
1364
1365
1366
1367
1368
1369
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1381
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 10
Assign
0
1*
0
Read/Write
1382
Action
0
9
0
Read/Write
COMMENTS
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
REGISTER
ADDRESS
1383
1384
1385
1386
1387
1388
1389
REGISTER NAME
LOW
LIMIT
1
0
0
0
0
0
0
HIGH
LIMIT
9999
9999
9999
1
2
1
1
FACTORY
SETTING
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0
1*
0
Read/Write
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
ACCESS
1401
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 11
Assign
1402
Action
0
9
0
Read/Write
1403
1404
1405
1406
1407
1408
1409
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1421
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 12
Assign
0
1*
0
Read/Write
1422
Action
0
9
0
Read/Write
1423
1424
1425
1426
1427
1428
1429
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1441
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 13
Assign
0
1*
0
Read/Write
1442
Action
0
9
0
Read/Write
1443
1444
1445
1446
1447
1448
1449
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1461
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 14
Assign
0
1*
0
Read/Write
1462
Action
0
9
0
Read/Write
1463
1464
1465
1466
1467
1468
1469
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
COMMENTS
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
REGISTER
ADDRESS
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
COMMENTS
0
1*
0
Read/Write
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
1481
Alarm 15
Assign
1482
Action
0
9
0
Read/Write
1483
1484
1485
1486
1487
1488
1489
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1501
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
Alarm 16
Assign
0
1*
0
Read/Write
1502
Action
0
9
0
Read/Write
1
0
0
0
0
0
0
9999
9999
9999
1
2
1
1
2
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = NONE, 1 = PV, 2+ = FlexCard Assignments
0 = NONE, 1 = AbHI, 2 = AbLO, 3 = AUHI, 4 = AULO, 5 = dEHI, 6 = dELO,
7 = bANd, 8 = bdIn, 9 = HCur
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
0 = Normal, 1 = Reverse
0 = Auto, 1 = Latch1, 2 = Latch2
0 = No, 1 = Yes
0 = Off, 1 = On (Applies for TC or RTD input)
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
-1999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
1503
1504
1505
1506
1507
1508
1509
List A
1551
1552
1553
1554
1555
1556
1557
1558
1559
1560
1561
1562
1563
1564
1565
1566
1567
1568
1569
1570
1571
1572
1573
1574
1575
1576
1577
Hysteresis Value
On Time Delay
Off Time Delay
Output Logic
Reset Action
Standby Operation
Probe Failure Action (TC or RTD Only)
ALARM SCALING PARAMETERS
List B Alarm Values
1651 Alarm 1 Value
1652 Alarm 2 Value
1653 Alarm 3 Value
1654 Alarm 4 Value
1655 Alarm 5 Value
1656 Alarm 6 Value
1657 Alarm 7 Value
1658 Alarm 8 Value
1659 Alarm 9 Value
1660 Alarm 10 Value
1661 Alarm 11 Value
1662 Alarm 12 Value
1663 Alarm 13 Value
1664 Alarm 14 Value
1665 Alarm 15 Value
1666 Alarm 16 Value
1667 Alarm 1 Band/Dev. Value
1668 Alarm 2 Band/Dev. Value
1669 Alarm 3 Band/Dev. Value
1670 Alarm 4 Band/Dev. Value
1671 Alarm 5 Band/Dev. Value
1672 Alarm 6 Band/Dev. Value
1673 Alarm 7 Band/Dev. Value
1674 Alarm 8 Band/Dev. Value
1675 Alarm 9 Band/Dev. Value
1676 Alarm 10 Band/Dev. Value
1677 Alarm 11 Band/Dev. Value
REGISTER
ADDRESS
1578
1678
1579
1679
1580
1680
1581
1681
1582
1682
REGISTER NAME
LOW
LIMIT
-1999
-1999
-1999
-1999
-1999
HIGH
LIMIT
9999
9999
9999
9999
9999
FACTORY
SETTING
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
Applicable only for Band or Deviation Alarm Action. 1 = 1 Display Unit
0
0
1
2
0
2
Read/Write
Read/Write
0 = Configuration, 1 = Serial
0 = RLC Protocol (ASCII), 1 = Modbus RTU, 2 = Modbus ASCII
0 = 1200, 1 = 2400, 2 = 4800, 3 = 9600, 4 = 19200,
5 = 38400
0 = 7 Bits, 1 = 8 Bits
0 = None, 1 = Even, 2 = Odd
RLC Protocol: 0-99
Modbus: 1-247
1 = 0.001 Second
0 = No, 1 = Yes (Not used when communications type is Modbus)
0 = No, 1 = Yes (Not used when communications type is Modbus) Bit 0 –
Print Input Value, Bit 1 – Print SP Value, Bit 2 – Print Setpoint Ramp Rate,
Bit 3 – Print Output Power, Bit 4 – Print Proportional Value, Bit 5 – Print
Integral Value, Bit 6 - Print Derivative Value, Bit 7 – Print Alarm Status, Bit
8 – Print Alarm 1 Value, Bit 9 – Print Alarm 2 Value, Bit 10 – Print Alarm 3
Value, Bit 11 – Print Alarm 4 Value, Bit 12 – Print Control Status Bits
Changing 41701-41710 will not update the PAX2C until this register
is written with a 1. After the write, the communicating device must be
changed to new PAX2C settings and this register returns to 0.
ACCESS
1701
1702
Alarm 12 Band/Dev. Value
Alarm 13 Band/Dev. Value
Alarm 14 Band/Dev. Value
Alarm 15 Band/Dev. Value
Alarm 16 Band/Dev. Value
SERIAL COMMUNICATION PARAMETERS
USB Mode
Type
1703
Baud Rate
0
5
5
Read/Write
1704
1705
Data Bits
Parity
1706
Address
Transmit Delay
Abbreviated Transmission (RLC only)
1
2
99
247
250
1
1
0
0
247
10
0
Read/Write
Read/Write
Read/Write
1707
1708
0
0
0
1
0
0
1709
Print Options (RLC only)
0
8191
1
Read/Write
1710
Load Serial Settings
0
1
0
Read/Write
5001
5002
5003
5004
5005
5006
5007
5008
PROFILE CONTROL
Profile 1 Cycle Count
Profile 1 Link to Profile
Profile 1 Deviation Error Value
Profile 1 Error Time
Profile 1 Power Cycle Status
Profile 1 PS2 SP Assignment
Profile 1 PS2 Process Deviation Error Value
Profile 1 PID Select
1
0
0
0
0
0
0
0
250
16
9999
9999
2
0*
9999
8
1
0
50
0
0
0
50
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
5009
Profile 1 End Action
0
9
0
Read/Write
5010
5011
Profile 1 End Segment
Profile 1 Last Profile
1
0
20
1
20
0
Read/Write
Read/Write
5021
5041
5061
5081
5101
5121
5141
5161
5181
5201
5221
5241
Profile 2 Registers
Profile 3 Registers
Profile 4 Registers
Profile 5 Registers
Profile 6 Registers
Profile 7 Registers
Profile 8 Registers
Profile 9 Registers
Profile 10 Registers
Profile 11 Registers
Profile 12 Registers
Profile 13 Registers
Read/Write
Read/Write
COMMENTS
1 - 249 = Number of times to run profile, 250 = Run Profile continuously
0 = No; 1-16 = Profile 1 to 16
1 = 1 process unit
1 = 0.1 Minute
0 = End per PEnd, 1 = Cont (Continue /Resume), 2 = Strt (Start)
0 = NONE; 1+ = FlexCard PID (Pid)
1 = 1 process unit
0 = NO; 1 = PS1 … 6 = PS6, 7 = SPSL, 8 = Auto
0 = End, 1 = StOP, 2 = OFF, 3 = SP1, 4 = SP2, 5 = SP3, 6 = SP4, 7 = SP5,
8 = SP6, 9 = SPu
Last Segment to be used
0 = NO (read only); 1 = yES
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
See Profile 1
REGISTER
ADDRESS
5261
5281
5301
REGISTER NAME
Profile 14 Registers
Profile 15 Registers
Profile 16 Registers
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
-1999
-1999
0
9999
9999
9999
0
0
0
Read/Write
Read/Write
Read/Write
0
0
4032 (0xFC0)
Read/Write
See Profile 1
See Profile 1
See Profile 1
To calculate specific register number of Segment y, for Profile x use
formula: Profile x Segment y register = 6000 + (x-1)*100 + (y-1)5 + Offset
Profile Segment Registers
6001
6101
6201
6301
6401
6501
6601
6701
6801
6901
7001
7101
7201
7301
7401
7501
Profile 1 Segment Registers
Profile 2 Segment Registers
Profile 3 Segment Registers
Profile 4 Segment Registers
Profile 5 Segment Registers
Profile 6 Segment Registers
Profile 7 Segment Registers
Profile 8 Segment Registers
Profile 9 Segment Registers
Profile 10 Segment Registers
Profile 11 Segment Registers
Profile 12 Segment Registers
Profile 13 Segment Registers
Profile 14 Segment Registers
Profile 15 Segment Registers
Profile 16 Segment Registers
1
2
3
Offset
Profile (x + 1) PS1 Setpoint Value
Profile (x + 1) PS2 Setpoint Value
Profile (x + 1) Time Value/Ramp Rate
4
Profile (x + 1) Mode Register
* Higher limit is applicable with FlexCard installed.
COMMENTS
1 = 1 process unit; Limited by Setpoint Limit Low and Setpoint Limit High
1 = 1 process unit; Limited by Setpoint Limit Low and Setpoint Limit High
1 = 0.1 minute or 1 = 1 PV Display Unit/Min (when Ramp/Rate)
Bit 11: Event Flag 4 State; 1 = ON, 0 = OFF
Bit 10: Event Flag 3 State; 1 = ON, 0 = OFF
Bit 9: Event Flag 2 State; 1 = ON, 0 = OFF
Bit 8: Event Flag 1 State; 1 = ON, 0 = OFF
Bit 7: 1 = 0.1 Min; 0 = 1 Min
Bit 6: 1 = Start Point Adjust; 0 = Start Point Adjust disabled
Bit 5:
Bit 4: 1 = Use Ramp Rate (Reg 3 is Ramp Rate); 0 = Reg 3 is Time Value
Bit 3: 1 = Error Delay when PS2 PV is above ScSP + Sc Error Value
Bit 2: 1 = Error Delay when PS2 PV is below ScSP - Sc Error Value
Bit 1: 1 = Error when PV above SP + Er-V
Bit 0: 1 = Error when PV below SP - Er-V
PX2FCA0 Modbus Register Table
REGISTER
ADDRESS v
REGISTER NAME
REVISED 2017-02-27
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
-1999
9999
N/A
Read Only
1 = 1 Display Unit
ADC Overrange Value = 1048576, Underrange Value = -1048576
-1999
9999
N/A
Read Only
1 = 1 Display Unit
-1999
9999
N/A
Read Only
1 = 1 Display Unit
-1999
-1999
9999
9999
N/A
N/A
Read/Write
Read Only
255
N/A
Read Only
1 = 1 Display Unit
1 = 1 Display Unit
Bit 8 Set = ADC Underrange,
Bit 7 Set = ADC Overrange.
Bit 6 Set = SP Ramping
Bit 5 Set = Auto Tune Fail
Bit 4 Set = Auto Tune Done
Bit 3:0 = Auto Tune Phase
Status of Solid-State Outputs. Bit State: 0 = OFF, 1 = ON.
Bit 3 = O4, Bit 2 = O3, Bit 1 = O2, Bit 0 = O1.
1 = 0.1%
1 = 0.1%
COMMENTS
4n001
4n002
4n003
4n004
4n005
4n006
4n007
4n008
FREQUENTLY USED REGISTERS
Input Process Value (Hi word)
Input Process Value (Lo word)
Input Process Maximum (Hi word)
Input Process Maximum (Lo word)
Input Process Minimum (Hi word)
Input Process Minimum (Lo word)
Active SP
Active Remote SP
4n009
Status Flags
0
4n010
Output Status Register
0
15
0
Read/Write
Heat Power
Cool Power
Integral Sum
Active Proportional Band
Active Integral Time
Active Derivative Time
Active Power Filter
Heat Gain
Cool Gain
Reserved
0
0
1000
1000
0
0
0
0
0
0
0
0
9999
65000
9999
60
5000
5000
700
120
30
10
1000
1000
Read Only
Read Only
Read Only
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
4n035
PID Control Flags
0
1000
0
Read/Write
4n041
Control Flags 2
0
118
0
Read/Write
4n071
4n072
4n073
4n074
4n075
4n076
4n077
INPUT PARAMETERS
Analog Input Parameters
Input Type
Input Square Root Linearization
Input Decimal Point
Input Rounding
Input Offset Value (Hi word)
Input Offset Value (Lo word)
Input Filter Value
0
0
0
0
1
1
3
6
0
0
3
0
Read/Write
Read/Write
Read/Write
Read/Write
0 = 0 to 10V DC, 1 = 0 to 20mA DC
0 = No, 1 = Yes
0 = 0, 1 = 0.0, 2 = 0.00, 3 = 0.000
0 = 1, 1 = 2, 2 = 5, 3 = 10, 4 = 20, 5 = 50, 6 = 100
-1999
9999
0
Read/Write
1 = 1 Display Unit
0
250
10
Read/Write
1 = 0.1 Second
4n011
4n012
4n013
4n014
4n015
4n016
4n017
4n018
4n019
4n020-4n024
: n = 1 + FlexCard Address
1 = 1 display unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1%
1 = 0.1%
Bit 9: Stop PID; 0=No, 1=Yes (Px2C V2+)
Bit 6-8: AutoTune; 0 = No, 1 = Yes, 2 = CS1 ... 7 = CS6
Bit 6: AutoTune; 0 = NO, 1 = YES
Bit 5: MAN; 0 = PID Auto Mode, 1 = PID Manual (User) Mode;
Bit 4: PSEL; 0 = PS1 PID, 1 = Alternate PID,
Bit 3: ILOC; 0 = Enable Integral Action, 1 = Disable Integral Action;
Bit 2: RSPt; 0 = Local SP, 1 = Remote SP;
Bit 1: SPSL; 0 = SP1, 1 = Req. SP2;
Bit 0: SPrP; 0 = SP Ramping Enable, 1 = SP Ramping Disable
Bit 4-6: PSEL; 0 = PS1 ... 5 = PS6, 6 = SPSL, 7 = Auto (PX2C V2+)
Bit 0-2: SPSL; 0 = SP1 ... 5 = SP6, 6 = SPu (Px2C Ver 2+)
SEE INPUT MODULE FOR PARAMETER DESCRIPTIONS
REGISTER
ADDRESS v
4n078
4n079
4n080
4n081
REGISTER NAME
HIGH
LIMIT
250
9999
9999
1
FACTORY
SETTING
10
0
0
0
ACCESS
4n082
Input Units Character 1
0
57
0
Read/Write
4n083
4n084
Input Units Character 2
Input Units Character 3
Input Scaling Point Parameters
Number of Scaling Points
Reserved
Scaling Pt.1 Input Value (Hi word)
Scaling Pt.1 Input Value (Lo word)
Scaling Pt.1 Display Value (Hi word)
Scaling Pt.1 Display Value (Lo word)
Scaling Pt.2 Input Value (Hi word)
Scaling Pt.2 Input Value (Lo word)
Scaling Pt.2 Display Value (Hi word)
Scaling Pt.2 Display Value (Lo word)
0
0
57
57
0
0
Read/Write
Read/Write
2
N/A
15
N/A
2
N/A
Read/Write
N/A
Number of Linearization Scaling Points
Reserved for future use
0
9999
0
Read/Write
1 = 0.001
-1999
9999
0
Read/Write
1 = 1 Display Unit
0
9999
1000
Read/Write
1 = 0.001
-1999
9999
1000
Read/Write
1 = 1 Display Unit
0 (input)
-1999 (dsp)
9999
0
Read/Write
Registers 40111-40162 hold values for Scaling Points 3 thru 15,
and follow the same ordering as Scaling Points 1 and 2.
0
21
0
Read/Write
Scaling Pts. 3 thru 15 Values
Read/Write
Read/Write
Read/Write
Read/Write
COMMENTS
1 = 1 display unit
0 = Max Update Rate, 1 = 0.1Sec
0 = Max Update Rate, 1 = 0.1Sec
0 = OFF, 1 = ON
Label Mnemonic Characters
0=
9=I
18 = Q
27 = Z
1 = A 10 = J
19 = R
28 = 0
2 = b 11 = K
20 = S
29 = 1
3 = C 12 = L
21 = t
30 = 2
4 = d 13 = M(l) 22 = U
31 = 3
5 = E 14 = M(r) 23 = V
32 = 4
6 = F 15 = N
24 = W(l) 33 = 5
7 = G 16 = O
25 = W(r) 34 = 6
8 = H 17 = P
26 = Y
35 = 7
See Input Units Character 1
See Input Units Character 1
4n101
4n102
4n103
4n104
4n105
4n106
4n107
4n108
4n109
4n110
4n111
thru 4n162
Input Filter Band Value
Max (HI) Capture Delay Time
Min (LO) Capture Delay Time
Display Input Units
LOW
LIMIT
0
0
0
0
4n201
DISPLAY CONFIGURATION PARAMETERS
Line 2 Input LOCS Parameters
Line 2 Input (PV) Display Access
4n202
Line 2 Maximum (Hi) Value Access
0
42
0
Read/Write
4n203
Line 2 Minimum (Lo) Value Access
0
42
0
Read/Write
Line 2 PID LOCS Parameters
4n211
Line 2 Actual Setpoint Value Access
0
42
0
Read/Write
4n212
4n213
4n214
4n215
Line 2 Setpoint Value Access
Line 2 Remote Setpoint Value Access
Line 2 Output Power Value Access
Line 2 Deviation Value Access
0
0
0
0
40
21
42
42
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
4n216
Line 2 Setpoint Ramping Value Access
0
42
0
Read/Write
4n217
Line 2 Remote Setpoint Ratio
0
42
0
Read/Write
4n218
Line 2 Remote Setpoint Bias
0
42
0
Read/Write
4n219
Line 2 Active Output Power Offset Access
0
42
0
Read/Write
: n = 1 + FlexCard Address
36 = 8
37 = 9
38 = a
39 = c
40 = e
41 = g
42 = h
43 = i
44 = n
45 = m(r)
46 = o
47 = q
48 = r
49 = u
50 = w(r)
51 = 52 = =
53 = [
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
54 = ]
55 = /
56 = º
57 = _
REGISTER
ADDRESS v
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
4n220
Line 2 Active Proportional Band Access
0
42
0
Read/Write
4n221
Line 2 Active Integral Time Access
0
42
0
Read/Write
4n222
Line 2 Active Derivative Time Access
0
42
0
Read/Write
4n223
0
40
0
Read/Write
4n231
4n232
4n233
Line 2 PID Set Selection
Line 2 Function LOCS Parameters
Line 2 Reset Max Display Access
Line 2 Reset Min Display Access
Line 2 Reset Max and Min Access
0
0
0
42
42
42
0
0
0
Read/Write
Read/Write
Read/Write
4n234
Line 2 Setpoint Selection Value Access
0
42
0
Read/Write
4n235
Line 2 Local / Remote Transfer Access
0
42
0
Read/Write
4n236
Line 2 Setpoint Ramping Disable
0
42
0
Read/Write
4n237
Line 2 Integral Lock Access
0
42
0
Read/Write
4n238
Line 2 Auto/Manual Mode Selection Value Access
0
42
0
Read/Write
4n239
Line 2 Run/Stop Selection Access
0
42
0
Read/Write
4n240
Line 2 PID Bank Selection Value Access
0
42
0
Read/Write
4n241
Line 2 Tune Selection Value Access
0
42
0
Read/Write
Hardware Label Mnemonic
4n246
Hardware Label Character 1
0
57
0
Read/Write
4n247
4n248
Hardware Label Character 2
Hardware Label Character 3
OUTPUT PARAMETERS
0
0
57
57
0
0
Read/Write
Read/Write
4n251
Output 1 Assignment
0
♦
0
Read/Write
4n252
Output 1 Alarm Logic Mode
0
2
0
Read/Write
4n253
Output 1 Alarm Mask
0
65535
0
Read/Write
4n254
Output 1 Cycle Time
0
600
20
Read/Write
: n = 1 + FlexCard Address
♦ PAX2 Unit and FlexCard dependent
COMMENTS
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
Replaces "FCx" in main, parameter, and hidden display loops when
programmed
Label Mnemonic Characters
0=
9=I
18 = Q
27 = Z
36 = 8
45 = m(r)
54 = ]
1 = A 10 = J
19 = R
28 = 0
37 = 9
46 = o
55 = /
2 = b 11 = K
20 = S
29 = 1
38 = a
47 = q
56 = º
3 = C 12 = L
21 = t
30 = 2
39 = c
48 = r
57 = _
4 = d 13 = M(l) 22 = U
31 = 3
40 = e
49 = u
5 = E 14 = M(r) 23 = V
32 = 4
41 = g
50 = w(r)
6 = F 15 = N
24 = W(l) 33 = 5
42 = h
51 = 7 = G 16 = O
25 = W(r) 34 = 6
43 = i
52 = =
8 = H 17 = P
26 = Y
35 = 7
44 = n
53 = [
See Hardware Label Character 1
See Hardware Label Character 1
Assignments dependent on PAX2 model in which a FlexCard is installed.
Output Assignment List order = Px2, FC1, FC2, FC3
Number of PX2FCA0 Output Assignments = 0
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 12 = A13
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 13 = A14
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11 Bit 14 = A15
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12 Bit 15 = A16
1 = 0.1 Second
REGISTER
ADDRESS v
4n255
4n256
4n257
4n258
4n259
4n260
4n261
4n262
4n263
4n264
4n265
4n266
4n301
4n302
4n303
4n304
REGISTER NAME
Output 2 Assignment
Output 2 Alarm Logic Mode
Output 2 Alarm Mask
Output 2 Cycle Time
Output 3 Assignment
Output 3 Alarm Logic Mode
Output 3 Alarm Mask
Output 3 Cycle Time
Output 4 Assignment
Output 4 Alarm Logic Mode
Output 4 Alarm Mask
Output 4 Cycle Time
PID CONFIGURATION PARAMETERS
Control Parameters
Assign
Control Type
Control Mode
Manual Power
Remote Setpoint Parameters
4n306
Remote SP Assignment
4n307
4n308
4n309
4n310
Reserved Register
Ratio
Bias
Select Local / Remote SP
Setpoint Parameters
Setpoint Selection
Sepoint 1 Value
Setpoint 2 Value
Setpoint Lo Limit Value
Setpoint Hi Limit Value
Ramp Timebase
Ramp Rate
PID Parameters
PID Parameter Selection
PS1 Proportional Band
PS1 Integral Time
PS1 Derivative Time
PS1 Power Filter Value
PS1 Output Power Offset
PS2 Proportional Band
PS2 Integral Time
PS2 Derivative Time
PS2 Power Filter Value
PS2 Output Power Offset
Power Transfer Parameters
Input Fault Power Value
Output Deadband
Output Heat Gain
4n311
4n312
4n313
4n314
4n315
4n316
4n317
4n321
4n322
4n323
4n324
4n325
4n326
4n327
4n328
4n329
4n330
4n331
4n341
4n342
4n343
: n = 1 + FlexCard Address
♦ PAX2 Unit and FlexCard dependent
LOW
LIMIT
0
0
0
0
0
0
0
0
0
0
0
0
HIGH
LIMIT
♦
2
65535
600
♦
2
65535
600
♦
2
65535
600
FACTORY
SETTING
0
0
0
20
0
0
0
20
0
0
0
20
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Same as Output 1 Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Output 1 Alarm Mask
1 = 0.1 Second
Same as Output 1 Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Output 1 Alarm Mask
1 = 0.1 Second
Same as Output 1 Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Output 1 Alarm Mask
1 = 0.1 Second
0
0
0
-1999
1*
2
1
2000
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
0 = NONE, 1 = P2C Process Value, 2+ = Flex Card Assignments; FCn Input
0 = Heat, 1 = Cool, 2 = Both
0 = Automatic, 1 = Manual
Output Power: Heat/Cool; 1 = 0.1%; *-writeable only in manual mode
0
1*
0
Read/Write
-32768
1
-1999
0
-32768
9999
9999
1
N/A
1000
0
0
0 = NONE, 1 = P2C SP, 2 = P2C PV, 3 = P2C OP, 4 = P2C ScSP, 5+ = Flex
Card Assignments ; FCn SP, FCn PV, FCn OP
Read/Write
Read/Write
Read/Write
1 = 0.1
1 = 1 Display Unit
0
-1999
-1999
-1999
-1999
0
0
1
9999
9999
9999
9999
3
9999
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = Setpoint 1, 1 = Setpoint 2
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
0 = Off, 1 = Seconds, 2 = Minutes, 3 = Hours
1 = 0.1 Ramp Timebase unit
0
0
0
0
0
-1000
0
0
0
0
-1000
1
9999
65000
9999
600
1000
9999
65000
9999
600
1000
0
40
120
30
10
0
40
120
30
10
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
0 = PS1, 1 = PS2, 2 = PS3, 3 = PS4, 4 = PS5, 5 = PS6, 6 = SPSL, 7 = Auto
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 %; Applicable when PS1 Integral Time is 0
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 %; Applicable when PS2 Integral Time is 0
-1999
-1000
0
2000
1000
5000
0
0
1000
Read/Write
Read/Write
Read/Write
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
ACCESS
COMMENTS
REGISTER
ADDRESS v
4n344
4n345
4n346
4n347
4n348
4n371
4n372
REGISTER NAME
Heat Low Limit
Heat High Limit
Output Cool Gain
Cool Low Limit
Cool High Limit
ON/OFF Control Parameters
On-Off Hysteresis
On-Off Deadband
Tuning Parameters
LOW
LIMIT
0
0
0
0
0
HIGH
LIMIT
2000
2000
5000
2000
2000
FACTORY
SETTING
0
1000
1000
0
1000
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
1 = 0.1 %
0
-1999
500
9999
0
0
Read/Write
Read/Write
1 = 1 Display Unit
1 = 1 Display Unit
ACCESS
COMMENTS
4n381
Tuning Code
0
4
2
Read/Write
4n382
Auto-Tune Start
Setpoints (SPn)
Setpoint 1 Value
Setpoint 2 Value
Setpoint 3 Value
Setpoint 4 Value
Setpoint 5 Value
Setpoint 6 Value
Setpoint SPu Value
PID Constants Sets (PSn)
PID Set PS1 Constants
Setpoint 1
PS1 Proportional Band
PS1 Integral Time
PS1 Derivative Time
PS1 Power Filter Value
PS1 Output Power Offset
PS1 Heat Gain
PS1 Cool Gain
PID Set PS2 Constants
PID Set PS3 Constants
PID Set PS4 Constants
PID Set PS5 Constants
PID Set PS6 Constants
0
1
0
Read/Write
0 = Very Aggressive, 1 = Aggressive, 2 = Default, 3 = Conservative,
4 = Very Conservative
0 = NO, 1 = YES
-1999
-1999
-1999
-1999
-1999
-1999
-1999
9999
9999
9999
9999
9999
9999
9999
0
0
0
0
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1 = 1 Display Unit (Mirrors Register 312)
1 = 1 Display Unit (Mirrors Register 313)
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
1 = 1 Display Unit
-1999
0
0
0
0
-1000
0
0
9999
9999
65000
9999
600
1000
5000
5000
0
700
120
30
10
0
1000
1000
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
1 = 1 Display Unit
1 = 1 Display Unit
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 Second
1 = 0.1 %; Applicable when PS1 Integral Time is 0
1 = 0.1 %
1 = 0.1 %
Same order as SP1 /PID Set PS1 Constants (Register 401-408)
4n391
4n392
4n393
4n394
4n395
4n396
4n397
4n401-4n408
4n401
4n402
4n403
4n404
4n405
4n406
4n407
4n408
4n411-4n418
4n421-4n428
4n431-4n438
4n441-4n448
4n451-4n458
PX2 USER INPUT / FUNCTION KEYS PARAMETERS
**
User Input Selection
0
"FlexCard
Dependent"
**
User Key Selection
0
"FlexCard
Dependent"
: n = 1 + FlexCard Address
** - See Modbus Table for PAX2 unit (FlexBus model) in which card is being installe
REFER TO PAX2 MANUAL FOR STARTING LOCATION OF FLEXCARD FUNCTIONS
(NUMBER OF PAX2 FUNCTIONS + 1)
n+1 = ILOC n+4 = SPSL n+7 = RSPt
n+10 = d-Lo n+13 = NA-1
n+2 = trnF
n+5 = PSEL n+8 = d-HI
n+11 = r-Lo
n+3 = RnSt
n+6 = SPrP
n+9 = r-HI
n+12 = r-HL
0
Read/Write
n = Starting location for FlexCard
Function List order = PAX2, FC1, FC2, FC3
Number of PX2FCA00 User Functions = 13
n+1 = ILOC
n+4 = SPSL n+7 = SPrP
n+10 = r-HL
n+2 = trnF
n+5 = RSPt n+8 = r-HI
n+11 = NA-1
n+3 = RnSt
n+6 = PSEL n+9 = r-Lo
0
Read/Write
n = Starting location for Flex Card
Function List order = PAX2, FC1, FC2, FC3
Number of PX2FCA00 Key Functions = 11
PX2FCA1 Modbus Register Table
REGISTER
ADDRESS v
REGISTER NAME
4n001
4n002
4n003
4n004
4n005
4n006
4n007
FREQUENTLY USED REGISTERS
Input Process Value (Hi word)
Input Process Value (Lo word)
Input Process Maximum (Hi word)
Input Process Maximum (Lo word)
Input Process Minimum (Hi word)
Input Process Minimum (Lo word)
Input Process Status Flags
4n008
Output Status Register
REVISED 2017-02-27
LOW
LIMIT
HIGH
LIMIT
FACTORY
SETTING
ACCESS
-1999
9999
N/A
Read Only
1 = 1 Display Unit
ADC Overrange Value = 1048576, Underrange Value = -1048576
-1999
9999
N/A
Read Only
1 = 1 Display Unit
-1999
9999
N/A
Read Only
1 = 1 Display Unit
0
255
N/A
Read Only
Bit 3 Set = ADC Underrange, Bit 2 Set = ADC Overrange.
0
15
0
Read/Write
Status of Solid-State Outputs. Bit State: 0=OFF, 1=ON.
Bit 3 = O4, Bit 2 = O3, Bit 1 = O2, Bit 0 = O1
* only outputs configured for ASGN=NONE are writeable; otherwise writes are
ignored
INPUT PARAMETERS
Analog Input Parameters
COMMENTS
SEE INPUT MODULE FOR PARAMETER DESCRIPTIONS
4n071
Heater Current Monitor
0
4*
1
Read/Write
4n072
4n073
4n074
4n075
4n076
4n077
4n078
4n079
4n080
4n081
Input Square Root Linearization
Input Decimal Point
Input Rounding
Input Offset Value (Hi word)
Input Offset Value (Lo word)
Input Filter Value
Input Filter Band Value
Max (HI) Capture Delay Time
Min (LO) Capture Delay Time
Display Input Units
0
0
0
1
3
6
0
1
0
Read/Write
Read/Write
Read/Write
0 = None, 1 = P2C Out1, 2 = P2C Out2, 3 = P2C Out3, 4=P2C Out4, 5+ =
FlexCard Outputs
0 = No, 1 = Yes
0 = 0, 1 = 0.0, 2 = 0.00, 3 = 0.000
0 = 1, 1 = 2, 2 = 5, 3 = 10, 4 = 20, 5 = 50, 6 = 100
-1999
9999
0
Read/Write
1 = 1 Display Unit
0
0
0
0
0
250
250
9999
9999
1
10
10
0
0
0
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
4n082
Input Units Character 1
0
57
0
Read/Write
4n083
4n084
Input Units Character 2
Input Units Character 3
Input Scaling Point Parameters
Number of Scaling Points
Reserved
Scaling Pt.1 Input Value (Hi word)
Scaling Pt.1 Input Value (Lo word)
Scaling Pt.1 Display Value (Hi word)
Scaling Pt.1 Display Value (Lo word)
Scaling Pt.2 Input Value (Hi word)
Scaling Pt.2 Input Value (Lo word)
Scaling Pt.2 Display Value (Hi word)
Scaling Pt.2 Display Value (Lo word)
0
0
57
57
0
0
Read/Write
Read/Write
1 = 0.1 Second
1 = 1 display unit
0 = Max Update Rate, 1 = 0.1Sec
0 = Max Update Rate, 1 = 0.1Sec
0 = OFF, 1 = ON
Label Mnemonic Characters
0=
9=I
18 = Q
27 = Z
1 = A 10 = J
19 = R
28 = 0
2 = b 11 = K
20 = S
29 = 1
3 = C 12 = L
21 = t
30 = 2
4 = d 13 = M(l) 22 = U
31 = 3
5 = E 14 = M(r) 23 = V
32 = 4
6 = F 15 = N
24 = W(l) 33 = 5
7 = G 16 = O
25 = W(r) 34 = 6
8 = H 17 = P
26 = Y
35 = 7
See Input Units Character 1
See Input Units Character 1
2
N/A
15
N/A
2
N/A
Read/Write
N/A
Number of Linearization Scaling Points
Reserved for future use
0
9999
0
Read/Write
1 = 0.001
-1999
9999
0
Read/Write
1 = 1 Display Unit
0
9999
1000
Read/Write
1 = 0.001
-1999
9999
1000
Read/Write
1 = 1 Display Unit
4n101
4n102
4n103
4n104
4n105
4n106
4n107
4n108
4n109
4n110
: n = 1 + FlexCard Address
36 = 8
37 = 9
38 = a
39 = c
40 = e
41 = g
42 = h
43 = i
44 = n
45 = m(r)
46 = o
47 = q
48 = r
49 = u
50 = w(r)
51 = 52 = =
53 = [
54 = ]
55 = /
56 = º
57 = _
REGISTER
ADDRESS v
4n111
thru 4n162
REGISTER NAME
Scaling Pts. 3 thru 15 Values
LOW
LIMIT
0 (input)
-1999 (dsp)
HIGH
LIMIT
FACTORY
SETTING
ACCESS
9999
0
Read/Write
4n201
DISPLAY CONFIGURATION PARAMETERS
Line 2 Input LOCS Parameters
Line 2 Input (PV) Display Access
0
21
0
Read/Write
4n202
Line 2 Maximum (Hi) Value Access
0
42
0
Read/Write
4n203
Line 2 Minimum (Lo) Value Access
0
42
0
Read/Write
4n231
4n232
4n233
Line 2 Function LOCS Parameters
Line 2 Reset Max Display Access
Line 2 Reset Min Display Access
Line 2 Reset Max and Min Access
0
0
0
42
42
42
0
0
0
Read/Write
Read/Write
Read/Write
Hardware Label Mnemonic
4n246
Hardware Label Character 1
0
57
0
Read/Write
4n247
4n248
Hardware Label Character 2
Hardware Label Character 3
OUTPUT PARAMETERS
0
0
57
57
0
0
Read/Write
Read/Write
4n251
Output 1 Assignment
0
0
Read/Write
4n252
Output 1 Alarm Logic Mode
0
PAX2
Unit and
FlexCard
dependent
2
0
Read/Write
4n253
Output 1 Alarm Mask
0
65535
0
Read/Write
4n254
4n255
4n256
4n257
4n258
4n259
4n260
4n261
4n262
4n263
4n264
4n265
4n266
Output 1 Cycle Time
Output 2 Assignment
Output 2 Alarm Logic Mode
Output 2 Alarm Mask
Output 2 Cycle Time
Output 3 Assignment
Output 3 Alarm Logic Mode
Output 3 Alarm Mask
Output 3 Cycle Time
Output 4 Assignment
Output 4 Alarm Logic Mode
Output 4 Alarm Mask
Output 4 Cycle Time
0
0
0
0
0
0
0
0
0
0
0
0
0
600
6
2
65535
600
6
2
65535
600
6
2
65535
600
20
0
0
0
20
0
0
0
20
0
0
0
20
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
Read/Write
: n = 1 + FlexCard Address
COMMENTS
Registers 40111-40162 hold values for Scaling Points 3 thru 15,
and follow the same ordering as Scaling Points 1 and 2.
0 = LOC; Bit 0 = drEd, Bit 2 = PrEd, Bit4 = HrEd; Other bits N/A
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 0 = drEd, Bit 1 = dEnt, Bit 2 = PrEd, Bit 3 = PEnt,
Bit4 = HrEd, Bit5 = HEnt
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
0 = LOC; Bit 1 = dEnt, Bit 3 = PEnt, Bit5 = HEnt; Other bits N/A
Replaces "FCx" in main, parameter, and hidden display loops when
programmed
Label Mnemonic Characters
0=
9=I
18 = Q
27 = Z
36 = 8
45 = m(r)
54 = ]
1 = A 10 = J
19 = R
28 = 0
37 = 9
46 = o
55 = /
2 = b 11 = K
20 = S
29 = 1
38 = a
47 = q
56 = º
3 = C 12 = L
21 = t
30 = 2
39 = c
48 = r
57 = _
4 = d 13 = M(l) 22 = U
31 = 3
40 = e
49 = u
5 = E 14 = M(r) 23 = V
32 = 4
41 = g
50 = w(r)
6 = F 15 = N
24 = W(l) 33 = 5
42 = h
51 = 7 = G 16 = O
25 = W(r) 34 = 6
43 = i
52 = =
8 = H 17 = P
26 = Y
35 = 7
44 = n
53 = [
See Hardware Label Character 1
See Hardware Label Character 1
Assignments dependent on PAX2 model in which FlexCard is installed.
Output Assignment List order = PX2, FC1, FC2, FC3
Number of PX2FCA1 Output Assignments = 0
0 = SINGLE, 1 = AND, 2 = OR
Bit 0 = A1 Bit 4 = A5 Bit 8 = A9
Bit 1 = A2 Bit 5 = A6 Bit 9 = A10
Bit 2 = A3 Bit 6 = A7 Bit 10 = A11
Bit 3 = A4 Bit 7 = A8 Bit 11 = A12
1 = 0.1 Second
Same as Output 1 Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Output 1 Alarm Mask
1 = 0.1 Second
Same as Output 1 Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Output 1 Alarm Mask
1 = 0.1 Second
Same as Output 1 Assignment
0 = SINGLE, 1 = AND, 2 = OR
Same as Output 1 Alarm Mask
1 = 0.1 Second
Bit 12 = A13
Bit 13 = A14
Bit 14 = A15
Bit 15 = A16
REGISTER
ADDRESS v
REGISTER NAME
LOW
LIMIT
HIGH
LIMIT
PX2 USER INPUT / FUNCTION KEYS PARAMETERS
**
User Input Selection
0
FlexCard
Dependent
**
User Key Selection
0
FlexCard
Dependent
: n = 1 + FlexCard Address
** - See Modbus Table for PAX2 unit (FlexBus model) in which card is being installed
FACTORY
ACCESS
COMMENTS
SETTING
REFER TO PAX2 MANUAL FOR STARTING LOCATION OF FLEXCARD FUNCTIONS
(NUMBER OF PAX2 FUNCTIONS + 1)
n+1 = d-HI
n+3 = d-Lo
n+5 = r-HL
n+2 = r-HI
n+4 = r-Lo
n+6 = NA-1
0
Read/Write n = Starting location for Flex Card
Function List order = PAX2, FC1, FC2, FC3
Number of PX2FCA01 User Functions = 6
n+1 = r-HI
n+2 = r-Lo
n+3 = r-HL
n+4 = NA-1
n = Starting location for Flex Card
0
Read/Write
Function List order = PAX2, FC1, FC2, FC3
Number of PX2FCA01 Key Functions = 4
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