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Catalog Datasheet	MFG & Type	PDF	Document Tags
DIN867 Abstract: radox 9 501-2132 EN 50155 Text: Magnetic sensors MTRM 16G2524/M100 Hall sensors 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 29 10 39 33 93 general data photo version Full metal sensor type Differential Hall sensor working distance max.	Original	PDF	16G2524/M100 DIN867) DIN867 radox 9 501-2132 EN 50155
Untitled Abstract: No abstract text available Text: Magnetic sensors MTRM 16G2524/M250 Hall sensors 3,3 -0,1 +0,15 ø 15,9 ø 9 60 42 7,3 5,5 ø 26 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 29 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M250 DIN867)
Untitled Abstract: No abstract text available Text: Magnetic sensors MTRM 16G2524/M200 Hall sensors 3,3 -0,1 +0,15 ø 15,9 ø 9 60 42 7,3 5,5 ø 26 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 29 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M200 DIN867)
Untitled Abstract: No abstract text available Text: 磁式传感器紧凑快速、非接触式每秒20,000次的动作频率 —— 非接触式，绝对无磨损！性能卓越：堡盟传感器堡盟集团在传感器、编码器、过程仪表和视觉技术的开发和生产领域居世界领导地位。作为一家由所有者经营管理的家族企业，我们	Original	PDF	0x/12 11xxxxxx
WORKING PRINCIPLE OF proximity sensor Abstract: No abstract text available Text: Compact, fast, non-contact. Magnetic sensors. Edition 2012 Magnetic sensors are proven in the ﬁeld and are constantly further developed and reﬁned. Thanks to their substantial beneﬁts like high detection speed or extreme dirt resistance and by utilizing a non-contact and wear free sensing	Original	PDF	VE-1070 CN-201612 CH-8501 WORKING PRINCIPLE OF proximity sensor
Untitled Abstract: No abstract text available Text: Compacts, rapides, sans contact. Détecteurs magnétiques. Edition 2012 Les détecteurs magnétiques sont utilisés avec succès depuis de nombreuses années et ont été continuellement développés. Grâce à leurs multiples avantages comme une vitesse de détection extrêmement rapide ou une insensibilité	Original	PDF	ro-001 CN-201612 VE-1070 CH-8501
metal sensor diagram Abstract: EN 61373 EN 50155 Text: Magnetic sensors MTRM 16G2524/M100 Hall sensors 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 29 10 39 33 93 general data photo version Full metal sensor type Differential Hall sensor working distance max.	Original	PDF	16G2524/M100 DIN867) metal sensor diagram EN 61373 EN 50155
Untitled Abstract: No abstract text available Text: Magnetic sensors MTRM 16G2524/M250 Hall sensors 29 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M250 DIN867)
DIN867 Abstract: EN 61373 fire sensor Text: Magnetic sensors MTRM 16G2524/M300 Hall sensors 29 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M300 DIN867) DIN867 EN 61373 fire sensor
fire sensor Abstract: EN 61373 Text: Magnetic sensors MTRM 16G2524/M150 Hall sensors 29 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M150 DIN867) fire sensor EN 61373
DIN867 Abstract: No abstract text available Text: Magnetic sensors MTRM 16G2524/M100 Hall sensors 29 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M100 DIN867) DIN867
EN 50155 Abstract: EN 61373 Text: Magnetic sensors MTRM 16G2524/M200 Hall sensors 29 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M200 DIN867) EN 50155 EN 61373
DIN867 Abstract: Optolab OL8800 MPE GARRY MU14SS Text: MU14SS / MU14HS 14/12Bit Multiturn-Unit / Voll- und Hohlwellenversion Features 14Bit =16384 Umdrehungen max. Auflösung Optisches-Absolut-Multiturn-Getriebe mit max. Ø55mm und Bauhöhe 11,2/8,0mm 7 Coderäder aus hochwertigem POM Betriebstemperatur standardmässig -40°C . +85°C	Original	PDF	MU14SS MU14HS 14/12Bit 14Bit 4xM3/90° 3xM3/120° DIN867 12000min-1 Optolab OL8800 MPE GARRY
DIN867 Abstract: No abstract text available Text: Magnetic sensors MTRM 16 Hall sensors 3,3 -0,1 +0,15 ø 26 ø 9 60 42 7,3 5,5 ø 15,9 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 sample drawing 29 10 39 33 93 general data sample picture version Full metal sensor type Differential Hall sensor gear width > 10 mm gear material	Original	PDF	DIN867) 93ront 16G2524/M100 16G2524/M150 16G2524/M200 16G2524/M250 16G2524/M300 DIN867

Untitled Abstract: No abstract text available Text: Magnetic sensors MTRM 16G2524/M150 Hall sensors 3,3 -0,1 +0,15 ø 15,9 ø 9 60 42 7,3 5,5 ø 26 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 29 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M150 DIN867)
Untitled Abstract: No abstract text available Text: Magnetic sensors MTRM 16G2524/M100 Hall sensors 3,3 -0,1 +0,15 ø 15,9 ø 9 60 42 7,3 5,5 ø 26 x5 16 3 2 H1 ø 20 7 ø 22 ±0,1 dimension drawing 33 29 10 29 -0,1 93 general data photo version full metal sensor type differential hall sensor working distance max.	Original	PDF	16G2524/M100 DIN867)