LV50-OMQ0002 [F10] Sub screen Page 41 Flow direction [F20] External input Page 45 [F22] Analogue output Page 46 Free range analogue output for instantaneous flow: OFF [F30] Accumulated value display Page 47 OFF [F32] Setting of flow direction / back flow detection function.
Corporation Contents Safety Instructions 2 Model Indication and How to Order 11 Summary of Product Parts 14 Definition and Terminology 15 Mounting and Installation 17 Installation 19 Piping Method 20 Wiring 22 Setting the Detected Flow Rate 24 Function Setting 26 Default Setting 26 F 1 Setting of OUT1 28 F 2 Setting of OUT2 36 F 3 Response Time 40 F10 Sub screen display 41 F20 External input 45
Installation distance mm Detection range mm IZD10-110 Sensor head 10 45 20 85 Installation distance 25 100 Detection hole 30 120 40 150 50 180 Installation distance mm Detection range mm IZD10-510 Detection range 25 100 30 120 Detection hole 40 150 50 180 Sensor head 60 205 70 225 75 235 6-3.
It is determined to be 45%. 2. Next, in the required specification example, the viscosity is 100 mPas and the discharge rate is 2.7 L/min. Since this is equivalent to 45% of the discharge rate for fresh water, 2.7 L/min 0.45 = 6 L/min, indicating that a discharge rate of 6 L/min is required for fresh water. 3.
Then, it is found to be 45%. 2. After that, convert it to discharge amount of fresh water. Since discharge rate 45% of fresh water is equal to 4.5L/min of the fluid, with the following calculation; 4.5L/min 0.45 = 10L/min it is found discharge rate 10L/min is necessary for fresh water. 3. Then, refer to flow characteristic graph and calculated air pilot pressure.
Vibration resistance allows for normal operation of up to 30 m/s2 (45 to 250Hz), but continuous vibration may cause a decline in durability. Arrange piping to avoid excessive vibration or impacts. High temperature type (temperature specification / H0) 1. When a valve is to be heated, only the body section should be heated, excluding the bonnet section. 1.
MH*-OMM0056 MHS2-D MHS3-D MHS4-D MHSJ3-D MHSH(J)3-D 1. 23 2. 2-1. 45 3. 3-1. 6 3-2. 67 3-3. 713 3-4. 13 3-5. 14 3-6. 14 3-7. 14 4. 4-1. 14 4-2. 1518 4-3. 1922 4-4. 2326 1 [ ][][] ISO4414*1)JISB8370*2) 1) ISO4414Pneumatic fluid power-Recommendations for the application of equipment to transmission and control systems. 2) JIS B8370 2 1. 2. 3. 4. 3 2 2-1 MHS2 MHS2 -16D MHS2 -20D MHS2 -25D
(1) Operation check with monitor in easy mode . 45 (2) Operation check with monitor in normal mode . 46 6.
Memory map . 45 10.1 Remote IO (Rx and Ry) . 45 10.2 Remote register (RWr and RWw) . 51 11. Settings and Data Entry . 62 11.1 Step Data . 62 11.2 Basic parameters . 65 11.3 Return to origin parameter . 68 11.4 Operation parameters . 69 12.
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
(LEC) . 45 13.1 (LEC) . 45 13.2 . 46 14./ . 47 15./ . 48 15.1 . 48 15.2 . 49 15.3 . 50 15.4 . 51 15.5 . 52 2 - 15.6 . 52 16. . 53 16.1 / . 53 16.2 . 53 16.3 . 55 16.4 . 55 16.5 . 56 16.6 . 56 16.7 . 56 3 - LEC-G Series/ 1. *1) (ISO/IEC)(JIS) *2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General rules relating to systems
(Values at the initial period) Vibration rerisutance: No malfunction occurred in a one-sweep test between 45 and 2,000 Hz. Test was performed at both energized and be-energized states in the axial derection and at the right angles to the main valve and armature.(Values at the initial period) 10 - 4.
(Default setting) ON Holds the output. : Refer to Parameter Setting (page 45), for the further details.
Operation instruction . 44 9.1 Operation instruction overview . 44 (1) Return to origin . 44 (2) The command to drive to the stroke end and the intermediate position . 44 (3) Stop . 44 2 No.JXC-OMU0030-A 9.2 Operating procedure of parallel I/O . 45 (1) Power on Return to origin . 45 (2) Positioning operationDriving to the stroke end and Driving to the intermediate position . 46 (3) Reset
Vibration resistance: No malfunction occurred in a test ranging between 45 to 2000 Hz. Test was performed in both an axial direction and a perpendicular direction to the lead screw.
) protection OUT [ 31 ] 34 TD + Bus P TD Port 1 ( XF1 ) ERTEC 200 RD + MDI RD Output circuit / Push Pull connector ( RJ 45 ) Bus interface RD + Bus RD Port 2 ( XF2 ) TD + MDI-X TD Pules transformer 24 V ( US 1 ) 0 V ( US 1 ) Module 24 V ( US 2 ) interface 0 V ( US 2 ) FE Bus Fig. 6-5 Block diagram of the EX245-SPN2 -38No.EX##-OMU0020-A 7.
Nominal thread size Required 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 Model Width across flats of attachment PF2W704 34 mm PF2W720 PF2W740 PF2W711 45 mm PF2W704T 34 mm PF2W720T PF2W740T -17No.PF-OMO0012-E Wiring Connections should only be made with the power supply turned off.
-100.0 to 100.0 kPa -0.100 to 1.000 MPa Set pressure range 10.0 to -105.0 kPa -105.0 to 105.0 kPa -0.105 to 1.050 MPa Withstand pressure 500 kPa 500 kPa 1.5 MPa Minimum display unit 0.1 kPa 0.1 kPa 0.001 MPa Applicable fluid Air, inert gases and incombustible gases Power supply voltage 12 to 24 VDC 10%, ripple (p-p) 10% or less (protected against reverse connection) Current consumption 45
C 10 to 35 Facility water Facility water IN pressure MPa 0.3 to 0.7 (45 to 100 [PSIG]) Facility water port Rc 3/4 Power supply 3-phase 50/60Hz AC200/200 to 208V10% Main breaker size A 30 Main breaker amperes interrupting capacity kA 50 Dimensions *6 mm W380D665H860 (W14.96xD26.18xH33.86 [inch]) Weight (HRW-H / HRW-HS)*7 kg Approx. 90 (198 [lbs]) / Approx. 95 (209 [lbs]) Approx. 100 (221 [
Vibration resistance allows for normal operation of up to 30 m/s2 (45 to 250Hz), but continuous vibration may cause a decline in durability. Arrange piping to avoid excessive vibration or impacts. High temperature types; (Temperature specifications/H0) 1. When a valve is to be heated, only the body section should be heated, excluding the bonnet section. Piping Caution 1.