Version: V00.0303Release Date: 2011-11-23

[Process Data]
[Standard Variables]
[Variables]
[Menus]

TS... series
Vendor ID 317 (0x013d) Vendor Logo
Vendor Name Turck
Vendor Text Turck
Vendor URL http://www.turck.com
Device ID 131328 (0x020100)
Communication
IO-Link Revision V1.0
Transmission Rate38400 bit/s (COM2)
Minimum Cycle Time 2 ms
SIO Mode Supported yes
Device Variant TS-400-LI2UPN8X-H1141
Description output 1: pnp/npn switch, output 2: current or pnp/npn switch
Product ID 6840007
Device Icon Device Icon
Device Symbol Device Symbol
Device Variant TS-500-LI2UPN8X-H1141
Description output 1: pnp/npn switch, output 2: current or pnp/npn switch
Product ID 6840015
Device Icon Device Icon
Device Symbol Device Symbol

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ProcessData id=PD_ProcessData

ProcessDataIn "Process value" id=PD_ProcessDataIn

bit length: 16
data type: 16-bit Record (subindex access not supported)
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 2 14-bit UInteger 0 = Underload, 16379 = Error, 16380 = Short-circuit output 2, 16381 = Reset in progress, 16382 = Measuring error, 16383 = Overload, 589..1279 = Overshoot, 1280..15103, 15104..15794 = Undershoot Process value
2 1 Boolean false = Off, true = On Switch 2
3 0 Boolean false = Off, true = On Switch 1
Octet 0
bit offset 15 14 13 12 11 10 9 8
subindex 1
element bit 13 12 11 10 9 8 7 6
Octet 1
bit offset 7 6 5 4 3 2 1 0
subindex 1 2 3
element bit 5 4 3 2 1 0    

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Standard Variable "Direct Parameters 1" index=0 id=V_DirectParameters_1

data type: 128-bit Record
access rights: ro
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 120 8-bit UInteger Reserved
2 112 8-bit UInteger Master Cycle Time
3 104 8-bit UInteger Min Cycle Time
4 96 8-bit UInteger Frame Capability
5 88 8-bit UInteger 16 IO-Link Version ID
6 80 8-bit UInteger Process Data Input Length
7 72 8-bit UInteger Process Data Output Length
8 64 8-bit UInteger Vendor ID 1
9 56 8-bit UInteger Vendor ID 2
10 48 8-bit UInteger Device ID 1
11 40 8-bit UInteger Device ID 2
12 32 8-bit UInteger Device ID 3
13 24 8-bit UInteger Reserved
14 16 8-bit UInteger Reserved
15 8 8-bit UInteger Reserved
16 0 8-bit UInteger Reserved

octet 0 1 2 3 4 5 6 7
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64
subindex 1 2 3 4 5 6 7 8
element bit 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0

octet 8 9 10 11 12 13 14 15
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0
subindex 9 10 11 12 13 14 15 16
element bit 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0

Standard Variable "Direct Parameters 2" index=1 id=V_DirectParameters_2

data type: 128-bit Record
access rights: rw
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 120 8-bit UInteger Device Specific Parameter 1
2 112 8-bit UInteger Device Specific Parameter 2
3 104 8-bit UInteger Device Specific Parameter 3
4 96 8-bit UInteger Device Specific Parameter 4
5 88 8-bit UInteger Device Specific Parameter 5
6 80 8-bit UInteger Device Specific Parameter 6
7 72 8-bit UInteger Device Specific Parameter 7
8 64 8-bit UInteger Device Specific Parameter 8
9 56 8-bit UInteger Device Specific Parameter 9
10 48 8-bit UInteger Device Specific Parameter 10
11 40 8-bit UInteger Device Specific Parameter 11
12 32 8-bit UInteger Device Specific Parameter 12
13 24 8-bit UInteger Offset Time
14 16 8-bit UInteger Reserved
15 8 8-bit UInteger Reserved
16 0 8-bit UInteger Reserved

octet 0 1 2 3 4 5 6 7
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64
subindex 1 2 3 4 5 6 7 8
element bit 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0

octet 8 9 10 11 12 13 14 15
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0
subindex 9 10 11 12 13 14 15 16
element bit 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0 7 - 0

Standard Variable "Vendor Name" index=16 id=V_VendorName

data type: 64-octet String UTF-8
default value: "Turck"
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 511 - 504 503 - 496 495 - 488 487 - 480 479 - 472 471 - 464 463 - 456 455 - 448

octet 8 9 10 11 12 13 14 15
bit offset 447 - 440 439 - 432 431 - 424 423 - 416 415 - 408 407 - 400 399 - 392 391 - 384

octet 16 17 18 19 20 21 22 23
bit offset 383 - 376 375 - 368 367 - 360 359 - 352 351 - 344 343 - 336 335 - 328 327 - 320

octet 24 25 26 27 28 29 30 31
bit offset 319 - 312 311 - 304 303 - 296 295 - 288 287 - 280 279 - 272 271 - 264 263 - 256

octet 32 33 34 35 36 37 38 39
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 40 41 42 43 44 45 46 47
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 48 49 50 51 52 53 54 55
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 56 57 58 59 60 61 62 63
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Vendor Text" index=17 id=V_VendorText

data type: 64-octet String UTF-8
default value: "www.turck.com"
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 511 - 504 503 - 496 495 - 488 487 - 480 479 - 472 471 - 464 463 - 456 455 - 448

octet 8 9 10 11 12 13 14 15
bit offset 447 - 440 439 - 432 431 - 424 423 - 416 415 - 408 407 - 400 399 - 392 391 - 384

octet 16 17 18 19 20 21 22 23
bit offset 383 - 376 375 - 368 367 - 360 359 - 352 351 - 344 343 - 336 335 - 328 327 - 320

octet 24 25 26 27 28 29 30 31
bit offset 319 - 312 311 - 304 303 - 296 295 - 288 287 - 280 279 - 272 271 - 264 263 - 256

octet 32 33 34 35 36 37 38 39
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 40 41 42 43 44 45 46 47
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 48 49 50 51 52 53 54 55
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 56 57 58 59 60 61 62 63
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Product Name" index=18 id=V_ProductName

data type: 64-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 511 - 504 503 - 496 495 - 488 487 - 480 479 - 472 471 - 464 463 - 456 455 - 448

octet 8 9 10 11 12 13 14 15
bit offset 447 - 440 439 - 432 431 - 424 423 - 416 415 - 408 407 - 400 399 - 392 391 - 384

octet 16 17 18 19 20 21 22 23
bit offset 383 - 376 375 - 368 367 - 360 359 - 352 351 - 344 343 - 336 335 - 328 327 - 320

octet 24 25 26 27 28 29 30 31
bit offset 319 - 312 311 - 304 303 - 296 295 - 288 287 - 280 279 - 272 271 - 264 263 - 256

octet 32 33 34 35 36 37 38 39
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 40 41 42 43 44 45 46 47
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 48 49 50 51 52 53 54 55
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 56 57 58 59 60 61 62 63
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Product ID" index=19 id=V_ProductID

data type: 64-octet String UTF-8
default value: "6840007"
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 511 - 504 503 - 496 495 - 488 487 - 480 479 - 472 471 - 464 463 - 456 455 - 448

octet 8 9 10 11 12 13 14 15
bit offset 447 - 440 439 - 432 431 - 424 423 - 416 415 - 408 407 - 400 399 - 392 391 - 384

octet 16 17 18 19 20 21 22 23
bit offset 383 - 376 375 - 368 367 - 360 359 - 352 351 - 344 343 - 336 335 - 328 327 - 320

octet 24 25 26 27 28 29 30 31
bit offset 319 - 312 311 - 304 303 - 296 295 - 288 287 - 280 279 - 272 271 - 264 263 - 256

octet 32 33 34 35 36 37 38 39
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 40 41 42 43 44 45 46 47
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 48 49 50 51 52 53 54 55
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 56 57 58 59 60 61 62 63
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Product Text" index=20 id=V_ProductText

data type: 64-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 511 - 504 503 - 496 495 - 488 487 - 480 479 - 472 471 - 464 463 - 456 455 - 448

octet 8 9 10 11 12 13 14 15
bit offset 447 - 440 439 - 432 431 - 424 423 - 416 415 - 408 407 - 400 399 - 392 391 - 384

octet 16 17 18 19 20 21 22 23
bit offset 383 - 376 375 - 368 367 - 360 359 - 352 351 - 344 343 - 336 335 - 328 327 - 320

octet 24 25 26 27 28 29 30 31
bit offset 319 - 312 311 - 304 303 - 296 295 - 288 287 - 280 279 - 272 271 - 264 263 - 256

octet 32 33 34 35 36 37 38 39
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 40 41 42 43 44 45 46 47
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 48 49 50 51 52 53 54 55
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 56 57 58 59 60 61 62 63
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Serial Number" index=21 id=V_SerialNumber

data type: 16-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 8 9 10 11 12 13 14 15
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Firmware Version" index=23 id=V_FirmwareRevision

data type: 64-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 511 - 504 503 - 496 495 - 488 487 - 480 479 - 472 471 - 464 463 - 456 455 - 448

octet 8 9 10 11 12 13 14 15
bit offset 447 - 440 439 - 432 431 - 424 423 - 416 415 - 408 407 - 400 399 - 392 391 - 384

octet 16 17 18 19 20 21 22 23
bit offset 383 - 376 375 - 368 367 - 360 359 - 352 351 - 344 343 - 336 335 - 328 327 - 320

octet 24 25 26 27 28 29 30 31
bit offset 319 - 312 311 - 304 303 - 296 295 - 288 287 - 280 279 - 272 271 - 264 263 - 256

octet 32 33 34 35 36 37 38 39
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 40 41 42 43 44 45 46 47
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 48 49 50 51 52 53 54 55
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 56 57 58 59 60 61 62 63
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Application Specific Name" index=24 id=V_ApplicationSpecificName

data type: 16-octet String UTF-8
access rights: rw
octet 0 1 2 3 4 5 6 7
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 8 9 10 11 12 13 14 15
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Process Data Input" index=40 id=V_ProcessDataIn

data type: see ProcessDataIn!
access rights: ro
dynamic
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Variable "System command" index=80 id=V_MySystemCommand

description: Resetting to default state, deleting max. and min. value from the memory, implementing a reset
data type: 8-bit UInteger
allowed values: 0 = Reset to default state, 1 = Delete maximum value, 2 = Delete minimum value, 3 = Reset
access rights: wo
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Function" index=81 id=V_ou1

description: Switching output 1 can be operated in SIO, hysteresis and window mode.
data type: 8-bit UInteger
allowed values: 0 = Hysteresis function, normally open, 1 = Hysteresis function, normally closed, 2 = window function, normally open, 3 = window function, normally closed
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Function" index=82 id=V_ou2

description: Output 2 can be configured as switching or current output. The switching output can be operated in hysteresis and window mode. Programming of limit values as well as linear increase and decrease at the current output.
data type: 8-bit UInteger
allowed values: 0 = Hysteresis function, normally open, 1 = Hysteresis function, normally closed, 2 = window function, normally open, 3 = window function, normally closed, 4 = 4-20 mA linear increase, 5 = 0-20 mA linear increase, 6 = 20-4 mA linear decrease, 7 = 20-0 mA linear decrease
default value: 4
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Switching output mode" index=83 id=V_pn

description: PNP/NPN configuration of switching outputs. In connected state, PNP outputs are related to the operating voltage, NPN outputs to the ground.
data type: 8-bit UInteger
allowed values: 0 = PNP, 1 = NPN
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Unit" index=84 id=V_unit

description: Measured values can be displayed in different units. This adjustment is valid for the values displayed here as well as for the display at the sensor. Only displayable units can be selected. The selected unit is indicated on the display via LED.
data type: 8-bit UInteger
allowed values: 0 = °C, 1 = °F, 2 = K, 3 = Ohm
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Display of measured value" index=85 id=V_dis

description: The refresh time can be adjusted. The display can be rotated by 180° or disabled. In disabled state, the measured value is displayed temporarily when pressing the set button.
data type: 8-bit UInteger
allowed values: 0 = 50 ms refresh time, 1 = 200 ms refresh time, 2 = 600 ms refresh time, 3 = 50 ms refresh time/display rotated by 180°, 4 = 200 ms refresh time/display rotated by 180°, 5 = 600 ms refresh time/display rotated by 180°, 6 = disabled
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Performance in the event of probe fault" index=86 id=V_fou1

description: Performance output 1: Adjustable in the event of probe failure (wire-break or short-circuit). Selectable on/off-state of th switching output.
data type: 8-bit UInteger
allowed values: 0 = Off, 1 = On
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Performance in the event of probe fault" index=87 id=V_fou2

description: Performance output 2: Adjustable in the event of probe failure (wire-break or short-circuit). In on-state the output switches resp. 22.5 mA are provided at the current output. In off-state the switching output is off resp. 0/3.5 mA are provided at the current output
data type: 8-bit UInteger
allowed values: 0 = Off, 1 = On
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Programming lock" index=88 id=V_displayProgrammingLock

description: The programming menu can be locked. The menu is either not accessible at all or the parameters can be displayed but not changed (also in SIO mode).
data type: 8-bit UInteger
allowed values: 0 = Off, 1 = On, only display of parameters, 2 = On, menu completely locked
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "IO-Link write protection" index=89 id=V_ioLinkWriteProtect

description: Unintentional changes of the configuration via IO-Link can be inhibited through activating the write protection.
data type: 8-bit UInteger
allowed values: 0 = Off, 1 = On
default value: 0
access rights: rw
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Variable "Switch/release point/ window" index=96 id=V_sprp1

description: The switch and release point (hystersis mode) resp. upper and lower switchpoint (window mode) are programmable
data type: 32-bit Record (subindex access not supported)
access rights: rw
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 16 16-bit UInteger 5396..60415 18190 Switchpoint/ upper limit value
2 0 16-bit UInteger 5120..60139 17184 Release point/ lower limit value

octet 0 1 2 3  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 1 1 2 2  
element bit 15 - 8 7 - 0 15 - 8 7 - 0  

Variable "Switch/release point/ window" index=97 id=V_sprp2

description: The switch and release point (hystersis mode) resp. upper and lower switchpoint (window mode) are programmable
data type: 32-bit Record (subindex access not supported)
access rights: rw
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 16 16-bit UInteger 5396..60415 18190 Switchpoint/ upper limit value
2 0 16-bit UInteger 5120..60139 17184 Release point/ lower limit value

octet 0 1 2 3  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 1 1 2 2  
element bit 15 - 8 7 - 0 15 - 8 7 - 0  

Variable "Start/end point of the analog signal" index=98 id=V_aspaep

description: Start and end values of the analog signal are programmable.
data type: 32-bit Record (subindex access not supported)
access rights: rw
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 16 16-bit UInteger 5120..54886 5120 Start point of the analog signal
2 0 16-bit UInteger 10649..60415 60415 End point of th analog signal

octet 0 1 2 3  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 1 1 2 2  
element bit 15 - 8 7 - 0 15 - 8 7 - 0  

Variable "Offset correction" index=104 id=V_cof

description: Strong ambient temperature fluctuation near the sensor may cause zero offset. The offset is adjustable in a range of: -55 to +55°C.
data type: 16-bit Integer
allowed values: -5530..5530
default value: 0
access rights: rw
octet 0 1  
bit offset 15 - 8 7 - 0  
element bit 15 - 8 7 - 0  

Variable "Maximum value memory" index=105 id=V_hi

description: This value describes the highest measured process value. The value can be reset.
data type: 16-bit UInteger
access rights: ro
dynamic
octet 0 1  
bit offset 15 - 8 7 - 0  
element bit 15 - 8 7 - 0  

Variable "Minimum value memory" index=106 id=V_lo

description: This value describes the lowest measured process value. The value can be reset.
data type: 16-bit UInteger
access rights: ro
dynamic
octet 0 1  
bit offset 15 - 8 7 - 0  
element bit 15 - 8 7 - 0  

Variable "Switching delay (switchpoint/ window entrance)" index=120 id=V_dsp1

description: Switching delay adjustable for overshoot of switchpoint (hysteresis mode) or window entrance (window mode). Setting range: 0 to 50 s in steps of 0.1 s (0 = delay time off)
data type: 16-bit UInteger
allowed values: 0..500
default value: 0
access rights: rw
octet 0 1  
bit offset 15 - 8 7 - 0  
element bit 15 - 8 7 - 0  

Variable "Switching delay (release point/ window exit)" index=121 id=V_drp1

description: Switching delay adjustable for undershoot of release point (hysteresis mode) or window exit (window mode). Setting range: 0 to 50 s in steps of 0.1 s (0 = delay time off)
data type: 16-bit UInteger
allowed values: 0..500
default value: 0
access rights: rw
octet 0 1  
bit offset 15 - 8 7 - 0  
element bit 15 - 8 7 - 0  

Variable "Switching delay (switchpoint/ window entrance)" index=122 id=V_dsp2

description: Switching delay adjustable for overshoot of switchpoint (hysteresis mode) or window entrance (window mode). Setting range: 0 to 50 s in steps of 0.1 s (0 = delay time off)
data type: 16-bit UInteger
allowed values: 0..500
default value: 0
access rights: rw
octet 0 1  
bit offset 15 - 8 7 - 0  
element bit 15 - 8 7 - 0  

Variable "Switching delay (release point/ window exit)" index=123 id=V_drp2

description: Switching delay adjustable for undershoot of release point (hysteresis mode) or window exit (window mode). Setting range: 0 to 50 s in steps of 0.1 s (0 = delay time off)
data type: 16-bit UInteger
allowed values: 0..500
default value: 0
access rights: rw
octet 0 1  
bit offset 15 - 8 7 - 0  
element bit 15 - 8 7 - 0  

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Observer Menus

Identification Menu
Identification
V_VendorName
V_VendorText
V_ProductName
V_ProductID
V_ProductText
V_SerialNumber
V_FirmwareRevision
V_ApplicationSpecificName, ro

Parameter Menu
Parameters
If V_unit = 0:
General settings
V_ioLinkWriteProtect, ro
V_dis, ro
V_unit, ro
V_cof * 0.00994665 + 0 °C, ro Dec
V_displayProgrammingLock, ro
If V_unit = 1:
General settings
V_ioLinkWriteProtect, ro
V_dis, ro
V_unit, ro
V_cof * 0.01790397 + 0 °F, ro Dec
V_displayProgrammingLock, ro
If V_unit = 2:
General settings
V_ioLinkWriteProtect, ro
V_dis, ro
V_unit, ro
V_cof * 0.00994665 + 0 K, ro Dec
V_displayProgrammingLock, ro
If V_unit = 3:
General settings
V_ioLinkWriteProtect, ro
V_dis, ro
V_unit, ro
V_cof * 1 + 0, ro Dec
V_displayProgrammingLock, ro
If V_unit = 0:
Output settings
V_pn, ro
Output 1
V_ou1, ro
V_sprp1.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, ro Dec
V_sprp1.Release point/ lower limit value * 0.00994665 + -100.9268 °C, ro Dec
V_fou1, ro
V_dsp1 * 0.1 + 0 s, ro Dec
V_drp1 * 0.1 + 0 s, ro Dec
If V_ou2 = 0:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 1:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 2:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 3:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 4:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
If V_ou2 = 5:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
If V_ou2 = 6:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
If V_ou2 = 7:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, ro Dec
V_fou2, ro
If V_unit = 1:
Output settings
V_pn, ro
Output 1
V_ou1, ro
V_sprp1.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, ro Dec
V_sprp1.Release point/ lower limit value * 0.01790397 + -149.6683 °F, ro Dec
V_fou1, ro
V_dsp1 * 0.1 + 0 s, ro Dec
V_drp1 * 0.1 + 0 s, ro Dec
If V_ou2 = 0:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, ro Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 1:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, ro Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 2:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, ro Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 3:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, ro Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 4:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
If V_ou2 = 5:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
If V_ou2 = 6:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
If V_ou2 = 7:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, ro Dec
V_fou2, ro
If V_unit = 2:
Output settings
V_pn, ro
Output 1
V_ou1, ro
V_sprp1.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, ro Dec
V_sprp1.Release point/ lower limit value * 0.00994665 + 172.2232 K, ro Dec
V_fou1, ro
V_dsp1 * 0.1 + 0 s, ro Dec
V_drp1 * 0.1 + 0 s, ro Dec
If V_ou2 = 0:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 1:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 2:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 3:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, ro Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 4:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
If V_ou2 = 5:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
If V_ou2 = 6:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
If V_ou2 = 7:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, ro Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, ro Dec
V_fou2, ro
If V_unit = 3:
Output settings
V_pn, ro
Output 1
V_ou1, ro
V_sprp1.Switchpoint/ upper limit value * 1 + 0, ro Dec
V_sprp1.Release point/ lower limit value * 1 + 0, ro Dec
V_fou1, ro
V_dsp1 * 0.1 + 0 s, ro Dec
V_drp1 * 0.1 + 0 s, ro Dec
If V_ou2 = 0:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 1 + 0, ro Dec
V_sprp2.Release point/ lower limit value * 1 + 0, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 1:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 1 + 0, ro Dec
V_sprp2.Release point/ lower limit value * 1 + 0, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 2:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 1 + 0, ro Dec
V_sprp2.Release point/ lower limit value * 1 + 0, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 3:
Output 2
V_ou2, ro
V_sprp2.Switchpoint/ upper limit value * 1 + 0, ro Dec
V_sprp2.Release point/ lower limit value * 1 + 0, ro Dec
V_fou2, ro
V_dsp2 * 0.1 + 0 s, ro Dec
V_drp2 * 0.1 + 0 s, ro Dec
If V_ou2 = 4:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 1 + 0, ro Dec
V_aspaep.End point of th analog signal * 1 + 0, ro Dec
V_fou2, ro
If V_ou2 = 5:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 1 + 0, ro Dec
V_aspaep.End point of th analog signal * 1 + 0, ro Dec
V_fou2, ro
If V_ou2 = 6:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 1 + 0, ro Dec
V_aspaep.End point of th analog signal * 1 + 0, ro Dec
V_fou2, ro
If V_ou2 = 7:
Output 2
V_ou2, ro
V_aspaep.Start point of the analog signal * 1 + 0, ro Dec
V_aspaep.End point of th analog signal * 1 + 0, ro Dec
V_fou2, ro

Observation Menu
Monitoring
If V_unit = 0:
Process value
V_ProcessDataIn.1 * 0.03978876 + -100.9296 °C, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 1:
Process value
V_ProcessDataIn.1 * 0.07161976 + -149.6733 °F, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 2:
Process value
V_ProcessDataIn.1 * 0.03978876 + 172.2204 K, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 3:
Process value
V_ProcessDataIn.1 * 1 + 0, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin

Diagnosis Menu
Diagnostics
If V_unit = 0:
Min./max. value memory
V_lo * 0.00994665 + -100.9268 °C, ro Dec
V_hi * 0.00994665 + -100.9268 °C, ro Dec
If V_unit = 1:
Min./max. value memory
V_lo * 0.01790397 + -149.6683 °F, ro Dec
V_hi * 0.01790397 + -149.6683 °F, ro Dec
If V_unit = 2:
Min./max. value memory
V_lo * 0.00994665 + 172.2232 K, ro Dec
V_hi * 0.00994665 + 172.2232 K, ro Dec
If V_unit = 3:
Min./max. value memory
V_lo * 1 + 0, ro Dec
V_hi * 1 + 0, ro Dec

Maintenance Menus

Identification Menu
Identification
V_VendorName
V_VendorText
V_ProductName
V_ProductID
V_ProductText
V_SerialNumber
V_FirmwareRevision
V_ApplicationSpecificName, rw

Parameter Menu
Parameters
If V_unit = 0:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 0.00994665 + 0 °C, rw Dec
V_displayProgrammingLock, rw
If V_unit = 1:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 0.01790397 + 0 °F, rw Dec
V_displayProgrammingLock, rw
If V_unit = 2:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 0.00994665 + 0 K, rw Dec
V_displayProgrammingLock, rw
If V_unit = 3:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 1 + 0, rw Dec
V_displayProgrammingLock, rw
If V_unit = 0:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp1.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_unit = 1:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp1.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_unit = 2:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp1.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_unit = 3:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp1.Release point/ lower limit value * 1 + 0, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw

Observation Menu
Monitoring
If V_unit = 0:
Process value
V_ProcessDataIn.1 * 0.03978876 + -100.9296 °C, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 1:
Process value
V_ProcessDataIn.1 * 0.07161976 + -149.6733 °F, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 2:
Process value
V_ProcessDataIn.1 * 0.03978876 + 172.2204 K, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 3:
Process value
V_ProcessDataIn.1 * 1 + 0, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin

Diagnosis Menu
Diagnostics
If V_unit = 0:
Min./max. value memory
V_lo * 0.00994665 + -100.9268 °C, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 0.00994665 + -100.9268 °C, ro Dec
V_MySystemCommand, wo Button:=1
If V_unit = 1:
Min./max. value memory
V_lo * 0.01790397 + -149.6683 °F, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 0.01790397 + -149.6683 °F, ro Dec
V_MySystemCommand, wo Button:=1
If V_unit = 2:
Min./max. value memory
V_lo * 0.00994665 + 172.2232 K, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 0.00994665 + 172.2232 K, ro Dec
V_MySystemCommand, wo Button:=1
If V_unit = 3:
Min./max. value memory
V_lo * 1 + 0, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 1 + 0, ro Dec
V_MySystemCommand, wo Button:=1

Specialist Menus

Identification Menu
Identification
V_VendorName
V_VendorText
V_ProductName
V_ProductID
V_ProductText
V_SerialNumber
V_FirmwareRevision
V_ApplicationSpecificName, rw

Parameter Menu
Parameters
If V_unit = 0:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 0.00994665 + 0 °C, rw Dec
V_displayProgrammingLock, rw
If V_unit = 1:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 0.01790397 + 0 °F, rw Dec
V_displayProgrammingLock, rw
If V_unit = 2:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 0.00994665 + 0 K, rw Dec
V_displayProgrammingLock, rw
If V_unit = 3:
General settings
V_ioLinkWriteProtect, rw
V_MySystemCommand, wo Button:=0
V_MySystemCommand, wo Button:=3
V_dis, rw
V_unit, rw
V_cof * 1 + 0, rw Dec
V_displayProgrammingLock, rw
If V_unit = 0:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp1.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + -100.9268 °C, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + -100.9268 °C, rw Dec
V_fou2, rw
If V_unit = 1:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp1.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.01790397 + -149.6683 °F, rw Dec
V_sprp2.Release point/ lower limit value * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_aspaep.End point of th analog signal * 0.01790397 + -149.6683 °F, rw Dec
V_fou2, rw
If V_unit = 2:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp1.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 0.00994665 + 172.2232 K, rw Dec
V_sprp2.Release point/ lower limit value * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 0.00994665 + 172.2232 K, rw Dec
V_aspaep.End point of th analog signal * 0.00994665 + 172.2232 K, rw Dec
V_fou2, rw
If V_unit = 3:
Output settings
V_pn, rw
Output 1
V_ou1, rw
V_sprp1.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp1.Release point/ lower limit value * 1 + 0, rw Dec
V_fou1, rw
V_dsp1 * 0.1 + 0 s, rw Dec
V_drp1 * 0.1 + 0 s, rw Dec
If V_ou2 = 0:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 1:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 2:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 3:
Output 2
V_ou2, rw
V_sprp2.Switchpoint/ upper limit value * 1 + 0, rw Dec
V_sprp2.Release point/ lower limit value * 1 + 0, rw Dec
V_fou2, rw
V_dsp2 * 0.1 + 0 s, rw Dec
V_drp2 * 0.1 + 0 s, rw Dec
If V_ou2 = 4:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw
If V_ou2 = 5:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw
If V_ou2 = 6:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw
If V_ou2 = 7:
Output 2
V_ou2, rw
V_aspaep.Start point of the analog signal * 1 + 0, rw Dec
V_aspaep.End point of th analog signal * 1 + 0, rw Dec
V_fou2, rw

Observation Menu
Monitoring
If V_unit = 0:
Process value
V_ProcessDataIn.1 * 0.03978876 + -100.9296 °C, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 1:
Process value
V_ProcessDataIn.1 * 0.07161976 + -149.6733 °F, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 2:
Process value
V_ProcessDataIn.1 * 0.03978876 + 172.2204 K, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin
If V_unit = 3:
Process value
V_ProcessDataIn.1 * 1 + 0, ro Dec
V_ProcessDataIn.2, ro Bin
V_ProcessDataIn.3, ro Bin

Diagnosis Menu
Diagnostics
If V_unit = 0:
Min./max. value memory
V_lo * 0.00994665 + -100.9268 °C, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 0.00994665 + -100.9268 °C, ro Dec
V_MySystemCommand, wo Button:=1
If V_unit = 1:
Min./max. value memory
V_lo * 0.01790397 + -149.6683 °F, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 0.01790397 + -149.6683 °F, ro Dec
V_MySystemCommand, wo Button:=1
If V_unit = 2:
Min./max. value memory
V_lo * 0.00994665 + 172.2232 K, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 0.00994665 + 172.2232 K, ro Dec
V_MySystemCommand, wo Button:=1
If V_unit = 3:
Min./max. value memory
V_lo * 1 + 0, ro Dec
V_MySystemCommand, wo Button:=2
V_hi * 1 + 0, ro Dec
V_MySystemCommand, wo Button:=1

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