I

-25 NPN output NPN open collector 30V, 80mA, residual voltage: 1V or less ZSE401 T1-26 Vacuum Analog output 1~5V (+ 5%F.S.), load impedance : 1k ZSE401 T1-65 PNP output PNP open collector 80mA ISE4L01 T1-25 Positive Pressure NPN output NPN open collector 30V, 80mA, residual voltage: 1V or less ISE4L01 T1-26 100kPa Analog output 1~5V (+ 5%F.S.), load impedance: 1k ISE4L01 T1-65 (14.5PSI) Type

Thermo-chiller/Rack Mount Type

Option symbol T1 Inverter Pump Mounted HRR010 20 T1 Inverter pump mounted Possible to choose an inverter pump in accordance with users piping resistance Cooling capacity will decrease by heat generated in the pump. The inverter pump does not use a mechanical seal. The 50 Hz and the 60 Hz inverter pumps have the same capacity.

Base Mounted Type, VQ5000 Series, 5 Port Metal Seal/Rubber Seal Solenoid Valve

Note 2) Splash proof specification is not available for F and T1.

High Rigidity Slider Type Ball Screw Drive/11-LEJS Series

Time [s] Method 2: Calculation T1 T2 T3 T4 T5 T6 Cycle time T can be found from the following equation. L : Stroke [mm] V : Speed [mm/s] a1: Acceleration [mm/s2] a2: Deceleration [mm/s2] T = T1 + T2 + T3 + T4 [s] Calculation example) T1 to T4 can be calculated as follows. T1 and T3 can be obtained by the following equation.

VQ5000

Note 2) Splash proof specification is not available for F and T1.

Series LX Dedicated Stepper Motor Driver and Positioning Driver Series LC6D/LC6C

-02 Performance/Specifications General specifications LC5-1-T1-02 Part no.

LC6D/LC6C

-02 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Performance/Specifications General specifications LC5-1-T1-02 Part no.

15

L Speed: V [mm/s] Calculation example) T1 to T4 can be calculated as follows. a1 a2 Time [s] T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] T = T1 + T2 + T3 + T4 [s] T1 T2 T3 T4 L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration T2 = L : Stroke [mm] time can be obtained by the following equation. 200 0.5 300 (0.1 + 0.1) 300 (Operating condition) V : Speed

Aluminum High Vacuum Angle Valve

Q1 R1 R2 R3 S1 T1 Kalrez 4079 SS592 SS630 SSE38 1232-70 3310-75 Chemraz Example) XLH-16-XAN1A VMQ FKM for Plasma ULTIC ARMOR U1 UA4640 Produced by Mitsubishi Cable Industries, Ltd.

13

Average suction flow rate V x 60 T1 V x 60 T1 Q = Q = + QL T2 = 3 x T1 T2 = 3 x T1 Q : Average suction flow rate /min (ANR) V : Piping capacity () T1 : Arrival time to stable Pv 63% after adsorption (sec.) T2 : Arrival time to stable Pv 95% after adsorption (sec.) QL : Leakage at work adsorption /min (ANR) 2.

Battery-less

LECSN-T1 LECSS-T1 Compliance No.

INFORMATION Step Motor Controller 5 types of communication protocols New New

JXC-W2 The conversion cable can be used for connecting this controller to the optional teaching box [LEC-T1] offered with the LEC series. or USB cable PC (A-mini B type) (0.8 m) Conversion cable p. 7 1 A conversion cable is also required for connecting the controller to the LEC-W2.

Vacuum Pad

ZPA-T1-B01 ZPA-T1-N01 ZPA-T1-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T1-B8 ZPA-T1-B10 ZPA-T1-B8 ZPA-T1-B10 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T3-B12 ZPA-T3-B16 ZPA-T3-B12 ZPA-T3-B16 ZP40 ZP40 With three M3 bolts With three M3 bolts ZP50

Vacuum Pad

ZPA-T1-B01 ZPA-T1-N01 ZPA-T1-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T1-B8 ZPA-T1-B10 ZPA-T1-B8 ZPA-T1-B10 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T3-B12 ZPA-T3-B16 ZPA-T3-B12 ZPA-T3-B16 ZP40 ZP40 With three M3 bolts With three M3 bolts ZP50

Vacuum Pad

ZPA-T1-B01 ZPA-T1-N01 ZPA-T1-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T1-B8 ZPA-T1-B10 ZPA-T1-B8 ZPA-T1-B10 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T3-B12 ZPA-T3-B16 ZPA-T3-B12 ZPA-T3-B16 ZP40 ZP40 With three M3 bolts With three M3 bolts ZP50

Vacuum Pad

ZPA-T1-B01 ZPA-T1-N01 ZPA-T1-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T2-B01 ZPA-T2-N01 ZPA-T2-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T3-B01 ZPA-T3-N01 ZPA-T3-T01 ZPA-T1-B8 ZPA-T1-B10 ZPA-T1-B8 ZPA-T1-B10 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T2-B8 ZPA-T2-B10 ZPA-T2-B12 ZPA-T2-B16 ZPA-T3-B12 ZPA-T3-B16 ZPA-T3-B12 ZPA-T3-B16 ZP40 ZP40 With three M3 bolts With three M3 bolts ZP50

Dedicated Controller

Power supply 11) 100/110V AC (50/60Hz) 200/220V AC (50/60Hz) 21) 1) Consult SMC if the supply voltage for LC1-1HV1 will be 110V AC or more, or the supply voltage for LC1-1HV2 will be 220V AC or more. or LC1-1-T1(Teaching box) are required.

CEx-OMQ0013

*2P.26 7-3-6 35 9. 9-1 9-1-1 P1 P2 P3 9 Err99 P4 P5 Pa N m)D 4 <>40 (0.04200N 5Pa 0.5MPa 510 5 10031.830 200 0.040.043.14510 4 P6 READWRITEEND P7 (t1) 10ms 9.99sec (t1) () ON t1ON P8Err12 * * 10ms 9.99sec * t * 9-1-2 PRESET " " " PRG STEP P1 " P1 1000.0 36 WRITE READ PRG STEP P1 " " " UPDOWN LEFTRIGHT WRITE UP 1 DOWN RICHT LEFT 2P2 PRG STEP P2 P2 "

Speed Controller: Standard Type Elbow Type (Metal Body) Series AS

L1 L2 A (2) L3 H (1) T2 T1 D1 D2 Model AS1200-M3 M3 x 0.5 M3 x 0.5 4.5 6.6 23.5 21.5 8 5 5 20.5 18.5 AS120-M5 M5 x 0.8 M5 x 0.8 8 10 28.3 10.3 9 9 25 22.2 25.5 AS120-U10/32 10-32UNF 10-32UNF AS220-01 30.5 13.2 14.3 14.6 32.4 27.4 12 (12.7) 35.5 18 1/8 1/8 AS220-02 35.3 17.5 18 19.5 34.8 29.8 17 (17.5) 27.2 40.3 1/4 1/4 AS320-03 40.8 19.7 22.5 24.3 40.6 35.6 19 30 45.8 3/8 3/8 AS420-04 42.4

Electric Actuator/Slider Type

Calculation example) T1 to T4 can be calculated as follows. L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be obtained by the following equation.