PSE550/300 (Not including sensor accuracy), Response time: 150 ms or less Accuracy (To display value) (25C) 1.0% F .S. or less 1.5% F .S. or less 2.0% F .S. or less PF2 0.5% F .S.
(Ms) | ieries I{VZ 3-port dirct operated I solenoidvahre I NVZ100 | -EEffi rfl|/h afirF I P F P F II I 3-pod pilot operated I solenoid valrre I NVZ300 I @ Internal dlot type I T di**t* | ,oli*,n,* oiJ I K4 q I l-f " " ' n * | {im#h I P F P F II I I tlffi;lI l&*;" 3-port pilotoperated I solenoad Yalve I NVZSOO I @ Inlerml dlol type I "t" ^"" I ilF a{Zl;lh I exrllar pirot ty"pi I l " i I w
length 0.6 m L Grommet type Lead wire length 3 m 24 VDC 5 12 VDC 6 C Lead wire length 0.6 m 1 Symbol 2 3 4 5 6 7 8 Order of manifold (Station) Connector type 6 VDC V CL CN Lead wire length 3 m Without connector 5 VDC S 05 07 10 Ejector unit nozzle diameter 3 VDC R Note) When F is required, it is Nil.
UP/DOWN On OFF SET )On/OFF MODE , SEL. , SET RIGHT LEFT UP DOWN RIGHTLEFTUPDOWN 10N 19 - 7-3 7-3-1 -7,999,999+7,999,999, F, (+8,000,000 ,F,-8,000,000 ,-F ,,F) 6 (-999,999+999,999),6 7-3-2 , 0 , ,RS-232C BCD ,,, 7-3-3 ,14 No. 2 1 1 OFF OFF 2 OFF ON 3 ON OFF 4 ON ON 7-3-4 No.
F 4 T 10 9 Silencer box 2(B), 4(A) port size Air release valve None With silencer box Nil 3/8 (Right side) 1/2 (Right side) 3/8 (Left side) 1/2 (Left side) 3/8 (Bottom) 1/2 (Bottom) Mixed 03R None With air release valve Nil SB 04R E 03L Thread type 04L 03Y Rc G NPTF Nil 04Y F 1(P), 3(R2), 5(R1) port size T 1/2 (Down side) 1/2 (Up side) 1/2 (Both sides) 3/4 (Down side) 3/4 (Up side) 3/4 (
bracket Nil F Series 2 3 4 Class 2 Class 3 Class 4 Material and insulation type Note Body material Coil insulation Seal material NBR FKM EPDM PTFE NBR FKM EPDM PTFE FKM Symbol Nil A B C G H J K L Valve type N.C.
Message frame . 3-7 3.9 Function code . 3-9 3.10 Checksum calculation method . 3-9 3.10.1 LRC(ASCII) . 3-9 3.10.2 CRC(RTU) .3-10 3.11 Explanation of function codes . 3-12 3.11.1 Function code: 04 Reading multiple registers .3-12 3.11.2 Function code: 06 Writing registers.3-13 3.11.3 Function code: 16 Writing multiple registers .3-15 3.12 Negative response . 3-16 3.13 Register map . 3-18
Origin end3 [Opposite end]4 Opposite end [Origin end]4 Auto switch groove (1 row per side) Setup communication connector (M12) 38 2[(4)]4 (4)[2]4 16 22 (66.6) 6.5 24 M4 x 0.7 thread depth 8 (F.G. terminal) Power supply connector (M12) 6 38.5 48 15 27.8 Motor option: With lock (16) (198.4) B + Stroke D x 120 (= E) F 10 3 H9 (+0.025 0 ) depth 3 120 n x 4.5 48 4 3 H9 (+0.025 0 ) depth 3 5 8
ALM 15 RY(n 2)F RX(n 3)B Remote station communication ready CRD RY(n 3)0 to Reserved RX(n 3)C RY(n 3)9 to Reserved RY(n 3)A Reset RES RX(n 3)F Note.
ALM 15 RY(n 2)F RX(n 3)B Remote station communication ready CRD RY(n 3)0 to Reserved RX(n 3)C RY(n 3)9 to Reserved RY(n 3)A Reset RES RX(n 3)F Note.
CC-Link (P.77) D 1 () E 2 F 0 OFFON 1 17 () 8F 1:ABS 2:INC 70 L 1 1mm/s 2 F8 H (-) (+) 3 F0 L 0.01mm 11.1 (P.47) )RWw0,bit6: ON 655.37 4 F0 H 70 L 1 (*3) 2 1 mm/s 5 1% F8 H 1 (*3) 70 L 2 1 mm/s [mm](65537d=1000 1h) RWw3=0001h RWw4=0001h 6 1% F8 H 70 L *3 1mm/s 1% F8 H 7 42 - 8 70 L *3 1% F8 H 9 70 L *3 1mm/s F8 H 10 70 L *3 1% F8 H 11 F0 L (-) (+) 1 0.01mm 12 F0
Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a e B part f d z f1 x.Calculate the inertial moment of the attachment. Assuming the attachment material is aluminium alloy (relative density=2.7), r1= 16.4 (mm).
Output deviation factor (% F .S.) 0.6 0.5 0.4 Return 0.2 0 0 0.2 0.4 0.5 Out 0.6 0.8 0 25 50 75 1 1 2 3 4 1 5 100 Input signal (%F .S.)
Lead wire: In-line entry Lead wire: Perpendicular entry L L L Unit: mm In-line Perpendicular Lead wire Auto switch Finger position Air gripper D-F9BV D-F9B D-F9NV D-F9N D-F9BA Open 2 7 MHK2-12 Closed 7 3 12 Open 2 6 MHK2-16 Closed 8 1 1 3 13 Open 1 MHK2-20 Closed 5 1 11 Open MHK2-25 Closed 6 2 12 Open 3 MHKL2-12 Closed 3 7 12 Open 1 MHKL2-16 Closed 1 1 3 8 13 Open MHKL2-20 Closed
(Ms) | ieries I{VZ 3-port dirct operated I solenoidvahre I NVZ100 | -EEffi rfl|/h afirF I P F P F II I 3-pod pilot operated I solenoid valrre I NVZ300 I @ Internal dlot type I T di**t* | ,oli*,n,* oiJ I K4 q I l-f " " ' n * | {im#h I P F P F II I I tlffi;lI l&*;" 3-port pilotoperated I solenoad Yalve I NVZSOO I @ Inlerml dlol type I "t" ^"" I ilF a{Zl;lh I exrllar pirot ty"pi I l " i I w
Example: Allowable load F (N) = M (Maximum allowable moment) (Nm) L x 10-3 0.68 30 x 10-3 Allowable load F = Unit conversion factor = 22.7 (N) > 10 Since load F > f, it is operable. 12-11-11 12 Series MRHQ Moment of Inertia and Allowable Kinetic Energy Moment of Inertia Calculation and Allowable Kinetic Energy Graph (Moment of inertia and rotation time) 200 Calculate the moment of inertia
size Nil N Body only With silencer 3 5 3/8 standard 1/2 standard For AIR EXH: AN200-02 Liquid contact body material Connection port size 03 04 06 3/8 (10A): PA3 1/2 (15A): PA5 3/4 (20A): PA5 1 2 ADC12 (aluminum) SCS14 (stainless steel) PA5000 Diaphragm material Thread type 1 2 PTFE NBR Nil T Rc NPTF G NPT F N T, F, N are order made specifications.
:YES ALARM JOG SETTING Press the (3)SET key RTN ORIG:Start Select JOG Method of ending JOG Drive Press the (3)SET key Press the (5)MENU key JOG 1 RTN ORIG Done JOG:Move Posn 123.45mm AX IS. TEST Check 1 EXT Inp ON DATA MONITOR AX IS. OK ALARM JOG SETTING Press the (3)SET key Press the (3)SET key 3.
10, 12, 16 1/4, 3/8 50 RS Q G 500 15 63 RS H A 3/8, 16 1/2, 16 1/2, 16 3/4, 16 3/4, 16 1000 1500 2000 2500 3000 30 0 45 1,000 2,000 3,000 60 RZQ Maximum speed Vmax (mm/s) 75 89.5 80 MI W S 16 3/8, 1/2 500 24.5 = 0.7 3/8, 16 1/2, 16 3/4 3/4 3/4 3/8 1/2, 16 3/4 3/4 3/4 3/4 1000 1500 2000 2500 3000 500 1000 1500 2000 2500 3000 48.5 150 CEP1 80 72.5 96.5 0.5 120.5 100 0.1 0.3 CE1 106 38 50