AC Servo Motor Driver Y1 X1 Y4 Electromagnetic brake output ABS transfer mode Electromagnetic brake interlock (MBR) (f) Positioning completion To create the status information for positioning completion. During ABS data transfer (for several seconds after the servo-on (SON) is turned on), the servo motor must be at a stop.
TQ1230001-OM107 PRODUCT NAME Suction cups with flange MODEL / Series / Product Number ZXP7-PFL1-ZP-X1 The outward appearance showed on this manual is an example of the suction cups with flange which is indicated by the product number: ZXP7-PFL1-ZPB25JS-X1. Refer to the suction cup catalog for the detail of other applicable suction cups. Contents Safety Instructions . 2 1.
LED LED SI LED 2 SI LINK (X1) Port1(X1) ACT (X1) Port1(X1) LINK (X2) Port2(X2) ACT (X2) Port2(X2) FO1(X1) Port1(X1) FO2(X2) Port2(X2) SF BF US1 / US2 / US3 US4 . 6-3 SI LED 6.4.1. LINK LED . 6-2 LINK LED LINK 1/2(XF1/2)Ethernet 1/2(XF1/2)Ethernet 6.4.2. ACT LED . 6-3 ACT LED ACT / 1/2(XF1/2)Ethernet 1/2(XF1/2)Ethernet 47 No.EX-OMU0020CN 6.4.3.
Display Description Details 1 P1, P2 EtherNet/IP communication connector Connect Ethernet cable. 2 MS, NS Communication status LED Display the status of the EtherNet/IP communication. x100 IP address setting switches Switches to set the EtherNet/IP communication IP address (0 to 255) by X1, X10 and X100. 3 x10 x1 OFF Power supply OFF 4 PWR Power supply LED (green) Green LED is ON Power supply
Y1 S + Stroke Y1 X1 BB Z + Stroke ZZ + 2 strokes (mm) Stroke range (mm) Bore size (mm) C B BB GA LX P LW LT F J LH NA T SS S Z X1 Y1 R M CD 32 62 58 38 11 16 158 220 11 32 11 40 8 3/8 40 222 37 30 39 32 M10 x 1.25 25 to 800 13 0.15 0.13 40 69 65 45 11 12 158 220 11 32 11 43 8 3/8 46 222 36 33 42 32 M10 x 1.25 25 to 800 13 50 85 76 52 14 15 176 241 13 35 11 50 8 1/2 58 246 43 37 46 40 M10
The input block, end block and DIN rail are included in the input manifold. 8 stations 8 Applicable GW unit Applicable GW unit DeviceNet PROFIBUS-DP Remote I/O (RIO) DeviceNet PROFIBUS-DP Remote I/O (RIO) Nil Nil -X1 -X1 With waterproof cap Input block specifications Input block specifications Current source type input block (PNP input block) or Current sink type input block (NPN input block
The input block, end block and DIN rail are included in the input manifold. 8 8 stations Applicable GW unit Applicable GW unit DeviceNet PROFIBUS-DP Remote I/O (RIO) DeviceNet PROFIBUS-DP Remote I/O (RIO) Nil Nil -X1 -X1 With waterproof cap Input block specifications Input block specifications Current source type input block (PNP input block) or Current sink type input block (NPN input block
Y1 S + Stroke Y1 X1 BB Z + Stroke Width across flats G ZZ + 2 strokes (mm) Bore size (mm) Stroke range (mm) B BB GA LX P LW LT F J LH NA T SS S Z X1 C Y1 R M CD 32 25 to 800 M10 x 1.25 32 39 30 37 222 40 3/8 8 40 11 32 11 220 158 16 11 38 58 62 13 0.15 0.13 40 25 to 800 32 M10 x 1.25 33 42 36 222 46 3/8 43 8 11 32 220 11 12 158 45 11 69 65 13 50 25 to 800 M10 x 1.25 40 46 37 43 246 58 1/
Rod end male threads (mm) (mm) Bore size (mm) Bore size (mm) a b c e f g h LW M P Q R X1 Y1 Z ZZ SS 20 25 32 40 50 63 80 100 20 25 32 40 50 63 80 100 44.5 43 1/8 16.5 6 10.5 15 7.5 58 73 12.5 15 M10 x 1.25 6 10 33 91 50.5 49 1/8 17 8 10.5 15 7.5 60 75 15.5 18 M12 x 1.25 6 12 36 96 64.5 63 1/4 19.5 10 11 16 8 67 83 22 25 M16 x 1.5 7 14 44 111 71 1/4 20.5 10 20 10 75 95 72.5 13 27 30 M20 x
The cost effective and clean looking AC series allows you to pick a combination of modular style air preparation equipment that best suits your needs. The series, available in 8 size options to ensure optimum performance, offers energy savings, with higher flow rates. Simple assembly and maintenance reduces downtime. Pressure relief, 3 port valve, Accessory for AC series, Body sizes: 1/8
Vincent Avenue, Crownhill, Milton Keynes, Buckinghamshire MK8 0AN, United Kingdom The EXW1-AC1-X1 which is the optional cable should be used for connection to the Air Management Hub. Please use cables specifically designed for the Wireless Adaptor. The EXW1-AC1-X1 is not UL/cUL certified.
-X1 -X1 The input block , end block and DIN rail are included in the input manifold. Refer to How to Order below.
Except air operated type and IR3000 series) Made to Order Note 8) Symbol Specifications X1 X170 X465 Non-grease specifications Compatible with modular connection brackets (With modular adapter) With digital pressure switch (ISE30A) Accessory (Option)/Part No. Part no.
2 2 1 3 3 4 0 V() X1 1 24 V() X2 2 4 2 3 5 4 0 V() X2 1 24 V() X3 2 6 3 3 7 4 0 V() X3 1 24 V() X4 2 8 4 3 9 4 0 V() X4 1 24 V(X5 2 10 5 3 11 4 0 V() X5 1 24 V() X6 2 12 6 3 13 4 0 V() X6 1 24 V() X7 2 14 7 3 15 4 0 V() X7 -23No.EX-OMN0035CN-A EX600-DXPF EX600-DXNF 0~7 1 24 V 0~7 1 24 V 0~7 2 0~7 2 4.7 k 4.7 k DC24 V DC24 V 0~7 3 0~7 3 4.7 k 4.7 k 0~7 4 0 V 0~7 4 0 V
EX600-DX E EX600-DX F 1 1 2 Configuration Configuration 3 4 1 2 5 1 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 Configuration 2 1 3 5 4 7 6 9 8 11 10 13 12 3 7 6 5 Group Pin number 3 1 0 2 13 11 12 10 8 6 9 7 5 3 1 4 2 Pin number 4 3 2 2 1 4 3 2 1 4 3 2 4 3 2 1 4 4 24 V (control and input) X3 24 V (control and input) X2 24 V (control and input) X1 24 V (control and input) X0 0 V (control and input
(X1) Set lower bits of the station. The CC-Link address setting at the time of the factory shipment is set in 01".
) (X2, Y2, Z2) X =((X2-X1)/) Y =((Y2-Y1)/) Z =((Z2-Z1)/) X (X1, Y1, Z1) Z 3.6 64 No.SFOD-OMT0009CN-B )100mm/s 1 100mm2 100mm No.1 50mm/s 1 100mm 2 50mm No.2 Step No. mm/s / 1 2 2 2 mm mm/s mm/s mm mm mm 1 LIN-A 100 100.00 1000 1000 0 0 0.5 2 LIN-A 100.00 0 0 0.5 1 3 4 1 LIN-I 50 100.00 1000 1000 0 0 0.5 2 LIN-I 50.00 0 0 0.5 2 3 4 () 2 50mm 2 25mm/s 50mm/s Step2 Step1
(X1) Set lower bits of the station. The CC-Link address setting at the time of the factory shipment is set in 01".
(X1) =1) 2 : LECPMJ(2)CC-Link =3LECPMJ(1)CC-Link =1 2 (STATION No. (X10)=0STATION No. (X1) =3) 3 : LECPMJ(3)CC-Link =5LECPMJ(2CC-Link =3 2 (STATION No. (X10)=0STATION No. (X1) =5) 17 - 4.2 LECPMJ () () 1() 1 () 1 (1 ) 2 () (2 ) 4 (4 ) 9.
Y axis [Axis speed calculation] Target position Composite speed Composite travel distance =((X2-X1)2+(Y2-Y1)2+(Z2-Z1)2) (X2, Y2, Z2) Xaxis speed = ((X2-X1)/ Composite travel distance) Composite speed Y axis speed = ((Y2-Y1)/ Composite travel distance) X axis Composite speed Z axis speed = ((Z2-Z1)/ Composite travel distance) Current position Composite speed (X1, Y1, Z1) Z axis Caution