SMC Corporation of America
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Search Results "CS1LQ160TN-1600"

By separating the lock mechanism and the brake cylinder, SMC has minimized the influences of unlocking air quality such as moisture and condensation.Fail safe construction, Equal holding force in both directions, Lock unit switch, Improved maintainability, Strokes to 1600 depending upon mounting brackets, Auto switch capable cylinder, Auto switch capable brake unit, CLS Cylinder, TIE ROD

By separating the lock mechanism and the brake cylinder, SMC has minimized the influences of unlocking air quality such as moisture and condensation.Fail safe construction, Equal holding force in both directions, Lock unit switch, Improved maintainability, Strokes to 1600 depending upon mounting brackets, Auto switch capable cylinder, Auto switch capable brake unit, CLS Cylinder, TIE ROD

Locking cylinder ideal for intermediate stops, emergency stops & drop prevention, Equal holding force in both directions , Metal rod scraper, provided as standard equipment, offers resistance against external contaminants, Strokes to 1600 depending upon mounting brackets and tube material , Auto switch capable, Power Lock Cylinder, TIE ROD CYLINDER W/LOCK, 461, 34.12 lb

Locking cylinder ideal for intermediate stops, emergency stops & drop prevention, Equal holding force in both directions , Metal rod scraper, provided as standard equipment, offers resistance against external contaminants, Strokes to 1600 depending upon mounting brackets and tube material , Auto switch capable, Power Lock Cylinder, TIE ROD CYLINDER W/LOCK, 461, 46.07 lb

Locking cylinder ideal for intermediate stops, emergency stops & drop prevention, Equal holding force in both directions , Metal rod scraper, provided as standard equipment, offers resistance against external contaminants, Strokes to 1600 depending upon mounting brackets and tube material , Auto switch capable, Power Lock Cylinder, TIE ROD CYLINDER W/LOCK, 461, 49.99 lb

object (Index 1) Device specific object (Index 6, 7, 8, 9, F) Standard object Index Name Flags Fixed value 1000 Device type RO 0x01389 (5001dec) 1008 Device name RO EX600-SEC 1009 Hardware version RO V1.00 100A Software version RO V1.00 1018:0 Identity RO 0x03 (3dec) 1018:01 Vendor ID RO 0x0114 (276dec) 1018:02 Product code RO 0x0105 (16777221dec) 1018:03 Revision RO 0x00010001 (65537dec) 1600

. -77No.PS-OMW0012-C Unit specification and measurement value (PD) (continued) Range Unit Rated pressure range Display / settable range MPa 0 to 1.600 -0.105 to 1.680 kPa 0 to 1600 -105 to 1680 kgf/cm2 0 to 16.315 -1.07 to 17.13 1.6 MPa bar 0 to 16.00 -1.05 to 16.80 (1.6) psi 0 to 232.06 -15.3 to 243.7 Pressure gauge measurement value (PD) 0 to 4000 -263 to 4200 MPa 0 to 2.000 -0.105 to 2.100

index Unit: when L is selected setting 1 R/W AC2_L (Mantissa Ft3) U16 0 Y Setting range 0 to 9 Setting of OUT2 mantissa Unit: when Ft is selected 1510 5 0x05E6 2 R/W AC2_L (Index Ft3) U16 0 Y Setting range 0 to 6 Setting of OUT2 index Unit: when Ft is selected 0: Add (Addition) 1: dEC1 AC (Setting of the accumulated flow output direction) Setting of the accumulated flow output direction 1600

index Unit: when L is selected setting 1 R/W AC2_L (Mantissa Ft3) U16 0 Y Setting range 0 to 9 Setting of OUT2 mantissa Unit: when Ft is selected 1510 0x05E6 2 R/W AC2_L (Index Ft3) U16 0 Y Setting range 0 to 6 Setting of OUT2 index Unit: when Ft is selected 0: Add (Addition) 1: dEC1 AC (Setting of the accumulated flow output direction) Setting of the accumulated flow output direction 1600

converted value setting pulse converted value PLS1_L U8 0 Y 0: 100 (L/pulse) 1: 1000 (L/pulse) OUT2 accumulated 1520 0x05F0 0 R/W 3000/6000 L range 0: 1 (L/pulse) 1: 10 (L/pulse) 12000 L range 0: 10 (L/pulse) 1: 100 (L/pulse) 1530 0x05FA 0 R/W PLS1_Ft3 U8 0 Y 0: Add (Addition) 1: dEC1 AC (Setting of the accumulated flow output direction) Setting of the accumulated flow output direction 1600

PLS1_Ft3 U8 0 Y 0: 1 (L/pulse) 1: 10 (L/pulse) Accumulated pulse converted value setting pulse converted value OUT2 accumulated PLS1_L U8 0 Y 0: 100 (L/pulse) 1: 1000 (L/pulse) 1520 0x05F0 0 R/W 1530 0x05FA 0 R/W PLS1_Ft3 U8 0 Y 0: 1 (L/pulse) 1: 10 (L/pulse) 0: Add (Addition) 1: dEC1 AC (Setting of the accumulated flow output direction) Setting of the accumulated flow output direction 1600

range 0: 1 (Ft3/pulse) 1: 10 (Ft3/pulse) OUT2 accumulated pulse converted value setting 1530 0x05FA 0 R/W PLS2_Ft3 U8 0 Y OUT2 setting (PLS/Err) 2ot (Selection of output type) Setting of OUT2 normal and reversed output U8 0 Y 0: 2_P (Normal output) 1: 2_n (Reverse output) 1540 0x0604 0 R/W Dir (Setting of the accumulated flow direction) 0: Add 1: dEC1 2: dEC2 Addition/Subtraction U8 0 Y 1600

0x05E6 (1510) 0x05E7 (1511) 0x05E8 (1512) 0x05E9 (1513) 0 R/W Y F32 0x0 (0) -82No.PF-OMA1011-A Product individual parameters (continued) Index (dec) Sub index Access 1 Parameter Data Data type 3 Initial value (dec) Remarks storage 2 CH1 CH2 CH3 CH4 Set the accumulated direction. 0: Add (Addition) 1: dEC (Subtraction OUT1) 2: dEC2 (Subtraction OUT2) AC (Accumulated display direction) 0x0640 (1600

H 5 100 VAC 200/40 400/70 Initial power / Power consumption (W) 200 VAC 800/40 1600/80 Note 1) Initial power and power consumption are nominal values. The heaters are PTC thermistor type design. These 200V thermistors self regulate their temperature by switching the resistance at certain critical 100V temperatures, so a separate temperature controller is Current unnecessary.

Table 3 Specification-3 Size Weightg Internal capacitycm 90 180 360 90 180 360 10 120 150 200 1.2 2.2 4.3 15 220 270 380 2.9 5.5 10.7 20 600 700 1000 7.1 13.5 26.3 30 900 1100 1510 12.1 22.9 44.7 40 1400 1600 2280 20.5 39 76 -17- 1-2 Effective output Fig.1 Effective output 1-3 Rotation range When pressurized from the Port A, the shaft will rotate clockwise.

8 , NPTF 1/8 Output (Nm) { At 0.5MPa } 0.3 0.75 1.8 3.1 5.3 Table 2 Allowable kinetic energy and adjustment range of rotating time Rotating speed adjustment range having Size Allowable kinetic energy stable operation J s/90 10 0.00025 0.7 to 5 15 0.00039 20 0.025 1 to 5 30 0.048 40 0.081 Weight Table 3 Weight (g) Weight * Size 90 180 10 120 150 15 220 270 20 600 700 30 900 1100 40 1400 1600

[] 14096 X (1) ()1 ()1 11 800 1 (2) ()1 ()2 1600 1 (3) ()2 ()1 400 1 ()1 ()1 0 1 4097 4096 1 2 1 [] 1 LEY16C-300 2.5mm 1/1 2 LEY16B-300 5mm 25/50 3 LEY16A-300 10mm 25/100 14096 X 12 1 800 2.5mm 2 3 =1 /2 3 =2.5mm/5mm (2.5mm/10mm) =25/50 (25/100) 1) 50 No.SFOD-OMT0009CN-B 7.3 XX X 1CW X 1 2 2CCW 1 XX 1 2 2 1) XX 1) XX 1) XX 0 XX 02 1a 2b 21 1)

[Setting example] (1) "Electronic Gear (numerator): 1", "Electronic Gear (denominator): 1" The motor makes one turn when 800 pulses are input. (2) "Electronic Gear (numerator): 1", "Electronic Gear (denominator): 2" The motor makes one turn when 1600 pulses are input. (3) "Electronic Gear (numerator): 2", "Electronic Gear (denominator): 1" The motor makes one turn when 400 pulses are input

[] (1) ():1 ():1 Undefined No.11 1 4096 X 800 1 (2) ():1 ():2 1600 1 (3) ():2 ():1 400 1 ):1 ():1 01 40974096 1 1 [] 1 LEY16C-300 2.5mm 1/1 2 LEY16B-300 5mm 25/50 3 LEY16A-300 10mm 25/100 1 800 2.5mm Undefined No.12 1 4096 X 2 3 =1 /2 (3 ) =2.5mm/5mm (2.5mm/10mm) =25/50 (25/100) 1 -50No.JXC-OMT0001CN-C 9.3 XX X () 1:CW 2:CCW X ORIG direction 1 2 1 2: XX ORIG

1 to 4096 X (1) "Electronic gear (numerator): 1", "Electronic gear (denominator): 1" Motor makes one turn when 800 pulses are input. (2) "Electronic gear (numerator): 2", "Electronic gear (denominator): 2" Motor makes one turn when 1600 pulses are input.