Inclination sensor JN
40
18 Factory setting
Index
Sub-
index
Type
Value
Content
Read /
Write
500
0
UINT8
Switching performance of the
digital outputs
0
→
PnP
(high side switching; +U
b
)
R / W
580
0
UINT8
ou1 output configuration
6
→
FNC
R/W
583
0
INT16
SP1 angle X
+ 9000
→
+ 90°
R/W
584
0
INT16
rP1 angle X
- 9000
→
- 90°
R/W
585
0
INT16
SP1 vibration measurement V
eff
6400
→
640 mm/s
(20% VMR)
R/W
586
0
INT16
rP1 vibration measurement V
eff
6080
→
608 mm/s
(19% VMR)
R/W
590
0
UINT8
ou2 output configuration
6
→
FNC
R/W
593
0
INT16
SP2 angle Y
+ 9000
→
+90°
R/W
594
0
INT16
rP2 angle Y
‒ 9000
→
-90°
R/W
595
0
INT16
SP2 vibration measurement
aPeak
6400
→
6400 mg
(40% VMR)
R/W
596
0
INT16
rP2 vibration measurement
aPeak
6240
→
6240 mg
(39% VMR)
R/W
620
0
INT16
ASP1 angle X
-18000
→
- 180°
R/W
621
0
INT16
AEP1 angle X
+18000
→
+ 180°
R/W
622
0
INT16
ASP1 vibration measurement
Veff
0
→
0 mm/s
R/W
623
0
INT16
AEP1 vibration measurement
Veff
32000
→
3200 mm/s
R/W
630
0
INT16
ASP2 angle Y
-18000
→
- 180°
R/W
631
0
INT16
AEP2 angle Y
+18000
→
+ 180°
R/W
632
0
INT16
ASP2 vibration measurement
aPeak
0
→
0 mg
R/W
633
0
INT16
AEP2 vibration measurement
aPeak
16000
→
16000 mg
R/W
660
0
UINT8
Type of the analogue output
1
→
current output
4...20 mA
R/W
4100
0
UINT8
Angle calculation
0
→
perpendicular
R/W
4101
0
UINT8
FIR filter step angle
2
→
low pass 5 Hz
R/W
4102
0
UINT8
Heating
1
→
heating on
R/W
4103
0
UINT8
Quadrant correction
1
→
± 180°
R/W
4104
0
UINT8
Teach x/y/z axis
2
→
absolute
measurement
R