PF-OMN0009_C 2.7 10 28 7 S T PF3W504S 56.5 22 PF3W520S 60.5 22 PF3W540S 78 30 -44No.PF-OMN0009CN-F PF3W504/520/540(+) A AA D K S PF3W504S--T 115 50 81.2 69.5 67.5 PF3W520S--T 123 54 85.2 73.5 71.5 PF3W540S--T 153 71 105.5 90 89 -45No.PF-OMN0009CN-F PF3W511-U25/PF3W521-U30(PVC ) 2X A B D E F J K L N P Q 25 A 154 46 77 57.6 23 77 63 28 18 3.5 14 32 30 A 146 56 91 71.6 28.5 73 60.5 25 27.5 3.5 14 38
P2dH n2dH P2dL n2dL P2AH n2AH P2AL n2AL tnL/tPL tnH/tPH Ht (38 ) P2L/n2L P2H/n2H H2 (36 ) (37 ) tn/tP H_t (38 ) P_2/n_2 H_2 (36 ) 4. [F 2] OUT2 -34No.PF-OMN0011CN-C 1. [F 2] [oUt2] OUT2 [-] 2. ON-OFF -35No.PF-OMN0011CN-C 3. a. ([n_2]) 4. [F 2] OUT2 b. ([n2L]) [P2H] or [n2H] ([n2H]) 4. [F 2] OUT2 -36No.PF-OMN0011CN-C c.
Nominal thread size Appropriate tightening torque Rc(NPT)3/8 22 to 24 Nm Rc(NPT)1/2 28 to 30 Nm Rc(NPT)3/4 28 to 30 Nm Rc(NPT)1 36 to 38 Nm If the tightening torque is exceeded, the product can be damaged. If the tightening torque is insufficient, the piping may become loose. The product body is made of resin.
FLT Operation of this product will stop when the alarm occurs. 5.5 Advanced setting mode HRR Series 5-38 HRX-OM-X071 Chapter 5 Display and Setting of Various Functions Output of the circulating fluid temperature drop alarm. 15. Press the [] key. Displays screen for output setting of the circulating fluid temperature drop alarm.
PV SV 38. Select communication modeDIOfrom the table below with [] key or [] key, and confirm by pressing SEL. Table 2.4-20 List of set values Set value Explanation Initial value (Default setting) Sets LOCAL mode. Sets DIO mode. Sets SERIAL mode.
PV SV 38. Select communication modeDIOfrom the table below with [] key or [] key, and confirm by pressing SEL. Table 2.4-20 List of set values Set value Explanation Initial value (Default setting) Sets LOCAL mode. Sets DIO mode. Sets SERIAL mode.
2400/150 3200/220 4800/350 Ass'y XLA25-60S-2 XLA25-60S-2 XLA25-60S-2 Ass'y 2 3 4 H5 AC100V 800/180 1200/300 1600/400 / AC200V 3200/180 4800/300 6400/400 1)/ 2)16 PTC() 200V 200 PTC 150 100V PTC Ass'y 0 5 10 15 20 25 30 Ass'y ( Ass'y 30 8 XL-OMV0002 4 4-1.162540 Assy SUS304 SUS316L ( SUS304) ( A6063) C D C E E (KF ) Fn J H B A G A mm A B C D E Fn G H J XLC-16 40 110 38
A E Table 6 Unit:mm Model n J XYH-25 100.2 75.8 48 1 23.5 40 26 41 21.5 XYH-40 130 102.5 66 2 38 55 41 57 30 XYH-50 178 119 79 2 53 75 52 70 35 8 XM-OMP0005-A 6.
Mode button Set button 1s 1s or Mode button 1s Mode button 1s Set button 1s Set button 1s or Mode button 1s Mode button 1s Set button 1s Set button 1s Mode button 1s Mode button 1s Set button 1s Set button 1s Upper limit setting% Lower limit setting% Fig.38 No.IP8S-OM09 49 (600) Dead band setting Set dead band (d-b).
No.DIG-31900-OM002 44 Mode button Set button 1s 1s Mode button Set button 1s 1s Dead band setting Fig. 38 (700) Valve opening Valve opening characteristic can be set. The characteristic is plotted by 11 points as specified by user.
Double acting cylinder theoretical output Operating pressure Bore size mm Pressurized area Rod diameter mm Operating direction 0.3 0.5 0.7 0.9 mm2 125 32 OUT IN 140 32 OUT IN 160 38 OUT IN 6) Kinetic energy absorbed by cushion mechanism Table 4.
25.4 28.7 27.7 27.7 27.7 40.7 40.7 42.7 65.4 65.7 A 10 20 30 40 50 75 100 125 150 10 20 30 40 50 75 100 125 150 MXQ6B 18 7.4 7.4 7.4 7.4 7.4 1 11.6 11.6 17.6 34.6 11.6 MXQ8B 29 13.9 13.9 13.9 13.9 13.9 13.9 2 9.1 9.1 17.1 17.1 36.1 36.1 MXQ12B 16.5 16.5 16.5 16.5 16.5 16.5 16.5 16.5 24.1 18.1 18.1 25.1 25.1 31.1 50.1 50.1 MXQ16B 20.6 20.6 20.6 20.6 20.6 20.6 20.6 20.6 20.6 33 23 23 23 29 38
*OMI0064-C CEU5 1 . 1 2 . 4 2-1 . 4 2-2 . 4 3 . 5 4 . 7 5 . 9 6 . 10 6-1 . 10 6-2 . 10 6-3 . 11 6-4 . 11 6-5 RS-232C . 11 6-6 . 12 7 . 13 7-1 . 13 7-1-1 . 13 7-1-2 . 13 7-1-3 . 14 7-1-4 . 15 7-2 . 16 7-3 . 20 7-3-1 . 20 7-3-2 . 20 7-3-3 . 20 7-3-4 No. . 20 7-3-5 . 21 7-3-6 . 22 7-3-7 . 23 7-4 (E2ROM) . 25 8 RS-232C . 26 8-1 . 26 8-2 . 26 9 BCD . 38
Description Material Note 34 Cushion ring Aluminum alloy Anodized 35 Cushion valve Steel Zinc chromated 36 Cushion seal Urethane 37 O-ring NBR 38 Seal retainer Steel 39 Retaining ring Steel 21 - With auto switch Component parts No.
Contact SMC. -38- Problem Possible cause Solution Replace the rotary actuator with the new one. Then calculate the kinetic energy applied to the rotary actuator and adjust the load and rotation speed to make the value within the allowable kinetic energy. The pinion gear is broken. Excessive kinetic energy was applied to the rotary actuator.
Test DRV 1 1st None No. 2nd 38 - SET AX IS. Test DRV 1 1st 20 2nd 5 1 5 1 1 1 1SET AX IS. Test DRV 1 Cycles 1 Start test Start test AX IS. Test DRV 1 Start test 1 Safty speed "SET" StopSET STOPComplete AX IS.
Memory map 33 9.1 Memory allocation 33 (1) Input Area Mapping 33 (2) Input area mapping of upper level device 34 (3) Output area mapping 38 (4) From upper devices to controller (details) 38 10. Settings and Data Entry 42 10.1 Step Data 42 10.2 Basic parameters 45 10.3 Return to origin parameter 47 11.
CN5I/O . 23 6.1 . 23 6.2 (NPNPNP ) . 23 (1) I/O (NPNPNP ) . 23 (2) I/O . 23 6.3 . 24 6.4 I/O . 27 7. . 28 7.1 . 28 7.2 . 31 7.3 . 33 8. . 34 8.1 . 34 8.2 . 34 8.3 . 35 (1) . 35 (2) (). 35 (3) . 35 8.4 . 36 8.5 . 36 9. (). 37 9.1 . 37 9.2 . 38 10. . 39 10.1 . 39 10.2 I/O . 39 (1) . 39 (2) . 40 (3) . 41 (4) HOLD. 42 (5) . 42 2 - 6 . 42 (7) . 43 11. . 44 11.1 . 44 11.2 (). 45 11.3 I/O . 46 11.4
CN5I/O .23 6.1 /.23 6.2 /(NPNPNP ).23 (1) I/O (NPNPNP ).23 (2) I/O .23 63 /.24 64 I/O .27 7 .28 71 .28 72 .31 73 .33 8 .34 81 .34 82 .34 83 .35 1 .35 2 (.35 3 .35 84 .36 85 .36 9 .37 91 .37 92 .38 10 .39 101 .39 102 I/O .39 1 .39 2 .40 3 .41 4 HOLD.42 5 .42 2 - 6 .42 7 .43 11 .44 111 [5m ].44 112 [820m].44 113 [5m ].45 114 [820m] .45 115 I/O .46 116 .46 117 .47 12. .48 12.1 .48 12.2 .49 13
Then, Sending completed (I_Address .33.1) changes from 1 to 0. 38 - 12.