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.
180 210.5 226 250 135 140 155 134 146 162.5 20 24 24 VNC5-32F VNC6-40F VNC7-50F 100 105 120 36 42 54 12 12 14 310.5 326 350 278 293.5 317.5 VX Port size: 65F, 80F Flange connection VN VQ Applicable flange 65 80 Model H F E D C B A 1 4 1 4 405.5 441.5 65 80 140 150 204 235 175 185 305.5 341.5 210 240 VNC81 -65F VNC91 -80F 4.2-25 VNC Construction N.C.
SUP = 0.2 MPa 150 100 50 1 0 2 3 4 5 6 7 Caution Cycle (Hz) 1. These flow characteristics are for fresh water (viscosity 1mPas, specific gravity 1.0). 2. The discharge rate differs greatly depending on properties (viscosity, specific gravity) of the fluid being transferred and operating conditions (density, lifting range, transfer distance).
Pressure characteristics*4 2.5% F.S. (0.1 to 1.0 MPa, 0.5 MPa standard) Pressure Electrical Power supply voltage 24 VDC 10% Current consumption 150 mA or less Protection Polarity protection Display accuracy 3.0% F.S. Analog output accuracy 3.0% F.S. Accuracy Repeatability Switch output/Display: 1.0% F.S. Analog output: 1.0% F.S. Temperature characteristics 5.0% F.S.
Refer to front matters 38 and 39 for Safety Instructions and pages 844 to 846 for Vacuum Equipment Precautions. Operation of Ejector Valves Caution 1. When the air supply valve is turned ON, vacuum is generated by the flow of compressed air from the nozzle to the diffuser.
C J G5-S Standard Stroke CV Bore size (mm) Standard stroke (mm) Symbol Specifications 40 25, 50, 75, 100, 125, 150, 200, 250, 300, 350, 400, 450, 500 -XA Change of rod end shape MVGQ 50, 63 25, 50, 75, 100, 125, 150, 200, 250, 300, 350, 400, 450, 500, 600 -XC4 With heavy duty scraper 80, 100 25, 50, 75, 100, 125, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700 Piston rod and rod end nut
139 139 139 195 120 140 140 140 60 60 60 66 66 66 70 60 60 90 100 100 100 200 120 140 140 140 220 193 193 238 289 289 289 357 182 182 215 242 242 242 317 159 159 215 219 219 219 270 480 704 1056 1203 1703 1210 159 159 245 264 264 264 130 130 165 216 216 216 35 35 37 80 150 150 72 190 390 575 893 1038 1538 950 35 35 138 170 276 276 365 203 203 266 324 324 324 473 83 83 212 258 366
150 150 150 320 400 70 94 58 65 200 200 480 610 220 220 225 238 Model HAA15 HAA22 B C D E F G H J K L M N P Q R S 1B union union 1 2 B 1 13
150 150 150 320 400 70 94 58 65 200 200 480 610 220 220 225 238 Model HAA15 HAA22 B C D E F G H J K L M N P Q R S 1B union union 1 2 B 1 HA AT ID AMG AFF AM Misc. 14-15-3
139 139 139 195 60 60 60 66 66 66 70 120 140 140 140 120 140 140 140 220 60 60 90 100 100 100 200 193 193 238 289 289 289 357 293 293 326 354 354 354 428 159 159 215 219 219 219 159 159 245 264 264 264 203 203 266 324 324 324 473 130 130 165 216 216 216 267.3 35 35 138 170 276 276 365 270 480 704 1056 1203 1703 1210 35 35 37 80 150 150 72 395 83 83 212 258 366 366 500 190 390 575 893
In case of 1oo2 2-channel non-equivalent, logic of an input data from ch2 is inverted and then evaluated with the inverted value. 39 No.EX##-OMY0004 Parameters for discrepancy between two channel input signals Discrepancy between two input signals is evaluated in the EX245 when 1oo2 is specified.
Table 4-1 EX245 24 V DC +20% -15% 1ms IP65 () (IEC60529) 10M -FE 500VAC IEC61131-2 500VAC1 -FE IEC61131-2 -10 to 50 -20 to 60 35%85% RH 80 kPa 108 kPa ( 2000 m ) 66 kPa 108 kPa ( 3500 m ) 10 Hz to 57 Hz 0.75 mm 57 Hz to 150 Hz 49 m/s 2 XYZ 2 XYZ 3 EN 60068-2-27/29 EMC , 2014/30/EU, IEC61326-3-1 , 2006/42/EC, EN 62061, EN ISO 13849 TUV , EN 61508, EN 62061, EN ISO 13849
Max. 150 NL/min 3000 NL/min PF2A703H 5.5 CFM 106.0 CFM 300 NL/min 6000 NL/min PF2A706H 10.5 CFM 212.0 CFM 600 NL/min 12000 NL/min PF2A712H 21.0 CFM 423.5 CFM : Analogue output is based on the rated flow range at normal condition. Displayed flow range is based on standard condition. Therefore, the range of rated flow and the displayed flow are different..
(Up to 150 records will be recorded.) 5.5.8 HRR Series 5.1 List of Functions 5-1 HRX-OM-X071 Chapter 5 Display and Setting of Various Functions 5.2 Function 5.2.1 Key operations The key operation of this product is shown in Fig 5 -1 Key operation list (1/4) to Fig 5-4 Key operation list (4/4).
H4 S y m b o l Initial power / Power consumption (W) 100 VAC 200/40 200/50 400/100 600/150 200 VAC 800/40 800/50 1600/100 2400/150 Heater assembly number XL1A25-60S-1 XL1A25-60S-2 XL1A25-60S-2 XL1A25-60S-3 XL1A25-60S-2 No. of heater assemblies 1 pc. 1 pc. 1 pc. 1 pc. 2 pcs.
/ AC200V 1600/100 2400/150 XL1A25-60S-3 XL1A25-60S-2 1 2 H5 AC100V 600/130 800/180 / AC200V 2400/130 3200/180 1[W] 216 PTC 200V PTC 200 150 100V PTC 0 5 10 15 20 25 30 ( 30 10 XL-OMY0001 5 5-1 1 , SUS304 8 4 SUS304 10 , SUS316L 7 5 A6063 2 1 6 SUS304 3 2 9 2 SUS304 SUS304 11 XL-OMY0001 5-2 C E E E KF K Fd Fn C D H B A G A mm A B C D E Fn Fd G H XLA-
H4 S y m b o l Initial power / Power 100 VAC 200/40 200/50 400/100 600/150 200 VAC 800/40 800/50 1600/100 2400/150 consumption (W) Heater assembly number XL1A25-60S-1 XL1A25-60S-2 XL1A25-60S-2 XL1A25-60S-3 XL1A25-60S-2 No. of heater assemblies 1 pc. 1 pc. 1 pc. 1 pc. 2 pcs.
H 4 S y m b o l Initial power/ Power 100 VAC 600/150 800/220 1200/350 200 VAC 2400/150 3200/220 4800/350 consumption (W) Heater assembly number XLA25-60S-2 XLA25-60S-2 XLA25-60S-2 No. of heater assemblies 2 pcs. 3 pcs. 4 pcs.
H 4 S y m b o l Initial power/ Power consumption (W) 100 VAC 600/150 800/220 1200/350 200 VAC 2400/150 3200/220 4800/350 Heater assembly number XLA25-60S-2 XLA25-60S-2 XLA25-60S-2 No. of heater assemblies 2 pcs. 3 pcs. 4 pcs.
For longer input time, processing takes approximately 150 ms from startup of reset signal and it increases total reset processing time.