For more than 70 years Baumer Hubner has been setting new benchmarks in the development of durable components for drive systems. Baumer Hubner products have proven themselves worldwide in tough operating conditions, such as in the paper industry, wind power plants and outdoor crane installations, one of which is the Baumer Hubner Encoder.
Incremental Encoder
- Hubner Encoder OG 6
- Hubner Encoder OG 60 • HOG 60
- Hubner Encoder OG 70 • HOG 70
- Hubner Encoder OG 71 • HOG 71
- Hubner Encoder AHE 7 • AFE 7
- Hubner Encoder HOG 75 • HOG 75 K
- Hubner EncoderOG 8 • HOG 8
- Hubner EncoderOG 9
- Hubner EncoderOG 90
- Hubner EncoderHOG 9 • HOG 9 G
- Hubner EncoderFOG 9
- Hubner EncoderPOG 9
- Hubner EncoderPOG 9 G
- Hubner EncoderPOG 90
- Hubner EncoderHOG 10
- Hubner EncoderHOG 10 G
- Hubner EncoderHOG 100
- Hubner EncoderPOG 10
- Hubner EncoderPOG 10 G
- Hubner EncoderHOG 11 (Offshore)
- baumer Hubner EncoderHOG 11 G (Offshore)
- baumer Hubner EncoderPOG 11
- baumer Hubner EncoderPOG 11 (Offshore)
- baumer Hubner EncoderPOG 11 G (Offshore)
- baumer Hubner EncoderHOG 12
- baumer Hubner EncoderHOG 131 (Offshore)
- baumer Hubner EncoderEGZ 14 • AG 14
- baumer Hubner EncoderHOG 16
- baumer Hubner EncoderHOG 161
Hubner EncoderHOG 163 (Offshore)
- baumer Hubner EncoderHOG 165 (Offshore)
- baumer EncoderHOG 22 • HOG 220
- baumer EncoderHOG 28
- baumer EncoderHG 6
- baumer EncoderHG 16
- baumer EncoderHG 18 • HG 22
- baumer EncoderHG 21 • HG 211
- baumer EncoderHMC 16 (M) + HEAG 158 V (M)
- baumer EncoderMHG 100
- baumer EncoderMHG 150
- baumer EncoderMHG 400
Sine Encoder
- baumer Hubner” OGS 60 • HOGS 60
- baumer Hubner” OGS 71 • HOGS 71
- baumer Hubner” HOGS 75 • HOGS 75
- baumer Hubner” HOGS 14
- baumer Hubner” HOGS 15
- baumer Hubner” HOGS 151
- baumer Hubner” MHGS 100
- baumer Hubner” MHGS 150
- baumer Hubner” MHGS 400
Ferraris Acceleration Sensors
- Hubner Encoder ACC 70 • ACC 74
- Hubner Encoder ACC 93 • ACC 94
- baumer Hubner” AMG 10 (Single-/Multiturn)
- Hubner Encoder AMG 11 (Single-/Multiturn)
- Hubner Encoder HMG 11 (Single-/Multiturn)
- Hubner Encoder AMG 71 (Single-/Multiturn)
- Hubner Encoder AMG 75 (Singleturn)
- Hubner Encoder AMG 81 (Single-/Multiturn)
- Hubner Encoder HMG 161 (Single-/Multiturn)
- Hubner Encoder MHGA 400 (Singleturn)
Speed Switch
- Baumer Hubner FSL FS 90 (FSL)
- Baumer Hubner ESL ES 90 (ESL)
- Baumer Hubner ES 93with 3 switching speeds
- Baumer Hubner DS 93with 3 adjustable switching speeds
- Baumer Hubner ES 100
- Baumer Hubner Encoder POG 10 + DSL
- Baumer Hubner Encoder HOG 10 + DSL
- Baumer Hubner Encoder HOG 16 M + DSL
- Baumer Hubner Tachogenerators
- Baumer Hubner Tachogenerator GT 3
- Baumer Hubner Tachogenerator GT 5, GTL 5
- Baumer Hubner Tachogenerator GT 7, GTF 7
- Baumer Hubner Tachogenerator GT 9
- Baumer Hubner Tachogenerator GTB 9
- Baumer Hubner Tachogenerator GTR 9
- Baumer Hubner Tachogenerator TDP 0,03
- Baumer Hubner Tachogenerator TDP 0,09
- Baumer Hubner Tachogenerator TDP 0,09
- Baumer Hubner Tachogenerator TDP 0,2 LT
- Baumer Hubner Tachogenerator TDP 0,2 LS
- Baumer Hubner Tachogenerator GMP 1,0
- Baumer Hubner Tachogenerator TDP 13
- Baumer Hubner Tachogenerator TDPZ 0,09
- Baumer Hubner Tachogenerator TDPZ 0,2
- Baumer Hubner Tachogenerator GMPZ 1,0
- Baumer Hubner Tachogenerator TDPZ 13
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- Baumer Hubner EEx OG 9
- Baumer Hubner EEx HOG 161
- Baumer Hubner EEx ME 12
- Baumer Hubner EEx GP 0,2 (TG 74 d)
Features
- Highest availability and unrivalled durability under harshest ambient conditions
- Proven HeavyDuty design, double-sided bearing setup, HeavyDuty connection technology, highly robust sensing
- Failure safety in any environment
- Extremely durable aluminum or stainless steel housing, outstanding corrosion protection up to category CX (C5-M), long-term stable sealing concept, operating temperature up to -40 … +100 °C (as option -50 °C)
- Efficient protection against bearing damage
- Double-sided bearing setup (where possible), generously dimensioned bearings with large bearing spacing, high bearing load reserve for large radial / axial shaft loads, no inductive shaft currents due to hybrid bearings with ceramic balls
- Improved control and process quality in the application
- Interference-proof, precise sensing with Opto-ASIC, best electromagnetic compatibilty
- Less drive heating and higher energy efficiency
- Perfect sinusoidal signal quality by LowHarmonics® technology, SinCos signals with negligibly small harmonic component
- Reliable signal transmission over long distances
- Powerful output drivers for cable lengths up to 350 m (HTL-P) and 550 m (TTL), signal transmission via optical fiber up to 1500 m
- Standard explosion protection
- ATEX certification Ex II 3G / 3D for Zone 2 for almost all devices, versions with ATEX / IECEx certification Ex II 2G for Zone 1
- Easy and flexible product selection
- All common mounting types (hollow shaft, cone shaft, shaft with EURO flange B10), connection via terminal box / flange socket M23 / cable, output signals HTL-P / TTL/RS422 / SinCos 1 Vpp / optial fiber
- Versatile designs and options
- Redundant encoders, twin encoders, combinations with speed switch and tacho for special tasks and safety functions, special offshore variants, protection for salt water and tropical environment
- Convenient diagnostics for higher availability
- Continuous testing of numerous rotary encoder functions with function monitoring EMS, detection of connection errors already during assembly, shortening commissioning and error search
Applications
Incremental HeavyDuty encoders provide information on speed and angular position. Their resolution is expressed as the number of pulses (square-wave signals) and the sinusoidal (SinCos) signals per revolution, which the rotary encoder transmits to the controller with each revolution of its shaft. SinCos signals can be interpolated in a controller or in a controller to increase the resolution.
The upstream control identifies the current speed by the pulse numbers counted within a defined time period, while the current position information is identified by the counted pulses or SinCos periods, respectively. At system power-on, a reference travel is required since the encoder information may have been lost during power off and further to eliminate any incorrect result caused by any shaft rotation performed during power-off.
Incremental HeavyDuty encoders are designed for maximum robustness and durability, with enormous mechanical reserves to ensure reliable performance even in the harshest environments:
- Steelworks and rolling mills
- Port installations and crane technology
- Hoists and lifting platforms
- Underground and open pit mining
- Materials handling equipment
- Large drives and generators
- Wind turbines
Source: baumer.com | inaparts.com
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