Table of Contents Model B3 C1 14 20 22 C2 39 44 54 E1 1 1 1 E2 1 1 1 B1 28 40 44 78 88 108 96 111 131 MY-J25 MY-J32 MY-J40 8-11-29 29 Series MY1B Floating Bracket Facilitates connection to other guide systems. Applicable bore size Floating Bracket Operating Precautions Caution Make sure that the amount of divergence from the external guide is within the adjustable range.
JXC-C1 To M PWR Motor control power supply/ Motor power supply 24 VDC Provided by customer. Main control power supply 24 VDC V Motor power supply connector (Accessory)
JXC-C1 To M PWR Motor control power supply/ Motor power supply 24 VDC Provided by customer. Main control power supply 24 VDC V Motor power supply connector (Accessory) p. 12
Example) AC10-M5CG-12NR-A w q Symbol Description a Float type auto drain Nil Without auto drain C1 N.C.
LEPY/LEPS Series 2 3 LEH Series 2) 360 8 No.SFOD-OMT0009CN-B 2.3 1) PLC I/O 2) :JXC-C2-* DC24V 1) I/O ENC : LE-CP-*-* LE-CP-*-*-S USB MOT JXC-W1-1 CI 2) () 120.3 120.3 mm mm 200 200 mm/s mm/s <> 100 500 100 500 1 1 200 1000 200 1000 2 2 50 200 50 200 3 3 2) AWG20 (0.5mm USB JXC-W1-2 -USB DC24V M PWR JXC-W1 2) C PWR DC24V 2) () <> 1.5m () 2) AWG16 (1.25mm JXC-C1
Series LER Series 1) LEP Series (2 3 ) LEH Series 1) (360) -8No.JXC-OMT0001CN-C 2.3 1) PLC 5 EtherNet 2) EtherNet/IP 2) 3) P1P2 1) ENC LE-CP-*-* USB LE-CP-*-*-S MOT JXC-W1-1 CI 2) 120.3 120.3 mm mm 200 200 mm/s mm/s 100 500 100 500 1 1 200 1000 200 1000 2 2 50 200 50 200 3 3 <> 2) AWG20 (0.5mm USB JXC-W1-2 DC24V USB M PWR 2) JXC-W1 C PWR DC24V 2) 1.5m () <> JXC-C1
Actuating solenoid valve electric signal Valve opening O After a few seconds at 10-6Torr 90% 100% 90% Valve closing Operation time Responce time Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel. 39 Series XL Technical Data 5 He leakage
Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel.
PD07PD09 (DO) ON/OFF 4.5.1(1)(d) JOGDO TM 4.5 MR Configurator2 No.PC09 MR Configurator2 11.8 TM master-slave masterslave C1 5.4.3 1 5 1 1.5 (1) LECS S 1 S5 50W,100W SSCNET S ACS5, S6 S5 ACS7 S7 200W ACS8 S8 400W AC100VAC120V 50Hz60Hz 1 AC200VAC230V 50Hz60Hz 2 1 6 1 (2) aSSCNET 5 A S LE C S M A AC S B M B E 2m 2 5m 5 10m A S R bSSCNET LE-CSS-MR-J3BUSM 1 LE C S S
Hysteresis (3 digits) OFF ON point = C, C1 OFF point = C-3 digits, C1-3 digits (1 digit is the minimum setting unit.) Other Functions Key lock mode Used to avoid a malfunction when buttons on the front part of the switch are pressed. Initiate key lock Release key lock SET SET Press the SET button to complete the setting. Press the SET button to complete the setting.
With flow rate adjustment LVA20A-02-C1 2 sets 2 sets Valve part no. (stations 1 & 2) LVA20A-02-C 1 set 1 set Valve part no. (station 3) P P N.C.
Actuating solenoid valve electric signal Valve opening O After a few seconds at 10-6Torr 90% 100% 90% Valve closing Operation time Responce time Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel. 39 Series XL Technical Data 5 He leakage
(Example) For M4: L2 = 8 mm Applicable shaft types: X, Z Q1 = M C1 = C L2 = L2 = D1 = L1 + (3 x P) L1 = C1 Q2 = M Q2 = M Z axis X axis L1 = X = (mm) (mm) (mm) D1 5 to 7.9 5 to 14.9 5 to 16.9 8 to 19.9 8 to 24.9 L1 max Size 30 50 63 80 100 X 3 to 25 3.5 to 36 3.5 to 41 4 to 50 5 to 60 Q2 M3 M4, M5, M6, M8 M4, M5, M6, M8, M10 M4, M5, M6, M8, M10, M12 M5, M6, M8, M10, M12 Q1 M3 M4, M5, M6,
(Example) For M4: L2 = 8 Applicable shaft types: X, Z L1 + (3 x P) Q1 = M C1 = C L2 = L1 = L2 = D1 = Q2 = M Q2 = M C1 Z axis X axis X = L1 = [mm] [mm] [mm] Size Q1 30 M3 50 M4, M5, M6, M8 63 M4, M5, M6, M8, M10 80 M4, M5, M6, M8, M10, M12 100 M5, M6, M8, M10, M12 Size Q2 30 M3 50 M4, M5, M6, M8 63 M4, M5, M6, M8, M10 80 M4, M5, M6, M8, M10, M12 100 M5, M6, M8, M10, M12 Size X L1max D1 30
K V 1 10 XLA S P1P2 XL XL Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2++1/Cn) when in series, and C=C1+C2++Cn, when in parallel.
K V 1 10 XLA S P1P2 XL XL Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2++1/Cn) when in series, and C=C1+C2++Cn, when in parallel.
(Example) For M4: L2 = 8 mm Applicable shaft types: X, Z Q1 = M C1 = C L2 = L2 = D1 = L1 + (3 x P) L1 = C1 Q2 = M Q2 = M Z axis X axis L1 = X = (mm) (mm) (mm) D1 5 to 7.9 5 to 14.9 5 to 16.9 8 to 19.9 8 to 24.9 L1 max Size 30 50 63 80 100 X 3 to 25 3.5 to 36 3.5 to 41 4 to 50 5 to 60 Q2 M3 M4, M5, M6, M8 M4, M5, M6, M8, M10 M4, M5, M6, M8, M10, M12 M5, M6, M8, M10, M12 Q1 M3 M4, M5, M6,
Symbol Wiring C C1 S0 Centralized wiring V V 3 Individual wiring is specified for pressure switches for vacuum and sensors. 4 When more than one option is selected, list the option symbols in alphabetical order.
B L1 W M2 B side Inch Size 6 4 Model A side B side B C1 C2 E1 E2 H1 H2 L1 L2 M1 M2 Min. port size W Applicable tubing O.D.
1 I/O cable length [m]*3 Compatible driver Power supply voltage [V] Size 25 32 40 Nil Without driver A1 LECSA1-S100 to 120 A2 LECSA2-S200 to 230 B1 LECSB1-S100 to 120 B2 LECSB2-S200 to 230 C1 LECSC1-S100 to 120 C2 LECSC2-S200 to 230 S1 LECSS1-S100 to 120 S2 LECSS2-S200 to 230 *3 When Without driver is selected for driver type, only Nil: Without cable can be selected.