Version 1.0
PN: 2042-8198
Page 63 of 75
DN: 10-32813
The Analog Input class provides another view into this class with some additional configuration
documented below:
Analog Input 4 (0x04), Instances 1-4
Member ID
Member Name
Data Type
Access
NV
Min
Max
Default
Comments / Description
1
0x01
Process Value
Same as C,M = { 0xD2, 0x01 }
2
0x02
Error Status
ENUM16
R
61: None
65: Open
4
0x04
Ambient Temperature
Same as C,M = { 0xD2, 0x09 }
5
0x05
Input Type
Same as C,M = { 0xD2, 0x08 }
12
0x0C
User Offset
Same as C,M = { 0xD3, 0x53 }
13
0x0D
User Gain
Same as C,M = { 0xD3, 0x52 }
14
0x0E
Filter Time (s)
FLOAT
RW
F
0
60
0
19
0x13
Counts
Same as C,M = { 0xD2, 0x04 }
20
0x14
Display Precision
ENUM16
RW
F
94
105: Whole
94: Tenths
40: Hundredths
96: Thousandths
21
0x15
Electrical Measurement
Same as C,M = { 0xD2, 0x03 }
22
0x16
Filtered Process Value
FLOAT
R
Process value after filtering (produced)
42
0x2A
Units
ENUM16
RW
F
1540
61: None
1540: Absolute Temperature
45
0x2D
GUI Location X
UINT16
RW
F
0
Object X location on GUI canvas
46
0x2E
GUI Location Y
UINT16
RW
F
0
Object Y location on GUI canvas
48
0x30
Name
STRING
RW
F
0
20
""
Object name
Calibration
The Calibration objects contain factory and user calibration parameters, nothing else. They complement
other objects and features. The instance is a 1:1 correlation to an object needing calibration data.
Instance 1 is always available. Only the following members apply if the model number is
NOT
RMAP-
8
AXX-XXXX. These members are used to calibrate the RTC battery voltage.
Calibration 211 (0xD3), Instance 1: RTC Battery Voltage
Member ID
Member Name
Data Type
Access
NV
Min
Max
Default
Comments / Description
84
0x54
Factory Gain
FLOAT
R
F
-3.40E+38
3.40E+38
3.223443E-03
85
0x55
Factory Offset
FLOAT
R
F
-3.40E+38
3.40E+38
0.7
Volts
86
0x56
User Gain
FLOAT
RW
F
-3.40E+38
3.40E+38
1.0
87
0x57
User Offset
FLOAT
RW
F
-3.40E+38
3.40E+38
0.0
Volts
Instances 1 through 4 are available if the model number is RMAP-
8
AXX-XXXX. The following members
hold the calibration tables for the various probe types and calibration for the probes themselves.
Calibration 211 (0xD3), Instance 1: OSENSA Table, Input 1
Member ID
Member Name
Data Type
Access
NV
Min
Max
Default
Comments / Description
1
0x01
Temperature 1
FLOAT
RW
F
-3.40E+38
3.40E+38
139.9854
Temperature (°C)
2
0x02
Temperature 2
FLOAT
RW
F
-3.40E+38
3.40E+38
134.945
Temperature (°C)
3
0x03
Temperature 3
FLOAT
RW
F
-3.40E+38
3.40E+38
124.9712
Temperature (°C)
4
0x04
Temperature 4
FLOAT
RW
F
-3.40E+38
3.40E+38
114.9642
Temperature (°C)
5
0x05
Temperature 5
FLOAT
RW
F
-3.40E+38
3.40E+38
104.943
Temperature (°C)
6
0x06
Temperature 6
FLOAT
RW
F
-3.40E+38
3.40E+38
94.95615
Temperature (°C)
7
0x07
Temperature 7
FLOAT
RW
F
-3.40E+38
3.40E+38
84.95515
Temperature (°C)
8
0x08
Temperature 8
FLOAT
RW
F
-3.40E+38
3.40E+38
74.95615
Temperature (°C)
9
0x09
Temperature 9
FLOAT
RW
F
-3.40E+38
3.40E+38
64.86
Temperature (°C)
10
0x0A
Temperature 10
FLOAT
RW
F
-3.40E+38
3.40E+38
54.96415
Temperature (°C)
11
0x0B
Temperature 11
FLOAT
RW
F
-3.40E+38
3.40E+38
44.97115
Temperature (°C)
12
0x0C
Temperature 12
FLOAT
RW
F
-3.40E+38
3.40E+38
34.98015
Temperature (°C)
Summary of Contents for RMA PLUS RMAP-2A Series
Page 1: ...Version 1 0 PN 2042 8198 Page 1 of 75 DN 10 32813 RMA PLUS User Manual...
Page 8: ...Version 1 0 PN 2042 8198 Page 8 of 75 DN 10 32813...
Page 11: ...Version 1 0 PN 2042 8198 Page 11 of 75 DN 10 32813 Figure 3 Ground Wire Location...
Page 26: ...Version 1 0 PN 2042 8198 Page 26 of 75 DN 10 32813 Figure 22 RMA PLUS via USBD MICRO SD root...
Page 27: ...Version 1 0 PN 2042 8198 Page 27 of 75 DN 10 32813 Figure 23 RMA PLUS via USBD NOR FLASH root...
Page 42: ...Version 1 0 PN 2042 8198 Page 42 of 75 DN 10 32813 Figure 37 Default web page Index html...
Page 75: ...Version 1 0 PN 2042 8198 Page 75 of 75 DN 10 32813...