JXCx-OMY0004 Movement Speed Position Acceleration Deceleration Force Value Area 1 Area 2 In pos force speed force mode mm/s (mm) mm/s2 mm/s2 (mm) (mm) (mm) mm/s 0 1 Absolute 100 100.00 1000 1000 50 40 10 100 0 0 5 2 Absolute 50 50.00 1000 1000 0 0 0 100 0 0 0, 1 (E.g.) Flow chart Controller (1) Select/input Step No.1.
Do not drop, bump or apply excessive impacts (300m/s2 or more for reed switches and 1000m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Material N N B R S Silicone rubber u urethane rubber F Fluorine rubber GN Conductive NBR (s2-o 16) GS Conductive silicone (s2-o16) Material N N B R s silicone rubber u _ urethane rubber F Ftuorine rubber GN Conductive NBR (o2-o16\ GS Conductive silicone (@2-@'16) Pad type (application: Refer to list O) U Flat type c Ftat with rib D Deep type B Bellows type Pad type U Flat type c _ Flat vYith
Material N N B R S Silicone rubber u urethane rubber F Fluorine rubber GN Conductive NBR (s2-o 16) GS Conductive silicone (s2-o16) Material N N B R s silicone rubber u _ urethane rubber F Ftuorine rubber GN Conductive NBR (o2-o16\ GS Conductive silicone (@2-@'16) Pad type (application: Refer to list O) U Flat type c Ftat with rib D Deep type B Bellows type Pad type U Flat type c _ Flat vYith
acceleration, whichever is smaller. 4.9 m/s2 Vibration resistance 490 m/s2 in X, Y, Z directions 3 times each Impact resistance Noise resistance 1000 Vp-p, Pulse width 1 s, Rise time 1 ns Weight Note 3) 410 g 470 g 650 g 1,100 g Port size (Rc, NPT, G) 3/8 3/8, 1/2 1/2, 3/4 3/4, 1 Note 1) The system accuracy when combined with PF2W2/3.
Acceleration [mm/s2]: a Work load [kg]: m Work load center position [mm]: Xc/Yc/Zc z y 1. Horizontal 3. Wall x y x z x 2. Bottom 4. Vertical z y x y z Example 1. Operating conditions Model: LEKFS40 Size: 40 Mounting orientation: Horizontal Acceleration [mm/s2]: 3000 Work load [kg]: 20 Work load center position [mm]: Xc = 0, Yc = 50, Zc = 200 2.
T1 T2 T3 T4 T1 = V/a1 [s] T3 = V/a2 [s] L : Stroke [mm] (Operating condition) V : Speed [mm/s] (Operating condition) a1: Acceleration [mm/s2] (Operating condition) a2: Deceleration [mm/s2] (Operating condition) P T2: Constant speed time can be found from the following equation.
without control unit and bracket mounted, Others 30 m/s2, whichever is smaller for 2 hours in X, Y, Z direction each (De-energized) Vibration resistance Impact resistance Without control unit and bracket mounted: 980 m/s2, Others: 150 m/s2 in X, Y and Z direction, 3 times each (De-energized) Nil: Rc 1/8, N type: NPT 1/8, F type: G 1/8 Port size Lead wire (Individual wiring type) 4 cores,
L : Stroke [mm] (Operating condition) V : Speed [mm/s] (Operating condition) a1: Acceleration [mm/s2] (Operating condition) a2: Deceleration [mm/s2] (Operating condition) T2 = [s] L 0.5 V (T1 + T3) V T4: Settling time varies depending on the conditions such as motor types, load and in position of the step data.
: 300 m/s2 Note 1) Refer to page 1568 for solid state auto switch common specifications.
Movement Speed Position Acceleration Deceleration Force Value Area 1 Area 2 In pos force speed force mode mm/s (mm) mm/s2 mm/s2 (mm) (mm) (mm) mm/s 0 1 Absolute 100 100.00 1000 1000 50 40 10 100 0 0 5 2 Absolute 50 50.00 1000 1000 0 0 0 100 0 0 0, 1 (E.g.) Flow chart Controller (1) Select Step No.1.
Movement Speed Position Acceleration Deceleration Force Value Area 1 Area 2 In pos force speed force mode mm/s mm mm/s2 mm/s2 mm mm mm mm/s 0 1 Absolute 100 50.00 1000 1000 0 0 0 100 0 0 0.1 2 Relative 50 10.00 1000 1000 0 0 0 100 0 0 0.1 (E.g.) Flow chart Controller (1) Select/input Step No.1.
Setting example of pulse signal Actuator lead: 10[mm/rotation], electronic gear (denominator): 1, electronic gear (numerator): 1 2 pulse mode (Pulse input for each direction) Target position1: Travel amount 100mm Travel speed 30mm/s Acceleration 3000mm/s2 Deceleration 3000mm/s2 Target position2: Travel amount 60mm Travel speed 100mm/s Acceleration 2000mm/s2 Deceleration 2000mm/s2 Calculation
or less, 10 to 55Hz (directions of X, Y, and Z axes) X Y: 49m/s2 Series (Note) Note.
R1 R2 SG FG 24 V 0 V S1 S2 SG 24 V 0 V S1 S2 R1 R2 SG FG 24 V 0 V S1 S2 R1 R2 SG FG 24 V 0 V Ground either the reception side or the transmission side of the shielding wire shield.
S1 S2 S1 S2 S1 S2 S1 Master unit V BDH SD FG SD FG SD FG SD FG CANL Twisted pair wire with shield FG BDL Class 3 ground Class 3 ground Class 3 ground Class 3 ground CANH V+ Connect the shielding wire to the SD terminal.
Mount the switch in a location where there is no vibration greater than 98 m/s2, or no impact greater than 490 m/s2. With a switch with orifice, the adjusted flow rate value could be affected by vibration. 3. Do not use in an area where surges are generated.
The setting range is 1 to 60,000 mm/s2. The acceleration can be entered when the [Speed Entry Method] has been selected in the [Step Data Input Method] in the Basic Parameter Set up window. The Acceleration can be set in increments of 1 mm/s2. 65 - g) Decel Set the deceleration required from [Speed] to stop. The setting range is 1 to 60,000 mm/s2.
80 mm/s2 Target position 2: Travel distance 5 mm, Travel speed 20 mm/s, Acceleration 80 mm/s2, Deceleration 80 mm/s2 ii.Calculation example Travel distance [Number of pulses (pulse)] = Travel distance (mm) Encoder resolution (m/pulse) Travel speed [Pulse frequency (pulse/s)] = Travel speed (mm/s) Encoder resolution (m/pulse) Acceleration and Deceleration time [s] =Travel speed (mm/s) /
CDRBU2W10, 15-S CDRBU2W20, 30-S CRB2 CRBU2 CRB1 2 x S2 2 x S1 2 x S1 MSU 2 x S2 CRJ Rotary actuator CRA1 CRQ2 2 x S1 2 x S1 2 x S1 2 x S1 Rotary actuator MSQ (34.5: Connector type) MSZ A port B port CRQ2X MSQX 2 x R A port B port 2 x R MRQ 1 Auto switch Auto switch 2 5 20.5 (26.5: Connector type) 1.