Pepperl-Fuchs-VIM32PP-05308673-20240909-IODD1.1.xml

Version: V2.00.000

Release Date: 2024-09-09

[Process Data]

[Standard Variables]

[Variables]

[ErrorTypes]

[Events]

[Process Data Formatting]

[Menus]

VIM32PP-D-0-01
Vendor ID	1 (0x0001)
Vendor Name	Pepperl+Fuchs
Vendor Text	Pepperl+Fuchs
Vendor URL	https://www.pepperl-fuchs.com/io-link
Device ID	5308673 (0x510101)
DeviceFamily	Vibration Sensor
Features
Block Parameter	yes
Data Storage	yes
Profile Characteristic	0x0030 (Device Profile: BLOB transfer), 0x4000 (Common Application Profile: Identification and Diagnosis), 0x8102 (Function Class: Product URI)
Supported Access Locks	Parameter: no, Data Storage: no, Local Parameterization: no, Local User Interface: no
Communication
IO-Link Revision	V1.1
Transmission Rate	230400 bit/s (COM3)
Minimum Cycle Time	3.8 ms
SIO Mode Supported	yes
M-Sequence Capability	PREOPERATE = TYPE_1_V with 32 octets on-request data OPERATE = TYPE_2_V with 32 octets on-request data ISDU supported
Device Variant	VIM32PP-E7DC8-0RE-IO-1V1401
Description	Vibration sensor, V2A housing, external thread, 1 .. 12000 Hz, velocity rms and acceleration rms and acceleration peak and temperature and Crest and Bearing Condition and acceleration raw via BLOB, 128 mm/s and 48 g (peak), IP67, M12 plug, 4-pin, default setting 01
Product ID	70140695-100002
Device Icon
Device Symbol
Connection Type	M12-4 connector
Connection Symbol
Connection Description	Plug, M12, 4-pin
- pin 1	brown; L+
- pin 2	white; Other
- pin 3	(light) blue; L-
- pin 4	black; C/Q

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ProcessData id=P_ProcessData

ProcessDataIn "PD Input" id=PI_PDI

bit length: 192
data type: 192-bit Record (subindex access not supported)

subindex	bit offset	data type	allowed values	name	description
1	176	16-bit Integer	32764 = No Measurement Data, 0..12800	MDC1 - vRMS	Shows the current velocity rms measurement value of measurement data channel 1.
2	168	8-bit Integer		MDC1 - Scale	Shows the multiplier for the velocity rms measurement value of measurement data channel 1 - 10exp(scale).
3	160	Boolean	false = Low, true = High	SSC1.1 - vRMS	Indicates the current status of the velocity rms switching signal 1.1 for measurement data channel 1.
4	161	Boolean	false = Low, true = High	SSC1.2 - vRMS	Indicates the current status of the velocity rms switching signal 1.2 for measurement data channel 1.
11	144	16-bit Integer	32764 = No Measurement Data, 0..3400	MDC2 - aRMS	Shows the current acceleration rms measurement value of measurement data channel 2.
12	136	8-bit Integer		MDC2 - Scale	Shows the multiplier for the acceleration rms measurement value of measurement data channel 2 - 10exp(scale).
13	128	Boolean	false = Low, true = High	SSC2.1 - aRMS	Indicates the current status of the acceleration rms switching signal 2.1 for measurement data channel 2.
14	129	Boolean	false = Low, true = High	SSC2.2 - aRMS	Indicates the current status of the acceleration rms switching signal 2.2 for measurement data channel 2.
21	112	16-bit Integer	32764 = No Measurement Data, 0..4800	MDC3 - aPeak	Shows the current acceleration peak measurement value of measurement data channel 3.
22	104	8-bit Integer		MDC3 - Scale	Shows the multiplier for the acceleration peak measurement value of measurement data channel 3 - 10exp(scale).
23	96	Boolean	false = Low, true = High	SSC3.1 - aPeak	Indicates the current status of the acceleration peak switching signal 3.1 for measurement data channel 3.
24	97	Boolean	false = Low, true = High	SSC3.2 - aPeak	Indicates the current status of the acceleration peak switching signal 3.2 for measurement data channel 3.
31	80	16-bit Integer	32764 = No Measurement Data, -50..100	MDC4 - Temperature	Shows the current temperature measurement value of measurement data channel 4.
32	72	8-bit Integer		MDC4 - Scale	Shows the multiplier for the temperature measurement value of measurement data channel 4 - 10exp(scale).
33	64	Boolean	false = Low, true = High	SSC4.1 - Temperature	Indicates the current status of the temperature switching signal 4.1 for measurement data channel 4.
34	65	Boolean	false = Low, true = High	SSC4.2 - Temperature	Indicates the current status of the temperature switching signal 4.2 for measurement data channel 4.
37	68	4-bit UInteger	0 = Device is OK, 1 = Maintenance required, 2 = Out of specification, 3 = Functional check, 4 = Failure	DSC.2 - Device Status	Indicator for the current device condition and diagnosis state.
41	48	16-bit Integer	32764 = No Measurement Data, 0..10000	MDC5 - Crest	Shows the current crest measurement value of measurement data channel 5 (Crest = aPeak/aRMS).
42	40	8-bit Integer		MDC5 - Scale	Shows the multiplier for the crest measurement value of measurement data channel 5 - 10exp(scale).
43	32	Boolean	false = Low, true = High	SSC5.1 - Crest	Indicates the current status of the crest switching signal 5.1 for measurement data channel 5.
44	33	Boolean	false = Low, true = High	SSC5.2 - Crest	Indicates the current status of the crest switching signal 5.2 for measurement data channel 5.
48	37	3-bit UInteger	0 = Idle, no BLOB transfer active, 1 = Raw data recording, 2 = Recording finished, wait for transfer, 3 = Transfer active, 4 = Deleting memory	DSC.3 - BLOB Status	Shows the current status of raw data recording and BLOB transfer. If 'DSC.3 - BLOB Status' is not 'Idle', all BLOB triggers are rejected except for a Parameter trigger with BLOB_ID = -4096, which leads to the memory being deleted and a change to 'Idle'.
51	16	16-bit Integer	32764 = No Measurement Data, 0..500	MDC6 - Bearing Condition	Shows the current bearing condition measurement value of measurement data channel 6 as defined in DIN ISO 13373-3.
52	8	8-bit Integer		MDC6 - Scale	Shows the multiplier for the bearing condition measurement value of measurement data channel 6 - 10exp(scale).
53	0	Boolean	false = Low, true = High	SSC6.1 - Bearing Condition	Indicates the current status of the bearing condition switching signal 6.1 for measurement data channel 6.
54	1	Boolean	false = Low, true = High	SSC6.2 - Bearing Condition	Indicates the current status of the bearing condition switching signal 6.2 for measurement data channel 6.
57	4	2-bit UInteger	0 = 1 - Exceptional low (blue), 1 = 2 - Normal (green), 2 = 3 - Warning (yellow), 3 = 4 - Alarm (red)	DSC.6 - Bearing Condition	Shows a 4-level diagnosis information for the currently detected vibration condition at bearings as defined in DIN ISO 13373-3.

Octet 0

bit offset	191	190	189	188	187	186	185	184
subindex	1
element bit	15	14	13	12	11	10	9	8

Octet 1

bit offset	183	182	181	180	179	178	177	176
subindex	1
element bit	7	6	5	4	3	2	1	0

Octet 2

bit offset	175	174	173	172	171	170	169	168
subindex	2
element bit	7	6	5	4	3	2	1	0

Octet 3

bit offset	167	166	165	164	163	162	161	160
subindex	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	4	3

Octet 4

bit offset	159	158	157	156	155	154	153	152
subindex	11
element bit	15	14	13	12	11	10	9	8

Octet 5

bit offset	151	150	149	148	147	146	145	144
subindex	11
element bit	7	6	5	4	3	2	1	0

Octet 6

bit offset	143	142	141	140	139	138	137	136
subindex	12
element bit	7	6	5	4	3	2	1	0

Octet 7

bit offset	135	134	133	132	131	130	129	128
subindex	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	14	13

Octet 8

bit offset	127	126	125	124	123	122	121	120
subindex	21
element bit	15	14	13	12	11	10	9	8

Octet 9

bit offset	119	118	117	116	115	114	113	112
subindex	21
element bit	7	6	5	4	3	2	1	0

Octet 10

bit offset	111	110	109	108	107	106	105	104
subindex	22
element bit	7	6	5	4	3	2	1	0

Octet 11

bit offset	103	102	101	100	99	98	97	96
subindex	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	24	23

Octet 12

bit offset	95	94	93	92	91	90	89	88
subindex	31
element bit	15	14	13	12	11	10	9	8

Octet 13

bit offset	87	86	85	84	83	82	81	80
subindex	31
element bit	7	6	5	4	3	2	1	0

Octet 14

bit offset	79	78	77	76	75	74	73	72
subindex	32
element bit	7	6	5	4	3	2	1	0

Octet 15

bit offset	71	70	69	68	67	66	65	64
subindex	37				/ / / / / /	/ / / / / /	34	33
element bit	3	2	1	0

Octet 16

bit offset	63	62	61	60	59	58	57	56
subindex	41
element bit	15	14	13	12	11	10	9	8

Octet 17

bit offset	55	54	53	52	51	50	49	48
subindex	41
element bit	7	6	5	4	3	2	1	0

Octet 18

bit offset	47	46	45	44	43	42	41	40
subindex	42
element bit	7	6	5	4	3	2	1	0

Octet 19

bit offset	39	38	37	36	35	34	33	32
subindex	48			/ / / / / /	/ / / / / /	/ / / / / /	44	43
element bit	2	1	0

Octet 20

bit offset	31	30	29	28	27	26	25	24
subindex	51
element bit	15	14	13	12	11	10	9	8

Octet 21

bit offset	23	22	21	20	19	18	17	16
subindex	51
element bit	7	6	5	4	3	2	1	0

Octet 22

bit offset	15	14	13	12	11	10	9	8
subindex	52
element bit	7	6	5	4	3	2	1	0

Octet 23

bit offset	7	6	5	4	3	2	1	0
subindex	/ / / / / /	/ / / / / /	57		/ / / / / /	/ / / / / /	54	53
element bit			1	0

ProcessDataOut "PD Output" id=PO_PDO

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	false = Idle, true = Execute					BLOB Trigger - Raw Data Recording	Defines an additional trigger for raw data recording based on PD Output. The trigger is executed on a 0-to-1 transition. BLOB_ID = -4098. If 'DSC.3 - BLOB Status' is not 'Idle', this PDO trigger is rejected.

Octet 0

bit offset	7	6	5	4	3	2	1	0
subindex	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	/ / / / / /	1

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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	default value	acc. restr.	mod. other var.	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 "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: 129 = Application Reset, 131 = Back-to-box, 176 = Maintenance Reset, 177 = BLOB Reset
access rights: wo
modifies other variables

octet	0
bit offset	7 - 0
element bit	7 - 0

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: "Pepperl+Fuchs"
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.pepperl-fuchs.com/io-link"
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: 64-octet String UTF-8
default value: "VIM32PP-E7DC8-0RE-IO-1V1401"
access rights: ro

octet	0	1	2	3	4	5	6	7
bit offset	511 - 504	503 - 496	495 - 488	487 - 480	479 - 472	471 - 464	463 - 456	455 - 448

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

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

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

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

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

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

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

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

description: Vendor-specific product or type identification (e.g., item number or model number).
data type: 64-octet String UTF-8
default value: "70140695-100002"
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
default value: "Vibration Sensor"
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: 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 "Firmware Revision" index=23 id=V_FirmwareRevision

description: Unique, vendor-specific identifier of the firmware revision of the individual 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 "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
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
default value: 0
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[4] of 3-octet OctetString (subindex access not supported)
access rights: ro
dynamic

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	2	2	2	3	3

octet	8	9	10	11
bit offset	31 - 24	23 - 16	15 - 8	7 - 0
subindex	3	4	4	4

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_CP_FunctionTag

description: Possibility to mark a device with function-specific information.
data type: 32-octet String UTF-8
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_CP_LocationTag

description: Possibility to mark a device with location-specific information.
data type: 32-octet String UTF-8
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 "Product URI" index=27 id=V_CP_ProductURI

description: Provides a unique instance identification compliant to DIN-SPEC 91406.
data type: 100-octet String US_ASCII
access rights: ro

octet	0	1	2	3	4	5	6	7
bit offset	799 - 792	791 - 784	783 - 776	775 - 768	767 - 760	759 - 752	751 - 744	743 - 736

octet	8	9	10	11	12	13	14	15
bit offset	735 - 728	727 - 720	719 - 712	711 - 704	703 - 696	695 - 688	687 - 680	679 - 672

octet	16	17	18	19	20	21	22	23
bit offset	671 - 664	663 - 656	655 - 648	647 - 640	639 - 632	631 - 624	623 - 616	615 - 608

octet	24	25	26	27	28	29	30	31
bit offset	607 - 600	599 - 592	591 - 584	583 - 576	575 - 568	567 - 560	559 - 552	551 - 544

octet	32	33	34	35	36	37	38	39
bit offset	543 - 536	535 - 528	527 - 520	519 - 512	511 - 504	503 - 496	495 - 488	487 - 480

octet	40	41	42	43	44	45	46	47
bit offset	479 - 472	471 - 464	463 - 456	455 - 448	447 - 440	439 - 432	431 - 424	423 - 416

octet	48	49	50	51	52	53	54	55
bit offset	415 - 408	407 - 400	399 - 392	391 - 384	383 - 376	375 - 368	367 - 360	359 - 352

octet	56	57	58	59	60	61	62	63
bit offset	351 - 344	343 - 336	335 - 328	327 - 320	319 - 312	311 - 304	303 - 296	295 - 288

octet	64	65	66	67	68	69	70	71
bit offset	287 - 280	279 - 272	271 - 264	263 - 256	255 - 248	247 - 240	239 - 232	231 - 224

octet	72	73	74	75	76	77	78	79
bit offset	223 - 216	215 - 208	207 - 200	199 - 192	191 - 184	183 - 176	175 - 168	167 - 160

octet	80	81	82	83	84	85	86	87
bit offset	159 - 152	151 - 144	143 - 136	135 - 128	127 - 120	119 - 112	111 - 104	103 - 96

octet	88	89	90	91	92	93	94	95
bit offset	95 - 88	87 - 80	79 - 72	71 - 64	63 - 56	55 - 48	47 - 40	39 - 32

octet	96	97	98	99
bit offset	31 - 24	23 - 16	15 - 8	7 - 0

Variable "ID of the BLOB that is currently transferred" index=49 id=V_BT_BLOBID

data type: 16-bit Integer
allowed values: -4098 = PDO trigger via IO-Link Master, -4097 = SSC trigger on switching edge, -4096 = Parameter trigger, 0 = Idle, no BLOB transfer active
access rights: ro

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

Variable "SSC1.1 Param vRMS" index=64 id=V_XPFV_SSC11_Param

description: Defines the setpoint values for switching signal channel 1.1 vRMS.
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	0..12800	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..12800	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC1.1 Config vRMS" index=65 id=V_XPFV_SSC11_Config

description: Defines the configuration parameter for switching signal channel 1.1 vRMS.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0 = Fix	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC1.2 Param vRMS" index=66 id=V_XPFV_SSC12_Param

description: Defines the setpoint values for switching signal channel 1.2 vRMS.
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	0..12800	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..12800	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC1.2 Config vRMS" index=67 id=V_XPFV_SSC12_Config

description: Defines the configuration parameter for switching signal channel 1.2 vRMS.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0 = Fix	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC2.1 Param aRMS" index=68 id=V_XPFV_SSC21_Param

description: Defines the setpoint values for switching signal channel 2.1 aRMS.
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	0..3400	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..3400	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC2.1 Config aRMS" index=69 id=V_XPFV_SSC21_Config

description: Defines the configuration parameter for switching signal channel 2.1 aRMS.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0 = Fix	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC2.2 Param aRMS" index=70 id=V_XPFV_SSC22_Param

description: Defines the setpoint values for switching signal channel 2.2 aRMS.
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	0..3400	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..3400	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC2.2 Config aRMS" index=71 id=V_XPFV_SSC22_Config

description: Defines the configuration parameter for switching signal channel 2.2 aRMS.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0 = Fix	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC3.1 Param aPeak" index=72 id=V_XPFV_SSC31_Param

description: Defines the setpoint values for switching signal channel 3.1 aPeak.
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	0..4800	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..4800	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC3.1 Config aPeak" index=73 id=V_XPFV_SSC31_Config

description: Defines the configuration parameter for switching signal channel 3.1 aPeak.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0 = Fix	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC3.2 Param aPeak" index=74 id=V_XPFV_SSC32_Param

description: Defines the setpoint values for switching signal channel 3.2 aPeak.
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	0..4800	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..4800	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC3.2 Config aPeak" index=75 id=V_XPFV_SSC32_Config

description: Defines the configuration parameter for switching signal channel 3.2 aPeak.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0 = Fix	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC4.1 Param Temperature" index=76 id=V_XPFV_SSC41_Param

description: Defines the setpoint values for switching signal channel 4.1 Temperature.
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	-50..100	50				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	-50..100	80				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC4.1 Config Temperature" index=77 id=V_XPFV_SSC41_Config

description: Defines the configuration parameter for switching signal channel 4.1 Temperature.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0..20	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC4.2 Param Temperature" index=78 id=V_XPFV_SSC42_Param

description: Defines the setpoint values for switching signal channel 4.2 Temperature.
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	-50..100	50				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	-50..100	80				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC4.2 Config Temperature" index=79 id=V_XPFV_SSC42_Config

description: Defines the configuration parameter for switching signal channel 4.2 Temperature.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0..20	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC5.1 Param Crest" index=80 id=V_XPFV_SSC51_Param

description: Defines the setpoint values for switching signal channel 5.1 Crest.
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	0..10000	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..10000	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC5.1 Config Crest" index=81 id=V_XPFV_SSC51_Config

description: Defines the configuration parameter for switching signal channel 5.1 Crest.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0..20	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC5.2 Param Crest" index=82 id=V_XPFV_SSC52_Param

description: Defines the setpoint values for switching signal channel 5.2 Crest.
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	0..10000	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..10000	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC5.2 Config Crest" index=83 id=V_XPFV_SSC52_Config

description: Defines the configuration parameter for switching signal channel 5.2 Crest.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0..20	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC1.1 Config Ext vRMS - Off Delay" index=84 id=V_XPFV_SSC11_OffDelay

description: Defines the minimum duration of a stable inactive state of the vRMS detection signal on the switching signal channel 1.1. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC1.2 Config Ext vRMS - Off Delay" index=85 id=V_XPFV_SSC12_OffDelay

description: Defines the minimum duration of a stable inactive state of the vRMS detection signal on the switching signal channel 1.2. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC2.1 Config Ext aRMS - Off Delay" index=86 id=V_XPFV_SSC21_OffDelay

description: Defines the minimum duration of a stable inactive state of the aRMS detection signal on the switching signal channel 2.1. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC2.2 Config Ext aRMS - Off Delay" index=87 id=V_XPFV_SSC22_OffDelay

description: Defines the minimum duration of a stable inactive state of the aRMS detection signal on the switching signal channel 2.2. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC3.1 Config Ext aPeak - Off Delay" index=88 id=V_XPFV_SSC31_OffDelay

description: Defines the minimum duration of a stable inactive state of the aPeak detection signal on the switching signal channel 3.1. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC3.2 Config Ext aPeak - Off Delay" index=89 id=V_XPFV_SSC32_OffDelay

description: Defines the minimum duration of a stable inactive state of the aPeak detection signal on the switching signal channel 3.2. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC4.1 Config Ext Temperature - Off Delay" index=90 id=V_XPFV_SSC41_OffDelay

description: Defines the minimum duration of a stable inactive state of the temperature detection signal on the switching signal channel 4.1. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC4.2 Config Ext Temperature - Off Delay" index=91 id=V_XPFV_SSC42_OffDelay

description: Defines the minimum duration of a stable inactive state of the temperature detection signal on the switching signal channel 4.2. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC5.1 Config Ext Crest - Off Delay" index=92 id=V_XPFV_SSC51_OffDelay

description: Defines the minimum duration of a stable inactive state of the crest detection signal on the switching signal channel 5.1. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC5.2 Config Ext Crest - Off Delay" index=93 id=V_XPFV_SSC52_OffDelay

description: Defines the minimum duration of a stable inactive state of the crest detection signal on the switching signal channel 5.2. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "Eval Config - Signal Filter MDC1, MDC2" index=96 id=V_XPFV_Eval_Filter

description: Defines the filter bandwidth for vibration signal evaluation. The filter is applied to MDC1 and MDC2 and has a 3rd order Butterworth characteristic. DIN ISO 10816/20816 requires 10 .. 1000 Hz.
data type: 8-bit UInteger
allowed values: 0 = 10 .. 1000 Hz, 1 = 10 .. 500 Hz, 2 = 10 .. 100 Hz, 3 = 10 .. 50 Hz, 4 = 1 .. 1000 Hz, 5 = 1 .. 500 Hz, 6 = 1 .. 100 Hz, 7 = 1 .. 50 Hz
default value: 0
access rights: rw

octet	0
bit offset	7 - 0
element bit	7 - 0

Variable "BLOB Config – Raw Data Sampling Rate" index=97 id=V_XPFV_BLOB_SamplingRate

description: Defines the internal sampling rate at which the oscillation signal is sampled and the associated low pass that is applied to the oscillation signal. A high sampling rate leads to a small recording time.
data type: 8-bit UInteger
allowed values: 0 = 64 kHz sampling rate, 12 kHz low-pass, 1 = 32 kHz sampling rate, 6 kHz low-pass, 2 = 16 kHz sampling rate, 3 kHz low-pass, 3 = 8 kHz sampling rate, 1.5 kHz low-pass, 4 = 4 kHz sampling rate, 0.75 kHz low-pass, 5 = 2 kHz sampling rate, 0.3 kHz low-pass
default value: 0
access rights: rw
modifies other variables

octet	0
bit offset	7 - 0
element bit	7 - 0

Variable "BLOB Config – Raw Data Memory Size" index=98 id=V_XPFV_BLOB_MemorySize

description: Defines the number of thousand samples, which defines the memory size for raw data recording. Each sample has a size of 32 bit, where 18 bit are measurement data and the remaining 14 bit are statically zero. LSB = 0.005g
data type: 16-bit UInteger
allowed values: 1..320
default value: 320
access rights: rw
modifies other variables

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

Variable "BLOB – Raw Data Recording Time" index=99 id=V_XPFV_BLOB_RecordingTime

description: Shows the estimated raw data recording time, which results from the configured sampling rate and configured memory size. A high sampling rate and a small memory size leads to a small recording time.
data type: 32-bit UInteger
access rights: ro
dynamic

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 "BLOB – Raw Data Transfer Time" index=100 id=V_XPFV_BLOB_TransferTime

description: Shows the estimated raw data transfer time for the BLOB transfer from sensor to master, which results from the configured memory size. A higher memory size leads to a higher transfer time.
data type: 16-bit UInteger
access rights: ro
dynamic

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

Variable "BLOB Config – SSC Trigger" index=101 id=V_XPFV_BLOB_SSCTrigger

description: Defines additional triggers for raw data recording based on switching signal channels (SSCs). A trigger is executed on a falling or rising edge of the selected SSC. BLOB_ID = -4097. If 'DSC.3 - BLOB Status' is not 'Idle', the SSC trigger is rejected.
data type: 8-bit UInteger
allowed values: 0 = Inactive, 1 = SSC1.1 - vRMS, 2 = SSC1.2 - vRMS, 3 = SSC2.1 - aRMS, 4 = SSC2.2 - aRMS, 5 = SSC3.1 - aPeak, 6 = SSC3.2 - aPeak, 7 = SSC4.1 - Temperature, 8 = SSC4.2 - Temperature, 9 = SSC5.1 - Crest, 10 = SSC5.2 - Crest, 11 = SSC6.1 - Bearing Condition, 12 = SSC6.2 - Bearing Condition
default value: 0
access rights: rw

octet	0
bit offset	7 - 0
element bit	7 - 0

Variable "BLOB Active ID" index=102 id=V_XPFV_BLOB_ActiveId

description: Shows the active BLOB_ID resulting from a successful BLOB trigger. If 'DSC.3 - BLOB Status' is not 'Idle', all BLOB triggers are rejected except for a Parameter trigger with BLOB_ID = -4096, which leads to the memory being deleted and a change to 'Idle'.
data type: 16-bit Integer
allowed values: -4098 = PDO trigger via IO-Link Master, -4097 = SSC trigger on switching edge, -4096 = Parameter trigger, 0 = Idle, no BLOB transfer active
access rights: ro
dynamic

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

Variable "I/O Config - C/Q Output Function" index=112 id=V_XPFV_IO_CQOutFunc

description: Defines the function of the output signal at C/Q (pin 4) in SIO mode.
data type: 8-bit UInteger
allowed values: 0 = Inactive, 1 = SSC1.1 - vRMS, 2 = SSC1.2 - vRMS, 3 = SSC2.1 - aRMS, 4 = SSC2.2 - aRMS, 5 = SSC3.1 - aPeak, 6 = SSC3.2 - aPeak, 7 = SSC4.1 - Temperature, 8 = SSC4.2 - Temperature, 9 = SSC5.1 - Crest, 10 = SSC5.2 - Crest, 11 = SSC6.1 - Bearing Condition, 12 = SSC6.2 - Bearing Condition
default value: 0
access rights: rw

octet	0
bit offset	7 - 0
element bit	7 - 0

Variable "I/O Config - I/Q Output Function" index=113 id=V_XPFV_IO_IQOutFunc

description: Defines the function of the output signal at I/Q (pin 2).
data type: 8-bit UInteger
allowed values: 0 = Inactive, 1 = SSC1.1 - vRMS, 2 = SSC1.2 - vRMS, 3 = SSC2.1 - aRMS, 4 = SSC2.2 - aRMS, 5 = SSC3.1 - aPeak, 6 = SSC3.2 - aPeak, 7 = SSC4.1 - Temperature, 8 = SSC4.2 - Temperature, 9 = SSC5.1 - Crest, 10 = SSC5.2 - Crest, 11 = SSC6.1 - Bearing Condition, 12 = SSC6.2 - Bearing Condition, 13 = Analog 4 .. 20 mA - vRMS, 14 = Analog 4 .. 20 mA - aRMS, 15 = Analog 4 .. 20 mA - aPeak, 16 = Analog 4 .. 20 mA - Temperature, 17 = Analog 4 .. 20 mA - Crest, 18 = Analog 4 .. 20 mA - Bearing Condition
default value: 0
access rights: rw

octet	0
bit offset	7 - 0
element bit	7 - 0

Variable "Analog Out Param vRMS - SP" index=114 id=V_XPFV_IO_AOParamVrms

description: Defines the setpoint value for the maximum value at the analog output.
data type: 32-bit Integer
allowed values: 0..12800
default value: 12800
access rights: rw

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 "Analog Out Param aRMS - SP" index=115 id=V_XPFV_IO_AOParamArms

description: Defines the setpoint value for the maximum value at the analog output.
data type: 32-bit Integer
allowed values: 0..3400
default value: 3400
access rights: rw

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 "Analog Out Param aPeak - SP" index=116 id=V_XPFV_IO_AOParamApeak

description: Defines the setpoint value for the maximum value at the analog output.
data type: 32-bit Integer
allowed values: 0..4800
default value: 4800
access rights: rw

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 "Analog Out Param Temperature" index=117 id=V_XPFV_IO_AOParamTemp

description: Defines the setpoint values for the minimum and maximum value at the analog output.
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	-50..100	-40				SP1	Defines the setpoint 1 value for the analog output. The lower value of SP1 and SP2 corresponds to the minimum analog output value, the higher value to the maximum analog output value.
2	0	32-bit Integer	-50..100	80				SP2	Defines the setpoint 2 value for the analog output. The lower value of SP1 and SP2 corresponds to the minimum analog output value, the higher value to the maximum analog output value.

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 "Analog Out Param Crest - SP" index=118 id=V_XPFV_IO_AOParamCrest

description: Defines the setpoint value for the maximum value at the analog output.
data type: 32-bit Integer
allowed values: 0..10000
default value: 10000
access rights: rw

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 "SSC6.1 Param Bearing Condition" index=128 id=V_XPFV_SSC61_Param

description: Defines the setpoint values for switching signal channel 6.1 Bearing Condition.
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	0..500	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..500	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC6.1 Config Bearing Condition" index=129 id=V_XPFV_SSC61_Config

description: Defines the configuration parameter for switching signal channel 6.1 Bearing Condition.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0..20	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC6.2 Param Bearing Condition" index=130 id=V_XPFV_SSC62_Param

description: Defines the setpoint values for switching signal channel 6.2 Bearing Condition.
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	0..500	0				SP1	Defines the setpoint 1 value for the switching signal channel.
2	0	32-bit Integer	0..500	0				SP2	Defines the setpoint 2 value for the switching signal channel.

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 "SSC6.2 Config Bearing Condition" index=131 id=V_XPFV_SSC62_Config

description: Defines the configuration parameter for switching signal channel 6.2 Bearing Condition.
data type: 48-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	40	8-bit UInteger	0 = High active, 1 = Low active	Logic	Defines the logical representation of the switching signal SSC in the process data.
2	32	8-bit UInteger	0 = Deactivated, 1 = Single point, 2 = Window	Mode	Defines the evaluation mode for the switching signal SSC.
3	0	32-bit Integer	0..20	Hysteresis	Defines the hysteresis at the switchpoint. A higher hysteresis may help to increase stability in critical applications.

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 "SSC6.1 Config Ext Bearing Condition - Off Delay" index=144 id=V_XPFV_SSC61_OffDelay

description: Defines the minimum duration of a stable inactive state of the bearing condition detection signal on the switching signal channel 6.1. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "SSC6.2 Config Ext Bearing Condition - Off Delay" index=145 id=V_XPFV_SSC62_OffDelay

description: Defines the minimum duration of a stable inactive state of the bearing condition detection signal on the switching signal channel 6.2. Shorter inactive signals will be suppressed.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..60000
default value: 0
access rights: rw

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

Variable "Device Characteristics" index=176 id=V_XPFS_Device_Char

description: Shows relevant key characteristics of the device for use in applications.
data type: 48-bit Record
access rights: ro

subindex	bit offset	data type	allowed values	default value	name	description
1	32	16-bit Integer	0 = 0 .. 128 mm/s / 0 .. 14 g (peak), 1 = 0 .. 128 mm/s / -48 .. 48 g (peak)	1	Measurement Range	Shows the maximum measurement range for vibration measurements as specified.
2	16	16-bit Integer	0 = 10 .. 1000 Hz, 1 = 1 .. 12000 Hz	1	Measurement Bandwidth	Shows the maximum frequency range for vibration measurements as specified.
3	0	16-bit UInteger		320	Supply Current Requirement	Shows the maximum specified supply current for the device excluding load.

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

Variable "MDC1 Descriptor vRMS" index=177 id=V_XPFV_MDC1_Descriptor

description: Descriptor for the characteristic of the measurement data channel 1 (process data MV).
data type: 88-bit Record
access rights: ro

subindex	bit offset	data type	name	description
1	56	32-bit Integer	Lower Value	Shows the lower value of measurement range.
2	24	32-bit Integer	Upper Value	Shows the upper value of measurement range.
3	8	16-bit UInteger	Unit Code	Shows the unique code for the physical unit.
4	0	8-bit Integer	Scale	Shows the multiplier for measurement value - 10exp(scale).

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

Variable "MDC2 Descriptor aRMS" index=178 id=V_XPFV_MDC2_Descriptor

description: Descriptor for the characteristic of the measurement data channel 2 (process data MV).
data type: 88-bit Record
access rights: ro

subindex	bit offset	data type	name	description
1	56	32-bit Integer	Lower Value	Shows the lower value of measurement range.
2	24	32-bit Integer	Upper Value	Shows the upper value of measurement range.
3	8	16-bit UInteger	Unit Code	Shows the unique code for the physical unit.
4	0	8-bit Integer	Scale	Shows the multiplier for measurement value - 10exp(scale).

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

Variable "MDC3 Descriptor aPeak" index=179 id=V_XPFV_MDC3_Descriptor

description: Descriptor for the characteristic of the measurement data channel 3 (process data MV).
data type: 88-bit Record
access rights: ro

subindex	bit offset	data type	name	description
1	56	32-bit Integer	Lower Value	Shows the lower value of measurement range.
2	24	32-bit Integer	Upper Value	Shows the upper value of measurement range.
3	8	16-bit UInteger	Unit Code	Shows the unique code for the physical unit.
4	0	8-bit Integer	Scale	Shows the multiplier for measurement value - 10exp(scale).

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

Variable "MDC4 Descriptor Temperature" index=180 id=V_XPFV_MDC4_Descriptor

description: Descriptor for the characteristic of the measurement data channel 4 (process data MV).
data type: 88-bit Record
access rights: ro

subindex	bit offset	data type	name	description
1	56	32-bit Integer	Lower Value	Shows the lower value of measurement range.
2	24	32-bit Integer	Upper Value	Shows the upper value of measurement range.
3	8	16-bit UInteger	Unit Code	Shows the unique code for the physical unit.
4	0	8-bit Integer	Scale	Shows the multiplier for measurement value - 10exp(scale).

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

Variable "MDC5 Descriptor Crest" index=181 id=V_XPFV_MDC5_Descriptor

description: Descriptor for the characteristic of the measurement data channel 5 (process data MV).
data type: 88-bit Record
access rights: ro

subindex	bit offset	data type	name	description
1	56	32-bit Integer	Lower Value	Shows the lower value of measurement range.
2	24	32-bit Integer	Upper Value	Shows the upper value of measurement range.
3	8	16-bit UInteger	Unit Code	Shows the unique code for the physical unit.
4	0	8-bit Integer	Scale	Shows the multiplier for measurement value - 10exp(scale).

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

Variable "MDC6 Descriptor Bearing Condition" index=182 id=V_XPFV_MDC6_Descriptor

description: Descriptor for the characteristic of the measurement data channel 6 (process data MV).
data type: 88-bit Record
access rights: ro

subindex	bit offset	data type	name	description
1	56	32-bit Integer	Lower Value	Shows the lower value of measurement range.
2	24	32-bit Integer	Upper Value	Shows the upper value of measurement range.
3	8	16-bit UInteger	Unit Code	Shows the unique code for the physical unit.
4	0	8-bit Integer	Scale	Shows the multiplier for measurement value - 10exp(scale).

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

Variable "Maintenance Config vRMS" index=208 id=V_XPFV_Maintenance_ConfigVrms

description: Provides settings for configuration of vRMS maintenance monitoring.
data type: 64-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	32	32-bit Integer	0 = Disabled, 1..12800	Overrun Threshold	Defines the threshold for triggering of vRMS maintenance monitoring.
2	16	16-bit UInteger	0 = Disabled, 1..65535	Incident Count Limit	Defines the limit for the number of transitions above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.
3	0	16-bit UInteger	0 = Disabled, 1..10000	Incident Operating Limit	Defines the limit for the accumulated operating time in hours above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.

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

Variable "Maintenance Config aRMS" index=209 id=V_XPFV_Maintenance_ConfigArms

description: Provides settings for configuration of aRMS maintenance monitoring.
data type: 64-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	32	32-bit Integer	0 = Disabled, 1..3400	Overrun Threshold	Defines the threshold for triggering of aRMS maintenance monitoring.
2	16	16-bit UInteger	0 = Disabled, 1..65535	Incident Count Limit	Defines the limit for the number of transitions above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.
3	0	16-bit UInteger	0 = Disabled, 1..10000	Incident Operating Limit	Defines the limit for the accumulated operating time in hours above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.

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

Variable "Maintenance Config aPeak" index=210 id=V_XPFV_Maintenance_ConfigApeak

description: Provides settings for configuration of aPeak maintenance monitoring.
data type: 64-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	32	32-bit Integer	0 = Disabled, 1..4800	Overrun Threshold	Defines the threshold for triggering of aPeak maintenance monitoring.
2	16	16-bit UInteger	0 = Disabled, 1..65535	Incident Count Limit	Defines the limit for the number of transitions above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.
3	0	16-bit UInteger	0 = Disabled, 1..10000	Incident Operating Limit	Defines the limit for the accumulated operating time in hours above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.

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

Variable "Maintenance Config Temperature" index=211 id=V_XPFV_Maintenance_ConfigTemp

description: Provides settings for configuration of temperature maintenance monitoring.
data type: 64-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	32	32-bit Integer	0 = Disabled, 1..100	Overrun Threshold	Defines the threshold for triggering of temperature maintenance monitoring.
2	16	16-bit UInteger	0 = Disabled, 1..65535	Incident Count Limit	Defines the limit for the number of transitions above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.
3	0	16-bit UInteger	0 = Disabled, 1..10000	Incident Operating Limit	Defines the limit for the accumulated operating time in hours above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.

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

Variable "Maintenance Config Crest" index=212 id=V_XPFV_Maintenance_ConfigCrest

description: Provides settings for configuration of crest maintenance monitoring.
data type: 64-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	32	32-bit Integer	0 = Disabled, 1..10000	Overrun Threshold	Defines the threshold for triggering of crest maintenance monitoring.
2	16	16-bit UInteger	0 = Disabled, 1..65535	Incident Count Limit	Defines the limit for the number of transitions above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.
3	0	16-bit UInteger	0 = Disabled, 1..10000	Incident Operating Limit	Defines the limit for the accumulated operating time in hours above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.

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

Variable "Maintenance Config Operating Time" index=213 id=V_XPFV_Maintenance_ConfigOper

description: Defines the limit for the accumulated operating time for a planned maintenance cycle in hours. The according maintenance alarm will be set, if this limit is exceeded.
data type: 16-bit UInteger
allowed values: 0 = Disabled, 1..10000
default value: 0
access rights: rw

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

Variable "Maintenance Config Bearing Condition" index=214 id=V_XPFV_Maintenance_ConfigBearing

description: Provides settings for configuration of bearing condition maintenance monitoring.
data type: 64-bit Record
access rights: rw

subindex	bit offset	data type	allowed values	name	description
1	32	32-bit Integer	0 = Disabled, 1..500	Overrun Threshold	Defines the threshold for triggering of bearing condition maintenance monitoring.
2	16	16-bit UInteger	0 = Disabled, 1..65535	Incident Count Limit	Defines the limit for the number of transitions above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.
3	0	16-bit UInteger	0 = Disabled, 1..10000	Incident Operating Limit	Defines the limit for the accumulated operating time in hours above the 'Overrun Threshold'. The according maintenance alarm will be set, if this limit is exceeded.

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

Variable "Maintenance Monitor vRMS" index=216 id=V_XPFV_Maintenance_MonVrms

description: Shows the accumulated monitor data since the last maintenance reset for the vRMS measurement channel.
data type: 48-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	16	32-bit UInteger						Overrun Time	Shows the accumulated operating time in hours of operation above the configured threshold since the last maintenance reset.
2	0	16-bit UInteger						Overrun Count	Shows the number of transitions above the configured threshold since the last maintenance reset.

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

Variable "Maintenance Monitor aRMS" index=217 id=V_XPFV_Maintenance_MonArms

description: Shows the accumulated monitor data since the last maintenance reset for the aRMS measurement channel.
data type: 48-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	16	32-bit UInteger						Overrun Time	Shows the accumulated operating time in hours of operation above the configured threshold since the last maintenance reset.
2	0	16-bit UInteger						Overrun Count	Shows the number of transitions above the configured threshold since the last maintenance reset.

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

Variable "Maintenance Monitor aPeak" index=218 id=V_XPFV_Maintenance_MonApeak

description: Shows the accumulated monitor data since the last maintenance reset for the aPeak measurement channel.
data type: 48-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	16	32-bit UInteger						Overrun Time	Shows the accumulated operating time in hours of operation above the configured threshold since the last maintenance reset.
2	0	16-bit UInteger						Overrun Count	Shows the number of transitions above the configured threshold since the last maintenance reset.

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

Variable "Maintenance Monitor Temperature" index=219 id=V_XPFV_Maintenance_MonTemp

description: Shows the accumulated monitor data since the last maintenance reset for the temperature measurement channel.
data type: 48-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	16	32-bit UInteger						Overrun Time	Shows the accumulated operating time in hours of operation above the configured threshold since the last maintenance reset.
2	0	16-bit UInteger						Overrun Count	Shows the number of transitions above the configured threshold since the last maintenance reset.

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

Variable "Maintenance Monitor Crest" index=220 id=V_XPFV_Maintenance_MonCrest

description: Shows the accumulated monitor data since the last maintenance reset for the crest measurement channel.
data type: 48-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	16	32-bit UInteger						Overrun Time	Shows the accumulated operating time in hours of operation above the configured threshold since the last maintenance reset.
2	0	16-bit UInteger						Overrun Count	Shows the number of transitions above the configured threshold since the last maintenance reset.

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

Variable "Operating Time Since Maintenance" index=221 id=V_XPFV_Maintenance_MonOperTime

description: Shows the time in hours in powered operation since the last maintenance reset.
data type: 32-bit UInteger
access rights: ro
dynamic

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 "Maintenance Monitor Bearing Condition" index=222 id=V_XPFV_Maintenance_MonBearing

description: Shows the accumulated monitor data since the last maintenance reset for the bearing condition measurement channel.
data type: 48-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	16	32-bit UInteger						Overrun Time	Shows the accumulated operating time in hours of operation above the configured threshold since the last maintenance reset.
2	0	16-bit UInteger						Overrun Count	Shows the number of transitions above the configured threshold since the last maintenance reset.

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

Variable "Maintenance Status Diag" index=223 id=V_XPFV_Maintenance_Status

description: Shows the diagnosis status of the different maintenance evaluation channels.
data type: 16-bit Record (subindex access not supported)
access rights: ro
dynamic

subindex	bit offset	data type	allowed values	name	description
1	0	Boolean	false = Inactive, true = Active	Operating Time Alarm vRMS	Indicates if the configured maximum time for operation above the vRMS threshold has been exceeded.
2	1	Boolean	false = Inactive, true = Active	Count Alarm vRMS	Indicates if the configured maximum count for operation above the vRMS threshold has been exceeded.
3	2	Boolean	false = Inactive, true = Active	Operating Time Alarm aRMS	Indicates if the configured maximum time for operation above the aRMS threshold has been exceeded.
4	3	Boolean	false = Inactive, true = Active	Count Alarm aRMS	Indicates if the configured maximum count for operation above the aRMS threshold has been exceeded.
5	4	Boolean	false = Inactive, true = Active	Operating Time Alarm aPeak	Indicates if the configured maximum time for operation above the aPeak threshold has been exceeded.
6	5	Boolean	false = Inactive, true = Active	Count Alarm aPeak	Indicates if the configured maximum count for operation above the aPeak threshold has been exceeded.
7	6	Boolean	false = Inactive, true = Active	Operating Time Alarm Temperature	Indicates if the configured maximum time for operation above the temperature threshold has been exceeded.
8	7	Boolean	false = Inactive, true = Active	Count Alarm Temperature	Indicates if the configured maximum count for operation above the temperature threshold has been exceeded.
9	8	Boolean	false = Inactive, true = Active	Operating Time Alarm Crest	Indicates if the configured maximum time for operation above the crest threshold has been exceeded.
10	9	Boolean	false = Inactive, true = Active	Count Alarm Crest	Indicates if the configured maximum count for operation above the crest threshold has been exceeded.
11	10	Boolean	false = Inactive, true = Active	Operating Time Alarm Bearing Condition	Indicates if the configured maximum time for operation above the bearing condition threshold has been exceeded.
12	11	Boolean	false = Inactive, true = Active	Count Alarm Bearing Condition	Indicates if the configured maximum count for operation above the bearing condition threshold has been exceeded.
16	15	Boolean	false = Inactive, true = Active	Operating Time Alarm	Indicates if the configured operating time for a maintenance cycle has been exceeded.

Octet 0

bit offset	15	14	13	12	11	10	9	8
subindex	16	/ / / / / /	/ / / / / /	/ / / / / /	12	11	10	9

Octet 1

bit offset	7	6	5	4	3	2	1	0
subindex	8	7	6	5	4	3	2	1

Variable "Operating Hours" index=224 id=V_XPFS_OPM_OperHour

description: Shows the overall hours of operation since initial commissioning.
data type: 32-bit UInteger
access rights: ro
dynamic

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 "Temperature Indicator" index=225 id=V_XPFS_OPM_TempInd

description: Indicates the operation at ambient temperatures close to or in excess of specification limits.
data type: 8-bit UInteger
allowed values: 0 = Operating condition OK, 1 = Close to upper limit, 2 = Upper limit exceeded, 3 = Close to lower limit, 4 = Lower limit exceeded
access rights: ro
dynamic

octet	0
bit offset	7 - 0
element bit	7 - 0

Variable "Temperature Monitor" index=226 id=V_XPFS_OPM_TempMon

description: Contains parameters showing current and past conditions of temperature exposure since initial commissioning.
data type: 72-bit Record
access rights: ro
dynamic

subindex	bit offset	data type	name	description
1	40	32-bit UInteger	Overtemperature Operating Hours	Shows the overall hours of powered operation above the specified temperature limit since initial commissioning.
2	24	16-bit UInteger	Overtemperature Exceeded Counter	Shows the number of transitions to operating temperatures above the specified limit in powered operation since initial commissioning.
3	16	8-bit Integer	Maximum Operating Temperature	Shows the maximum observed temperature in powered operation since initial commissioning.
4	8	8-bit Integer	Minimum Operating Temperature	Shows the minimum observed temperature in powered operation since initial commissioning.
5	0	8-bit Integer	Device Operating Temperature	Shows the currently observed operating temperature of the device.

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

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

Variable "Power Monitor" index=227 id=V_XPFS_OPM_PowerMon

description: Contains parameters showing current and past conditions of power cycles since initial commissioning.
data type: 128-bit Record
access rights: ro
dynamic

subindex	bit offset	data type	name	description
1	96	32-bit UInteger	Power Cycles	Shows the number of power cycles since initial commissioning.
2	64	32-bit UInteger	Maximum Uptime	Shows the maximum observed powered operating time between power cycles in seconds since initial commissioning.
3	32	32-bit UInteger	Average Uptime	Shows the average observed powered operating time between power cycles in seconds since initial commissioning.
4	0	32-bit UInteger	Uptime	Shows the current operating time since the last power cycle in seconds.

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	4	4	4	4
element bit	31 - 24	23 - 16	15 - 8	7 - 0	31 - 24	23 - 16	15 - 8	7 - 0

Variable "Observation Data" index=236 id=V_XPFS_ObserveData

description: Provides a set of relevant data suitable for observation purposes.
data type: 216-bit Record
access rights: ro
dynamic

subindex	bit offset	data type	allowed values	name	description
1	200	16-bit Integer	32764 = No Measurement Data, 0..12800	MDC1 - vRMS	Shows the current velocity rms measurement value of measurement data channel 1.
2	192	8-bit UInteger	0 = Low, 1 = High	SSC1.1 - vRMS	Indicates the current status of the velocity rms switching signal 1.1 for measurement data channel 1.
3	184	8-bit UInteger	0 = Low, 1 = High	SSC1.2 - vRMS	Indicates the current status of the velocity rms switching signal 1.2 for measurement data channel 1.
4	168	16-bit Integer	32764 = No Measurement Data, 0..3400	MDC2 - aRMS	Shows the current acceleration rms measurement value of measurement data channel 2.
5	160	8-bit UInteger	0 = Low, 1 = High	SSC2.1 - aRMS	Indicates the current status of the acceleration rms switching signal 2.1 for measurement data channel 2.
6	152	8-bit UInteger	0 = Low, 1 = High	SSC2.2 - aRMS	Indicates the current status of the acceleration rms switching signal 2.2 for measurement data channel 2.
7	136	16-bit Integer	32764 = No Measurement Data, 0..4800	MDC3 - aPeak	Shows the current acceleration peak measurement value of measurement data channel 3.
8	128	8-bit UInteger	0 = Low, 1 = High	SSC3.1 - aPeak	Indicates the current status of the acceleration peak switching signal 3.1 for measurement data channel 3.
9	120	8-bit UInteger	0 = Low, 1 = High	SSC3.2 - aPeak	Indicates the current status of the acceleration peak switching signal 3.2 for measurement data channel 3.
10	104	16-bit Integer	32764 = No Measurement Data, -50..100	MDC4 - Temperature	Shows the current temperature measurement value of measurement data channel 4.
11	96	8-bit UInteger	0 = Low, 1 = High	SSC4.1 - Temperature	Indicates the current status of the temperature switching signal 4.1 for measurement data channel 4.
12	88	8-bit UInteger	0 = Low, 1 = High	SSC4.2 - Temperature	Indicates the current status of the temperature switching signal 4.2 for measurement data channel 4.
13	80	8-bit UInteger	0 = Device is OK, 1 = Maintenance required, 2 = Out of specification, 3 = Functional check, 4 = Failure	DSC.2 - Device Status	Indicator for the current device condition and diagnosis state.
14	64	16-bit Integer	32764 = No Measurement Data, 0..10000	MDC5 - Crest	Shows the current crest measurement value of measurement data channel 5 (Crest = aPeak/aRMS).
15	56	8-bit UInteger	0 = Low, 1 = High	SSC5.1 - Crest	Indicates the current status of the crest switching signal 5.1 for measurement data channel 5.
16	48	8-bit UInteger	0 = Low, 1 = High	SSC5.2 - Crest	Indicates the current status of the crest switching signal 5.2 for measurement data channel 5.
17	40	8-bit UInteger	0 = Idle, no BLOB transfer active, 1 = Raw data recording, 2 = Recording finished, wait for transfer, 3 = Transfer active, 4 = Deleting memory	DSC.3 - BLOB Status	Shows the current status of raw data recording and BLOB transfer. If 'DSC.3 - BLOB Status' is not 'Idle', all BLOB triggers are rejected except for a Parameter trigger with BLOB_ID = -4096, which leads to the memory being deleted and a change to 'Idle'.
18	24	16-bit Integer	32764 = No Measurement Data, 0..500	MDC6 - Bearing Condition	Shows the current bearing condition measurement value of measurement data channel 6 as defined in DIN ISO 13373-3.
19	16	8-bit UInteger	0 = Low, 1 = High	SSC6.1 - Bearing Condition	Indicates the current status of the bearing condition switching signal 6.1 for measurement data channel 6.
20	8	8-bit UInteger	0 = Low, 1 = High	SSC6.2 - Bearing Condition	Indicates the current status of the bearing condition switching signal 6.2 for measurement data channel 6.
21	0	8-bit UInteger	0 = 1 - Exceptional low (blue), 1 = 2 - Normal (green), 2 = 3 - Warning (yellow), 3 = 4 - Alarm (red), 4 = No Measurement Data	DSC.6 - Bearing Condition	Shows a 4-level diagnosis information for the currently detected vibration condition at bearings as defined in DIN ISO 13373-3.

octet	0	1	2	3	4	5	6	7
bit offset	215 - 208	207 - 200	199 - 192	191 - 184	183 - 176	175 - 168	167 - 160	159 - 152
subindex	1	1	2	3	4	4	5	6
element bit	15 - 8	7 - 0	7 - 0	7 - 0	15 - 8	7 - 0	7 - 0	7 - 0

octet	8	9	10	11	12	13	14	15
bit offset	151 - 144	143 - 136	135 - 128	127 - 120	119 - 112	111 - 104	103 - 96	95 - 88
subindex	7	7	8	9	10	10	11	12
element bit	15 - 8	7 - 0	7 - 0	7 - 0	15 - 8	7 - 0	7 - 0	7 - 0

octet	16	17	18	19	20	21	22	23
bit offset	87 - 80	79 - 72	71 - 64	63 - 56	55 - 48	47 - 40	39 - 32	31 - 24
subindex	13	14	14	15	16	17	18	18
element bit	7 - 0	15 - 8	7 - 0	7 - 0	7 - 0	7 - 0	15 - 8	7 - 0

octet	24	25	26
bit offset	23 - 16	15 - 8	7 - 0
subindex	19	20	21
element bit	7 - 0	7 - 0	7 - 0

[Top]

ErrorTypes

Code	Additional code	Name	Description
128 (0x80)	17 (0x11)	Index not available	Read or write access attempt to a non-existing index.
128 (0x80)	18 (0x12)	Subindex not available	Read or write access attempt to a non-existing subindex of an existing index.
128 (0x80)	32 (0x20)	Service temporarily not available	Parameter not accessible due to the current state of the technology-specific application.
128 (0x80)	33 (0x21)	Service temporarily unavailable - local control	Parameter not accessible. The device is currently in an ongoing, locally controlled operation.
128 (0x80)	34 (0x22)	Service temporarily unavailable - device control	Parameter not accessible. The technology-specific application is currently in a remotely triggered operation.
128 (0x80)	35 (0x23)	Access denied	Write access to a read-only parameter or read access to write-only parameter.
128 (0x80)	48 (0x30)	Parameter value out of range	Written parameter value is outside of the permitted value range.
128 (0x80)	49 (0x31)	Parameter value above limit	Written parameter value is above its specified value range.
128 (0x80)	50 (0x32)	Parameter value below limit	Written parameter value is below its specified value range.
128 (0x80)	51 (0x33)	Parameter length overrun	Written parameter is longer than specified.
128 (0x80)	52 (0x34)	Parameter length underrun	Written parameter is shorter than specified.
128 (0x80)	53 (0x35)	Function unavailable	Written command is not supported by the technology-specific application.
128 (0x80)	54 (0x36)	Function temporarily unavailable	Written command is unavailable due to the current state of the technology-specific application.
128 (0x80)	64 (0x40)	Invalid parameter set	Written single parameter value collides with other existing parameter settings.
128 (0x80)	65 (0x41)	Inconsistent parameter set	Parameter set inconsistencies at the end of block parameter transfer. Device plausibility check failed.

[Top]

Events

Code	Type	Name	Description
20480 (0x5000)	Error	Device hardware fault	Exchange device
36097 (0x8d01)	Warning	Maintenance request	The limit for a configured maintenance cycle has been reached. Perform the required maintenance actions and apply the 'Maintenance Reset' command.
36163 (0x8d43)	Warning	Ambient temperature outside specified temperature range	Check sensor environment.

[Top]

Process Data Formatting

Formatting for Process Data id=PI_PDI
Subindex 1: * 0.01 + 0 mm/s Dec.2
Subindex 3:
Subindex 4:
Subindex 11: * 0.01 + 0 g Dec.2
Subindex 13:
Subindex 14:
Subindex 21: * 0.01 + 0 g Dec.2
Subindex 23:
Subindex 24:
Subindex 31: * 1 + 0 °C Dec.0
Subindex 33:
Subindex 34:
Subindex 41: * 0.01 + 0 Dec.2
Subindex 43:
Subindex 44:
Subindex 51: * 0.01 + 0 Dec.2
Subindex 53:
Subindex 54:
Subindex 57:
Subindex 48:
Subindex 37:

Formatting for Process Data id=PO_PDO
Subindex 1:

[Top]

Operator Menus

Identification Menu
V_VendorName
V_VendorText
V_ProductName
V_ProductText
V_ProductID
V_SerialNumber
V_CP_ProductURI
V_HardwareRevision
V_FirmwareRevision
V_ApplicationSpecificTag, ro
V_CP_FunctionTag, ro
V_CP_LocationTag, ro

Parameters Menu

BLOB Configuration
V_XPFV_BLOB_SSCTrigger, ro
V_XPFV_BLOB_SamplingRate, ro
V_XPFV_BLOB_MemorySize, ro
V_XPFV_BLOB_RecordingTime * 1 + 0 s, ro Dec.0
V_XPFV_BLOB_TransferTime * 1 + 0 s, ro Dec.0

Operation Parameter

Switching Signal Channel 1.1 vRMS
V_XPFV_SSC11_Param.SP1 * 0.01 + 0 mm/s, ro Dec.2
V_XPFV_SSC11_Param.SP2 * 0.01 + 0 mm/s, ro Dec.2
V_XPFV_SSC11_Config.Logic, ro
V_XPFV_SSC11_Config.Mode, ro
V_XPFV_SSC11_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 1.2 vRMS
V_XPFV_SSC12_Param.SP1 * 0.01 + 0 mm/s, ro Dec.2
V_XPFV_SSC12_Param.SP2 * 0.01 + 0 mm/s, ro Dec.2
V_XPFV_SSC12_Config.Logic, ro
V_XPFV_SSC12_Config.Mode, ro
V_XPFV_SSC12_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 2.1 aRMS
V_XPFV_SSC21_Param.SP1 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC21_Param.SP2 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC21_Config.Logic, ro
V_XPFV_SSC21_Config.Mode, ro
V_XPFV_SSC21_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 2.2 aRMS
V_XPFV_SSC22_Param.SP1 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC22_Param.SP2 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC22_Config.Logic, ro
V_XPFV_SSC22_Config.Mode, ro
V_XPFV_SSC22_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 3.1 aPeak
V_XPFV_SSC31_Param.SP1 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC31_Param.SP2 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC31_Config.Logic, ro
V_XPFV_SSC31_Config.Mode, ro
V_XPFV_SSC31_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 3.2 aPeak
V_XPFV_SSC32_Param.SP1 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC32_Param.SP2 * 0.01 + 0 g, ro Dec.2
V_XPFV_SSC32_Config.Logic, ro
V_XPFV_SSC32_Config.Mode, ro
V_XPFV_SSC32_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 4.1 Temp
V_XPFV_SSC41_Param.SP1 * 1 + 0 °C, ro Dec.0
V_XPFV_SSC41_Param.SP2 * 1 + 0 °C, ro Dec.0
V_XPFV_SSC41_Config.Logic, ro
V_XPFV_SSC41_Config.Mode, ro
V_XPFV_SSC41_Config.Hysteresis * 1 + 0 K, ro Dec.0
V_XPFV_SSC41_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 4.2 Temp
V_XPFV_SSC42_Param.SP1 * 1 + 0 °C, ro Dec.0
V_XPFV_SSC42_Param.SP2 * 1 + 0 °C, ro Dec.0
V_XPFV_SSC42_Config.Logic, ro
V_XPFV_SSC42_Config.Mode, ro
V_XPFV_SSC42_Config.Hysteresis * 1 + 0 K, ro Dec.0
V_XPFV_SSC42_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 5.1 Crest
V_XPFV_SSC51_Param.SP1 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC51_Param.SP2 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC51_Config.Logic, ro
V_XPFV_SSC51_Config.Mode, ro
V_XPFV_SSC51_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 5.2 Crest
V_XPFV_SSC52_Param.SP1 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC52_Param.SP2 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC52_Config.Logic, ro
V_XPFV_SSC52_Config.Mode, ro
V_XPFV_SSC52_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 6.1 Bearing Condition
V_XPFV_SSC61_Param.SP1 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC61_Param.SP2 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC61_Config.Logic, ro
V_XPFV_SSC61_Config.Mode, ro
V_XPFV_SSC61_Config.Hysteresis * 0.01 + 0 , ro Dec.2
V_XPFV_SSC61_OffDelay * 1 + 0 ms, ro Dec.0

Switching Signal Channel 6.2 Bearing Condition
V_XPFV_SSC62_Param.SP1 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC62_Param.SP2 * 0.01 + 0 , ro Dec.2
V_XPFV_SSC62_Config.Logic, ro
V_XPFV_SSC62_Config.Mode, ro
V_XPFV_SSC62_Config.Hysteresis * 0.01 + 0 , ro Dec.2
V_XPFV_SSC62_OffDelay * 1 + 0 ms, ro Dec.0

Sensor Configuration
V_XPFV_Eval_Filter, ro

Maintenance Configuration

Maintenance vRMS
V_XPFV_Maintenance_ConfigVrms.Overrun Threshold * 0.01 + 0 mm/s, ro Dec.2
V_XPFV_Maintenance_ConfigVrms.Incident Count Limit, ro
V_XPFV_Maintenance_ConfigVrms.Incident Operating Limit * 1 + 0 h, ro Dec.0

Maintenance aRMS
V_XPFV_Maintenance_ConfigArms.Overrun Threshold * 0.01 + 0 g, ro Dec.2
V_XPFV_Maintenance_ConfigArms.Incident Count Limit, ro
V_XPFV_Maintenance_ConfigArms.Incident Operating Limit * 1 + 0 h, ro Dec.0

Maintenance aPeak
V_XPFV_Maintenance_ConfigApeak.Overrun Threshold * 0.01 + 0 g, ro Dec.2
V_XPFV_Maintenance_ConfigApeak.Incident Count Limit, ro
V_XPFV_Maintenance_ConfigApeak.Incident Operating Limit * 1 + 0 h, ro Dec.0

Maintenance Temperature
V_XPFV_Maintenance_ConfigTemp.Overrun Threshold * 1 + 0 °C, ro Dec.0
V_XPFV_Maintenance_ConfigTemp.Incident Count Limit, ro
V_XPFV_Maintenance_ConfigTemp.Incident Operating Limit * 1 + 0 h, ro Dec.0

Maintenance Crest
V_XPFV_Maintenance_ConfigCrest.Overrun Threshold * 0.01 + 0 , ro Dec.2
V_XPFV_Maintenance_ConfigCrest.Incident Count Limit, ro
V_XPFV_Maintenance_ConfigCrest.Incident Operating Limit * 1 + 0 h, ro Dec.0

Maintenance Bearing Condition
V_XPFV_Maintenance_ConfigBearing.Overrun Threshold * 0.01 + 0 , ro Dec.2
V_XPFV_Maintenance_ConfigBearing.Incident Count Limit, ro
V_XPFV_Maintenance_ConfigBearing.Incident Operating Limit * 1 + 0 h, ro Dec.0

V_XPFV_Maintenance_ConfigOper * 1 + 0 h, ro Dec.0

I/O Configuration

V_XPFV_IO_CQOutFunc, ro

V_XPFV_IO_IQOutFunc, ro

If V_XPFV_IO_IQOutFunc = 13:

Analog Output vRMS
V_XPFV_IO_AOParamVrms * 0.01 + 0 mm/s, ro Dec.2

If V_XPFV_IO_IQOutFunc = 14:

Analog Output aRMS
V_XPFV_IO_AOParamArms * 0.01 + 0 g, ro Dec.2

If V_XPFV_IO_IQOutFunc = 15:

Analog Output aPeak
V_XPFV_IO_AOParamApeak * 0.01 + 0 g, ro Dec.2

If V_XPFV_IO_IQOutFunc = 16:

Analog Output Temperature
V_XPFV_IO_AOParamTemp.SP1 * 1 + 0 °C, ro Dec.0
V_XPFV_IO_AOParamTemp.SP2 * 1 + 0 °C, ro Dec.0

If V_XPFV_IO_IQOutFunc = 17:

Analog Output Crest
V_XPFV_IO_AOParamCrest * 0.01 + 0 , ro Dec.2

Observation Menu

V_DeviceStatus

Observation Data
V_XPFS_ObserveData.MDC1 - vRMS * 0.01 + 0 mm/s, Dec.2
V_XPFS_ObserveData.SSC1.1 - vRMS
V_XPFS_ObserveData.SSC1.2 - vRMS
V_XPFS_ObserveData.MDC2 - aRMS * 0.01 + 0 g, Dec.2
V_XPFS_ObserveData.SSC2.1 - aRMS
V_XPFS_ObserveData.SSC2.2 - aRMS
V_XPFS_ObserveData.MDC3 - aPeak * 0.01 + 0 g, Dec.2
V_XPFS_ObserveData.SSC3.1 - aPeak
V_XPFS_ObserveData.SSC3.2 - aPeak
V_XPFS_ObserveData.MDC4 - Temperature * 1 + 0 °C, Dec.0
V_XPFS_ObserveData.SSC4.1 - Temperature
V_XPFS_ObserveData.SSC4.2 - Temperature
V_XPFS_ObserveData.DSC.2 - Device Status
V_XPFS_ObserveData.MDC5 - Crest * 0.01 + 0 , Dec.2
V_XPFS_ObserveData.SSC5.1 - Crest
V_XPFS_ObserveData.SSC5.2 - Crest
V_XPFS_ObserveData.DSC.3 - BLOB Status
V_XPFS_ObserveData.MDC6 - Bearing Condition * 0.01 + 0 , Dec.2
V_XPFS_ObserveData.SSC6.1 - Bearing Condition
V_XPFS_ObserveData.SSC6.2 - Bearing Condition
V_XPFS_ObserveData.DSC.6 - Bearing Condition

Diagnosis Menu

Device Status Information
V_DeviceStatus
V_DetailedDeviceStatus

BLOB Information
V_XPFV_BLOB_ActiveId
V_XPFS_ObserveData.DSC.3 - BLOB Status

Operating Information
V_XPFS_OPM_OperHour * 1 + 0 h, Dec.0
V_XPFS_OPM_TempInd
V_XPFS_OPM_TempMon.Device Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Maximum Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Minimum Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Overtemperature Operating Hours * 1 + 0 h, Dec.0
V_XPFS_OPM_TempMon.Overtemperature Exceeded Counter
V_XPFS_OPM_PowerMon.Uptime * 1 + 0 s, Dec.0
V_XPFS_OPM_PowerMon.Power Cycles
V_XPFS_OPM_PowerMon.Maximum Uptime * 1 + 0 s, Dec.0
V_XPFS_OPM_PowerMon.Average Uptime * 1 + 0 s, Dec.0

Maintenance Information

V_XPFV_Maintenance_Status

Maintenance vRMS
V_XPFV_Maintenance_MonVrms.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonVrms.Overrun Count * 1 + 0 , Dec.0

Maintenance aRMS
V_XPFV_Maintenance_MonArms.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonArms.Overrun Count * 1 + 0 , Dec.0

Maintenance aPeak
V_XPFV_Maintenance_MonApeak.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonApeak.Overrun Count * 1 + 0 , Dec.0

Maintenance Temperature
V_XPFV_Maintenance_MonTemp.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonTemp.Overrun Count * 1 + 0 , Dec.0

Maintenance Crest
V_XPFV_Maintenance_MonCrest.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonCrest.Overrun Count * 1 + 0 , Dec.0

Maintenance Bearing Condition
V_XPFV_Maintenance_MonBearing.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonBearing.Overrun Count * 1 + 0 , Dec.0

V_XPFV_Maintenance_MonOperTime * 1 + 0 h, Dec.0

Device Characteristics
V_XPFS_Device_Char.Measurement Range
V_XPFS_Device_Char.Measurement Bandwidth
V_XPFS_Device_Char.Supply Current Requirement * 1 + 0 mA, Dec.0

Measurement Data Information
V_XPFV_MDC1_Descriptor
V_XPFV_MDC2_Descriptor
V_XPFV_MDC3_Descriptor
V_XPFV_MDC4_Descriptor
V_XPFV_MDC5_Descriptor
V_XPFV_MDC6_Descriptor

Communication Characteristics
V_DirectParameters_1.Min Cycle Time, ro
V_DirectParameters_1.Master Cycle Time, ro
V_DirectParameters_1.IO-Link Revision ID, ro
V_DirectParameters_1.Process Data Input Length, ro
V_DirectParameters_1.Process Data Output Length, ro

Maintenance Menus

Identification Menu
V_VendorName
V_VendorText
V_ProductName
V_ProductText
V_ProductID
V_SerialNumber
V_CP_ProductURI
V_HardwareRevision
V_FirmwareRevision
V_ApplicationSpecificTag
V_CP_FunctionTag
V_CP_LocationTag

Parameters Menu

BLOB Configuration
V_XPFV_BLOB_SSCTrigger
V_XPFV_BLOB_SamplingRate
V_XPFV_BLOB_MemorySize
V_XPFV_BLOB_RecordingTime * 1 + 0 s, Dec.0
V_XPFV_BLOB_TransferTime * 1 + 0 s, Dec.0

Operation Parameter

Switching Signal Channel 1.1 vRMS
V_XPFV_SSC11_Param.SP1 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC11_Param.SP2 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC11_Config.Logic
V_XPFV_SSC11_Config.Mode
V_XPFV_SSC11_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 1.2 vRMS
V_XPFV_SSC12_Param.SP1 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC12_Param.SP2 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC12_Config.Logic
V_XPFV_SSC12_Config.Mode
V_XPFV_SSC12_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 2.1 aRMS
V_XPFV_SSC21_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC21_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC21_Config.Logic
V_XPFV_SSC21_Config.Mode
V_XPFV_SSC21_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 2.2 aRMS
V_XPFV_SSC22_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC22_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC22_Config.Logic
V_XPFV_SSC22_Config.Mode
V_XPFV_SSC22_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 3.1 aPeak
V_XPFV_SSC31_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC31_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC31_Config.Logic
V_XPFV_SSC31_Config.Mode
V_XPFV_SSC31_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 3.2 aPeak
V_XPFV_SSC32_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC32_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC32_Config.Logic
V_XPFV_SSC32_Config.Mode
V_XPFV_SSC32_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 4.1 Temp
V_XPFV_SSC41_Param.SP1 * 1 + 0 °C, Dec.0
V_XPFV_SSC41_Param.SP2 * 1 + 0 °C, Dec.0
V_XPFV_SSC41_Config.Logic
V_XPFV_SSC41_Config.Mode
V_XPFV_SSC41_Config.Hysteresis * 1 + 0 K, Dec.0
V_XPFV_SSC41_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 4.2 Temp
V_XPFV_SSC42_Param.SP1 * 1 + 0 °C, Dec.0
V_XPFV_SSC42_Param.SP2 * 1 + 0 °C, Dec.0
V_XPFV_SSC42_Config.Logic
V_XPFV_SSC42_Config.Mode
V_XPFV_SSC42_Config.Hysteresis * 1 + 0 K, Dec.0
V_XPFV_SSC42_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 5.1 Crest
V_XPFV_SSC51_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC51_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC51_Config.Logic
V_XPFV_SSC51_Config.Mode
V_XPFV_SSC51_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 5.2 Crest
V_XPFV_SSC52_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC52_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC52_Config.Logic
V_XPFV_SSC52_Config.Mode
V_XPFV_SSC52_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 6.1 Bearing Condition
V_XPFV_SSC61_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC61_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC61_Config.Logic
V_XPFV_SSC61_Config.Mode
V_XPFV_SSC61_Config.Hysteresis * 0.01 + 0 , Dec.2
V_XPFV_SSC61_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 6.2 Bearing Condition
V_XPFV_SSC62_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC62_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC62_Config.Logic
V_XPFV_SSC62_Config.Mode
V_XPFV_SSC62_Config.Hysteresis * 0.01 + 0 , Dec.2
V_XPFV_SSC62_OffDelay * 1 + 0 ms, Dec.0

Sensor Configuration
V_XPFV_Eval_Filter

Maintenance Configuration

Maintenance vRMS
V_XPFV_Maintenance_ConfigVrms.Overrun Threshold * 0.01 + 0 mm/s, Dec.2
V_XPFV_Maintenance_ConfigVrms.Incident Count Limit
V_XPFV_Maintenance_ConfigVrms.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance aRMS
V_XPFV_Maintenance_ConfigArms.Overrun Threshold * 0.01 + 0 g, Dec.2
V_XPFV_Maintenance_ConfigArms.Incident Count Limit
V_XPFV_Maintenance_ConfigArms.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance aPeak
V_XPFV_Maintenance_ConfigApeak.Overrun Threshold * 0.01 + 0 g, Dec.2
V_XPFV_Maintenance_ConfigApeak.Incident Count Limit
V_XPFV_Maintenance_ConfigApeak.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance Temperature
V_XPFV_Maintenance_ConfigTemp.Overrun Threshold * 1 + 0 °C, Dec.0
V_XPFV_Maintenance_ConfigTemp.Incident Count Limit
V_XPFV_Maintenance_ConfigTemp.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance Crest
V_XPFV_Maintenance_ConfigCrest.Overrun Threshold * 0.01 + 0 , Dec.2
V_XPFV_Maintenance_ConfigCrest.Incident Count Limit
V_XPFV_Maintenance_ConfigCrest.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance Bearing Condition
V_XPFV_Maintenance_ConfigBearing.Overrun Threshold * 0.01 + 0 , Dec.2
V_XPFV_Maintenance_ConfigBearing.Incident Count Limit
V_XPFV_Maintenance_ConfigBearing.Incident Operating Limit * 1 + 0 h, Dec.0

V_XPFV_Maintenance_ConfigOper * 1 + 0 h, Dec.0

I/O Configuration

V_XPFV_IO_CQOutFunc

V_XPFV_IO_IQOutFunc

If V_XPFV_IO_IQOutFunc = 13:

Analog Output vRMS
V_XPFV_IO_AOParamVrms * 0.01 + 0 mm/s, Dec.2

If V_XPFV_IO_IQOutFunc = 14:

Analog Output aRMS
V_XPFV_IO_AOParamArms * 0.01 + 0 g, Dec.2

If V_XPFV_IO_IQOutFunc = 15:

Analog Output aPeak
V_XPFV_IO_AOParamApeak * 0.01 + 0 g, Dec.2

If V_XPFV_IO_IQOutFunc = 16:

Analog Output Temperature
V_XPFV_IO_AOParamTemp.SP1 * 1 + 0 °C, Dec.0
V_XPFV_IO_AOParamTemp.SP2 * 1 + 0 °C, Dec.0

If V_XPFV_IO_IQOutFunc = 17:

Analog Output Crest
V_XPFV_IO_AOParamCrest * 0.01 + 0 , Dec.2

General Settings
V_SystemCommand, Button:=129 Description=The parameter of the technology-specific application are set to default values. Identification parameter remain unchanged. An upload to the data storage of the master will be executed, if activated in the port configuration of the master.

Observation Menu

V_DeviceStatus

Observation Data
V_XPFS_ObserveData.MDC1 - vRMS * 0.01 + 0 mm/s, Dec.2
V_XPFS_ObserveData.SSC1.1 - vRMS
V_XPFS_ObserveData.SSC1.2 - vRMS
V_XPFS_ObserveData.MDC2 - aRMS * 0.01 + 0 g, Dec.2
V_XPFS_ObserveData.SSC2.1 - aRMS
V_XPFS_ObserveData.SSC2.2 - aRMS
V_XPFS_ObserveData.MDC3 - aPeak * 0.01 + 0 g, Dec.2
V_XPFS_ObserveData.SSC3.1 - aPeak
V_XPFS_ObserveData.SSC3.2 - aPeak
V_XPFS_ObserveData.MDC4 - Temperature * 1 + 0 °C, Dec.0
V_XPFS_ObserveData.SSC4.1 - Temperature
V_XPFS_ObserveData.SSC4.2 - Temperature
V_XPFS_ObserveData.DSC.2 - Device Status
V_XPFS_ObserveData.MDC5 - Crest * 0.01 + 0 , Dec.2
V_XPFS_ObserveData.SSC5.1 - Crest
V_XPFS_ObserveData.SSC5.2 - Crest
V_XPFS_ObserveData.DSC.3 - BLOB Status
V_XPFS_ObserveData.MDC6 - Bearing Condition * 0.01 + 0 , Dec.2
V_XPFS_ObserveData.SSC6.1 - Bearing Condition
V_XPFS_ObserveData.SSC6.2 - Bearing Condition
V_XPFS_ObserveData.DSC.6 - Bearing Condition

Diagnosis Menu

Device Status Information
V_DeviceStatus
V_DetailedDeviceStatus

BLOB Information
V_XPFV_BLOB_ActiveId
V_XPFS_ObserveData.DSC.3 - BLOB Status
V_SystemCommand, Button:=177 Description=The BLOB state machine is reset.

Operating Information
V_XPFS_OPM_OperHour * 1 + 0 h, Dec.0
V_XPFS_OPM_TempInd
V_XPFS_OPM_TempMon.Device Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Maximum Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Minimum Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Overtemperature Operating Hours * 1 + 0 h, Dec.0
V_XPFS_OPM_TempMon.Overtemperature Exceeded Counter
V_XPFS_OPM_PowerMon.Uptime * 1 + 0 s, Dec.0
V_XPFS_OPM_PowerMon.Power Cycles
V_XPFS_OPM_PowerMon.Maximum Uptime * 1 + 0 s, Dec.0
V_XPFS_OPM_PowerMon.Average Uptime * 1 + 0 s, Dec.0

Maintenance Information

V_SystemCommand, Button:=176
Description=The maintenance status and monitor data are reset.

V_XPFV_Maintenance_Status

Maintenance vRMS
V_XPFV_Maintenance_MonVrms.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonVrms.Overrun Count * 1 + 0 , Dec.0

Maintenance aRMS
V_XPFV_Maintenance_MonArms.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonArms.Overrun Count * 1 + 0 , Dec.0

Maintenance aPeak
V_XPFV_Maintenance_MonApeak.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonApeak.Overrun Count * 1 + 0 , Dec.0

Maintenance Temperature
V_XPFV_Maintenance_MonTemp.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonTemp.Overrun Count * 1 + 0 , Dec.0

Maintenance Crest
V_XPFV_Maintenance_MonCrest.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonCrest.Overrun Count * 1 + 0 , Dec.0

Maintenance Bearing Condition
V_XPFV_Maintenance_MonBearing.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonBearing.Overrun Count * 1 + 0 , Dec.0

V_XPFV_Maintenance_MonOperTime * 1 + 0 h, Dec.0

Device Characteristics
V_XPFS_Device_Char.Measurement Range
V_XPFS_Device_Char.Measurement Bandwidth
V_XPFS_Device_Char.Supply Current Requirement * 1 + 0 mA, Dec.0

Measurement Data Information
V_XPFV_MDC1_Descriptor
V_XPFV_MDC2_Descriptor
V_XPFV_MDC3_Descriptor
V_XPFV_MDC4_Descriptor
V_XPFV_MDC5_Descriptor
V_XPFV_MDC6_Descriptor

Communication Characteristics
V_DirectParameters_1.Min Cycle Time, ro
V_DirectParameters_1.Master Cycle Time, ro
V_DirectParameters_1.IO-Link Revision ID, ro
V_DirectParameters_1.Process Data Input Length, ro
V_DirectParameters_1.Process Data Output Length, ro

Service Functions
V_SystemCommand, Button:=131 Description=The parameter of the device are set to factory default values and communication will be inhibited until the next power cycle. Note: Directly detach the device from the master port!

Commissioning Menus

Identification Menu
V_VendorName
V_VendorText
V_ProductName
V_ProductText
V_ProductID
V_SerialNumber
V_CP_ProductURI
V_HardwareRevision
V_FirmwareRevision
V_ApplicationSpecificTag
V_CP_FunctionTag
V_CP_LocationTag

Parameters Menu

BLOB Configuration
V_XPFV_BLOB_SSCTrigger
V_XPFV_BLOB_SamplingRate
V_XPFV_BLOB_MemorySize
V_XPFV_BLOB_RecordingTime * 1 + 0 s, Dec.0
V_XPFV_BLOB_TransferTime * 1 + 0 s, Dec.0

Operation Parameter

Switching Signal Channel 1.1 vRMS
V_XPFV_SSC11_Param.SP1 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC11_Param.SP2 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC11_Config.Logic
V_XPFV_SSC11_Config.Mode
V_XPFV_SSC11_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 1.2 vRMS
V_XPFV_SSC12_Param.SP1 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC12_Param.SP2 * 0.01 + 0 mm/s, Dec.2
V_XPFV_SSC12_Config.Logic
V_XPFV_SSC12_Config.Mode
V_XPFV_SSC12_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 2.1 aRMS
V_XPFV_SSC21_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC21_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC21_Config.Logic
V_XPFV_SSC21_Config.Mode
V_XPFV_SSC21_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 2.2 aRMS
V_XPFV_SSC22_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC22_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC22_Config.Logic
V_XPFV_SSC22_Config.Mode
V_XPFV_SSC22_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 3.1 aPeak
V_XPFV_SSC31_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC31_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC31_Config.Logic
V_XPFV_SSC31_Config.Mode
V_XPFV_SSC31_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 3.2 aPeak
V_XPFV_SSC32_Param.SP1 * 0.01 + 0 g, Dec.2
V_XPFV_SSC32_Param.SP2 * 0.01 + 0 g, Dec.2
V_XPFV_SSC32_Config.Logic
V_XPFV_SSC32_Config.Mode
V_XPFV_SSC32_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 4.1 Temp
V_XPFV_SSC41_Param.SP1 * 1 + 0 °C, Dec.0
V_XPFV_SSC41_Param.SP2 * 1 + 0 °C, Dec.0
V_XPFV_SSC41_Config.Logic
V_XPFV_SSC41_Config.Mode
V_XPFV_SSC41_Config.Hysteresis * 1 + 0 K, Dec.0
V_XPFV_SSC41_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 4.2 Temp
V_XPFV_SSC42_Param.SP1 * 1 + 0 °C, Dec.0
V_XPFV_SSC42_Param.SP2 * 1 + 0 °C, Dec.0
V_XPFV_SSC42_Config.Logic
V_XPFV_SSC42_Config.Mode
V_XPFV_SSC42_Config.Hysteresis * 1 + 0 K, Dec.0
V_XPFV_SSC42_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 5.1 Crest
V_XPFV_SSC51_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC51_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC51_Config.Logic
V_XPFV_SSC51_Config.Mode
V_XPFV_SSC51_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 5.2 Crest
V_XPFV_SSC52_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC52_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC52_Config.Logic
V_XPFV_SSC52_Config.Mode
V_XPFV_SSC52_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 6.1 Bearing Condition
V_XPFV_SSC61_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC61_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC61_Config.Logic
V_XPFV_SSC61_Config.Mode
V_XPFV_SSC61_Config.Hysteresis * 0.01 + 0 , Dec.2
V_XPFV_SSC61_OffDelay * 1 + 0 ms, Dec.0

Switching Signal Channel 6.2 Bearing Condition
V_XPFV_SSC62_Param.SP1 * 0.01 + 0 , Dec.2
V_XPFV_SSC62_Param.SP2 * 0.01 + 0 , Dec.2
V_XPFV_SSC62_Config.Logic
V_XPFV_SSC62_Config.Mode
V_XPFV_SSC62_Config.Hysteresis * 0.01 + 0 , Dec.2
V_XPFV_SSC62_OffDelay * 1 + 0 ms, Dec.0

Sensor Configuration
V_XPFV_Eval_Filter

Maintenance Configuration

Maintenance vRMS
V_XPFV_Maintenance_ConfigVrms.Overrun Threshold * 0.01 + 0 mm/s, Dec.2
V_XPFV_Maintenance_ConfigVrms.Incident Count Limit
V_XPFV_Maintenance_ConfigVrms.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance aRMS
V_XPFV_Maintenance_ConfigArms.Overrun Threshold * 0.01 + 0 g, Dec.2
V_XPFV_Maintenance_ConfigArms.Incident Count Limit
V_XPFV_Maintenance_ConfigArms.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance aPeak
V_XPFV_Maintenance_ConfigApeak.Overrun Threshold * 0.01 + 0 g, Dec.2
V_XPFV_Maintenance_ConfigApeak.Incident Count Limit
V_XPFV_Maintenance_ConfigApeak.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance Temperature
V_XPFV_Maintenance_ConfigTemp.Overrun Threshold * 1 + 0 °C, Dec.0
V_XPFV_Maintenance_ConfigTemp.Incident Count Limit
V_XPFV_Maintenance_ConfigTemp.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance Crest
V_XPFV_Maintenance_ConfigCrest.Overrun Threshold * 0.01 + 0 , Dec.2
V_XPFV_Maintenance_ConfigCrest.Incident Count Limit
V_XPFV_Maintenance_ConfigCrest.Incident Operating Limit * 1 + 0 h, Dec.0

Maintenance Bearing Condition
V_XPFV_Maintenance_ConfigBearing.Overrun Threshold * 0.01 + 0 , Dec.2
V_XPFV_Maintenance_ConfigBearing.Incident Count Limit
V_XPFV_Maintenance_ConfigBearing.Incident Operating Limit * 1 + 0 h, Dec.0

V_XPFV_Maintenance_ConfigOper * 1 + 0 h, Dec.0

I/O Configuration

V_XPFV_IO_CQOutFunc

V_XPFV_IO_IQOutFunc

If V_XPFV_IO_IQOutFunc = 13:

Analog Output vRMS
V_XPFV_IO_AOParamVrms * 0.01 + 0 mm/s, Dec.2

If V_XPFV_IO_IQOutFunc = 14:

Analog Output aRMS
V_XPFV_IO_AOParamArms * 0.01 + 0 g, Dec.2

If V_XPFV_IO_IQOutFunc = 15:

Analog Output aPeak
V_XPFV_IO_AOParamApeak * 0.01 + 0 g, Dec.2

If V_XPFV_IO_IQOutFunc = 16:

Analog Output Temperature
V_XPFV_IO_AOParamTemp.SP1 * 1 + 0 °C, Dec.0
V_XPFV_IO_AOParamTemp.SP2 * 1 + 0 °C, Dec.0

If V_XPFV_IO_IQOutFunc = 17:

Analog Output Crest
V_XPFV_IO_AOParamCrest * 0.01 + 0 , Dec.2

General Settings
V_SystemCommand, Button:=129 Description=The parameter of the technology-specific application are set to default values. Identification parameter remain unchanged. An upload to the data storage of the master will be executed, if activated in the port configuration of the master.

Observation Menu

V_DeviceStatus

Observation Data
V_XPFS_ObserveData.MDC1 - vRMS * 0.01 + 0 mm/s, Dec.2
V_XPFS_ObserveData.SSC1.1 - vRMS
V_XPFS_ObserveData.SSC1.2 - vRMS
V_XPFS_ObserveData.MDC2 - aRMS * 0.01 + 0 g, Dec.2
V_XPFS_ObserveData.SSC2.1 - aRMS
V_XPFS_ObserveData.SSC2.2 - aRMS
V_XPFS_ObserveData.MDC3 - aPeak * 0.01 + 0 g, Dec.2
V_XPFS_ObserveData.SSC3.1 - aPeak
V_XPFS_ObserveData.SSC3.2 - aPeak
V_XPFS_ObserveData.MDC4 - Temperature * 1 + 0 °C, Dec.0
V_XPFS_ObserveData.SSC4.1 - Temperature
V_XPFS_ObserveData.SSC4.2 - Temperature
V_XPFS_ObserveData.DSC.2 - Device Status
V_XPFS_ObserveData.MDC5 - Crest * 0.01 + 0 , Dec.2
V_XPFS_ObserveData.SSC5.1 - Crest
V_XPFS_ObserveData.SSC5.2 - Crest
V_XPFS_ObserveData.DSC.3 - BLOB Status
V_XPFS_ObserveData.MDC6 - Bearing Condition * 0.01 + 0 , Dec.2
V_XPFS_ObserveData.SSC6.1 - Bearing Condition
V_XPFS_ObserveData.SSC6.2 - Bearing Condition
V_XPFS_ObserveData.DSC.6 - Bearing Condition

Diagnosis Menu

Device Status Information
V_DeviceStatus
V_DetailedDeviceStatus

BLOB Information
V_XPFV_BLOB_ActiveId
V_XPFS_ObserveData.DSC.3 - BLOB Status
V_SystemCommand, Button:=177 Description=The BLOB state machine is reset.

Operating Information
V_XPFS_OPM_OperHour * 1 + 0 h, Dec.0
V_XPFS_OPM_TempInd
V_XPFS_OPM_TempMon.Device Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Maximum Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Minimum Operating Temperature * 1 + 0 °C, Dec.0
V_XPFS_OPM_TempMon.Overtemperature Operating Hours * 1 + 0 h, Dec.0
V_XPFS_OPM_TempMon.Overtemperature Exceeded Counter
V_XPFS_OPM_PowerMon.Uptime * 1 + 0 s, Dec.0
V_XPFS_OPM_PowerMon.Power Cycles
V_XPFS_OPM_PowerMon.Maximum Uptime * 1 + 0 s, Dec.0
V_XPFS_OPM_PowerMon.Average Uptime * 1 + 0 s, Dec.0

Maintenance Information

V_SystemCommand, Button:=176
Description=The maintenance status and monitor data are reset.

V_XPFV_Maintenance_Status

Maintenance vRMS
V_XPFV_Maintenance_MonVrms.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonVrms.Overrun Count * 1 + 0 , Dec.0

Maintenance aRMS
V_XPFV_Maintenance_MonArms.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonArms.Overrun Count * 1 + 0 , Dec.0

Maintenance aPeak
V_XPFV_Maintenance_MonApeak.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonApeak.Overrun Count * 1 + 0 , Dec.0

Maintenance Temperature
V_XPFV_Maintenance_MonTemp.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonTemp.Overrun Count * 1 + 0 , Dec.0

Maintenance Crest
V_XPFV_Maintenance_MonCrest.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonCrest.Overrun Count * 1 + 0 , Dec.0

Maintenance Bearing Condition
V_XPFV_Maintenance_MonBearing.Overrun Time * 1 + 0 h, Dec.0
V_XPFV_Maintenance_MonBearing.Overrun Count * 1 + 0 , Dec.0

V_XPFV_Maintenance_MonOperTime * 1 + 0 h, Dec.0

Device Characteristics
V_XPFS_Device_Char.Measurement Range
V_XPFS_Device_Char.Measurement Bandwidth
V_XPFS_Device_Char.Supply Current Requirement * 1 + 0 mA, Dec.0

Measurement Data Information
V_XPFV_MDC1_Descriptor
V_XPFV_MDC2_Descriptor
V_XPFV_MDC3_Descriptor
V_XPFV_MDC4_Descriptor
V_XPFV_MDC5_Descriptor
V_XPFV_MDC6_Descriptor

Communication Characteristics
V_DirectParameters_1.Min Cycle Time, ro
V_DirectParameters_1.Master Cycle Time, ro
V_DirectParameters_1.IO-Link Revision ID, ro
V_DirectParameters_1.Process Data Input Length, ro
V_DirectParameters_1.Process Data Output Length, ro

Service Functions
V_SystemCommand, Button:=131 Description=The parameter of the device are set to factory default values and communication will be inhibited until the next power cycle. Note: Directly detach the device from the master port!

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