ML2B 12 15 h 3.5 4.5 4.5 Applicable cylinder ML2B25 ML2B32 ML2B40 10-13-15 13 Series ML2B Dimensions Side support A MY-SA 2-G F E 2-H C D A B Side support B MY-SB 2-J C D A B (mm) A 61 70 87 B 75 84 105 C D E F G H J Part no.
[Horizontal and lateral mounting] A B SOL.3 W RE A B A magnetic field of 14.5 mT is equivalent to a position that has about 18 cm radius from a welded part using about 15,000 amperes of welding amperage. When using it in a stronger magnetic field, cover the sensor with magnetic and shield it.
RE A B A magnetic field of 14.5 mT is equivalent to a position that has about 18 cm radius from a welded part using about 15,000 amperes of welding amperage. When using it in a stronger magnetic field, cover the sensor with magnetic and shield it.
A-9 Comparison of a situation sketch with the simulation set-up and the ckcuil diagram P E U x A ' I c T E c H N o L o G Y S A M P L E D I A G B A M S We will look at this in a sample diagram. Diagram A-10 is the circuit tor the sequenc: "A+, B+, B-, A-". ll is divided into the thre levels, the power section on top, the signal inputrs on the bottom and in between the 'signal procssing'.
From Table 3.7: At 1soo, 10 m3 of air can hold a maximum of 13.04g/m..10m" = 130.4 g P N E U A T I c T E c H t t o L o G Y At 650/o r.h. the air will conlain 130.4 g '0.65 = 84.9 g {a) The reduced volume ol compressed air at 6 bar pressur can be calculated: pl'v1 = pzvz = p; v1 = v2 = +H# '10 m3 = 1.44 mc From Table 3.7 1.44m3of air at 25oC can hold a maximum of 23'76 g '1 '44 = 34.2 g (
CEP1 CE1 A magnetic field of 14.5 mT is equivalent to a position that has about 18 cm radius from a welded part using about 15,000 amperes of welding amperage. When using it in a stronger magnetic field, cover the sensor with magnetic and shield it.
(I$odell A A I D E t H WT $tl oEfio.l il{s} 57.0 6i.0 l(10 x 1.0 3.0 N/A 8.6 49.4 8.6 10.? N/A r{/A N/A 0 t.t5rir(B) 8 t . 8 91.1 Ml2 x 1.0 3.3 l.l/A 8,6 71.4 0.9 14.2 N/A .0 9.7 (r.R)0Efl.251rr(r)8r.8 9 1 . ? M l { x 1 . 5 J.J /A 1.2 71.4 0.9 t4.2 N/A r2.0 12.1 (r.R)0Efti.35rJr(Bl 100,6 0.7 l l 6 x 1 . 5 4.0 N/A ).2 87.4 1.2 t4.5 0.5 t4.0 12.7 l0 [.5t](B] 9E_6 I t 0,5 [!
A large digital display provides a clear view of the current and set values.
D-A9 D-A9 V D-A79W D-P3DW A 11.5 6.5 4.5 7 A 7 10 13 13.5 17 12 10 12.5 B 3 2.5 3.5 4 5 7.5 10.5 13.5 A 11 14 17 17.5 21 16 14 16.5 B 7 6.5 7.5 8 9 11.5 14.5 17.5 A 9.5 12.5 15.5 16 18 13 11 13.5 B 5.5 5 6 6.5 6 8.5 11.5 14.5 A 10 13 16 16.5 18.5 13.5 11.5 14 B 6 5.5 6.5 7 6.5 9 12 15 A 15 18 21 21.5 23.5 18.5 16.5 19 B 11 10.5 11.5 12 11.5 14 17 20 A 7 10 13 13 15.5 10.5 8.5 11 B 3 2.5 3.5
9.5 12.5 15.5 16 18 13 11 13.5 B 10 10.5 12.5 13 13.5 19 21.5 20.5 A 10 13 16 16.5 18.5 13.5 11.5 14 B 10.5 11 13 13.5 14 19.5 22 21 B 15.5 16 18 18.5 19 24.5 27 26 A 7.5 10 13 13.5 15.5 10.5 8.5 11 B 7.5 8 10 10.5 11 16.5 19 18 A 11.5 6.5 4.5 7 B 7 12.5 14.5 13.5 A 15 18 21 21.5 23.5 18.5 16.5 19 A 7.5 10 13 13.5 17 12 10 12.5 A 11.5 14 17 17.5 21 16 14 16.5 Bore size 12 16 20 25 32 40 50
AC DC 2. 10 3 10 (2) ()40 10(555) (10.1) A P (10.1) KT [m2] [W] [] [56] A P T K (10.1),P 10.1A 10.1 40() () () 10.2 10 4 10 10.3 (E6) OFF 10 11000 (EM1) (EM1) 10.3.1 (1) 10.3 (10.2) ((2)(a)(b)) ON EM1 (EM1) OFF V0 te 10.3 t 1J Lmax V L 0 (10.2) e 60 J M Lmax VO JM JL te [mm] [mm/min] [kgcm 2] [kgcm 2] [s] [s] 7kW10ms11k22kW (50ms) 10 5 10 (2) (10.2) (a) 200V 25 73 20 23
Endurance 10 G; X, Y, Z directions, 3 times each Impact resistance 350 g or less Weight 1) 90 phase difference input Multi-counter/Dimensions A phase I 24-M3 x 0.5 B phase J A B C D A COM COM COM B 12 VDC GND F.G.
Bore size (mm) B A B A B A 12 11 78 12 79 8 75 20 15 85 16 86 12 82 Operating Range Auto switch model Bore size (mm) 12 20 10 3 D-A9/A9V 6 D-M9/M9V D-F9W/F9WV D-F9BAL 2.5 3 5 Since this is a guideline including hysteresis, not meant to be guaranteed.
Endurance 10 G; X, Y, Z directions, 3 times each Impact resistance 350 g or less Weight 1) 90 phase difference input Multi-counter/Dimensions A phase I 24-M3 x 0.5 B phase J A B C D A COM COM COM B 12 VDC GND F.G.
LEFT RIGHT 35.5 A : B : C : D : t : 10 sec or more required 80 4 56 DOWN 2.5 sec or more required SEL.
0.5 0.6 0.7 F 200 V Black COM (0 V) G Shield Data A phase output pulse Connector pin arrangement B phase output pulse G A F B H E D C 0 1 2 3 4 3 2 1 Counter value 10-12-55
0.5 0.6 0.7 F 200 V Black COM (0 V) G Shield Data A phase output pulse Connector pin arrangement B phase output pulse G A F B H E D C 0 1 2 3 4 3 2 1 Counter value 10-12-55
B A B A B A B A B A B A B A B A B 40 50 63 80 100 6 4 3.5 1.5 0 0.5 6.5 2 4 11.5 10 0 0 4.5 0 2 9.5 8 ML2B 3.5 1.5 0 0.5 6.5 2 4 11.5 10 0 0 4.5 0 2 9.5 8 8.5 7.5 6 5 2.5 3 9 4.5 6.5 14 12.5 1.5 2 8 3.5 5.5 13 11.5 12 10 9.5 7.5 6 6.5 4.5 8 10 17.5 16 4 4.5 12.5 6 8 15.5 14 13.5 12.5 11 10 7.5 8 14 9.5 11.5 19 17.5 6.5 7 13 8.5 10.5 18 16.5 D-A9 and D-A9V cannot be mounted on 50.
GC SB + Stroke B ZZ + Stroke A + Stroke B SA + Stroke A 63 SZ + Stroke B Front mounting flange C port A, B port B port A 20 C port A port A ' View A-A' GC SB + Stroke B ZZ + Stroke A + Stroke B SA + Stroke A 41 Made to Order Specifications Series MGG Auto Switch Rail Mounting 8 MGG XC13 Bearing type Mounting type Stroke Auto switch type Auto switch symbol Bore size Auto switch rail mounting
Only reading is available Reading and writing are available 5.3 Setting and checking HRSH Series 5-10 HRX-OM-Q033 Chapter 5 Simple communication protocol function 5.4 Communication sequence Starts with a request message from the customers system (host), and finishes with a response message from the product (slave). This product operates as a slave. It does not send any requests.