Version: V1.2Release Date: 2022-02-01

[Process Data]
[Standard Variables]
[Variables]
[Events]
[Process Data Formatting]
[Menus]

Dxx with IO-Link only
Vendor ID 350 (0x015e) Vendor Logo
Vendor Name Baumer Electric AG
Vendor Text www.baumer.com
Vendor URL http://www.baumer.com
Device ID 60011 (0x00ea6b)
DeviceFamily Force and Strain measurement
Additional Device IDs 60005 (0x00ea65)
Features
Block Parameter yes
Data Storage yes
Profile Characteristic 0x0001 (Device Profile: Generic Profiled Sensor), 0x8001 (Function Class: Multiple switching signal)
Supported Access Locks Parameter: no, Data Storage: yes, Local Parameterization: no, Local User Interface: no
Communication
IO-Link Revision V1.1
Transmission Rate230400 bit/s (COM3)
Minimum Cycle Time 1 ms
SIO Mode Supported yes
M-Sequence CapabilityPREOPERATE = TYPE_1_V with 8 octets on-request data
OPERATE = TYPE_2_V with 2 octets on-request data
ISDU supported
Device Variant DAB10-AL
Description Bridge Amplifier in metal housing with IO-Link/SIO1 and SIO2
Product ID DAB10-AL
Device Icon Device Icon
Device Symbol Device Symbol
Connection TypeNon-standard connector
Connection Symbol Connection Symbol
Connection Description M12 connector
- pin 1 brown; L+; L+
- pin 2 white; Other; DI/DQ
- pin 3 (light) blue; L-; L-
- pin 4 black; C/Q; C/Q
- pin 5 grey (slate); Other; n.c.
Device Variant DST53-AxxxL
Description Performance strain sensor with IO-Link/SIO1 and SIO2
Product ID DST53-AxxxL
Device Icon Device Icon
Device Symbol Device Symbol
Connection TypeNon-standard connector
Connection Symbol Connection Symbol
Connection Description M12 connector
- pin 1 brown; L+; L+
- pin 2 white; Other; DI/DQ
- pin 3 (light) blue; L-; L-
- pin 4 black; C/Q; C/Q
- pin 5 grey (slate); Other; n.c.
Device Variant DST76-BxxxL
Description Standard strain sensor with IO-Link/SIO1 and SIO2
Product ID DST76-BxxxL
Device Icon Device Icon
Device Symbol Device Symbol
Connection TypeNo connector (just the cable)
Connection Description Cable outlet
- wire 1 brown; L+; L+
- wire 2 white; Other; DI/DQ
- wire 3 (light) blue; L-; L-
- wire 4 black; C/Q; C/Q

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ProcessData id=P_ProcessDataNewton (condition V_DisplayControlValues.Display Control Value 1 = 0)

ProcessDataIn "Process Data In" id=P_ProcessDataInNewton

bit length: 48
data type: 48-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 16 32-bit Integer -2100100000 = Out of Range (-), 2100100000 = Out of Range (+), 2110000000 = No Data, -2000000000..2000000000 Process Value
2 8 8-bit Integer Scale Exponent
3 0 Boolean SSC1
4 1 Boolean SSC2
5 2 Boolean Quality
6 3 Boolean Alarm
7 4 Boolean Not used
8 5 Boolean Not used
9 6 Boolean Not used
10 7 Boolean Not used
Octet 0
bit offset 47 46 45 44 43 42 41 40
subindex 1
element bit 31 30 29 28 27 26 25 24
Octet 1
bit offset 39 38 37 36 35 34 33 32
subindex 1
element bit 23 22 21 20 19 18 17 16
Octet 2
bit offset 31 30 29 28 27 26 25 24
subindex 1
element bit 15 14 13 12 11 10 9 8
Octet 3
bit offset 23 22 21 20 19 18 17 16
subindex 1
element bit 7 6 5 4 3 2 1 0
Octet 4
bit offset 15 14 13 12 11 10 9 8
subindex 2
element bit 7 6 5 4 3 2 1 0
Octet 5
bit offset 7 6 5 4 3 2 1 0
subindex 10 9 8 7 6 5 4 3

ProcessDataOut "Process Data Out" id=P_ProcessDataOutNewton

bit length: 8
data type: 8-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 0 Boolean Not used
2 1 Boolean Not used
3 2 Boolean Sample and Hold - Trigger
4 3 Boolean Teach-in Offset / Taring
5 4 Boolean Memory Reset
6 5 Boolean Teach-in Sensitivity
7 6 Boolean Not used
8 7 Boolean Not used
Octet 0
bit offset 7 6 5 4 3 2 1 0
subindex 8 7 6 5 4 3 2 1

ProcessData id=P_ProcessDataKilonewton (condition V_DisplayControlValues.Display Control Value 1 = 1)

ProcessDataIn "Process Data In" id=P_ProcessDataInKilonewton

bit length: 48
data type: 48-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 16 32-bit Integer -2100100000 = Out of Range (-), 2100100000 = Out of Range (+), 2110000000 = No Data, -2000000000..2000000000 Process Value
2 8 8-bit Integer Scale Exponent
3 0 Boolean SSC1
4 1 Boolean SSC2
5 2 Boolean Quality
6 3 Boolean Alarm
7 4 Boolean Not used
8 5 Boolean Not used
9 6 Boolean Not used
10 7 Boolean Not used
Octet 0
bit offset 47 46 45 44 43 42 41 40
subindex 1
element bit 31 30 29 28 27 26 25 24
Octet 1
bit offset 39 38 37 36 35 34 33 32
subindex 1
element bit 23 22 21 20 19 18 17 16
Octet 2
bit offset 31 30 29 28 27 26 25 24
subindex 1
element bit 15 14 13 12 11 10 9 8
Octet 3
bit offset 23 22 21 20 19 18 17 16
subindex 1
element bit 7 6 5 4 3 2 1 0
Octet 4
bit offset 15 14 13 12 11 10 9 8
subindex 2
element bit 7 6 5 4 3 2 1 0
Octet 5
bit offset 7 6 5 4 3 2 1 0
subindex 10 9 8 7 6 5 4 3

ProcessDataOut "Process Data Out" id=P_ProcessDataOutKilonewton

bit length: 8
data type: 8-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 0 Boolean Not used
2 1 Boolean Not used
3 2 Boolean Sample and Hold - Trigger
4 3 Boolean Teach-in Offset / Taring
5 4 Boolean Memory Reset
6 5 Boolean Teach-in Sensitivity
7 6 Boolean Not used
8 7 Boolean Not used
Octet 0
bit offset 7 6 5 4 3 2 1 0
subindex 8 7 6 5 4 3 2 1

ProcessData id=P_ProcessDataMeganewton (condition V_DisplayControlValues.Display Control Value 1 = 2)

ProcessDataIn "Process Data In" id=P_ProcessDataInMeganewton

bit length: 48
data type: 48-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 16 32-bit Integer -2100100000 = Out of Range (-), 2100100000 = Out of Range (+), 2110000000 = No Data, -2000000000..2000000000 Process Value
2 8 8-bit Integer Scale Exponent
3 0 Boolean SSC1
4 1 Boolean SSC2
5 2 Boolean Quality
6 3 Boolean Alarm
7 4 Boolean Not used
8 5 Boolean Not used
9 6 Boolean Not used
10 7 Boolean Not used
Octet 0
bit offset 47 46 45 44 43 42 41 40
subindex 1
element bit 31 30 29 28 27 26 25 24
Octet 1
bit offset 39 38 37 36 35 34 33 32
subindex 1
element bit 23 22 21 20 19 18 17 16
Octet 2
bit offset 31 30 29 28 27 26 25 24
subindex 1
element bit 15 14 13 12 11 10 9 8
Octet 3
bit offset 23 22 21 20 19 18 17 16
subindex 1
element bit 7 6 5 4 3 2 1 0
Octet 4
bit offset 15 14 13 12 11 10 9 8
subindex 2
element bit 7 6 5 4 3 2 1 0
Octet 5
bit offset 7 6 5 4 3 2 1 0
subindex 10 9 8 7 6 5 4 3

ProcessDataOut "Process Data Out" id=P_ProcessDataOutMeganewton

bit length: 8
data type: 8-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 0 Boolean Not used
2 1 Boolean Not used
3 2 Boolean Sample and Hold - Trigger
4 3 Boolean Teach-in Offset / Taring
5 4 Boolean Memory Reset
6 5 Boolean Teach-in Sensitivity
7 6 Boolean Not used
8 7 Boolean Not used
Octet 0
bit offset 7 6 5 4 3 2 1 0
subindex 8 7 6 5 4 3 2 1

ProcessData id=P_ProcessDataKilogram (condition V_DisplayControlValues.Display Control Value 1 = 4)

ProcessDataIn "Process Data In" id=P_ProcessDataInKilogram

bit length: 48
data type: 48-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 16 32-bit Integer -2100100000 = Out of Range (-), 2100100000 = Out of Range (+), 2110000000 = No Data, -2000000000..2000000000 Process Value
2 8 8-bit Integer Scale Exponent
3 0 Boolean SSC1
4 1 Boolean SSC2
5 2 Boolean Quality
6 3 Boolean Alarm
7 4 Boolean Not used
8 5 Boolean Not used
9 6 Boolean Not used
10 7 Boolean Not used
Octet 0
bit offset 47 46 45 44 43 42 41 40
subindex 1
element bit 31 30 29 28 27 26 25 24
Octet 1
bit offset 39 38 37 36 35 34 33 32
subindex 1
element bit 23 22 21 20 19 18 17 16
Octet 2
bit offset 31 30 29 28 27 26 25 24
subindex 1
element bit 15 14 13 12 11 10 9 8
Octet 3
bit offset 23 22 21 20 19 18 17 16
subindex 1
element bit 7 6 5 4 3 2 1 0
Octet 4
bit offset 15 14 13 12 11 10 9 8
subindex 2
element bit 7 6 5 4 3 2 1 0
Octet 5
bit offset 7 6 5 4 3 2 1 0
subindex 10 9 8 7 6 5 4 3

ProcessDataOut "Process Data Out" id=P_ProcessDataOutKilogram

bit length: 8
data type: 8-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 0 Boolean Not used
2 1 Boolean Not used
3 2 Boolean Sample and Hold - Trigger
4 3 Boolean Teach-in Offset / Taring
5 4 Boolean Memory Reset
6 5 Boolean Teach-in Sensitivity
7 6 Boolean Not used
8 7 Boolean Not used
Octet 0
bit offset 7 6 5 4 3 2 1 0
subindex 8 7 6 5 4 3 2 1

ProcessData id=P_ProcessDataTon (condition V_DisplayControlValues.Display Control Value 1 = 5)

ProcessDataIn "Process Data In" id=P_ProcessDataInTon

bit length: 48
data type: 48-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 16 32-bit Integer -2100100000 = Out of Range (-), 2100100000 = Out of Range (+), 2110000000 = No Data, -2000000000..2000000000 Process Value
2 8 8-bit Integer Scale Exponent
3 0 Boolean SSC1
4 1 Boolean SSC2
5 2 Boolean Quality
6 3 Boolean Alarm
7 4 Boolean Not used
8 5 Boolean Not used
9 6 Boolean Not used
10 7 Boolean Not used
Octet 0
bit offset 47 46 45 44 43 42 41 40
subindex 1
element bit 31 30 29 28 27 26 25 24
Octet 1
bit offset 39 38 37 36 35 34 33 32
subindex 1
element bit 23 22 21 20 19 18 17 16
Octet 2
bit offset 31 30 29 28 27 26 25 24
subindex 1
element bit 15 14 13 12 11 10 9 8
Octet 3
bit offset 23 22 21 20 19 18 17 16
subindex 1
element bit 7 6 5 4 3 2 1 0
Octet 4
bit offset 15 14 13 12 11 10 9 8
subindex 2
element bit 7 6 5 4 3 2 1 0
Octet 5
bit offset 7 6 5 4 3 2 1 0
subindex 10 9 8 7 6 5 4 3

ProcessDataOut "Process Data Out" id=P_ProcessDataOutTon

bit length: 8
data type: 8-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 0 Boolean Not used
2 1 Boolean Not used
3 2 Boolean Sample and Hold - Trigger
4 3 Boolean Teach-in Offset / Taring
5 4 Boolean Memory Reset
6 5 Boolean Teach-in Sensitivity
7 6 Boolean Not used
8 7 Boolean Not used
Octet 0
bit offset 7 6 5 4 3 2 1 0
subindex 8 7 6 5 4 3 2 1

ProcessData id=P_ProcessDataMillvoltPerVolt (condition V_DisplayControlValues.Display Control Value 1 = 12)

ProcessDataIn "Process Data In" id=P_ProcessDataInMillvoltPerVolt

bit length: 48
data type: 48-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 16 32-bit Integer -2100100000 = Out of Range (-), 2100100000 = Out of Range (+), 2110000000 = No Data, -2000000000..2000000000 Process Value
2 8 8-bit Integer Scale Exponent
3 0 Boolean SSC1
4 1 Boolean SSC2
5 2 Boolean Quality
6 3 Boolean Alarm
7 4 Boolean Not used
8 5 Boolean Not used
9 6 Boolean Not used
10 7 Boolean Not used
Octet 0
bit offset 47 46 45 44 43 42 41 40
subindex 1
element bit 31 30 29 28 27 26 25 24
Octet 1
bit offset 39 38 37 36 35 34 33 32
subindex 1
element bit 23 22 21 20 19 18 17 16
Octet 2
bit offset 31 30 29 28 27 26 25 24
subindex 1
element bit 15 14 13 12 11 10 9 8
Octet 3
bit offset 23 22 21 20 19 18 17 16
subindex 1
element bit 7 6 5 4 3 2 1 0
Octet 4
bit offset 15 14 13 12 11 10 9 8
subindex 2
element bit 7 6 5 4 3 2 1 0
Octet 5
bit offset 7 6 5 4 3 2 1 0
subindex 10 9 8 7 6 5 4 3

ProcessDataOut "Process Data Out" id=P_ProcessDataOutMillvoltPerVolt

bit length: 8
data type: 8-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 0 Boolean Not used
2 1 Boolean Not used
3 2 Boolean Sample and Hold - Trigger
4 3 Boolean Teach-in Offset / Taring
5 4 Boolean Memory Reset
6 5 Boolean Teach-in Sensitivity
7 6 Boolean Not used
8 7 Boolean Not used
Octet 0
bit offset 7 6 5 4 3 2 1 0
subindex 8 7 6 5 4 3 2 1

ProcessData id=P_ProcessDataMicormeterPerMeter (condition V_DisplayControlValues.Display Control Value 1 = 13)

ProcessDataIn "Process Data In" id=P_ProcessDataInMicormeterPerMeter

bit length: 48
data type: 48-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 16 32-bit Integer -2100100000 = Out of Range (-), 2100100000 = Out of Range (+), 2110000000 = No Data, -2000000000..2000000000 Process Value
2 8 8-bit Integer Scale Exponent
3 0 Boolean SSC1
4 1 Boolean SSC2
5 2 Boolean Quality
6 3 Boolean Alarm
7 4 Boolean Not used
8 5 Boolean Not used
9 6 Boolean Not used
10 7 Boolean Not used
Octet 0
bit offset 47 46 45 44 43 42 41 40
subindex 1
element bit 31 30 29 28 27 26 25 24
Octet 1
bit offset 39 38 37 36 35 34 33 32
subindex 1
element bit 23 22 21 20 19 18 17 16
Octet 2
bit offset 31 30 29 28 27 26 25 24
subindex 1
element bit 15 14 13 12 11 10 9 8
Octet 3
bit offset 23 22 21 20 19 18 17 16
subindex 1
element bit 7 6 5 4 3 2 1 0
Octet 4
bit offset 15 14 13 12 11 10 9 8
subindex 2
element bit 7 6 5 4 3 2 1 0
Octet 5
bit offset 7 6 5 4 3 2 1 0
subindex 10 9 8 7 6 5 4 3

ProcessDataOut "Process Data Out" id=P_ProcessDataOutMicormeterPerMeter

bit length: 8
data type: 8-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 0 Boolean Not used
2 1 Boolean Not used
3 2 Boolean Sample and Hold - Trigger
4 3 Boolean Teach-in Offset / Taring
5 4 Boolean Memory Reset
6 5 Boolean Teach-in Sensitivity
7 6 Boolean Not used
8 7 Boolean Not used
Octet 0
bit offset 7 6 5 4 3 2 1 0
subindex 8 7 6 5 4 3 2 1

[Top]

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

description: Comprises the required parameters defining the communication characteristics and identifiers for device validation.
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 ro Reserved
2 112 8-bit UInteger ro Master Cycle Time Communication: Current communication cycle duration used by the master. This value defines the process data cycle.
3 104 8-bit UInteger ro Min Cycle Time Communication: Minimum communication cycle duration supported by the device. This value defines the lowest possible process data cycle.
4 96 8-bit UInteger ro M-Sequence Capability Communication: Information on the structure and the supported features of the communication messages.
5 88 8-bit UInteger 17 ro IO-Link Revision ID Communication: Identifier for the currently used communication protocol revision.
6 80 8-bit UInteger ro Process Data Input Length Communication: Information on width and features of the process input data (Process Data from Device to Master).
7 72 8-bit UInteger ro Process Data Output Length Communication: Information on width of the process output data (Process Data from Master to Device).
8 64 8-bit UInteger ro Vendor ID 1 Identification: Highest octet of the Vendor ID. Combined with the parameter Vendor ID 2, this parameter defines the 16-bit value of the unique Vendor ID as assigned by the IO-Link Community.
9 56 8-bit UInteger ro Vendor ID 2 Identification: Lowest octet of the Vendor ID. Combined with the parameter Vendor ID 1, this parameter defines the 16-bit value of the unique Vendor ID as assigned by the IO-Link Community.
10 48 8-bit UInteger ro Device ID 1 Identification: Highest octet of the Device ID. Combined with the parameters Device ID 2 and 3, this parameter defines the 24-bit value of the vendor-specific Device ID.
11 40 8-bit UInteger ro Device ID 2 Identification: Middle octet of the Device ID. Combined with the parameters Device ID 1 and 3, this parameter defines the 24-bit value of the vendor-specific Device ID.
12 32 8-bit UInteger ro Device ID 3 Identification: Lowest octet of the Device ID. Combined with the parameters Device ID 1 and 2, this parameter defines the 24-bit value of the vendor-specific Device ID.
13 24 8-bit UInteger ro Reserved
14 16 8-bit UInteger ro Reserved
15 8 8-bit UInteger ro Reserved
16 0 8-bit UInteger wo X System Command Application: Command interface for devices without ISDU support. Validity and execution of commands are not confirmed.

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 - Page 2" index=1 id=V_DirectParameters_2

description: A set of parameters for devices without ISDU support.
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 Device-specific Parameter 13
14 16 8-bit UInteger Device-specific Parameter 14
15 8 8-bit UInteger Device-specific Parameter 15
16 0 8-bit UInteger Device-specific Parameter 16

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 "System Command" index=2 id=V_SystemCommand

description: Command interface for applications. A positive acknowledge indicates the complete and correct finalization of the requested function.
data type: 8-bit UInteger
allowed values: 130 = Restore Factory Settings
access rights: wo
modifies other variables
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Standard Variable "Device Access Locks" index=12 id=V_DeviceAccessLocks

description: The access to the device parameters can be restricted by setting appropriate flags within this parameter.
data type: 16-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 0 Boolean false = Unlocked, true = Locked Parameter Write Access This lock prevents the write access to all read/write parameters of the device except for the parameter 'Device Access Locks'.
2 1 Boolean false = Unlocked, true = Locked false Data Storage This lock prevents the write access to the device parameters via the data storage mechanism.
3 2 Boolean false = Unlocked, true = Locked Local Parameterization This lock prevents the device settings from being changed via local operating elements on the device.
4 3 Boolean false = Unlocked, true = Locked Local User Interface This lock prevents the access to the device settings and display via a local user interface. The user interface is disabled.
Octet 0
bit offset 15 14 13 12 11 10 9 8
subindex / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / /
Octet 1
bit offset 7 6 5 4 3 2 1 0
subindex / / / / / / / / / / / / / / / / / / / / / / / / 4 3 2 1

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

description: The vendor name that is assigned to a Vendor ID.
data type: 64-octet String UTF-8
default value: "Baumer Electric AG"
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

description: Additional information about the vendor.
data type: 64-octet String UTF-8
default value: "www.baumer.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

description: Complete product name.
data type: 40-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 319 - 312 311 - 304 303 - 296 295 - 288 287 - 280 279 - 272 271 - 264 263 - 256

octet 8 9 10 11 12 13 14 15
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 16 17 18 19 20 21 22 23
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 24 25 26 27 28 29 30 31
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 32 33 34 35 36 37 38 39
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

description: Vendor-specific product or type identification (e.g., item number or model number).
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 Text" index=20 id=V_ProductText

description: Additional product information for the device.
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

description: Unique, vendor-specific identifier of the individual device.
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 "Hardware Revision" index=22 id=V_HardwareRevision

description: Unique, vendor-specific identifier of the hardware revision of the individual device.
data type: 11-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24

octet 8 9 10  
bit offset 23 - 16 15 - 8 7 - 0  

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

description: Unique, vendor-specific identifier of the firmware revision of the individual device.
data type: 11-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24

octet 8 9 10  
bit offset 23 - 16 15 - 8 7 - 0  

Standard Variable "Application-specific Tag" index=24 id=V_ApplicationSpecificTag

description: Possibility to mark a device with user- or application-specific information.
data type: 32-octet String UTF-8
default value: "***"
access rights: rw
octet 0 1 2 3 4 5 6 7
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 8 9 10 11 12 13 14 15
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 16 17 18 19 20 21 22 23
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 24 25 26 27 28 29 30 31
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Standard Variable "Device Status" index=36 id=V_DeviceStatus

description: Indicator for the current device condition and diagnosis state.
data type: 8-bit UInteger
allowed values: 0 = Device is OK, 1 = Maintenance required, 2 = Out of specification, 3 = Functional check, 4 = Failure
access rights: ro
dynamic
octet 0  
bit offset 7 - 0  
element bit 7 - 0  

Standard Variable "Detailed Device Status" index=37 id=V_DetailedDeviceStatus

description: List of all currently pending events in the device.
data type: Array[10] of 3-octet OctetString (subindex access not supported)
access rights: ro
dynamic
octet 0 1 2 3 4 5 6 7
bit offset 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192 191 - 184 183 - 176
subindex 1 1 1 2 2 2 3 3

octet 8 9 10 11 12 13 14 15
bit offset 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128 127 - 120 119 - 112
subindex 3 4 4 4 5 5 5 6

octet 16 17 18 19 20 21 22 23
bit offset 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48
subindex 6 6 7 7 7 8 8 8

octet 24 25 26 27 28 29  
bit offset 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 9 9 9 10 10 10  

Standard Variable "PD Input" index=40 id=V_ProcessDataInput

description: Last valid process input data of the device.
data type: see ProcessDataIn!
access rights: ro
dynamic

Standard Variable "PD Output" index=41 id=V_ProcessDataOutput

description: Last valid process output data written to the device.
data type: see ProcessDataOut!
access rights: ro
dynamic
[Top]

Variable "Function Tag" index=25 id=V_FunctionTag

data type: 32-octet String UTF-8
default value: "***"
access rights: rw
octet 0 1 2 3 4 5 6 7
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 8 9 10 11 12 13 14 15
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 16 17 18 19 20 21 22 23
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 24 25 26 27 28 29 30 31
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Variable "Location Tag" index=26 id=V_LocationTag

data type: 32-octet String UTF-8
default value: "***"
access rights: rw
octet 0 1 2 3 4 5 6 7
bit offset 255 - 248 247 - 240 239 - 232 231 - 224 223 - 216 215 - 208 207 - 200 199 - 192

octet 8 9 10 11 12 13 14 15
bit offset 191 - 184 183 - 176 175 - 168 167 - 160 159 - 152 151 - 144 143 - 136 135 - 128

octet 16 17 18 19 20 21 22 23
bit offset 127 - 120 119 - 112 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64

octet 24 25 26 27 28 29 30 31
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Variable "Settings" index=60 id=V_SSC1_Param

data type: 64-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 32 32-bit Integer -2000000000..2000000000 0 SSC1 Setpoint 1 Defines the process value at which SSC1 is set to active.
2 0 32-bit Integer -2000000000..2000000000 0 SSC1 Setpoint 2 Defines the process value at which SSC1 is set to inactive.

octet 0 1 2 3 4 5 6 7
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0
subindex 1 1 1 1 2 2 2 2
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

Variable "Settings" index=61 id=V_SSC1_Config

data type: 16-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 8 8-bit UInteger 0 = 0: Normal, 1 = 1: Inverted 0 SSC1 Logic Selects the logic of SSC1.
2 0 8-bit UInteger 1 = 1: Single Point, 2 = 2: Window, 3 = 3: Two Point 1 SSC1 Mode Selects the switching behavior of SSC1.

octet 0 1  
bit offset 15 - 8 7 - 0  
subindex 1 2  
element bit 7 - 0 7 - 0  

Variable "Settings" index=62 id=V_SSC2_Param

data type: 64-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 32 32-bit Integer -2000000000..2000000000 0 SSC2 Setpoint 1 Defines the process value at which SSC2 is set to active.
2 0 32-bit Integer -2000000000..2000000000 0 SSC2 Setpoint 2 Defines the process value at which SSC2 is set to inactive.

octet 0 1 2 3 4 5 6 7
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0
subindex 1 1 1 1 2 2 2 2
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

Variable "Settings" index=63 id=V_SSC2_Config

data type: 16-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 8 8-bit UInteger 0 = 0: Normal, 1 = 1: Inverted 0 SSC2 Logic Selects the logic of SSC2.
2 0 8-bit UInteger 1 = 1: Single Point, 2 = 2: Window, 3 = 3: Two Point 1 SSC2 Mode Selects the switching behavior of SSC2.

octet 0 1  
bit offset 15 - 8 7 - 0  
subindex 1 2  
element bit 7 - 0 7 - 0  

Variable "Hysteresis" index=69 id=V_SSC_HysteresisSettings

data type: 96-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 64 32-bit UInteger 0..2000000000 0 SSC1 Width Hysteresis width of SSC1 as a percent of the nominal process value or as absolute process value.
4 56 8-bit UInteger 1 = 1: Absolute 1 ro SSC1 Width Mode Selects the scale of the hysteresis width adjustment of SSC1.
5 48 8-bit UInteger 1 = 1: Left/Outer Aligned, 2 = 2: Center Aligned, 3 = 3: Right/Inner Aligned 2 SSC1 Alignment Mode Selects the hysteresis alignment mode of SSC1.
11 16 32-bit UInteger 0..2000000000 0 SSC2 Width Hysteresis width of SSC2 as a percent of the nominal process value or as absolute process value.
14 8 8-bit UInteger 1 = 1: Absolute 1 ro SSC2 Width Mode Selects the scale of the hysteresis width adjustment of SSC2.
15 0 8-bit UInteger 1 = 1: Left/Outer Aligned, 2 = 2: Center Aligned, 3 = 3: Right/Inner Aligned 2 SSC2 Alignment Mode Selects the hysteresis alignment mode of SSC2.

octet 0 1 2 3 4 5 6 7
bit offset 95 - 88 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32
subindex 1 1 1 1 4 5 11 11
element bit 31 - 24 23 - 16 15 - 8 7 - 0 7 - 0 7 - 0 31 - 24 23 - 16

octet 8 9 10 11  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 11 11 14 15  
element bit 15 - 8 7 - 0 7 - 0 7 - 0  

Variable "Customer Sensor Adjustment" index=74 id=V_UnitSelection

data type: 16-bit Record
access rights: rw
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
5 0 16-bit UInteger 1088 = 1088: kg, 1092 = 1092: t, 1120 = 1120: N, 1121 = 1121: MN, 1122 = 1122: kN, 1698 = 1698: µm/m, 1699 = 1699: mV/V 1699 X Process Value Unit Unit of the process value (e.g. N, kN or µm/m).

octet 0 1  
bit offset 15 - 8 7 - 0  
subindex 5 5  
element bit 15 - 8 7 - 0  

Variable "Settings" index=78 id=V_DIDOSettings

data type: 80-bit Record
access rights: rw
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
2 72 8-bit UInteger 0 = 0: SSC1 (DI), 1 = 1: SSC2 (DI), 5 = 5: Quality Bit (DI), 6 = 6: Alarm Bit (DI), 10 = 10: Inactive (DO), 11 = 11: Teach-in Offset / Taring (DO), 12 = 12: Memory Reset (DO), 13 = 13: Sample and Hold (DO), 14 = 14: Teach-in Sensitivity (DO) 10 SIO1 Function Selection Defines the function of SIO1.
4 40 32-bit UInteger 0..3600000 0 SIO1 Input Delay Input Delay time of SIO1 in milliseconds. (minimum of 3 ms is recommended to guarantee a error-free establishment of the IO-Link communication)
12 32 8-bit UInteger 0 = 0: SSC1 (DI), 1 = 1: SSC2 (DI), 5 = 5: Quality Bit (DI), 6 = 6: Alarm Bit (DI), 10 = 10: Inactive (DO), 11 = 11: Teach-in Offset / Taring (DO), 12 = 12: Memory Reset (DO), 13 = 13: Sample and Hold (DO), 14 = 14: Teach-in Sensitivity (DO) 10 SIO2 Function Selection Defines the function of SIO2.
14 0 32-bit UInteger 0..3600000 0 SIO2 Input Delay Input Delay time of SIO2 in milliseconds.

octet 0 1 2 3 4 5 6 7
bit offset 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16
subindex 2 4 4 4 4 12 14 14
element bit 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0 7 - 0 31 - 24 23 - 16

octet 8 9  
bit offset 15 - 8 7 - 0  
subindex 14 14  
element bit 15 - 8 7 - 0  

Variable "MDC Selection" index=83 id=V_MDCSelection

data type: 8-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 0 8-bit UInteger 2 = 2: Current Process Value (2 kS/s), 3 = 3: Minimum Process Value (2 kS/s), 4 = 4: Maximum Process Value (2 kS/s), 5 = 5: Peak Peak Process Value (2 kS/s), 6 = 6: Sample and Hold Process Value (2 kS/s), 7 = 7: Sample and Hold Delta Process Value (2 kS/s) 2 Source Selects the signal that is cyclically transmitted over IO-Link.

octet 0  
bit offset 7 - 0  
subindex 1  
element bit 7 - 0  

Variable "Part Number" index=86 id=V_PartNumber

data type: 8-octet String UTF-8
access rights: ro
octet 0 1 2 3 4 5 6 7
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0

Variable "Process Value" index=88 id=V_MeasurementValues

data type: 96-bit Record
access rights: ro
dynamic
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 64 Float32 -4..4 0.0 Physical Input Signal Passive signal of the calibrated sensor in mV/V.
7 32 32-bit Integer -2000000000..2000000000 0 Sample and Hold Held signal at the last "sample and hold" trigger.
8 0 32-bit Integer -2000000000..2000000000 0 Sample and Hold Delta Difference between the signal at the last "sample and hold" trigger and the current signal.

octet 0 1 2 3 4 5 6 7
bit offset 95 - 88 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32
subindex 1 1 1 1 7 7 7 7
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

octet 8 9 10 11  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 8 8 8 8  
element bit 31 - 24 23 - 16 15 - 8 7 - 0  

Variable "Teach-in" index=115 id=V_TaringSettings

data type: 80-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 72 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 Sensitivity Enable Enables/Disables the teach-in sensitivity function.
2 64 8-bit UInteger 0 = 0: Disabled, 1 = 1: 2 Samples (0.25 ms), 2 = 2: 4 Samples (0.5 ms), 3 = 3: 8 Samples (1 ms), 4 = 4: 16 Samples (2 ms), 5 = 5: 32 Samples (4 ms), 6 = 6: 64 Samples (8 ms), 7 = 7: 128 Samples (16 ms) 4 Moving Average Filter To increase the accuracy of the teach-in offset (taring), a moving average is implemented. The number of samples to be averaged can be set in this register. The taring duration must be at least the period indicated in the selection.
3 32 32-bit Integer -2000000000..2000000000 0 Offset Process Value Teach-in offset (taring) will set the offset in this way, that the currently applied sensor signal corresponds to this process value defined in this register.
4 0 32-bit Integer -2000000000..2000000000 0 Sensitivity Process Value Teach-in sensitivity will set the sensitivity and offset in this way, that the currently applied sensor signal corresponds to the process value defined in this register without changing the previous teached-in offset.

octet 0 1 2 3 4 5 6 7
bit offset 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16
subindex 1 2 3 3 3 3 4 4
element bit 7 - 0 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16

octet 8 9  
bit offset 15 - 8 7 - 0  
subindex 4 4  
element bit 15 - 8 7 - 0  

Variable "Release Delays" index=120 id=V_SSC_ReleaseDelay

data type: 80-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 72 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 SSC1 Enable Enables/Disables release delay of SSC1.
2 40 32-bit UInteger 0..86400000 0 SSC1 Time Release delay time of SSC1 in milliseconds.
11 32 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 SSC2 Enable Enables/Disables release delay of SSC2.
12 0 32-bit UInteger 0..86400000 0 SSC2 Time Release delay time of SSC2 in milliseconds.

octet 0 1 2 3 4 5 6 7
bit offset 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16
subindex 1 2 2 2 2 11 12 12
element bit 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0 7 - 0 31 - 24 23 - 16

octet 8 9  
bit offset 15 - 8 7 - 0  
subindex 12 12  
element bit 15 - 8 7 - 0  

Variable "Response Delays" index=121 id=V_SSC_ResponseDelay

data type: 80-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 72 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 SSC1 Enable Enables/Disables response delay of SSC1.
2 40 32-bit UInteger 0..86400000 0 SSC1 Time Response delay time of SSC1 in milliseconds.
11 32 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 SSC2 Enable Enables/Disables response delay of SSC2.
12 0 32-bit UInteger 0..86400000 0 SSC2 Time Response delay time of SSC2 in milliseconds.

octet 0 1 2 3 4 5 6 7
bit offset 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16
subindex 1 2 2 2 2 11 12 12
element bit 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0 7 - 0 31 - 24 23 - 16

octet 8 9  
bit offset 15 - 8 7 - 0  
subindex 12 12  
element bit 15 - 8 7 - 0  

Variable "Minimal Pulse Duration" index=122 id=V_SSC_MinimalPulseDuration

data type: 96-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 88 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 SSC1 Enable Enables/Disables minimal pulse duration time of SSC1.
2 56 32-bit UInteger 0..86400000 0 SSC1 Time Minimal pulse length of SSC1 in milliseconds.
3 48 8-bit UInteger 1 = 1: Positive and Negative, 2 = 2: Positive, 3 = 3: Negative 1 SSC1 Mode Selects the affected pulse polarity for minimal pulse duration of SSC1.
11 40 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 SSC2 Enable Enables/Disables minimal pulse duration time of SSC2.
12 8 32-bit UInteger 0..86400000 0 SSC2 Time Minimal pulse length of SSC2 in milliseconds.
13 0 8-bit UInteger 1 = 1: Positive and Negative, 2 = 2: Positive, 3 = 3: Negative 1 SSC2 Mode Selects the affected pulse polarity for minimal pulse duration of SSC2.

octet 0 1 2 3 4 5 6 7
bit offset 95 - 88 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32
subindex 1 2 2 2 2 3 11 12
element bit 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0 7 - 0 7 - 0 31 - 24

octet 8 9 10 11  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 12 12 12 13  
element bit 23 - 16 15 - 8 7 - 0 7 - 0  

Variable "Input Low Pass Filter" index=160 id=V_PV_FIRFilter

data type: 16-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 8 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 Enable Enables/Disables input low pass filter.
2 0 8-bit UInteger 0 = 0: 1 kHz, 1 = 1: 500 Hz, 2 = 2: 200 Hz, 3 = 3: 100 Hz, 4 = 4: 50 Hz, 5 = 5: 20 Hz, 6 = 6: 10 Hz, 7 = 7: 5 Hz, 8 = 8: 2 Hz, 9 = 9: 1 Hz 3 Frequency Selection of cut-off frequency of the input low pass filter.

octet 0 1  
bit offset 15 - 8 7 - 0  
subindex 1 2  
element bit 7 - 0 7 - 0  

Variable "CPU Temperature" index=209 id=V_CpuTemperature

data type: 32-bit Record
access rights: ro
dynamic
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 0 Float32 -90..150 0.0 Current Current temperature of the CPU.

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

Variable "Operation Time" index=211 id=V_OperationTime

data type: 64-bit Record
access rights: ro
dynamic
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 32 32-bit UInteger 0 Power-on Operation time since power-on in seconds.
3 0 32-bit UInteger 0 Lifetime Operation time lifetime in seconds.

octet 0 1 2 3 4 5 6 7
bit offset 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0
subindex 1 1 1 1 3 3 3 3
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

Variable "Process Value" index=216 id=V_PV1

data type: 128-bit Record
access rights: ro
dynamic
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 96 32-bit Integer -2000000000..2000000000 0 Current Current process value after signal processing.
2 64 32-bit Integer -2000000000..2000000000 0 Minimum Minimum process value since last memory reset.
3 32 32-bit Integer -2000000000..2000000000 0 Maximum Maximum process value since last memory reset.
6 0 32-bit Integer 0..2000000000 0 Peak Peak Peak to peak value since last memory reset. The peak to peak value corresponds to the difference of the maximum and minimum process values.

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 1 1 1 2 2 2 2
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 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 3 3 3 3 6 6 6 6
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

Variable "Number of Power-on Cycles" index=224 id=V_NumberPowerOnCycles

data type: 32-bit Record
access rights: ro
dynamic
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
2 0 32-bit UInteger 0 Lifetime Number of power-on cycles lifetime.

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

Variable "Number of Tarings" index=226 id=V_NumberTarings

data type: 32-bit Record
access rights: ro
dynamic
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
3 0 32-bit UInteger 0 Lifetime Number of tarings lifetime.

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

Variable "Remote Operation Signal" index=248 id=V_PV1_RemoteOperation

data type: 48-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 40 8-bit UInteger 0 = 0: Disabled, 1 = 1: Enabled 0 X Enable Enables/Disables the remote operation mode. If enabled the sensor signal is interrupted and replaced with a remote signal that can be set in register "Remote Operation Signal.Value".
2 32 8-bit UInteger 1 = 1: Physical Input Signal (mV/V) 1 ro Selection Selects the signal that can be set in the register "Remote Operation Signal.Value".
3 0 Float32 -3.8..3.8 0.0 X Physical Input Signal Is the remote operation enabled, the selected signal can be set by writing the corresponding value into this register.

octet 0 1 2 3 4 5  
bit offset 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 1 2 3 3 3 3  
element bit 7 - 0 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0  

Variable "Baumer Command" index=1000 id=V_BaumerCommands

description: 0x15 (021): Restore Factory Adjustment
data type: 32-bit UInteger
allowed values: 21 = Restore Factory Adjustment
access rights: wo
modifies other variables
octet 0 1 2 3  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
element bit 31 - 24 23 - 16 15 - 8 7 - 0  

Variable "Factory Sensor Adjustment" index=1001 id=V_FS_TransducerCalibrationSettings

data type: 112-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 80 32-bit Integer 10000..1000000000 100000 Nominal Process Value Value of the register "Customer Sensor Adjustment.Nominal Process Value" during factory adjustments as reference and for restoring.
2 48 Float32 -3..3 0.0 Nominal Sensitivity Value of the register "Customer Sensor Adjustment.Nominal Sensitivity" during factory adjustments as reference and for restoring.
3 16 Float32 -3.8..3.8 0.0 Offset Value of the register "Customer Sensor Adjustment.Offset" during factory adjustments as reference and for restoring.
4 0 16-bit UInteger 1088 = 1088: kg, 1092 = 1092: t, 1120 = 1120: N, 1121 = 1121: MN, 1122 = 1122: kN, 1698 = 1698: µm/m, 1699 = 1699: mV/V 1699 Process Value Unit Value of the register "Customer Sensor Adjustment.Process Value Unit" during factory adjustments as reference and for restoring.

octet 0 1 2 3 4 5 6 7
bit offset 111 - 104 103 - 96 95 - 88 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48
subindex 1 1 1 1 2 2 2 2
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

octet 8 9 10 11 12 13  
bit offset 47 - 40 39 - 32 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 3 3 3 3 4 4  
element bit 31 - 24 23 - 16 15 - 8 7 - 0 15 - 8 7 - 0  

Variable "Customer Sensor Adjustment" index=1002 id=V_FS_TransducerCustomSettings

data type: 96-bit Record
access rights: rw
dynamic
subindex bit offset data type allowed values default value acc. restr. mod. other var. excl. from DS name description
1 64 32-bit Integer 10000..1000000000 100000 X Nominal Process Value Nominal process value of the sensor.
2 32 Float32 -3..3 0.0 Nominal Sensitivity Nominal sensitivity of the sensor in mV/V. This is the signal change of the sensor when it is loaded from 0 to its nominal value defined in the register "Customer Sensor Adjustment.Nominal Process Value".
3 0 Float32 -3.8..3.8 0.0 Offset Offset of the sensor in mV/V. This is the signal of the sensor corresponding to the process value 0.

octet 0 1 2 3 4 5 6 7
bit offset 95 - 88 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32
subindex 1 1 1 1 2 2 2 2
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

octet 8 9 10 11  
bit offset 31 - 24 23 - 16 15 - 8 7 - 0  
subindex 3 3 3 3  
element bit 31 - 24 23 - 16 15 - 8 7 - 0  

Variable "Data for external Applications" index=1024 id=V_DisplayControlValues

data type: 16-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 8 8-bit UInteger 0..20 12 Display Control Value 1 Display (GUI) control 1 (meaningless for the user)
2 0 8-bit UInteger 0..20 12 Display Control Value 2 Display (GUI) control 2 (meaningless for the user)

octet 0 1  
bit offset 15 - 8 7 - 0  
subindex 1 2  
element bit 7 - 0 7 - 0  

Variable "MDC Descriptor" index=16512 id=V_MDC_Descriptor

data type: 88-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 56 32-bit Integer -2000000000..2000000000 0 Lower Limit Lower limit of displayable process value range. (Depends on register "Customer Sensor Adjustment.Nominal Process Value". Lower Limit is -2*"nominal process value")
2 24 32-bit Integer -2000000000..2000000000 0 Upper Limit Upper limit of displayable process value range. (Depends on register "Customer Sensor Adjustment.Nominal Process Value". Upper Limit is 2*"nominal process value")
3 8 16-bit UInteger 1088 = 1088: kg, 1092 = 1092: t, 1120 = 1120: N, 1121 = 1121: MN, 1122 = 1122: kN, 1698 = 1698: µm/m, 1699 = 1699: mV/V 1699 Unit Code Unit Code of the selected Process Value.
4 0 8-bit Integer -5 Scale Exponent Scale Exponent x (10^x) of the selected Process Value.

octet 0 1 2 3 4 5 6 7
bit offset 87 - 80 79 - 72 71 - 64 63 - 56 55 - 48 47 - 40 39 - 32 31 - 24
subindex 1 1 1 1 2 2 2 2
element bit 31 - 24 23 - 16 15 - 8 7 - 0 31 - 24 23 - 16 15 - 8 7 - 0

octet 8 9 10  
bit offset 23 - 16 15 - 8 7 - 0  
subindex 3 3 4  
element bit 15 - 8 7 - 0 7 - 0  

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Events

CodeTypeNameDescription
6144 (0x1800)WarningProcess value outside of nominal range (overrun)
6145 (0x1801)WarningProcess value outside of nominal range (underrun)
6146 (0x1802)ErrorProcess value out of measurable range (overrun)
6147 (0x1803)ErrorProcess value out of measurable range (underrun)
6150 (0x1806)ErrorInput signal out of range (overrun or underrun)
6151 (0x1807)ErrorInput signal out of range (short or open wire)
6152 (0x1808)WarningParameters are set, so that nominal process value range is outside of measurable input range. (overrun)
6153 (0x1809)WarningParameters are set, so that nominal process value range is outside of measurable input range. (underrun)
20496 (0x5010)ErrorComponent malfunctionRepair or exchange
20752 (0x5110)WarningPrimary supply voltage overrunCheck valid voltage range
20753 (0x5111)WarningPrimary supply voltage underrunCheck valid voltage range
35841 (0x8c01)WarningSimulation activeCheck operating mode

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Process Data Formatting

Formatting for Process Data id=P_ProcessDataInNewton
Subindex 1: * 1E-05 N Dec.5
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:
Subindex 9:
Subindex 10:

Formatting for Process Data id=P_ProcessDataOutNewton
Subindex 1:
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:

Formatting for Process Data id=P_ProcessDataInKilonewton
Subindex 1: * 1E-05 kN Dec.5
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:
Subindex 9:
Subindex 10:

Formatting for Process Data id=P_ProcessDataOutKilonewton
Subindex 1:
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:

Formatting for Process Data id=P_ProcessDataInMeganewton
Subindex 1: * 1E-05 MN Dec.5
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:
Subindex 9:
Subindex 10:

Formatting for Process Data id=P_ProcessDataOutMeganewton
Subindex 1:
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:

Formatting for Process Data id=P_ProcessDataInKilogram
Subindex 1: * 1E-05 kg Dec.5
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:
Subindex 9:
Subindex 10:

Formatting for Process Data id=P_ProcessDataOutKilogram
Subindex 1:
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:

Formatting for Process Data id=P_ProcessDataInTon
Subindex 1: * 1E-05 t Dec.5
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:
Subindex 9:
Subindex 10:

Formatting for Process Data id=P_ProcessDataOutTon
Subindex 1:
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:

Formatting for Process Data id=P_ProcessDataInMillvoltPerVolt
Subindex 1: * 1E-05 mV/V Dec.5
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:
Subindex 9:
Subindex 10:

Formatting for Process Data id=P_ProcessDataOutMillvoltPerVolt
Subindex 1:
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:

Formatting for Process Data id=P_ProcessDataInMicormeterPerMeter
Subindex 1: * 1E-05 µm/m Dec.5
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:
Subindex 9:
Subindex 10:

Formatting for Process Data id=P_ProcessDataOutMicormeterPerMeter
Subindex 1:
Subindex 2:
Subindex 3:
Subindex 4:
Subindex 5:
Subindex 6:
Subindex 7:
Subindex 8:

[Top]

Operator Menus

Identification Menu
V_VendorName
V_VendorText
V_ProductName
V_PartNumber
V_ProductID
V_ProductText
V_ApplicationSpecificTag, ro
V_FunctionTag, ro
V_LocationTag, ro
V_SerialNumber
V_FirmwareRevision
V_HardwareRevision

Parameters Menu
Device Settings
V_DeviceAccessLocks, ro
Sensor Adjustment
If V_DisplayControlValues.Display Control Value 1 = 0:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit, ro
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 N, ro Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, ro Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit, ro
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 kN, ro Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, ro Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit, ro
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 MN, ro Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, ro Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit, ro
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 kg, ro Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, ro Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit, ro
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 t, ro Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, ro Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit, ro
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, ro Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit, ro
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 µm/m, ro Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, ro Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, ro Dec.5
If V_DisplayControlValues.Display Control Value 1 = 0:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 N, ro Dec.5
V_TaringSettings.Moving Average Filter, ro
If V_DisplayControlValues.Display Control Value 1 = 1:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 kN, ro Dec.5
V_TaringSettings.Moving Average Filter, ro
If V_DisplayControlValues.Display Control Value 1 = 2:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 MN, ro Dec.5
V_TaringSettings.Moving Average Filter, ro
If V_DisplayControlValues.Display Control Value 1 = 4:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 kg, ro Dec.5
V_TaringSettings.Moving Average Filter, ro
If V_DisplayControlValues.Display Control Value 1 = 5:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 t, ro Dec.5
V_TaringSettings.Moving Average Filter, ro
If V_DisplayControlValues.Display Control Value 1 = 12:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 mV/V, ro Dec.5
V_TaringSettings.Moving Average Filter, ro
If V_DisplayControlValues.Display Control Value 1 = 13:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 µm/m, ro Dec.5
V_TaringSettings.Moving Average Filter, ro
If V_DisplayControlValues.Display Control Value 1 = 0:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 N, ro Dec.5
V_TaringSettings.Sensitivity Enable, ro
If V_DisplayControlValues.Display Control Value 1 = 1:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 kN, ro Dec.5
V_TaringSettings.Sensitivity Enable, ro
If V_DisplayControlValues.Display Control Value 1 = 2:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 MN, ro Dec.5
V_TaringSettings.Sensitivity Enable, ro
If V_DisplayControlValues.Display Control Value 1 = 4:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 kg, ro Dec.5
V_TaringSettings.Sensitivity Enable, ro
If V_DisplayControlValues.Display Control Value 1 = 5:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 t, ro Dec.5
V_TaringSettings.Sensitivity Enable, ro
If V_DisplayControlValues.Display Control Value 1 = 12:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 mV/V, ro Dec.5
V_TaringSettings.Sensitivity Enable, ro
If V_DisplayControlValues.Display Control Value 1 = 13:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 µm/m, ro Dec.5
V_TaringSettings.Sensitivity Enable, ro
Signal Processing
Input Low Pass Filter (8 kS/s)
V_PV_FIRFilter.Enable, ro
V_PV_FIRFilter.Frequency, ro
MDC Settings
MDC Selection
V_MDCSelection.Source, ro
If V_DisplayControlValues.Display Control Value 1 = 0:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 N, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 N, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 1:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 kN, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 kN, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 2:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 MN, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 MN, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 4:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 kg, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 kg, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 5:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 t, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 t, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 12:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 mV/V, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 mV/V, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 13:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 µm/m, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 µm/m, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
SIO Settings
SIO1 Settings
V_DIDOSettings.SIO1 Function Selection, ro
V_DIDOSettings.SIO1 Input Delay * 1 ms, ro Dec.0
SIO2 Settings
V_DIDOSettings.SIO2 Function Selection, ro
V_DIDOSettings.SIO2 Input Delay * 1 ms, ro Dec.0
SSC1 Settings
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC1 Settings
V_SSC1_Config.SSC1 Mode, ro
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 N, ro Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 N, ro Dec.5
V_SSC1_Config.SSC1 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC1 Settings
V_SSC1_Config.SSC1 Mode, ro
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 kN, ro Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 kN, ro Dec.5
V_SSC1_Config.SSC1 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC1 Settings
V_SSC1_Config.SSC1 Mode, ro
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 MN, ro Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 MN, ro Dec.5
V_SSC1_Config.SSC1 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC1 Settings
V_SSC1_Config.SSC1 Mode, ro
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 kg, ro Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 kg, ro Dec.5
V_SSC1_Config.SSC1 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC1 Settings
V_SSC1_Config.SSC1 Mode, ro
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 t, ro Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 t, ro Dec.5
V_SSC1_Config.SSC1 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC1 Settings
V_SSC1_Config.SSC1 Mode, ro
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 mV/V, ro Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 mV/V, ro Dec.5
V_SSC1_Config.SSC1 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC1 Settings
V_SSC1_Config.SSC1 Mode, ro
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 µm/m, ro Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 µm/m, ro Dec.5
V_SSC1_Config.SSC1 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 N, ro Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 kN, ro Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 MN, ro Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 kg, ro Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 t, ro Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 mV/V, ro Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 µm/m, ro Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode, ro
SSC1 Delays
V_SSC_ReleaseDelay.SSC1 Enable, ro
V_SSC_ReleaseDelay.SSC1 Time * 1 ms, ro Dec.0
V_SSC_ResponseDelay.SSC1 Enable, ro
V_SSC_ResponseDelay.SSC1 Time * 1 ms, ro Dec.0
SSC1 Minimal Pulse Duration
V_SSC_MinimalPulseDuration.SSC1 Enable, ro
V_SSC_MinimalPulseDuration.SSC1 Time * 1 ms, ro Dec.0
V_SSC_MinimalPulseDuration.SSC1 Mode, ro
SSC2 Settings
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC2 Settings
V_SSC2_Config.SSC2 Mode, ro
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 N, ro Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 N, ro Dec.5
V_SSC2_Config.SSC2 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC2 Settings
V_SSC2_Config.SSC2 Mode, ro
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 kN, ro Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 kN, ro Dec.5
V_SSC2_Config.SSC2 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC2 Settings
V_SSC2_Config.SSC2 Mode, ro
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 MN, ro Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 MN, ro Dec.5
V_SSC2_Config.SSC2 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC2 Settings
V_SSC2_Config.SSC2 Mode, ro
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 kg, ro Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 kg, ro Dec.5
V_SSC2_Config.SSC2 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC2 Settings
V_SSC2_Config.SSC2 Mode, ro
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 t, ro Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 t, ro Dec.5
V_SSC2_Config.SSC2 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC2 Settings
V_SSC2_Config.SSC2 Mode, ro
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 mV/V, ro Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 mV/V, ro Dec.5
V_SSC2_Config.SSC2 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC2 Settings
V_SSC2_Config.SSC2 Mode, ro
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 µm/m, ro Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 µm/m, ro Dec.5
V_SSC2_Config.SSC2 Logic, ro
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 N, ro Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 kN, ro Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 MN, ro Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 kg, ro Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 t, ro Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 mV/V, ro Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode, ro
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode, ro
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 µm/m, ro Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode, ro
SSC2 Delays
V_SSC_ReleaseDelay.SSC2 Enable, ro
V_SSC_ReleaseDelay.SSC2 Time * 1 ms, ro Dec.0
V_SSC_ResponseDelay.SSC2 Enable, ro
V_SSC_ResponseDelay.SSC2 Time * 1 ms, ro Dec.0
SSC2 Minimal Pulse Duration
V_SSC_MinimalPulseDuration.SSC2 Enable, ro
V_SSC_MinimalPulseDuration.SSC2 Time * 1 ms, ro Dec.0
V_SSC_MinimalPulseDuration.SSC2 Mode, ro
Data for external Applications
V_DisplayControlValues.Display Control Value 1
V_DisplayControlValues.Display Control Value 2

Observation Menu
Measured Values
If V_DisplayControlValues.Display Control Value 1 = 0:
Process Values
V_PV1.Current * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Process Values
V_PV1.Current * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Process Values
V_PV1.Current * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Process Values
V_PV1.Current * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Process Values
V_PV1.Current * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Process Values
V_PV1.Current * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Process Values
V_PV1.Current * 1E-05 µm/m, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 0:
Memory Values
V_PV1.Minimum * 1E-05 N, Dec.5
V_PV1.Maximum * 1E-05 N, Dec.5
V_PV1.Peak Peak * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Memory Values
V_PV1.Minimum * 1E-05 kN, Dec.5
V_PV1.Maximum * 1E-05 kN, Dec.5
V_PV1.Peak Peak * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Memory Values
V_PV1.Minimum * 1E-05 MN, Dec.5
V_PV1.Maximum * 1E-05 MN, Dec.5
V_PV1.Peak Peak * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Memory Values
V_PV1.Minimum * 1E-05 kg, Dec.5
V_PV1.Maximum * 1E-05 kg, Dec.5
V_PV1.Peak Peak * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Memory Values
V_PV1.Minimum * 1E-05 t, Dec.5
V_PV1.Maximum * 1E-05 t, Dec.5
V_PV1.Peak Peak * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Memory Values
V_PV1.Minimum * 1E-05 mV/V, Dec.5
V_PV1.Maximum * 1E-05 mV/V, Dec.5
V_PV1.Peak Peak * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Memory Values
V_PV1.Minimum * 1E-05 µm/m, Dec.5
V_PV1.Maximum * 1E-05 µm/m, Dec.5
V_PV1.Peak Peak * 1E-05 µm/m, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 0:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 N, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 kN, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 MN, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 kg, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 t, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 mV/V, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 µm/m, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 µm/m, Dec.5

Diagnosis Menu
Remote Operation (Testing / Simulation)
Remote Signal
V_PV1_RemoteOperation.Enable, ro
V_PV1_RemoteOperation.Selection, ro
V_PV1_RemoteOperation.Physical Input Signal * 1 mV/V, ro Dec.5
Auxiliary Signals
Measured Temperatures
V_CpuTemperature.Current * 1 °C, Dec.1
Internal Signals
V_MeasurementValues.Physical Input Signal * 1 mV/V, Dec.5
Device Status
Notifications / Warnings / Errors
V_DeviceStatus
V_DetailedDeviceStatus
Device Monitoring
V_OperationTime.Power-on s
V_OperationTime.Lifetime s
V_NumberPowerOnCycles.Lifetime
V_NumberTarings.Lifetime
Sensor Adjustment
If V_DisplayControlValues.Display Control Value 2 = 0:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 N, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 1:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 kN, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 2:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 MN, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 4:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 kg, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 5:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 t, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 12:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 13:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 µm/m, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5

Maintenance Menus

Identification Menu
V_VendorName
V_VendorText
V_ProductName
V_PartNumber
V_ProductID
V_ProductText
V_ApplicationSpecificTag
V_FunctionTag
V_LocationTag
V_SerialNumber
V_FirmwareRevision
V_HardwareRevision

Parameters Menu
Device Settings
V_SystemCommand, Button:=130
V_DeviceAccessLocks
Sensor Adjustment
If V_DisplayControlValues.Display Control Value 1 = 0:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 N, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 1:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 kN, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 2:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 MN, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 4:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 kg, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 5:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 t, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 12:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 mV/V, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 13:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 µm/m, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 0:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 N, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 1:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 kN, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 2:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 MN, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 4:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 kg, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 5:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 t, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 12:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 mV/V, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 13:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 µm/m, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 0:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 N, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 1:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 kN, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 2:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 MN, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 4:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 kg, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 5:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 t, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 12:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 mV/V, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 13:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 µm/m, Dec.5
V_TaringSettings.Sensitivity Enable
Signal Processing
Input Low Pass Filter (8 kS/s)
V_PV_FIRFilter.Enable
V_PV_FIRFilter.Frequency
MDC Settings
MDC Selection
V_MDCSelection.Source
If V_DisplayControlValues.Display Control Value 1 = 0:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 N, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 N, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 1:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 kN, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 kN, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 2:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 MN, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 MN, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 4:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 kg, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 kg, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 5:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 t, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 t, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 12:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 mV/V, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 mV/V, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 13:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 µm/m, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 µm/m, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
SIO Settings
SIO1 Settings
V_DIDOSettings.SIO1 Function Selection
V_DIDOSettings.SIO1 Input Delay * 1 ms, Dec.0
SIO2 Settings
V_DIDOSettings.SIO2 Function Selection
V_DIDOSettings.SIO2 Input Delay * 1 ms, Dec.0
SSC1 Settings
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 N, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 N, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 kN, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 kN, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 MN, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 MN, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 kg, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 kg, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 t, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 t, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 mV/V, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 mV/V, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 µm/m, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 µm/m, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 N, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 kN, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 MN, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 kg, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 t, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 mV/V, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 µm/m, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
SSC1 Delays
V_SSC_ReleaseDelay.SSC1 Enable
V_SSC_ReleaseDelay.SSC1 Time * 1 ms, Dec.0
V_SSC_ResponseDelay.SSC1 Enable
V_SSC_ResponseDelay.SSC1 Time * 1 ms, Dec.0
SSC1 Minimal Pulse Duration
V_SSC_MinimalPulseDuration.SSC1 Enable
V_SSC_MinimalPulseDuration.SSC1 Time * 1 ms, Dec.0
V_SSC_MinimalPulseDuration.SSC1 Mode
SSC2 Settings
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 N, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 N, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 kN, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 kN, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 MN, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 MN, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 kg, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 kg, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 t, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 t, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 mV/V, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 mV/V, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 µm/m, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 µm/m, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 N, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 kN, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 MN, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 kg, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 t, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 mV/V, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 µm/m, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
SSC2 Delays
V_SSC_ReleaseDelay.SSC2 Enable
V_SSC_ReleaseDelay.SSC2 Time * 1 ms, Dec.0
V_SSC_ResponseDelay.SSC2 Enable
V_SSC_ResponseDelay.SSC2 Time * 1 ms, Dec.0
SSC2 Minimal Pulse Duration
V_SSC_MinimalPulseDuration.SSC2 Enable
V_SSC_MinimalPulseDuration.SSC2 Time * 1 ms, Dec.0
V_SSC_MinimalPulseDuration.SSC2 Mode
Data for external Applications
V_DisplayControlValues.Display Control Value 1
V_DisplayControlValues.Display Control Value 2

Observation Menu
Measured Values
If V_DisplayControlValues.Display Control Value 1 = 0:
Process Values
V_PV1.Current * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Process Values
V_PV1.Current * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Process Values
V_PV1.Current * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Process Values
V_PV1.Current * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Process Values
V_PV1.Current * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Process Values
V_PV1.Current * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Process Values
V_PV1.Current * 1E-05 µm/m, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 0:
Memory Values
V_PV1.Minimum * 1E-05 N, Dec.5
V_PV1.Maximum * 1E-05 N, Dec.5
V_PV1.Peak Peak * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Memory Values
V_PV1.Minimum * 1E-05 kN, Dec.5
V_PV1.Maximum * 1E-05 kN, Dec.5
V_PV1.Peak Peak * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Memory Values
V_PV1.Minimum * 1E-05 MN, Dec.5
V_PV1.Maximum * 1E-05 MN, Dec.5
V_PV1.Peak Peak * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Memory Values
V_PV1.Minimum * 1E-05 kg, Dec.5
V_PV1.Maximum * 1E-05 kg, Dec.5
V_PV1.Peak Peak * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Memory Values
V_PV1.Minimum * 1E-05 t, Dec.5
V_PV1.Maximum * 1E-05 t, Dec.5
V_PV1.Peak Peak * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Memory Values
V_PV1.Minimum * 1E-05 mV/V, Dec.5
V_PV1.Maximum * 1E-05 mV/V, Dec.5
V_PV1.Peak Peak * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Memory Values
V_PV1.Minimum * 1E-05 µm/m, Dec.5
V_PV1.Maximum * 1E-05 µm/m, Dec.5
V_PV1.Peak Peak * 1E-05 µm/m, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 0:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 N, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 kN, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 MN, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 kg, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 t, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 mV/V, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 µm/m, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 µm/m, Dec.5

Diagnosis Menu
Remote Operation (Testing / Simulation)
Remote Signal
V_PV1_RemoteOperation.Enable, ro
V_PV1_RemoteOperation.Selection, ro
V_PV1_RemoteOperation.Physical Input Signal * 1 mV/V, ro Dec.5
Auxiliary Signals
Measured Temperatures
V_CpuTemperature.Current * 1 °C, Dec.1
Internal Signals
V_MeasurementValues.Physical Input Signal * 1 mV/V, Dec.5
Device Status
Notifications / Warnings / Errors
V_DeviceStatus
V_DetailedDeviceStatus
Device Monitoring
V_OperationTime.Power-on s
V_OperationTime.Lifetime s
V_NumberPowerOnCycles.Lifetime
V_NumberTarings.Lifetime
Sensor Adjustment
If V_DisplayControlValues.Display Control Value 2 = 0:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 N, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 1:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 kN, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 2:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 MN, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 4:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 kg, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 5:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 t, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 12:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 13:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 µm/m, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5

Commissioning Menus

Identification Menu
V_VendorName
V_VendorText
V_ProductName
V_PartNumber
V_ProductID
V_ProductText
V_ApplicationSpecificTag
V_FunctionTag
V_LocationTag
V_SerialNumber
V_FirmwareRevision
V_HardwareRevision

Parameters Menu
Device Settings
V_SystemCommand, Button:=130
V_DeviceAccessLocks
Sensor Adjustment
If V_DisplayControlValues.Display Control Value 1 = 0:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 N, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 1:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 kN, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 2:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 MN, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 4:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 kg, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 5:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 t, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 12:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 mV/V, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 13:
Customer Sensor Adjustment
V_UnitSelection.Process Value Unit
V_FS_TransducerCustomSettings.Nominal Process Value * 1E-05 µm/m, Dec.5
V_FS_TransducerCustomSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCustomSettings.Offset * 1 mV/V, Dec.5
V_BaumerCommands, Button:=21
If V_DisplayControlValues.Display Control Value 1 = 0:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 N, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 1:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 kN, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 2:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 MN, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 4:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 kg, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 5:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 t, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 12:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 mV/V, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 13:
Teach-in Offset / Taring
V_TaringSettings.Offset Process Value * 1E-05 µm/m, Dec.5
V_TaringSettings.Moving Average Filter
If V_DisplayControlValues.Display Control Value 1 = 0:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 N, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 1:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 kN, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 2:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 MN, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 4:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 kg, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 5:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 t, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 12:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 mV/V, Dec.5
V_TaringSettings.Sensitivity Enable
If V_DisplayControlValues.Display Control Value 1 = 13:
Teach-in Sensitivity
V_TaringSettings.Sensitivity Process Value * 1E-05 µm/m, Dec.5
V_TaringSettings.Sensitivity Enable
Signal Processing
Input Low Pass Filter (8 kS/s)
V_PV_FIRFilter.Enable
V_PV_FIRFilter.Frequency
MDC Settings
MDC Selection
V_MDCSelection.Source
If V_DisplayControlValues.Display Control Value 1 = 0:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 N, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 N, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 1:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 kN, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 kN, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 2:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 MN, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 MN, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 4:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 kg, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 kg, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 5:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 t, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 t, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 12:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 mV/V, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 mV/V, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
If V_DisplayControlValues.Display Control Value 1 = 13:
MDC Descriptor
V_MDC_Descriptor.Lower Limit * 1E-05 µm/m, Dec.5
V_MDC_Descriptor.Upper Limit * 1E-05 µm/m, Dec.5
V_MDC_Descriptor.Unit Code
V_MDC_Descriptor.Scale Exponent
SIO Settings
SIO1 Settings
V_DIDOSettings.SIO1 Function Selection
V_DIDOSettings.SIO1 Input Delay * 1 ms, Dec.0
SIO2 Settings
V_DIDOSettings.SIO2 Function Selection
V_DIDOSettings.SIO2 Input Delay * 1 ms, Dec.0
SSC1 Settings
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 N, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 N, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 kN, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 kN, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 MN, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 MN, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 kg, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 kg, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 t, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 t, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 mV/V, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 mV/V, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC1 Settings
V_SSC1_Config.SSC1 Mode
V_SSC1_Param.SSC1 Setpoint 1 * 1E-05 µm/m, Dec.5
V_SSC1_Param.SSC1 Setpoint 2 * 1E-05 µm/m, Dec.5
V_SSC1_Config.SSC1 Logic
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 N, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 kN, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 MN, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 kg, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 t, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 mV/V, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC1 Hysteresis
V_SSC_HysteresisSettings.SSC1 Alignment Mode
V_SSC_HysteresisSettings.SSC1 Width * 1E-05 µm/m, Dec.5
V_SSC_HysteresisSettings.SSC1 Width Mode
SSC1 Delays
V_SSC_ReleaseDelay.SSC1 Enable
V_SSC_ReleaseDelay.SSC1 Time * 1 ms, Dec.0
V_SSC_ResponseDelay.SSC1 Enable
V_SSC_ResponseDelay.SSC1 Time * 1 ms, Dec.0
SSC1 Minimal Pulse Duration
V_SSC_MinimalPulseDuration.SSC1 Enable
V_SSC_MinimalPulseDuration.SSC1 Time * 1 ms, Dec.0
V_SSC_MinimalPulseDuration.SSC1 Mode
SSC2 Settings
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 N, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 N, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 kN, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 kN, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 MN, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 MN, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 kg, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 kg, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 t, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 t, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 mV/V, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 mV/V, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC2 Settings
V_SSC2_Config.SSC2 Mode
V_SSC2_Param.SSC2 Setpoint 1 * 1E-05 µm/m, Dec.5
V_SSC2_Param.SSC2 Setpoint 2 * 1E-05 µm/m, Dec.5
V_SSC2_Config.SSC2 Logic
If V_DisplayControlValues.Display Control Value 1 = 0:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 N, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 1:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 kN, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 2:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 MN, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 4:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 kg, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 5:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 t, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 12:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 mV/V, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
If V_DisplayControlValues.Display Control Value 1 = 13:
SSC2 Hysteresis
V_SSC_HysteresisSettings.SSC2 Alignment Mode
V_SSC_HysteresisSettings.SSC2 Width * 1E-05 µm/m, Dec.5
V_SSC_HysteresisSettings.SSC2 Width Mode
SSC2 Delays
V_SSC_ReleaseDelay.SSC2 Enable
V_SSC_ReleaseDelay.SSC2 Time * 1 ms, Dec.0
V_SSC_ResponseDelay.SSC2 Enable
V_SSC_ResponseDelay.SSC2 Time * 1 ms, Dec.0
SSC2 Minimal Pulse Duration
V_SSC_MinimalPulseDuration.SSC2 Enable
V_SSC_MinimalPulseDuration.SSC2 Time * 1 ms, Dec.0
V_SSC_MinimalPulseDuration.SSC2 Mode
Data for external Applications
V_DisplayControlValues.Display Control Value 1
V_DisplayControlValues.Display Control Value 2

Observation Menu
Measured Values
If V_DisplayControlValues.Display Control Value 1 = 0:
Process Values
V_PV1.Current * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Process Values
V_PV1.Current * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Process Values
V_PV1.Current * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Process Values
V_PV1.Current * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Process Values
V_PV1.Current * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Process Values
V_PV1.Current * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Process Values
V_PV1.Current * 1E-05 µm/m, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 0:
Memory Values
V_PV1.Minimum * 1E-05 N, Dec.5
V_PV1.Maximum * 1E-05 N, Dec.5
V_PV1.Peak Peak * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Memory Values
V_PV1.Minimum * 1E-05 kN, Dec.5
V_PV1.Maximum * 1E-05 kN, Dec.5
V_PV1.Peak Peak * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Memory Values
V_PV1.Minimum * 1E-05 MN, Dec.5
V_PV1.Maximum * 1E-05 MN, Dec.5
V_PV1.Peak Peak * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Memory Values
V_PV1.Minimum * 1E-05 kg, Dec.5
V_PV1.Maximum * 1E-05 kg, Dec.5
V_PV1.Peak Peak * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Memory Values
V_PV1.Minimum * 1E-05 t, Dec.5
V_PV1.Maximum * 1E-05 t, Dec.5
V_PV1.Peak Peak * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Memory Values
V_PV1.Minimum * 1E-05 mV/V, Dec.5
V_PV1.Maximum * 1E-05 mV/V, Dec.5
V_PV1.Peak Peak * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Memory Values
V_PV1.Minimum * 1E-05 µm/m, Dec.5
V_PV1.Maximum * 1E-05 µm/m, Dec.5
V_PV1.Peak Peak * 1E-05 µm/m, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 0:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 N, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 N, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 1:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 kN, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 kN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 2:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 MN, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 MN, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 4:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 kg, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 kg, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 5:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 t, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 t, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 12:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 mV/V, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 1 = 13:
Sample and Hold Values
V_MeasurementValues.Sample and Hold * 1E-05 µm/m, Dec.5
V_MeasurementValues.Sample and Hold Delta * 1E-05 µm/m, Dec.5

Diagnosis Menu
Remote Operation (Testing / Simulation)
Remote Signal
V_PV1_RemoteOperation.Enable
V_PV1_RemoteOperation.Selection
V_PV1_RemoteOperation.Physical Input Signal * 1 mV/V, Dec.5
Auxiliary Signals
Measured Temperatures
V_CpuTemperature.Current * 1 °C, Dec.1
Internal Signals
V_MeasurementValues.Physical Input Signal * 1 mV/V, Dec.5
Device Status
Notifications / Warnings / Errors
V_DeviceStatus
V_DetailedDeviceStatus
Device Monitoring
V_OperationTime.Power-on s
V_OperationTime.Lifetime s
V_NumberPowerOnCycles.Lifetime
V_NumberTarings.Lifetime
Sensor Adjustment
If V_DisplayControlValues.Display Control Value 2 = 0:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 N, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 1:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 kN, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 2:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 MN, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 4:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 kg, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 5:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 t, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 12:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5
If V_DisplayControlValues.Display Control Value 2 = 13:
Factory Sensor Adjustment
V_FS_TransducerCalibrationSettings.Process Value Unit
V_FS_TransducerCalibrationSettings.Nominal Process Value * 1E-05 µm/m, Dec.5
V_FS_TransducerCalibrationSettings.Nominal Sensitivity * 1 mV/V, Dec.5
V_FS_TransducerCalibrationSettings.Offset * 1 mV/V, Dec.5

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