SMC's LECS series is an AC servo motor controller, available in incremental or absolute encoder compatible types. The LECSA is a pulse input, positioning type for an incremental encoder, and the LECSB is a pulse input type for an absolute encoder. Also available in the series are the LECSC, CC-Link direct input type for an absolute encoder, and the LECSS, SSCNETlll type for an absolute
SMC's LECS series is an AC servo motor controller, available in incremental or absolute encoder compatible types. The LECSA is a pulse input, positioning type for an incremental encoder, and the LECSB is a pulse input type for an absolute encoder. Also available in the series are the LECSC, CC-Link direct input type for an absolute encoder, and the LECSS, SSCNETlll type for an absolute
EX500-GEN2_eng 9 9 When handling the unit or assembling/replacing units: Do not touch the sharp metal parts of the connector or plug for connecting units.
Product number Suitable screws Tightening torque Thread depth PF3A703H Equivalent to M4 1.5 Nm 10 7 PF3A706H Equivalent to M5 3 Nm 10 8 PF3A712H Equivalent to M6 5.2 Nm 10 9 Prepared by the user.
ft3 x 10-2 0 to 9 ft3 x 10-1 flow Min. setting/display unit 1 ft3 x 10-3 1 ft3 x 10-1 Conversion of accumulated pulse 0.5 2.0 0.5 1.0 2.0 ft3 x 10-2/pulse ft3 x 10-2/pulse ft3 x 10-1/pulse ft3 x 10-1/pulse ft3 x 10-1/pulse : Flow rate in the specification is the value at standard condition.
ft3 x 10-2 0 to 9 ft3 x 10-1 flow Min. setting/display unit 1 ft3 x 10-3 1 ft3 x 10-1 Conversion of accumulated pulse 0.5 2.0 0.5 1.0 2.0 ft3 x 10-2/pulse ft3 x 10-2/pulse ft3 x 10-1/pulse ft3 x 10-1/pulse ft3 x 10-1/pulse : Flow rate in the specification is the value at standard condition.
Though an accurate ajustment is possible by wear-out situation of needle,precence of dielectric thing and potential level of GND in the installation location 9. Frequency selecting switch...Select frequency at pulsed DC mode. No 0-1Hz 1-3Hz 2-5Hz 3-8Hz 4-10Hz 5-15Hz 6-22Hz 7-33Hz 8-5 6 7 ; < = : 9 8 Generate only plus ion 9-Generate only minus ion 6.
Dimensions E C D E E L (Width across flats) M (Width across flats) M8 (KF Flange) (K Flange) Fn Fd C Detail of (a) (a) M Rc1/8 J H K B A G A Model A B C D E Fn Fd XLGR-80*-1* 90 250 117 45.5 38.5 114 110 XLGR-100*-1* 108 270.5 154 55 38.5 130 102 XLGR-160*-1* 138 339 200 65 38.5 180 153 Model G H J K L M XLGR-80*-1* 83 105 44 9 13 4 XLGR-100*-1* 102 92 58 9 13 4 XLGR-160*-1* 153 124 62 12.5
GR-R-010(10g) 1 2 3) , 4 7 1 100 4 3g 1cm 1 2 100mm 7. 4. g 20 25 32 40 (mm) 100st 2 3 3 34 50st 0.5 0.5 0.5 1 19 3-2-4. 1) 8 8 2(9) 9 3) , 6 1mm 8. 9. 20 3-3. 3-3-1.
Auto switch operating range (mm) Auto switch model D-M9/D-M9W 12 16 20 25 32 40 50 63 3.5 5 5 5 6 6 6 6.5 7 9 9 9 9.5 9.5 9.5 11 D-A9 Values whitch include hysteresis are for guideline purposes only. They are not a guarantee (assuming approximately 30% dispersion) and may change substantially depending on the ambient environment. 14-5.
8.5 8.5 9 HYC Operating range 9 8.5 9 9 HYG Operating range 8 7.5 9 8.5 8.5 9 : It is not for guarantee but measure including hysteresis.
As a result, it could pose a hazard to humans and damage the machinery and equipment. (9) Do not apply a load that exceeds the values given in the catalog.
Piping Figure 8 and Table 9 show locations and sizes of piping ports. Ports can be selected from two sides. Plug the ports that are not used. Table 9 Port size Size Port size Size Port size A1, B1 A2, B2 10 M5x0.8 10 20 20 A1 30 Rc1/8 30 50 50 M5x0.8 B2 B1 G1/8 70 70 NPT1/8 100 100 Fig. 8 NPTF1/8 200 200 Rotary table ports and plate have a fixed orifice.
MHS4 -50D MHS4 -63D mm 16 20 25 32 40 50 63 MPa 0.20.6 0.10.6 -1060 mm 0.01 c.p.m. 120 60 10 19 31 55 88 140 251 1 N 12 21 35 61 97 153 268 mm 4 4 6 8 8 12 16 g 66 110 154 300 390 590 1,095 1) 1625 L=20mm 3263 L=30mm 0.5MPa 4 MHSJ3 MHSJ316D MHSJ320D MHSJ325D MHSJ332D MHSJ340D MHSJ350D MHSJ363D MHSJ380D mm 16 20 25 32 40 50 63 80 MPa 0.20.6 0.10.6 -1060 mm 0.01 c.p.m. 120 60 30 9
JXC-OMT0034CN (GW)(CC-Link) / LEC-GMJ2 1. . 4 2. . 6 2.1 . 6 2.2 . 6 2.3 . 7 2.4 () . 8 (1) . 8 (2). 8 (3)(LEC) . 8 (4). 8 (5) . 8 (6) . 9 (7) . 9 3. . 10 3.1 . 10 3.2 . 12 3.3 . 13 (1)(LECGMJ2) . 13 (2)DIN (LECGMJ2D) . 13 3.4 . 14 (1) . 14 (2) . 14 4. . 15 4.1 (STATION NO.,B RATE) . 15 4.2 (CN2SW) . 16 4.3 (LEC) . 17 5. . 19 5.1 CN4 . 19 5.2 CN3 . 19 5.3 CN1CONT . 19 5.4 CN2PC
Skin the cable and crimp the crimped terminal (9) to the edges. 3) Remove the screw (3f) from the bracket (3e). (Loosen in the case of Y-shape type terminal.) As shown in the right figure, mount a crimped terminal (9), and then again tighten the screw (3f). Note) Tighten within the tightening torque of 0.5 Nm 15%. Note: a) It is possible to wire even in the state of bare wire.
Same as for union nut tightening. 9 3.
Every time the button is pressed, the value will change from A to Z and 0 to 9. When the button is pressed, the value changes in the opposite direction. : If the password does not match, "wrong password" is displayed on the input screen.
Application 9 4. Specifications 9 5. How to Operate 9 6. Troubleshooting 9 7. Construction 1011 -2- Safety Instructions These safety instructions are intended to prevent hazardous situations and/or equipment damage. These instructions indicate the level of potential hazard with the labels of Caution, Warning or Danger.
Pneumatic circuit The basic circuit for operating the product with air filter, regulator, solenoid valve and speed controller is shown in Figure 8 and 9. Regulator Regulator Speed controller Speed controller Pressure source Pressure source Filter Filter Cylinder Cylinder Solenoid valve Solenoid valve Figure-8. Single acting Figure-9.