Electric Actuator High Rigidity and High Precision Slider Type Circular arc grooves allow for high rigidity and high precision. Moment resistance*1 *2 61% Improved by up to Table displacement*1 50% Reduced by up to With internal battery-less absolute e V V V V 32 V V V V V 40 V V V V V 11 Battery-less Absolute Encoder: Electric Actuator/High Rigidity and High Precision Slider Type LEKFS Series Battery-less Absolute (Step Motor 24 VDC) i Controller Nil Without controller Cm1mm With controller 1 D T 7 C Communication plug connector, I/O cable*4 Interface (Communication protocol/Input/Output) Mounting Symbol Type Applicable interface Nil
1000 V = D2 x L x (L) For the conductance, the equivalent conductance can be found in 8.
To minimize the voltage drop, use 100/200 V AC and 24 V DC wires with the largest sectional areas possible and keep the wiring length as short as possible. 5. The 100/200 V AC wire must not be bundled with or arranged in close proximity with the input/output lines of control terminals or encoder signal lines. If possible, keep a 100 mm or larger distance from such lines. 6.
Panel cut dimension 2 x 3.2 16.5 14.5 11 8.2 20 2 x 3.2 2 x 3.2 M3 thread hole 8.2 8.2 P U P S U H S H L O L C O K C K R V R S W V X S W T 19 T X 19 L2=50+T+X L2=50+T+X L1=50+R+V 14 L1=50+R+V 14 Pressure gauge (Accessory) 50 Pressure gauge (Accessory) 50 55 (at handle locked) 55 (at handle locked) IN OUT IN OUT 41.5 43.5 U Y 4 25 6 25 U Y 14 14 SMC SMC 2 x 3.2 2 x 3.2 42 42 IN side OUT side
200 V, 12 V, 24 V, 48 V, 110 V, 220 V 240 V With surge voltage suppressor (S) (Grommet type) With light/surge voltage suppressor (Z) (Grommet terminal) (Conduit terminal) (DIN terminal) L plug connector M plug connector Electrical Entry DC/ 24 V, 6 V, 12 V 48 V, 100 V 110 V ( Option) Grommet (G) Grommet terminal (E) Conduit terminal (T) DIN terminal (D), (Y) L plug connector (L) M plug connector
T2 V W T1 S 6.5 10 18 50 80 11 YB-03 32, 40 Part No.
VQC VQZ SQ VFS VFR +24 V +24 V VQ7 Power supply for output Power supply for output 0 V 0 V Power supply for the input and for the control unit of the Gateway Power supply for the input and for the control unit of the Gateway +24 V 24 V Caution 1. Take measures to avoid applying repeated bending force or pulling force to the cable.
T1 = V/a1 = 200/3000 = 0.067 [s], T3 = V/a2 = 200/3000 = 0.067 [s] 40 0.5 200 (0.067 + 0.067) 200 T2 = = = 0.133 [s] L 0.5 V (T1 + T3) V T4 = 0.2 [s] Therefore, the cycle time can be obtained as follows.
(different sides, same side) 15 25 Y7P(V) 1pc. D-Y7NW(V), Y7PW(V), 2pcs. (different sides, same side) Solid state switch 20 25 Y7BW(V) 1pc. 2pcs. (different sides, same side) 20 30 D-Y7BAL 1pc. Center trunnion is not included.
V IC circuit 5 V, 12 V 40 to 160 40 to 100 Grommet 100 V, 200 V 2-wire 12 V IC circuit 3-wire (NPN) Terminal conduit 5 V, 12 V 40 to 100 40 to 160 Relay, PLC 12 V 2-wire 3-wire (NPN) 5 V 12 V IC circuit Diagnostic indication (2-color indication) 24 V 3-wire (PNP) 40 to 100 12 V Grommet 2-wire Water resistant (2-color indication) 40 to 160 With diagnostic output (2-color indication
V IC circuit 5 V, 12 V 40 to 160 40 to 100 Grommet 100 V, 200 V 2-wire 12 V IC circuit 3-wire (NPN) Terminal conduit 5 V, 12 V 40 to 100 40 to 160 Relay, PLC 12 V 2-wire 3-wire (NPN) 5 V 12 V IC circuit Diagnostic indication (2-color indication) 24 V 3-wire (PNP) 40 to 100 12 V Grommet 2-wire Water resistant (2-color indication) 40 to 160 With diagnostic output (2-color indication
/300-A-20. 8-1 8.1.2 HRSH100/150/200/250/300-A-40. 8-2 8.1.3 HRSH100/150/200/250-W-20. 8-3 HRSH Series HRX-OM-Q026 Contents 8.1.4 HRSH100/150/200/250-W-40. 8-4 8.1.5 Option T High head temp . 8-5 8.1.6 Refrigerant with GWP reference . 8-6 8.1.7 Communication specifications . 8-6 8.2 Dimensions . 8-7 8.2.1 HRSH100-A-20/40. 8-7 8.2.2 HRSH150-A-20/40-, HRSH200-A-20/40. 8-8 8.2.3 HRSH250/300-
[V] 10 [pulse] 0 0 10 [pulse] -8 [V] -10 [V] CW CW CCW 16 (4) 17 (10V/128) 10 [V] 8 [V] -128 [C] 0 128 [C] 0 -10 [V] -8 [V] CW 1. 2. () 3. 4.
A B C D Maximum Speeds for Each Transfer Load Unit (mm/s) Transfer load (kg) 15 20 25 30 1000 1000 930 740 600 500 Note Model LJ1H202PC-500LJ1H202PC-600LJ1H202PC-700LJ1H202PC-800LJ1H202PC-900LJ1H202PC-1000700 700 600 600 500 500 500 500 500 500 500 500 500 500 500 500 500 500 Power supply: 100/110(V)AC 10% Compatible controller: LC1-1B2H1Power supply: 200/220(V)AC 10% Compatible controller
1000 V = D2 x L x (L) For the conductance, the equivalent conductance can be found in 8.
(Note 4) 10[V] 8[V] 100M[pulse] 0 100M[pulse] 400[V] 0 -10[V] CW direction Note 1.
) 12 V 5 V, 12 V IC circuit Diagnosis (2-color indication) Grommet Yes Relay, PLC 3-wire (PNP) 24 V 2-wire 12 V 3-wire (NPN) 5 V, 12 V IC circuit Water resistant (2-color indication) 3-wire (PNP) 2-wire 12 V Auto switches marked with a symbol are produced upon receipt of order.
Lead wire length (m) Load voltage Auto switch model Indicator light Special function Electrical entry Wiring (Output) Pre-wire connector Type 0.5 (Nil) 3 (L) 5 (Z) Applicable load Perpendicular In-line DC AC 3-wire IC circuit Z76 5 V (NPN equivalent) Reed switch Grommet Yes Relay, PLC 2-wire Z73 24 V 12 V 100 V 3-wire (NPN) Y69A Y59A 5 V 12 V IC circuit 3-wire (PNP) Y7P Y7PV 2-wire Y69B
Lead wire length (m) Load voltage Auto switch model Indicator light Special function Electrical entry Wiring (Output) Pre-wire connector Type 0.5 (Nil) 3 (L) 5 (Z) Applicable load Perpendicular In-line DC AC 3-wire IC circuit Z76 5 V (NPN equivalent) Reed switch Grommet Yes Relay, PLC 2-wire Z73 24 V 12 V 100 V 3-wire (NPN) Y69A Y59A 5 V 12 V IC circuit 3-wire (PNP) Y7P Y7PV 2-wire Y69B
Find the maximum load speed V. Step 1 Find the maximum load speed V[mm/s] with formula (1) below. The maximum load speed V[mm/s] is approximately equal to V1 x 1.4 . (1) V: Average load speed [mm/s] V = st/t st: Load transfer distance [mm] t: Load transfer time [s] Find the cylinder bore size. Step 2 1. For vertical mounting 2.