Incremental Encoders- with own bearings- without own bearings
Incremental Encoders in HeavyDuty Technology:
with own bearings
without own bearings
Baumer Hübner HeavyDuty incremental encoders are characterized by the following excellent features:
Robust construction with solid light alloy housing for high vibration and shock proof protection.
Bearings at both ends of the shaft, where construction permits.
Short-circuit proof power transistors with peak currents up to 300 mA for line driving over long cables with HTL-signals or optional TTL-signals to RS-422.
High Electromagnetic Compatibility (EMC), tested to IEC 801-4.
Protection against shaft currents due to insulated ball bearings, in some devices.
Incremental encoders without bearings for drives with large axial play or high speeds.
Through-hole hollow shaft, also available in Sinus-Technology and in explosion proof execution "II 2 G EEx de IIC T6".
Wide range of program with standard EURO-Flange B10.
Rear shaft option for mounting of other devices.
Combinations with common shaft:- Incremental encoder + Incremental encoder (Twin Tacho),- Incremental encoder + Analog-Tacho,- Incremental encoder + Speed Switch.
... with own bearings
Model : OG 6 Download...
Square-wave cycles per turn:
100 - 512
Servo flange
Max. output frequency:
120 kHz
Solid shaft d= 6 mm
Logic level:
HTL (C), TTL, TTL (R)
Permissible encoder temperature:
-20 °C to +70 °C
Connection:
Internal connection terminals
Weight:
approx. 200 g
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 54
Ex II 3G 3D
OG 60 • HOG 60 Download...
Square-wave cycles per turn:
max. 10,000
Servo flange (OG 60)
Max. output frequency:
250 kHz
Solid shaft d= 6 mm (OG 60)
Logic level:
HTL (C), TTL, TTL (R)
Hollow shaft with clamping ring up to d= 12 mm (HOG 60)
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Plug connection
High resolution
Weight:
approx. 260 g (OG 60)approx. 250 g (HOG 60)
Shock resistance (6 ms):
3,000 m/s²
Protection class:
IP 65
Ex II 3G 3D
OG 70 • HOG 70 Download...
Square-wave cycles per turn:
50 - 10,000
Servo flange (OG 70)
Max. output frequency:
250 kHz
Solid shaft d= 6 mm (OG 70)
Logic level:
HTL (C), TTL, TTL (R)
Hollow shaft up to d= 14 mm (HOG 70)
Permissible encoder temperature:
-20 °C to +85 °C
Connection:
Internal connection terminals
Weight:
approx. 360 g (OG 70)approx. 240 g (HOG 70)
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
OG 71 • HOG 71 Download...
Square-wave cycles per turn:
OG 71: 100 up to 1,024HOG 71: 64 up to 2,048
Servo flange (OG 71)
Max. output frequency:
120 kHz
Solid shaft d= 6 mm (OG 71)
Logic level:
HTL (C), TTL, TTL (R)
Hollow shaft up to d= 14 mm (HOG 71)
Permissible encoder temperature:
-20 °C to +85 °C
Connection:
Internal terminal strip
Weight:
approx. 360 g (OG 71)approx. 240 g (HOG 71)
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
AHE 7 • AFE 7 Download...
Square-wave cycles per turn:
60 - 5,000
Version US of OG 71/•HOG 71
Max. output frequency:
120 kHz
1/2" hollow shaft (AHE 7)
Logic level:
HTL (C), TTL, TTL (R)
3/8" servo flange (AFE 7)
Permissible encoder temperature:
-30 °C to +70 °C
NPT 1/2" fitting
Connection:
Internal connection terminals
Weight:
approx. 240 g (AHE 7)approx. 380 g (AFE 7)
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 56
HOG 75 • HOG 75 K Download...
Square-wave cycles per turn:
250 - 2,500
Through-hole hollow shaft with clamping ring up to d= 26 mm (HOG 75)
Max. output frequency:
120 kHz
Logic level:
HTL, TTL
Cone shaft 1:10 (HOG 75 K)
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Internal connection terminals
Weight:
approx. 320 g
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 56
Ex II 3G 3D
OG 8 • HOG 8 Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11mm (OG 8)
Max. output frequency:
120 kHz
Through-hole hollow shaft with clamping ring up to d= 16 mm (HOG 8)
Logic level:
HTL (C), TTL, TTL (R)
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Internal connection terminals
Weight:
approx. 700 g (OG 8)approx. 550 g (HOG 8)
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 54
OG 9 Download...
Square-wave cycles per turn:
1 - 1,250
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
High HTL output current
Logic level:
HTL, TTL, TTL (R)
Bearing at each end
Permissible encoder temperature:
-30 °C to +100 °C
Connection:
Terminal box
Weight:
approx. 900 g
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 55
Ex II 3G 3D
OG 90 Download...
Square-wave cycles per turn:
1,000 - 10,000
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
250 kHz
High HTL output current
Logic level:
HTL (C), TTL, TTL (R)
High resolution
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Terminal box
Weight:
approx. 1.5 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 55
HOG 9 • HOG 9 G Download...
Square-wave cycles per turn:
1 - 2,500
Hollow shaft with clamping element up to d= 16 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Option: Cone shaft 1:10
Permissible encoder temperature:
-30 °C to +100 °C
High HTL output current
Connection:
Plug connection
Bearing at each end
Weight:
approx. 700 g (HOG 9)
Protection against shaft currents
approx. 1,100g (HOG 9G)
Twin encoder HOG 9 G
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 56
Ex II 3G 3D
FOG 9 Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
High HTL output current
Logic level:
HTL, TTL, TTL (R)
Bearing at each end
Permissible encoder temperature:
-30 °C to +100 °C
Connection:
Plug connection
Weight:
approx. 860 g
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 56
Ex II 3G 3D
POG 9 Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
High HTL output current
Logic level:
HTL, TTL, TTL (R)
Bearing at each end
Permissible encoder temperature:
-30 °C to +100 °C
Twin encoder POG 9 G
Connection:
Terminal box
Weight:
approx. 1.3 kg
Shock resistance (1 ms):
3,000 m/s²
Protection class:
IP 56
Ex II 3G 3D
POG 9 G Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
High HTL output current
Logic level:
HTL, TTL, TTL (R)
Bearing at each end
Permissible encoder temperature:
-30 °C to +100 °C
Connection:
Terminal box
Weight:
approx. 1.7 kg
Shock resistance (1 ms):
3,000 m/s²
Protection class:
IP 56
Ex II 3G 3D
POG 90 Download...
Square-wave cycles per turn:
1,024 - 10,000
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
250 kHz
High HTL output current
Logic level:
HTL, TTL, TTL (R)
Bearing at each end
Permissible encoder temperature:
-20 °C to +85 °C
High resolution
Connection:
large terminal box
Weight:
approx. 1.5 kg
Shock resistance (11 ms):
1,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
HOG 10 Download...
Square-wave cycles per turn:
1 - 2,500
Hollow shaft with clamping element up to d= 20 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Option: Cone shaft 1:10
Permissible encoder temperature:
-40 °C to +100 °C-50 °C to +100 °C (optional)
High HTL output current
Connection:
Internal connection terminals or large terminal box
Protection against shaft currents
Weight:
approx. 1.6 kg
Twin encoder HOG 10 G
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
HOG 10 G Download...
Square-wave cycles per turn:
1 - 2,500
Hollow shaft with clamping element up to d= 20 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Option: Cone shaft 1:10
Permissible encoder temperature:
-40 °C to +100 °C-50 °C to +100 °C (optional)
High HTL output current
Connection:
Large terminal box
Protection against shaft currents
Weight:
approx. 2.2 kg
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
HOG 100 Download...
Square-wave cycles per turn:
1,024 - 10,000
Hollow shaft with clamping element up to d= 16 mm
Max. output frequency:
250 kHz
Logic level:
HTL, TTL
Option: Cone shaft 1:10
Permissible encoder temperature:
-30 °C to +85 °C
High HTL output current
Connection:
Internal connection terminals or large terminal box
High resolution
Weight:
approx. 1.5 kg
Protection against shaft currents
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
POG 10 Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
High HTL output current
Logic level:
HTL, TTL, TTL (R)
Bearing at each end
Permissible encoder temperature:
-40 °C to +100 °C-50 °C to +100 °C (optional)
Protection against inductive shaft currents with isolated coupling (e. g. K 35)
Connection:
Large terminal box
Weight:
approx. 1.6 kg
Twin encoder POG 10 G
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
POG 10 G Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
High HTL output current
Logic level:
HTL, TTL, TTL (R)
Bearing at each end
Permissible encoder temperature:
-40 °C to +100 °C-50 °C to +100 °C (optional)
Protection against inductive shaft currents with isolated coupling (e. g. K 35)
Connection:
Large terminal box
Weight:
approx. 2.4 kg
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
HOG 11 (Offshore) Download...
Square-wave cycles per turn:
1 - 2,500
Hollow shaft with clamping element up to d= 16 mm
Max. output frequency:
120 kHz
Option: Cone shaft 1:10
Logic level:
HTL, TTL, TTL (R)
Protection against inductive shaft currents
Permissible encoder temperature:
-30 °C to +100 °C
Special corrosion protection e.g. for offshore
Connection:
Large terminal box
Option: Hybrid bearing
Weight:
approx. 1.6 kg
Option: Earthing brush for capacitive shaft currents
Shock resistance (6 ms):
2,500 m/s²
Option: Heating for use down to -55°C
Twin encoder HOG 11 G
Protection class:
IP 67
Ex II 3G 3D
HOG 11 G (Offshore) Download...
Square-wave cycles per turn:
1 - 2,500
Hollow shaft with clamping element up to d= 16 mm
Max. output frequency:
120 kHz
Option: Cone shaft 1:10
Logic level:
HTL, TTL, TTL (R)
Protection against inductive shaft currents
Permissible encoder temperature:
-30 °C to +100 °C
Special corrosion protection e.g. for offshore
Connection:
Large terminal box
Option: Hybrid bearing
Weight:
approx. 2.2 kg
Option: Earthing brush for capacitive shaft currents
Option: Heating for use down to -55°C
Shock resistance (6 ms):
2,500 m/s²
Protection class:
IP 67
Ex II 3G 3D
POG 11 (Offshore) Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
Protection against inductive shaft currents with isolated coupling (e. g. K 35)
Logic level:
HTL, TTL, TTL (R)
Permissible encoder temperature:
-30 °C to +100 °C
Special corrosion protection e.g. for offshore
Connection:
Large terminal box
Option: Hybrid bearing
Weight:
approx. 1.8 kg
Option: Heating for use down to -55°C
Shock resistance (6 ms):
3,000 m/s²
Twin encoder POG 11 G
Protection class:
IP 67
Ex II 3G 3D
POG 11 G (Offshore) Download...
Square-wave cycles per turn:
1 - 2,500
EURO flange B10, solid shaft d= 11 mm
Max. output frequency:
120 kHz
Protection against inductive shaft currents with isolated coupling (e. g. K 35)
Logic level:
HTL, TTL, TTL (R)
Permissible encoder temperature:
-30 °C to +100 °C
Special corrosion protection e.g. for offshore
Connection:
Large terminal box
Option: Hybrid bearing
Weight:
approx. 2.4 kg
Option: Heating for use down to -55°C
Shock resistance (6 ms):
3,000 m/s²
Protection class:
IP 67
Ex II 3G 3D
HOG 12 Download...
Square-wave cycles per turn:
600, 1,024
Through-hole hollow shaft with clamping ring up to d= 45 mm
Max. output frequency:
120 kHz
Logic level:
HTL (C), TTL, TTL (R)
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Cable connection
Weight:
approx. 1 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 54
HOG 131 (Offshore) Download...
Square-wave cycles per turn:
1,024 - 3,072
Through-hole hollow shaft with clamping ring up to d= 36 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Permissible encoder temperature:
-40 °C to +100 °C
Connection:
Large terminal box
Weight:
approx. 4 kg
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 56
Ex II 3G 3D
EGZ 14 • AG 14 Download...
Square-wave cycles per turn:
250 - 2,500
Through-hole hollow shaft up to d= 70 mm
Max. output frequency:
120 kHz
Especially for lift drives
Logic level:
HTL (C), TTL, TTL (R)
Permissible encoder temperature:
-30 °C to +70 °C
Connection:
Plug connection (EGZ 14)Terminal box or plug connection (AG 14)
Weight:
approx. 1.2 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 20, IP 54
HOG 16 Download...
Square-wave cycles per turn:
250 - 2,500
Through-hole hollow shaft with clamping element up to d= 38 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
High HTL output current
Permissible encoder temperature:
-20 °C to +100 °C
Slip-ring earthing contact
Connection:
Terminal box
Option: Redundant scanning
Weight:
approx. 4 kg
Shock resistance (6 ms):
3,000 m/s²
Protection class:
IP 66
Ex II 3G 3D
HOG 161 Download...
Square-wave cycles per turn:
250 - 2,048
Through-hole hollow shaft with clamping ring up to d= 75 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Option: Redundant scanning
Permissible encoder temperature:
-20 °C to +85 °C
Connection:
Terminal box
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 54
Ex II 3G 3D
HOG 163 (Offshore) Download...
Square-wave cycles per turn:
250 - 5,000
Through-hole hollow shaft with clamping ring up to d= 75 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Insulated bearings
Permissible encoder temperature:
-30 °C to +85 °C
Special corrosion protection
Connection:
Large terminal box
Option: Redundant scanning
Weight:
approx. 3.5 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 56
Ex II 3G 3D
HOG 165 (Offshore) Download...
Square-wave cycles per turn:
250 - 5,000
Hollow shaft with clamping element up to d= 38 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Special corrosion protection
Permissible encoder temperature:
-30 °C to +100 °C
Option: Protection against shaft currents
Connection:
Large terminal box
Option: Slip-ring earthing contact
Weight:
approx. 4 kg
Option: Redundant scanning
Shock resistance (6 ms):
3,000 m/s²
Protection class:
IP 67
Ex II 3G 3D
HOG 22 • HOG 220 Download...
Square-wave cycles per turn:
HOG 22: (720 - 4,000)HOG 220: (1,024)
Through-hole hollow shaft with clamping ring up to d= 115 mm
Max. output frequency:
120 kHz
Logic level:
HOG 22: HTL (C), TTL, TTL (R)HOG 220: HTL, TTL, TTL (R)
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Terminal box or plug connection
Weight:
approx. 8.8 kg
Shock resistance (6 ms):
2,000 m/s²
Protection class:
HOG 22: IP 54HOG 220: IP 56
Ex II 3G 3D
HOG 28 Download...
Square-wave cycles per turn:
1,024 - 2,048
Through-hole hollow shaft up to d= 150 mm
Max. output frequency:
120 kHz
Logic level:
HTL (C), TTL, TTL (R)
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Plug connection
Weight:
approx. 20 kg
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 54
Ex II 3G 3D
HML 131 M Download...
Square-wave cycles per turn:
128 - 2,048
Hollow shaft up to d= 36 mm
Max. output frequency:
200 kHz
Operable under oil
Logic level:
HTL (C), TTL, TTL (R)
Permissible encoder temperature:
-20 °C to +90 °C
Magnetic sensing
Connection:
Special connector
Redundant sensing
Weight:
approx. 2.2 kg
Shock resistance (12 ms):
2,000 m/s²
Protection class:
IP 68
... without own bearings
HG 6 Download...
Square-wave cycles per turn:
100 - 512
Servo flange
Max. output frequency:
120 kHz
Hollow shaft up to d= 16 mm
Logic level:
HTL (C), TTL, TTL (R)
Rugged construction without own bearings for very high speeds
Permissible encoder temperature:
-20 °C to +85°C
Connection:
Internal connection terminals
Incremental disk protected in axial and radial direction
Weight:
approx. 180 g
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 56 / IP 23
Without own bearings
HG 16 Download...
Square-wave cycles per turn:
250 - 2,500
Through-hole hollow shaft with clamping ring up to d= 45 mm
Max. output frequency:
120 kHz
Logic level:
HTL, TTL, TTL (R)
Axial displacement max. - 0.5 mm, +1.5 mmOption: up to +2.5 mm
Permissible encoder temperature:
-30 °C to +100°C
Connection:
Terminal box, Option: Plug connection
Option: Redundant scanning
Weight:
approx. 2.4 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 56
Without own bearings
HG 18 • HG 22 Download...
Square-wave cycles per turn:
HG 18: 250 - 2,500HG 22: 720 - 4,000
Through-hole hollow shaft with clamping ring up to d= 110 mm
Max. output frequency:
120 kHz
Logic level:
HTL (C), TTL, TTL (R)
Axial displacement max. - 0.5 mm, +1.5 mmOption: up to +2.5 mm
Permissible encoder temperature:
-30 °C to +70°C
Connection:
Terminal box, Option: Plug connection
Option: Redundant scanning
Weight:
HG 18: approx. 4.2 kgHG 22: approx. 5.8 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
HG 18: IP 54,HG 22: IP 44
Without own bearings
HG 21 • HG 211 Download...
Square-wave cycles per turn:
2,500
Through-hole hollow shaft up to d= 95 mm
Max. output frequency:
120 kHz Option: 160 kHz
Logic level:
HTL (C), TTL, TTL (R)
Axial displacement max. - 0.5 mm, +1.5 mmOption: up to +2.5 mm
Permissible encoder temperature:
-30 °C to +70 °C
Connection:
Connector
Option: redundant scanning
Weight:
approx. 5.8 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 44
Without own bearings
HMC 16 (M) + HEAG 158 V (M) Download...
Square-wave cycles per turn:
128 - 8,192
Hollow shaft up to d= 55 mm
Max. output frequency:
2,000 kHz
Magnetic sensing
Logic level:
HTL, TTL
Permissible encoder temperature:
-30 °C / 0 °C to +70 °C / 105 °C
Redundant sensing (optional)
Connection:
12 pin mating connector (male contacts)
Weight:
approx. 2.4 kg
Shock resistance (12 ms):
3,000 m/s²
Protection class:
HMC 16 (M) - IP 68HEAG 158 V (M) - IP 65
MHGE 100 B5 Download...
Square-wave cycles per turn:
64 ... 4096
Through-hole hollow shaft with d= 20 ... 80 mm
Logic level:
HTL, TTL
Large permissible axial displacement
Max. output frequency:
300 kHz
Large permissible air gap tolerance
Permissible encoder temperature:
-40 °C up to +100 °C
Option: additional incremental signals
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGE 200 B5 Download...
Square-wave cycles per turn:
128 ... 8192
Through-hole hollow shaft with d= 50 ... 180 mm
Logic level:
HTL, TTL
Large permissible axial displacement
Max. output frequency:
300 kHz
Large permissible air gap tolerance
Permissible encoder temperature:
-40 °C up to +100 °C
Option: additional incremental signals
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGE 400 B5 Download...
Square-wave cycles per turn:
256 ... 16384
Through-hole hollow shaft with d= 100 ... 380 mm
Logic level:
HTL, TTL
Large permissible axial displacement
Max. output frequency:
300 kHz
Large permissible air gap tolerance
Permissible encoder temperature:
-40 °C up to +100 °C
Option: additional incremental signals
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGE 800 B5 Download...
Square-wave cycles per turn:
512 ... 32768
Through-hole hollow shaft with d= 380 ... 740 mm
Logic level:
HTL, TTL
Large permissible axial displacement
Max. output frequency:
300 kHz
Large permissible air gap tolerance
Permissible encoder temperature:
-40 °C up to +100 °C
Option: additional incremental signals
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGP 100 B5 Download...
Square-wave cycles per turn:
64, 128, ... 1024, ... 131072
Through-hole hollow shaft with d= 20 ... 80 mm
Logic level:
HTL, TTL
Large permissible axial displacement
Max. output frequency:
300 kHz
Large permissible air gap tolerance
Permissible encoder temperature:
-20 °C up to +85 °C
Option: Error output
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGP 200 B5 Download...
Square-wave cycles per turn:
128, 256, ... 1024, ... 262144
Through-hole hollow shaft with d= 50 ... 180 mm
Logic level:
HTL, TTL
Large permissible axial displacement
Max. output frequency:
300 kHz
Large permissible air gap tolerance
Permissible encoder temperature:
-20 °C up to +85 °C
Option: Error output
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGP 400 B5 Download...
Square-wave cycles per turn:
256, 512, 1024, ... 524288
Through-hole hollow shaft with d= 100 ... 380 mm
Logic level:
HTL, TTL
Large permissible axial displacement
Max. output frequency:
300 kHz
Large permissible air gap tolerance
Permissible encoder temperature:
-20 °C up to +85 °C
Option: Error output
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
Sine EncodersSine Encoders with the LowHarmonics technology which produces negligable harmonic content in the sinewave signals.
Baumer Hübner Low Harmonics sine encoders are characterized by the following excellent features:
Robust construction with solid light alloy housing for high vibration and shock proof protection.
Bearings at both ends of the shaft, where construction permits.
Short-circuit proof power transistors with peak currents up to 300 mA for line driving over long cables with HTL-signals or optional TTL-signals to RS-422.
High Electromagnetic Compatibility (EMC), tested to IEC 801-4.
Incremental encoders without bearings for drives with large axial play or high speeds.
Excellent sinewave signals due to the patented Baumer Hübner LowHarmonics technology.
Thru-hole hollow-shaft, available in Sinus-Technology.
Wide range of program with standard EURO-Flange B10.
Rear shaft option for mounting of other devices.
... with own bearings
OGS 60 • HOGS 60 Download...
Sinewave cycles per turn:
1,024, 2,048
Servo flange and solid shaft d= 6 mm (OGS 60)
Bandwidth:
250 kHz
Hollow shaft with clamping ring up to d= 14 mm (HOGS 60)
Output amplitude:
approx. 1 Vpp
Permissible encoder temperature:
-20 °C to +85 °C
Especially low harmonic content
Connection:
Plug or cable connection
Weight:
approx. 350 g
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 65
OGS 71 • HOGS 71 Download...
Sinewave cycles per turn:
1,024 - 5,000
Servo flange and solid shaft d= 6 mm (OGS 71)
Bandwidth:
250 kHz
Hollow shaft up to d= 14 mm (HOGS 71)
Output amplitude:
approx. 1 Vpp
Especially low harmonic content
Permissible encoder temperature:
-20 °C to +85 °C
Connection:
Internal connection terminals
Weight:
approx. 350 g
Shock resistance (6 ms):
3,000 m/s²
Protection class:
IP 66
EEx II 3G 3D
HOGS 75 • HOGS 75Download...
Sinewave cycles per turn:
1,024, 2,048
Through-hole hollow shaft up to d= 26 mm
Bandwidth:
200 kHz
Cone shaft 1:10 (HOGS 75 K)
Output amplitude:
approx. 1 Vpp
Especially low harmonic content
Permissible encoder temperature:
-20 °C to +70°C
Connection:
Internal connecting terminal
Weight:
approx. 320 g
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 56
HOGS 14 Download...
Sinewave cycles per turn:
1,024, 5,000
Through-hole hollow shaft d= 70 mm
Bandwidth:
200 kHz
Especially low harmonic content
Output amplitude:
approx. 1 Vpp
Permissible encoder temperature:
-20 °C to +85 °C
Connection:
Terminal box
Weight:
approx. 2.5 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 55
HOGS 15 Download...
Sinewave cycles per turn:
2,048
Through-hole hollow shaft d= 60 mm
Bandwidth:
200 kHz
Option: Sine absolute track
Output amplitude:
approx. 1 Vpp
Especially low harmonic content
Permissible encoder temperature:
-30 °C to +85 °C
Connection:
Plug connection
Weight:
approx. 1.9 kg
Shock resistance (6 ms):
1,000 m/s²
Protection class:
IP 54
HOGS 151 Download...
Sinewave cycles per turn:
1,024, 5,000
Through-hole hollow shaft up to d= 75 mm
Bandwidth:
200 kHz
Especially low harmonic content
Output amplitude:
approx. 1 Vpp
Permissible encoder temperature:
-20 °C to +85 °C
Connection:
Cable
Weight:
approx. 3.2 kg
Shock resistance (6 ms):
2,000 m/s²
Protection class:
IP 54
... without own bearings and with magnetic sensing
MHGS 100 Download...
Sinewave cycles per turn:
64
Through-hole hollow shaft up to d= 80 mm
Maximum speed:
4,000 rpm, Option: 12,000 rpm
Tangential magnetic sensing
Output amplitude:
approx. 1 Vpp
Large mounting tolerances
Permissible encoder temperature:
-40 °C to +85 °C
Connection:
Cable
Moment of inertia:
approx. 17 kgcm²
Shock resistance (12 ms):
2,000 m/s²
Protection class:
IP 68
Without own bearings
MHGS 150 Download...
Sinewave cycles per turn:
94
Through-hole hollow shaft up to d= 130 mm
Maximum speed:
4,000 rpm, Option: 12,000 rpm
Tangential magnetic sensing
Output amplitude:
approx. 1 Vpp
Large mounting
tolerances
Permissible encoder temperature:
-40 °C to +85
°C
Option: marker pulse
Connection:
Cable
Moment of inertia:
approx. 18.4 kgcm²
(d=130 mm, without marker pulse)
approx. 33.67 kgcm² (d=130 mm, with marker pulse)
Shock resistance (12 ms):
2,000 m/s²
Protection class:
IP 68
Without own bearings
MHGS 400 Download...
Sinewave cycles per turn:256
Through-hole hollow shaft up to d= 380 mm
Maximum speed:3,000 rpm
Output amplitude:approx. 1 Vpp
Operation possible under oil or water
Permissible encoder temperature:-20 °C to +95°C
Tangential magnetic sensing
Connection:Cable Large mounting tolerances
Moment of inertia:approx. 1,118 kgcm²(d= 380 mm)
Option: Special corrosion protection
Shock resistance (12 ms):2,000 m/s²
Option: Cover
Protection class:IP 68
Without own bearings
-->
MHGE 100 B5 Download...
Sinewave cycles per turn:
64
Through-hole hollow shaft with d= 20 ... 80 mm
Output amplitude:
ca. 1 Vpp
Large permissible axial displacement
Permissible encoder temperature:
-40 °C to +100 °C
Large permissible air gap tolerance
Connection:
12 pole flange socket (ccw, pins)
Option: additional incremental signals
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGE 200 B5 Download...
Sinewave cycles per turn:
128
Through-hole hollow shaft with d= 50 ... 180 mm
Output amplitude:
ca. 1 Vpp
Large permissible axial displacement
Permissible encoder temperature:
-40 °C to +100 °C
Large permissible air gap tolerance
Connection:
12 pole flange socket (ccw, pins)
Option: additional incremental signals
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGE 400 B5 Download...
Sinewave cycles per turn:
256
Through-hole hollow shaft with d= 100 ... 380 mm
Output amplitude:
ca. 1 Vpp
Large permissible axial displacement
Permissible encoder temperature:
-40 °C to +100 °C
Large permissible air gap tolerance
Connection:
12 pole flange socket (ccw, pins)
Option: additional incremental signals
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGE 800 B5 Download...
Sinewave cycles per turn:
512
Through-hole hollow shaft with d= 380 ... 740 mm
Output amplitude:
ca. 1 Vpp
Large permissible axial displacement
Permissible encoder temperature:
-40 °C to +100 °C
Large permissible air gap tolerance
Connection:
12 pole flange socket (ccw, pins)
Option: additional incremental signals
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGP 100 B5 Download...
Sinewave cycles per turn:
64, 128, ... 1024, ... 8192
Through-hole hollow shaft with d= 20 ... 80 mm
Bandwidth:
400 kHz
Large permissible axial displacement
Output amplitude:
ca. 1 Vpp
Large permissible air gap tolerance
Permissible encoder temperature:
-20 °C to +85 °C
Option: Error output
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGP 200 B5 Download...
Sinewave cycles per turn:
128, 256, ... 1024, ... 16384
Through-hole hollow shaft with d= 50 ... 180 mm
Bandwidth:
400 kHz
Large permissible axial displacement
Output amplitude:
ca. 1 Vpp
Large permissible air gap tolerance
Permissible encoder temperature:
-40 °C to +100 °C
Option: Error output
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
MHGP 400 B5 Download...
Sinewave cycles per turn:
256, 512, 1024, ... 32768
Through-hole hollow shaft with d= 100 ... 380 mm
Bandwidth:
400 kHz
Large permissible axial displacement
Output amplitude:
ca. 1 Vpp
Large permissible air gap tolerance
Permissible encoder temperature:
-40 °C to +100 °C
Option: Error output
Connection:
12 pole flange socket (ccw, pins)
Vibration resistance (55 Hz ... 2000 Hz):
300 m/s²
Shock resistance (2 ms):
3.000 m/s²
Protection class:
wheel IP 68 / head IP 67
Absolute Encoders- Singleturn- Multiturn- counting procedure without gearbox/battery- Interface: SSI, PROFIBUS DP or CANopen
The new generation of Baumer Hübner Absolute Encoders are characterized by the following excellent features:
No wearing parts: no gearbox or battery (exceptions: AMG 10 / AMG 81), ball-bearing life approx. 109 turns
High continuous speeds are allowed, even in start-stop operation
Versions with solid shaft or (larger) through-bore hollow shaft
Rugged construction with high shock-loading capability
Insensitive to electromagnetic interference
Resolution: single-turn 13-bit, multiturn 16-bit; SSI option: 12, 16, 20 or 24-bit
Various interfaces: SSI, Profibus-DP, CANopen etc
Can be operated in hazardous areas with Ex approval
Additional incremental signals with HTL/TTL level as an option
Redundant versions as an option
... with own bearings
AMG 10 (Single-/Multiturn) Download...
Singleturn (= absolute steps per turn):
13 bit (= 8,192)
EURO flange B10, solid shaft d= 11 mm
Multiturn (= turns of shaft):
12 bit (= 4,096)
Protocols SSI, Option: EnDat
Interface absolute:
SSI, Option: EnDat
Protection class: IP 66
Output amplitudes:
approx. 1 Vpp
Square-wave cycles per turn:
512
Bandwidth:
>= 200 kHz
Connection:
Terminal box
Permissible encoder temperature:
-30°C ... +100°C
Shock resistance (6 ms):
1,000 m/s²
Weight:
approx. 2 kg
UL approved
AMG 11 (Single-/Multiturn) Download...
Singleturn (= absolute steps per turn):
13 bit (= 8,192)
EURO flange B10, solid shaft d= 11 mm
Multiturn (= turns of shaft):
16 bit (= 65,536)
Protocols CANopen, Profibus DP and SSI
Interface absolute:
CANopen, Profibus DP, SSI
Parametrization by PC using interface box HEAG 182 (accessory / SSI only)
Logic level:
HTL (C), TTL (R)
Square-wave cycles per turn:
1,024, 2,048
Protection class: IP 67
Max. output frequency:
120 kHz
Option: Redundant systems
Connection:
Plug connection, connection terminals (bus cover, terminal box)
Option: Hybrid bearings
Permissible encoder temperature:
-20°C ... +85°C
Option: Special corrosion protection
Shock resistance (6 ms):
1,000 m/s²
Weight:
approx. 3 kg
UL approved
HMG 11 (Single-/Multiturn) Download...
Singleturn (= absolute steps per turn):
13 bit (= 8,192)
Hollow shaft up to d= 20 mm
Multiturn (= turns of shaft):
16 bit (= 65,536)
Hybrid bearings
Interface absolute:
CANopen, Profibus DP, SSI
Option: Cone shaft 1:10
Logic level:
HTL (C), TTL (R)
Protocols CANopen, Profibus DP and SSI
Square-wave cycles per turn:
1,024, 2,048
Max. output frequency:
120 kHz
Parametrization by PC using interface box HEAG 182 (accessory / SSI only)
Connection:
Plug connection, connection terminals (bus cover, terminal box)
Protection class: IP 67
Permissible encoder temperature:
-20°C ... +85°C
Option: Redundant systems
Shock resistance (6 ms):
1,000 m/s²
Option: Special corrosion protection
Weight:
approx. 3 kg
UL approved
AMG 71 (Single-/Multiturn) Download...
Singleturn (= absolute steps per turn):
13 bit (= 8,192)
Multiturn (= turns of shaft):
16 bit (= 65,536)
Interface absolute:
SSI
Multiturn: patented counting procedure without gearbox / battery
Output amplitude:
1 Vpp (peak to peak)
Protocols SSI
Sinewave cycles per turn:
2,048
Max. output frequency:
>200 kHz
Parametrization by PC using interface box HEAG 182 (accessory / SSI only)
Connection:
connection terminals
Protection class: IP 66
Permissible encoder temperature:
-20°C ... +85°C
Shock resistance (6 ms):
1,000 m/s²
Weight:
approx. 0,35 kg
UL approved
AMG 75 (Singleturn) Download...
Singleturn (= absolute steps per turn):
22 bit (= 4,194,304)
Protection class: IP 55
Interface absolute:
SSI
Option: IP 65
Logic level:
TTL
Square-wave cycles per turn:
1024, 2048, 4096, 8192, 16384, 65536, 131072
Max. output frequency:
5 MHz
Connection:
12 pins connector
Permissible encoder temperature:
-35°C ... +85°C
Shock resistance (12 ms):
200 m/s²
Weight:
approx. 660 g
UL approved
AMG 81 (Single-/Multiturn) Download...
Singleturn (= absolute steps per turn):
13 bit (= 8,192)
EURO flange B10, solid shaft d= 11 mm
Multiturn (= turns of shaft):
16 bit (= 65,536)
Protocols: Profibus DP, SSI, CANopen
Interface absolute:
Profibus DP, SSI, CANopen
Parametrization by PC using interface box HEAG 182 (accessory / SSI only)
Logic level:
HTL (C) or TTL (R)
Protection class: IP 55
Square-wave cycles per turn:
2048
Option: Additional incremental signals with HTL (C) or TTL level for motor control systems (MCTRL)
Max. output frequency:
120 kHz
Connection:
12 pins connector
Permissible encoder temperature:
-20°C ... +85°C
Shock resistance (6 ms):
100 m/s²
Weight:
approx. 1.5 ... 2.0 kg
UL approved
HMG 161 (Single-/Multiturn) Download...
Singleturn (= absolute steps per turn):
13 bit (= 8,192)
Through-hole hollow shaft up to d= 70 mm
Multiturn (= turns of shaft):
16 bit (= 65,536)
Protocols: CANopen, Profibus DP and SSI
Interface absolute:
CANopen, Profibus DP, SSI
Protection class: IP 56
Logic level:
HTL (C), TTL (R)
Option: Insulated bearing
Square-wave cycles per turn:
2,048
Option: Additional incremental signals with HTL (C) or TTL level for motor control systems (MCTRL)
Max. output frequency:
120 kHz
Connection:
Connection terminals (bus cover, terminal box)
Parametrization by PC using interface box HEAG 182 (accessory / SSI only)
Permissible encoder temperature:
-20°C ... +85°C
Shock resistance (6 ms):
2,000 m/s²
Weight:
approx. 2 kg ... 3 kg
UL approved
... without own bearings and with magnetic sensing
MHAP 100 B5 (Singleturn) Download...
Singleturn:
8 ... 17 bit
Through-hole hollow shaft with d= 38 ... 75 mm
Interface absolute:
SSI
Protection class: wheel IP 68 / head IP 67
Permissible encoder temperature:
-20°C ... +85°C
Tangential magnetic sensing
Shock resistance (2 ms):
3000 m/s²
Large mounting tolerances
Connection:
17 pins flange socket (clockwise, male)
Option: additional incremental signals
Without own bearings
MHAP 200 B5 (Singleturn) Download...
Singleturn:
8 ... 17 bit
Through-hole hollow shaft with d= 38 ... 75 mm
Interface absolute:
SSI
Protection class: wheel IP 68 / head IP 67
Permissible encoder temperature:
-20°C ... +85°C
Tangential magnetic sensing
Shock resistance (2 ms):
3000 m/s²
Large mounting tolerances
Connection:
17 pins flange socket (clockwise, male)
Option: additional incremental Signals
Without own bearings
MHAP 400 B5 (Singleturn) Download...
Singleturn:
8 ... 17 bit
Through-hole hollow shaft with d= 38 ... 75 mm
Interface absolute:
SSI
Protection class: wheel IP 68 / head IP 67
Output amplitudes:
approx. 1 Vpp
Tangential magnetic sensing
Shock resistance (2 ms):
3000 m/s²
Large mounting tolerances
Connection:
17 pins flange socket (clockwise, male)
Option: additional incremental signals
Without own bearings
MHGA 400 (Singleturn) Download...
Singleturn:
10 bit
Through-hole hollow shaft up to d= 380 mm
Interface absolute:
SSI
Protection class: IP 67, Option: IP 69 K
Output amplitudes:
approx. 1 Vpp
Tangential magnetic sensing
Sinewave cycles per turn:
256
Large mounting tolerances
Connection:
17 pins flange socket (clockwise, male)
With additional incremental track
Permissible encoder temperature:
-20°C ... +85°C
Shock resistance (12 ms):
200 m/s²
UL approved
Ferraris Acceleration Sensors -Acceleration sensors based on the Ferraris principle for rotary and linear drives
Acceleration sensors based on the Ferraris principle for rotary and linear drives
1. Ferraris sensors for analyzing systems
Speed-controlled drives are subject to ever increasing demands with regard to dynamics, smooth running and disturbance resistance. To achieve this, vibration must be reduced as far as possible - also to prevent wear or undesirable side-effects such as the generation of noise and heat.
The acceleration is indispensable as a state-variable for precise analysis of the dynamic response of a drive system. This is because it represents the direct, undelayed response of a mass being moved in reaction to all the forces acting on it. If one assumes that in the typical drive control loop there is usually a position sensor implemented to detect the actual value, then it would – theoretically – be possible to calculate the acceleration by double-differentiation of the position signal. In practice, the signal derived in this way would be useless, since each differentiation exaggerates any errors present, and so a double differentiation would inevitably produce a very noisy signal. The situation is even more critical for highly dynamic systems. In this case, even a directly produced velocity signal, such as the output signal from a tachogenerator, is not suitable for the generation of a good acceleration signal – even the short sampling time that is required by the control system for a single differentiation will lead to sizeable quantization errors – quite apart from the amplification of any errors. In other words, for the analysis of highly dynamic systems, the acceleration must be measured directly.
Classic acceleration sensors on the spring-mass principle have inherent disadvantages. They measure the absolute acceleration not the relative acceleration, which may be relevant. For example, consider a handling robot, with the hand axis mounted on a rotary axis, and where it is necessary to sense the dynamics of the hand movement relative to the higher-level rotary axis. Furthermore, a spring-mass system is frequently sensitive to motion orthogonal to the measurement axis, so that the required measurement may be falsified. This effect can arise, for instance, on a machine-tool compound slide, where the top slide is moving in the X direction, while the cross slide is simultaneously moving in the Y direction. And where rotary movements are concerned, the application of absolute acceleration sensors is extremely complicated. The energy supply and signal transmission requires the use of slip-rings or contactless forms of transmission, such as rotary transformers or telemetry systems.
Considerable improvements in the analysis of drive systems can be achieved by using relative acceleration sensors based on the Ferraris principle, named after the Italian Galileo Ferraris. The principle is that permanent magnets mounted in a fixed detector unit induce eddy currents in a moving, conductive, but non-magnetic material. For measuring rotary acceleration this material can be in the form of a disk, for linear acceleration it is formed as a strip of metal (see picture on top). The eddy currents and the magnetic fields that they generate are proportional to the radial velocity of the disk (or the linear velocity of the strip). A change in the eddy current produces a voltage in the coils mounted in the detector unit that is proportional to the rate of change of the velocity, i.e. proportional to the acceleration. The reverse application of this principle has, incidentally, been used for a very long time in electricity consumption meters. The decisive factor is that the differentiation is not based on a sample over a discrete time period, but is a physical effect, so that the user sees a dynamic, low-noise acceleration signal.
2. Ferraris sensors for increasing control-loop performance
Whenever a drive has to be controlled, a signal for the actual speed is required, which is fed back to the control system. This speed signal should be highly precise and ideally without any delay. In most cases this purpose is achieved by a linear or angular encoder (glass scale linear encoder, resolver, optical incremental encoder), where differentiating the position signal yields the desired speed signal. The drawback of this method is that by differentiation noise and fluctuations are pronounced. The situation is even more critical for highly dynamic systems, where even the short sampling time that is required by the control system will lead to sizeable quantization errors - quite apart from the amplification of any errors.
If one uses not only the position signal from the position encoder in the control loop, but also the integrated signal from a Ferraris sensor as the velocity signal (instead of deriving it from the position signal), then the dynamics, disturbance resistance and smoothness of the drive will be significantly improved. In this way, the Ferraris sensor becomes part of the control loop, and the resulting quietness of the system also reduces the wear on mechanical components, prevents the generation of unwanted noise, and reduces the power loss in the motor.
ACC 70 • ACC 74 Download...
Output amplitudes (with internal amplifier):
Version V: max. 2 VppVersion V15: max. ± 20 V (differential)
ACC 70: high sensitivityACC 74: high bandwidth
Sensitivity (depending on amplification):
5 ... 50,000 rad s²/V
External amplifiers as accessory:HEAG 163HEAG 164-15HEAG 165
Bandwidth (depending on material of the bell-shaped rotor):
ACC 70: approx. 500 Hz ... 800 HzACC 74: approx. 800 Hz ... 1 kHz
Weight:
approx. 1,000 g
ACC 93 • ACC 94 Download...
Output amplitudes (with external amplifier):
HEAG 163: max. ±12 V (to mass)HEAG 164-15: max. ±20 V (differential)HEAG 165: max. 1 V bis 2 Vpp (differential)
For linear and rotary drives, especially designed for linear applications (linear direct drives)
Sensitivity(using 1 millimeter high-grade aluminium,19 millimeters immersion depth):
ACC 93: approx.. 10 mV/gACC 94: approx. 1,6 mV/g
Bandwidth (using 1 millimeter high-grade aluminium,19 millimeters immersion depth):
ACC 93: ca. 1 kHzACC 94: ca. 1,6 kHz
External amplifiers as accessory:HEAG 163HEAG 164-15 HEAG 165
Gewicht:
approx. 120 g
Tachogenerators- DC tachogenerators- tachometers
Combinations- Tachos- Encoders- Overspeed Switches
Explosion Proof DevicesExplosion Proof Devices according to ATEX 95
Accessories- mechanical (couplings, cable...)- electronic (converters, interpolators...)
For More Information, Please Contact Baumer Hubner Distributors
PRODUCT REFERENCEPOG 9 D 1024 AMG11S25H1024AMG11SS25Z0 AMG81 P29 Z0 AMG81 P29 Z0+K35AMG81P29Z0FOG 9 D 500 +GT 7.16L/460FOG 9 E 500 +GT 7,16L/460FOG 9E 500 + GT7.16L/460GMP 1.0 LS-4 + FSLGT 3.10 L / 405GT 3.10 L/405GT 3.10L/405 GT 5.05 L/407GT 5.05L/407GT 5.05L/410GT 7 . 08 L / 420GT 7.08 L / 420GT 7.08L/420GT 7.08L/420.GT 7.08L/430GT 7.16L/460GT 9.06 / 420KGT 9.06 L/420GT 9.06L/ 420KGT 9.06L/420GT 9.06L/420 KGT 9.06L/420 K + OG 9 D 600GT 9.06L/420-KGT.5.05L/410 GT5.05L/410GTB 9.06L / 420K GTB 9.06/420GTB 9.06/420KGTB 9.06L / 420GTB 9.06L / 420 KGTB 9.06L/420GTB 9.06L/420 KGTB 9.06L/420 K.GTB 9.06L/420KGTB 9.16L/460GTB-9.06 L/420KGTF 7.16L/460GTL 5.05L/407GTL 7.16/460 GTL 7.16L/460GTR 9 16LGTR 9.16/460GTR 9.16L/ 460GTR 9.16L/420GTR 9.16L/440GTR 9.16L/46.GTR 9.16L/460GTR.9, 16L/460H78 Carbon brushHMG11P29H1024 HMG11S13Z0HMO 4 M 26715 (HOG 10 + FSL)HOG 10 D 1024 + ESL 93HOG 10 D 1024 + FSLHOG 10 D 1024 + FSL850HOG 10 D N 1024 + FSL RPM 1702HOG 10 D1024 HOG 10 DN 1024 + FSLHOG 10 G D 1024 / D 1024HOG 10D 1024/CEHOG 10D 2048 I + FSLHOG 10D 2048 I+FSL HOG 10D 500I + FSLHOG 10DN 1024+FSLHOG 10DN 1024+FSLHOG 10G DN 1024 / 1024 I HOG 10GDN 1024 / 1024, HTLHOG 11 DN 1204 + FSLHOG 9 G D 500 / D 500HOG10 - D1024HOG10 D 1024 + FSLHOG10 D1024IHOG10D1024HOG-10-D-1024HOG10D1024 I-HTLHOG10D1024FSL HOG10D1024IHOG10D1024I + HOG10D1024I+FSL HOG10DN1024I HOG10DN1024RHOG16D1024I HOG71 DN512 C1 HOG71DN1024CIHOG71DN1024I HOG71DN1024TTL HOG90-W03DN3072IHOG9D1024 HOG9D1024I HOG9D1024TTL HOG9D500HOG9DN1024TTL HOG9GD1024I/D1024IHOG9GD500 HOG9GD500/D500HOG9GDN1250IHOGS 14 DN 500R HOGS14DN5000ROG 60 DN 600 TTL +GT 5,05L/410OG 60 DN 600 TTL +GT 5.05L/410OG60+GT5 + 80051GT5.05POG 10 D 1024 + FSLPOG 10 D 500 + FSLPOG 10 DN 1000 + FSLPOG 10 DN 1024 + FSLPOG 10 DN 1024 + FSLPOG 10 G D 1024 / D 1024 IPOG 10 G D 6 / D 200POG 10D 1024 + FSL100RPOG 10D 1024I+FSLPOG 10D 600 + FSLPOG 10DN 1024I+FSLPOG 10DN 1024I+FSLPOG 9 D 1024 + ESL 90POG 9 D 1024 + FSLPOG 9 D 1024 I + FSLPOG 9 D 1204 + FSLPOG 9 D 300 + FSLPOG 9 D 500 + FSLPOG 9 D 500 + FSL POG 9 D 500 + FSLPOG 9 D 500POG 9 D 500+FSLPOG 9 D N 1024 +FSLPOG 9 DN 1024 + FSLPOG 9 DN 1024 1 + FSLPOG 9 DN 1024+FSLPOG 9 DN 1204 + FSLPOG 9 G D 10001/ DN 500 IPOG 9 G D 600 / D 300POG 90 DN 2000 + FSLPOG 90 DN 2500 TTL+FSL(1200RPM)POG 9D 1024 + FSLPOG 9D 1024 + FSL (1560RPM)POG 9DN 1024+FSL POG 9DN 1024 + FSLPOG 9DN 1024 +FSLPOG 9DN 1024 +FSLPOG 9G D 1024 / D 1024POG10 D 1024 1+POG 10D 100 I + FSLPOG10 DN1024I POG10D1000 POG10D1024 POG10D1024I+ESL90POG10D500I POG10D500I+FSLPOG10D600IPOG10DN 1024 I+FSL (1955 RPM )POG10DN1000I + FSLPOG10DN1000I POG10DN1024 POG10DN1024I POG10DN1024I FSL POG10DN1024I+FSLPOG10DN1024I+FSLPOG10DN1024TTLPOG10DN600IPOG10GDN1024IPOG11DN1024 I//DH132POG9 DN 1024 TTL + FSLPOG9 DN1024 + FSLPOG9 DN1024I + FSLPOG90DN2500I+FSLPOG9D1024 POG9D1024+FSLPOG9D10241 POG9D1024IPOG9D500 POG9D600 POG9D6001POG9D600PPOG9DN1024 POG9DN1024IPOG9DN1024I+FSL POG9DN1200+FSL POG9DN1200I HTL POG9DN1200R+FSLIPOG9G POG9GDN1024IPOGS90DN5000R TDP 0, 2LT-4 + FSLTDP 0,09 LT-3 TDP 0,09LT-3 TDP 0,09LT-3+FSLTDP 0,09T-3 TDP 0,2 LT-3 + FSL.TDP 0,2 LT-4 + G 9 D 10000 I TDP 0,2 LT-4 + FSLTDP 0,2 LT-4 + FSL.TDP 0,2 LT-4 +OG 60 DN 2048 CITDP 0,2 LT-4 + OG 9 D 1000 ITDP 0,2 LT-4 + OG 9 D 1000 TTLTDP 0,2 LT-4 + OG 9 D 600TDP 0,2 LT-4 + OG 9 DN 1000 ITDP 0,2 LT-4 + OG 9 DN 1024 ITDP 0,2 LT-4 + OG 9 E 200TDP 0,2LT-1 + OG 9 DN 1024TDP 0,2LT-3 + FSL TDP 0,2LT-4 + FSLTDP 0,2LT-4 + FSL + OG 9 D 60TDP 0,2LT-4 + OG 9 D 1000TDP 0,2LT-4 + OG 9 D 1000 ITDP 0,2LT-4 + OG 9 D 200TDP 0,2LT-4 + OG 9 D 500TDP 0,2LT-4 + OG 9 D 60TDP 0,2LT-4 + OG 9 D 600TDP 0,2LT-4 + OG 9 D 80TDP 0,2LT-4 + OG 9 DN 1000TDP 0,2LT-4 + OG 9 DN 1000 ITDP 0,2LT-4 + OG 9 DN 1024 ITDP 0,2LT-4 + OG 9 DN 600TDP 0,2LT-4 + OG 9 E 200TDP 0,2LT-4+FSLTDP 0,2LT-4+OG 9 D 1000 ITDP 0,2LT-4+OG 9 DN 1000TDP 0,2LT-4+OG9DN1000TDP 0,2LT-4-B3TDP 0,2LT-5+FSLTDP 0.09LT-2,TDP 0.09LT-3 + FSLTDP 0.2 LT-3 +OG 60 DN 1500TTLTDP 0.2 LT-4 + FSLTDP 0.2 LT-4 + OG 9 DN 1000 ITDP 0.2 LT–4 + OG 9 DN 1000 ITDP 0.2 LT-4 + OG 9DN 72TDP 0.2 LT-4 + OG 9E 200TDP 0.2 LT-4 + OG9 DN 1000 ITDP 0.2 LT-4 + OG9D 60+FSLTDP 0.2 LT-4TDP 0.2 LT-4+FSLTDP 0.2 T-4 + FSLTDP 0.2LT -4 + OG 9 E 200 TDP 0.2LT 4+FSLTDP 0.2LT-3 + FSLTDP 0.2LT-3+FSL 1875TDP 0.2LT-4 + FSLTDP 0.2LT-4 + FSLTDP 0.2LT4 + FSLTDP 0.2LT-4 + OG 9 DN 100TDP 0.2LT-4 + OG 9 DN 120TDP 0.2LT-4 + OG 9DN 1000,TDP 0.2LT-4 + OG 9DN 72TDP 0.2LT-4 + OG 9E 200TDP 0.2LT-4 + OG DN 1000TDP 0.2LT-4 + OG DN100TDP 0.2LT-4 + OG10G 9DN120TDP 0.2LT-4 + OG9 DN 1250TDP 0.2LT-4TDP 0.2LT-4/DG.9.E.200TDP 0.2LT-4+FSLTDP 0.2LT-4+OG 9 DN 100TDP 0.2LT-4+OG9D60TDP 0.2T-4 + OG 9 DN 500TDP 0.51/42HTDP 0.51L/42HTDP 0.7/8-3kTDP O, 2LT-4 + OG 9 D 200TDP O,O9LT-3 + FSLTDP0 2LT - 4 + FSLTDP0, 2LT-4+FSL TDP0,2 LT-4 + OG 9 D 300TDP0,2KT-5+FSLTDP0,2LT-4 + FSLTDP0,2LT-4 + OG 9 D 500TDP-0.09 LT-2TDP0.2 LT-4 + OG9D5TDP-0.2 LT-4TDP0.2 LT-4+OG9DN1000TDP0.2 T-4 + FSLTDP-0.2LT-4 + FSLTDP-0.2LT-4 + FSLTDP0.2LT-4 + OG 9 D N 600TDP0.2LT-4 + OG 9D 80TDP-0.2LT-4 +DG 9DN 1000TDP0.2LT-4,TDP0.2LT-4+FSLTDP0.2LT-4-+FSLTDP0.2LT-4+OG9DN1000I TDP009T3TDP5.5-10 TDPO,2KT-5+FSL TDPZ 0,2 LT-4 + FSLTDPZ 0,2 LT-4 + FSL + OG 9 D 10TDPZ 0,2 LT-4 + FSL + OG 9 D 60TDPZ 0,2 LT-4 + OG9 + D60 + FSLTDPZ 0,2 LT-4 +POG 9 DN 50 I + FSLTDPZ 0,2 LT-4+OG9.D60+FSLTDPZ 0,2 LT-5 + FSLTDPZ 0,2LT-4 + FSLTDPZ 0,2LT-4 + FSL + OG 9 D 60TDPZ-0.2LT-5 + FSLTG74/2-6POG9DN1024HOG-9-D-1024HOG 90-W03 DN 3072 IPOG90 2500 TTLHOG 1024IPOG10-DN-1024 IPOG 10 DN-1024 TTL+FSLPOG10D 1024 I +FSLAMG11-S-13-Z-0TDP 0,2LT-10TDPZ 0,2 LT-7TDPZ 0,2LT-7TDPZ 0,2L-T-7TDPZ 0.2LT-7 TDP 0,2LT-5TDP O,2LT-5TDP0,2LT-5TDPZ 0,2 LT-5TDPZ 0,2LT-5TDP 5,5-10TDP0,2LT-4TDP-0,2LT-4TDP02LT-4TDP 0,2 LT-4 TDP 0,2 LT-4TDP 0,2 T-4TDP 0,2LS-4TDP 0,2LT-4TDP 0,2LT-4 TDP 1,2-5 (B5S)TDP O,2LT-4TDP O,2LT-4TDP O,2LT-4TDP0,2 LT-4 TDP0,2 LT-4 BRUSHTDP0,2LS-4 TDP0,2LT-4TDPO,2LT-4TDPZ 0,2 LT-4TDPZ 0,2LT-4TDP-0,09LT-3GMP 1,0LT-4GMP 1.0 LS-4TDP 0.2LT-5TDP Z 0.2T-5TDP0.2LT-5TDP009LT-3 TDP 0,09 LT-3TDP 0,09LT-3TDP 0,09LT-3.TDP0,09-3TDP 0,2 LT-3TDP 0,2LT-3TDP 0,9 LT-3TDP 0,9LT-3POG9-D300TDP 0, 2 LT - 4TDP 0 , 2 LT - 4TDP 0.2 LT - 4TDP 0.2 LT-4TDP 0.2LT-4TDP 0.2LT-4TDP 0.2LT-4TDP 0.2LT-4TDP 0.2T-4TDP 02 LT-4TDP 02LT-4, TDP O, 2LT-4 TDP O.2 LT-4TDP Z 2.0 LT-4 TDP0 2LT-4TDP0.2 LS-4TDP0.2 LT-4TDP0.2LS-4TDP0.2LT-4 TDP0.2LT-4TDP0.2LT-4,TDP0.2T-4 TDPO.2LT-4 TDPZ 0.2LT-4TDPZ 2.0 LT-4 TDPZ O, 2 LT-4TDPZ-0.2LT-4TDP 0,09LT-2TDP 0.2 LT-3TDP 0,09LT-1TDP 0,2LT-1TDP 0,3LT-1TDP13.06LT-6HOG9D1024 1/D 1024IHOG 9GDN1024I/1024I POG 9DN/1024 TDP 0,52L / 44HOG60DN600JTL+GT5.05L/410GT5.05L/407GTL5.05L/407GT 5,05L/407GT9.06/420GT9.06L/420GTB9.06L/420KGT 7,16L/460GTF 7,16L/460GT7.08L/430 UGT7.08L/420GT7.08L/420, POG9D500, / 500PULSETDP 0,09LT3TDP 0,2L + FSLTDP0.2 LT-1TDP0.2LT-1TDP0.2LT-1,TDP0.51/42H TDP0.51L / 42HTDP 0.09LT-3TDP 0.2 LT –4TDP0 09 LT-3TDP0.09 LT-3TDP0.09LT-3 TDP0.2LT – 4 TDP13.6LT TOP 0.09LT-3TOP0.09LT-3TDP0.09 LT-2TDP0.09LT-2 TDP 13,06LT-6GT 7,08L HOG 8DTDP 0.09LT-1POG 9 D1024 + FSLPOG 9 DN1200 + FSLPOG 9 DN1200 HTL + FSLPOG 9GDN1024IPOG 10G D1024 I/D100 IPOG 10G D6/D200HMG 11 P29H1024TDP 13.06.LT-6TDP 13.06LT-6TDPZ 13.06 LT-6HOG10D1024I TDP 13.06.LT6GTL 7.16L1460AMG 11 S 13 Z 0HMG 11 S 13 Z 0 HMG 11 S 13 Z0HOG10D 024AMG 11 SS 25 Z0TDP 0,2LT-4TDPZ 0,2 lt-4 + FSL + OG9 D 60OG 60 toTDP 0,2AMG 81 P29Z 0HG 6 D 100 CAMG 81 P 29 Z 0 AMG 81 P 29 Z0TDP 0,2LT4 + OG 9E 200OG 9 D 200HOG 10 D 200HOG 10D 200POG 10 D 200 IPOG 9 D 250TDP 0,2LT-4 + OG D 300 IHOG 100 DN 200IPOG 9 D 300POG 9 D 300POG 9G D 300TDP 0,2T-4 POG-9D 500 IPOG10D 500 I FSLHOG 9 D 500HOG 9A 500POG 9 D 500POG 9 D 500POG 9 D 500 POG 9 D 500 IPOG 9 DN 500 I+FSLPOG 9D 500POG 9D 500 IPOG 9D 500IPOG 9-D-500POG 9-DN-500HOG 10 D 500 IHOG 10 D 500 I + FSLHOG 10D 500IPOG 10 D 500POG 10 D 500 IPOG 10 D 500 I + FSLPOG 10 D 500 I POG 10 D 500 l + FSLPOG 10 DN 500 IPOG 10D 500I + FSLPOG 10D 500I + FSLHG16 DN 512 IHG16 DN 512 IOG 6 DN 500 CIHOG 71 DN 512 CITDP0,2LT-4+OG9D 600 OG60 DN 600 TTL +GT5.05POG 9 D 600POG 9 D 600 IPOG 9 D N 600POG 9 DN 600POG 9 DN 600 IPOG 9 G D 600POG 9D 600POG 9DN 600 IHOG 10 DN 600 I HOG 10DN 600 I POG 10 D 600 IPOG 10 D 600LPOG 10 DN 600 IPOG 10 DN 600 I + FSLPOG 10D 600 IPOG 10DN 600IGTR9, 16L-460 TDP 0,2LT-4 + FSL 830HOG10D1024 + FSL 850 POG 10 DN-1000 + FSL POG 10 D 600 I / DN 360 TTLHOG 9 D 1000 I, HTL, TDP0,2LT-4 + OG9 DN 1000POG9GD 1000 TTL HOG220DN 1024I POG10GD 1024I OG 9 DN 1000 I +TDP 0.2 LT-4HOG 9 DN 1000OG 9 DN 1000 OG 9 PN 1000POG 9 D 1000POG 9 DN 1000 I + FSLPOG 9DN 1000 IPOG 9G 1000POG 10 D 1000POG 10 D 1000 POG 10 D 1000 IPOG 10 DN 1000POG 10 DN 1000 + FSLPOG 10 DN 1000 IPOG 10 DN 1000 I + FSLPOG 10 DN 1000IPOG 10 G DN 500 I / DN 500 IPOG 10D 1000POG 10D 1000 I TDP 0.2 LT + OG 9 DN 1000HOG 10D 1024AMG11 S25 H 1024HOG10D 1024I HOG10D 1024I HTLHOG10D 1024IHOG10DN 1024HOG10GD 1024 HOG12 DN 1024 RHOG9 D 1024I HOG9D1024 I/D 1024I OG9 DN 1024 IPOG D10 DN 1024 I HTLPOG DN 1024 IPOG P DN 1024 I + FSLPOG10D 1024 POG10DN 1024I POG10DN 1024I + FSLPOG9 1024 POG9 DN 1024 I + FSL POG9D, 1024POG9DN 1024 POG9G 1024 HTLPOG 1 DN 1024RTDP0.2LT-1 + OG9 DN 1024, HTLHOG 8 D 1024 TTLHOG 8 DN 1024 C I HOG 8 DN 1024 CIHOG 9 D 1024HOG 9 D 1024 IHOG 9 D 1024 TTLHOG 9 DN 1024 TTL HOG 9D 1024 I HOG 9D 1024IPOG 9 D 1024POG 9 D 1024 IPOG 9 D 1024 I + FSLPOG 9 D 1024.POG 9 D N 1024 POG 9 DN 1024POG 9 DN 1024 + FSLPOG 9 DN 1024 IPOG 9 DN 1024 I + FSLPOG 9 DN 1024 I HTL POG 9 DN 1024 l + FSLPOG 9 DN 1024 RPOG 9 DN 1024 TTL + FSLPOG 9 DN 1024 TTL + FSL POG 9 DN 1024 TTL FSL POG 9 DN 1024, POG 9 DN 1024I + FSL POG 9 DN 1024I+FSLPOG 9D 1024POG 9D 1024 IPOG 9D 1024IPOG 9DN 1024POG 9DN 1024 IPOG 9DN 1024 I + FSLHOG 10 D 1024IHOG 10 D 1024HOG 10 D 1024 IHOG 10 D 1024 I + FSLHOG 10 D 1024 I+FSLHOG 10 D N 1024 IHOG 10 DN 1024HOG 10 DN 1024 IHOG 10 DN 1024 I . HOG 10 DN 1024 I + FSLHOG 10 DN 1024 I.HOG 10 DN 1024 R + FSLHOG 10 DN 1024IHOG 10 DV 1024 IHOG 10D 1024HOG 10D 1024 I HOG 10D 1024 I + FSLHOG 10D 1024IHOG 10D 1024I + FSLHOG 10D 1024I+FSLP06 10 DN 1024PG 10 DN 1024 POG 10 D 1024POG 10 D 1024 POG 10 D 1024 POG 10 D 1024 FSLPOG 10 D 1024 IPOG 10 D 1024 I + FSLPOG 10 D 1024 I +FSLPOG 10 D 1024IPOG 10 D 1024I POG 10 D 1024I+FSL POG 10 D N 1024 IPOG 10 DN 1024 POG 10 DN 1024 B10 POG 10 DN 1024 I POG 10 DN 1024 I + ESLPOG 10 DN 1024 I + ESL90POG 10 DN 1024 I + FSLPOG 10 DN 1024 I POG 10 DN 1024 RPOG 10 DN 1024 R + FSLPOG 10 DN 1024 TTLPOG 10 DN 1024IPOG 10 DN 1024I + FSLPOG 10 DN 1024RPOG 10D 1024POG 10D 1024 IPOG 10DN 1024 POG 10DN 1024POG 10DN 1024 IPOG 10DN 1024 I + FSLHMG 11 P29 H 1024POG 11 DN 1024 IHOG 12 DN 1024 CIHOG 12 DN 1024 RHOG 16 D 1024 IPOG 10 D 1000I HOG 10D 1024I TGTDP 0.2IT-4 HOG 60 DN 1000 CI AMG 11 P 29 H 1024AMG 11P 29 H 1024HMG 11 P 29 H 1024POG 10 DN 1024 I HOG 71 DN 1024HOG 71 DN 1024 CIHOG 71 DN 1024 TTLHOG 71 DN 1024.TTLHOG 71DN 1024 TTLPOG 10 DN 1024 IPOG 9 D 1024 I + ESL 90POG 9 D 1024 TTL + ESL 90TDP0.2LT-4+FSL POG 10 D 1024 I + ESL 90POG 10 DN 1024 I + ESL 90POG 10 D 1024 I +POG 10 D 100 IPOG 9 DN 1200 I + FSLPOG 9 DN 1200 RPOG 9 DN 1204 IHOG 220 DN 1024 CIHOG 220 DN 1024 IPOG 10DN1024I+FSL HOG 9 DN 1250 I POG 10 DN 1204 I + ESL 90POG9 GD 1000 I +POG 9 G DN 500 IPOG 9D 1000TDPZ 0,2 LT-4 + FSL 1900TDP0.2LT-4 + OG 9E 2000 HTLPOG 9 G D 1000 TTL/D 1000 TTLPOG 9 G DN 1000 I / DN 1000 IPOG 10 DN 2024 I + FSLHOG100 ODN 2048 HOG 9 DN 2048 IHOG 9 G D 1024 I / D 1024 IHOG 9 G DN 1024 I / DN 1024 IHOG 9DN 2048I POG 9 DN 2048POG 9 DN 2048 IPOG 9 G DN 1024 I / DN 1024 IPOG 9 G DN 1024 I/ DN 1024 IHOG 10 D 2048 I + FSLHOG 10 DN 2048 IHOG 10 G DN 1024 I / DN 1024 IHOG 10 G DN 1024 I/DN 1024 IHOG 10DN 2048IPOG 10 DN 2048 IPOG 10 DN 2048 I,POG 10 G D 1024 I / D 1024 IPOG 10 G DN 1024 I / DN 1024 IPOG 90 DN 2000 TTL + FSLPOG 90 DN 2000ITDPZ-O.2LT-5 + FSLHOG 100 DN 2000 IHOG 10D 1014 I 1024 HOG 100 DN 2048 IPOG 9 DN 1000 I + FSL TDP 0,2 LT-4 + FSL 2300POG 9 DN 250POG 10 D 1024 I+ FSL 1350 POG10DN 1024I+FSLPOG 90 DN 2400 IPOG 90DN 2400 IHOG 9 G DN 1250 I / DN 1250 IPOG 9 DN 1000 I + FSL POG 9 DN 1000I + FSLHOG 10DN 2500 IPOG 10 D 2500POG 9 DN 1200 HTL + FSLPOG 90 DN 2500 I + FSLPOG 90 DN 2500 TTLPOG 90 DN 2500 TTL + FSLPOG 10 DN 1024 I + FSL 1560HOG 100 DN 2500 LPOG 9 DN 1000 I + DN100L + FSLPOG 9 DN 1000 I + FSLTDP 0.09 LT-3 IP56 02721POG 10 D 1024 I +POG 100 I + FSL POG9DN1024I HTL 2956POG 90 DN 2000 TTL + FSL 1300HOG S 14 DN 5000 R HOGS 14 DN 5000 RPOG 90 DN 5000I, POG 90 DN 5000 IPOG 90 DN 5000IPOG S 90 DN 5000 R POGS 90 DN 5000 RHOG 100 DN 5000 IPOG S 90 DN 5000 R + HEAG 156 AMG 75 S 22 T 131072TDPZ 0,2L-4HOG 10D 1024ITDP0.09LT-3 1602135HOG 10 D 1024 IPOG9DN1024POG10DN1024IHOG10D 1024I
