HRX-OM-W069 Silent interval is indicated by T1-T2-T3-T4. Table 3.8-2 RTU mode message frame a)Start b)Slave Address c)Function d)Data e) Checksum (CRC) f)End T1-T2-T3-T4 XX XX XX XX XX XX T1-T2-T3-T4 a) Start In Modbus RTU mode, message frames are separated by a silent interval (non-communication time).
YU-03 J E T1 B 2-D through 2-O counter bore (mm) Bore size (mm) B D E J M O Part no. Joints 12 7 25 9 34 11.5, depth 7.5 YB-03 32, 40 K ( across flats) 12 9 32 11 42 14.5, depth 8.5 YB-05 50, 63 H (with locking) 16 11 38 13 52 18, depth 12 YB-08 80 d2 d1 19 14 50 17 62 21, depth 14 YB-10 100 L UT Weight (g) Bore size (mm) C UA RS W T1 T2 V Part no.
YA 03 A-type mounting bracket Applicable air cylinder bore size Mounting bracket YA YB YU T2 V M W U 03 05 For 32, 40 For 50, 63 A-type mounting bracket B-type mounting bracket Joint T1 Material: Chromium molybdenum steel (Nickel plated) (mm) F B E Allowable Eccentricity (mm) Bore size (mm) 32, 40 50, 63 32 40 50 63 1 0.5 D E F M T1 T2 B Bore size Eccentricity tolerance Backlash Part no.
Applicable model D5 L9 L10 L11 L12 L13 L14 L15 L16 L17 t1 AS-10L AS1002F3.4 14.8 18.3 11 27.5 19.5 3.4 4.9 7.3 12 1 AS-20L AS2002F 15.6 19.6 12.6 29 21 1.2 AS-25L AS2052F 4.5 19.6 24.6 17 38 28 4.5 6.5 9.5 15.5 AS-30L AS3002F 24.8 29.8 22 43 33 1.4 AS-40L AS4002F 25.7 30.7 28 49 39 3.5 18.2 23.2 11 3.5 18 11.3 1.6 AS-20D AS2002F 18.6 23.6 12.6 19.6 AS-25D AS2052F 4.5 4.4 22 27 17 4.4 25.8
Dimension AS220M01 02 AS120M H (width across flats) 8 L1 T2 24.8 (Max. 29.8) M5 x 0.8 28.2 (Max. 33.2) L2 A D1 9 10.3 L3 10 M5 x 0.8 10-32UNF D2 T1 9 Dimensions A L2 L3 T1 T2 H L1 Model D1 D2 Min. Min. Max. Max.
^ 9troh6 056 ('g/s') 5 t b 3.5 lb/in 1.75 lblin 075 \%') 6.5 tb 4 lb/in 2 lb/in 106 (1%;) 7.75 tb 4 lblin 2 lblin 150 t1%') 8 r b 3.4 lb/in 1.7 lblin 2OO 12\ 1 2 t b 8 lb/in 3 lblin 250 (2%') 18.75 tb 8.25lblin 3.5 lb/in 300 (3) 23 rb 10.5 lb/in 3.75 lb/in 400 (4') 26.5 tb 8.5 lblin 3.5 lb/in Series NCQT Constru.ction Spring Retum Rubber Bumper Double Ac'ting Sgring Extend 1 4 Bumper B Urethane
s o.50 o.8e4 o93 0.75 0.18 %-18 0.50 0.95 2.94 106 (1 0.312 %-24 0.50 o.624 0.25 1.12 o.12 0.88 0.88 0.24 %-8 0.62 1.17 3.25 0.la7 Wzo 0.75 0.7i19 o 1.t2 0.25 1.06 'L06 o.25 %-16 ora 1.62 400 150 t1%l o.87 1h-20 o_75 o.749 0.38 1.56 0.25 1.25 1.25 o.25 3l-16 0.88 '1.50 3.69 Double End : NC.
Relationship Between Flow Rate and Pressure Difference (Representative values) 100 [Inrush] 90 80 70 60 50 40 30 20 10 0 0 0.05 0.1 0.15 0.2 0.25 Pressure difference [MPa] Flow rate [L/min (ANR)] Rated voltage SX090 [Holding] SX91 1 2 35% (SX090) 42% (SX9 ) of rated voltage 0 V SX92 100 10 ms T1 (ON) (2 s or more) T2 (OFF) Energized condition 1 Low Profile 2/3-Port Solenoid Valve SX90/090
bar absolute, T1 = 297 5K, 0.07 bar DP 0.14 bar.
, T1 = 297 5 K, 0.07 bar P 0.14 bar.
Circulating device Users equipment L 0.8 x 3 x 1 x 103 x 4.2 x 103 = T = T2 T1 60 x 1000 = 167 W T1: Outlet temperature 200 W Cooling capacity = Considering a safety factor of 20%, 167 W x 1.2 = Example 3 When cooling the object below a certain temperature in certain period of time.
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.
L1 Dimensions A Model T2 H D1 T1 D2 D3 L3 L1 L4 L2 AS12 0-M5-T M5 x 0.8 8 9 M5 x 0.8 9 4.5 10 31 10.3 0.7 28.4 AS12 0-U10/32-T 10-32UNF 10-32UNF AS22 0-01-ST Rc 1/8 12 14.3 R 1/8 AS22 0-F01-ST PF 1/8 14.6 7 18 35.6 14.1 1.5 32 AS22 0-N01-ST NPT 1/8 12.7 NPT 1/8 AS22 0-02-ST Rc 1/4 17 18 R 1/4 AS22 0-F02-ST PF 1/4 19.5 7 27.2 40.7 18 1.5 36.7 AS22 0-N02-ST NPT 1/4 17.5 NPT 1/4 AS32 0-02-
Applicable model D5 L9 L10 L11 L12 L13 L14 L15 L16 L17 t1 AS-10L AS1002FS3.4 14.8 18.3 11 27.5 19.5 3.4 4.9 7.3 12 1 AS-20L AS2002FS 15.6 19.6 12.6 29 21 1.2 AS-25L AS2052FS 19.6 24.6 17 38 28 AS-30L AS3002FS4.5 24.8 29.8 22 43 33 4.5 6.5 9.5 15.5 1.4 AS-40L AS4002FS 25.7 30.7 28 49 39 Part no.
T [s] = (V/10) x (T2 T1 )/(Z) T [s] = (5/10) x (12 3.7) = 4.2 Increase number of booster regulators (Z) to decrease T. NO NO Extend stop time Ts up to charge time T or more. Judgement of charge time T Ts 4.2 29 YES YES When running continuously for a longer period of time, confirm the life expectancy.
ASS Dimensions ASR AS220M-01 02 AS120M ASF H 8 (Hexagon width across flats) L1 T2 24.8 (MAX. 29.8) 28.2 (MAX. 33.2) M5 x 0.8 L2 A L3 D1 9 10.3 10 M5 x 0.8 10-32 UNF D2 T1 9 Dimensions A L2 L3 T1 T2 H L1 D1 D2 Model Min. Min. Max. Max.
Adsorption Response Time with the Formula Adsorption response times T1 and T2 can be obtained through the formulas given below.
tvrr 250c) or less Voltage type Approx.6.5kO Preset inpul ADorox. 2.7kf) Input impedance Right angle type Straight type with bracket Analog output 1 to sVDC (load impedance: 1kf) or more) 4 to 20mA (sink type) (load impedance: 250Q or less) Note 2) Output signal (monitor output) Switch output NPN open collector output: Max. 30V, 30mA PNP open collector output: Max 30mA Linearity Within t1%
s o.50 o.8e4 o93 0.75 0.18 %-18 0.50 0.95 2.94 106 (1 0.312 %-24 0.50 o.624 0.25 1.12 o.12 0.88 0.88 0.24 %-8 0.62 1.17 3.25 0.la7 Wzo 0.75 0.7i19 o 1.t2 0.25 1.06 'L06 o.25 %-16 ora 1.62 400 150 t1%l o.87 1h-20 o_75 o.749 0.38 1.56 0.25 1.25 1.25 o.25 3l-16 0.88 '1.50 3.69 Double End : NC.