JXCx-OMT0028CN [OUT] Bit/Byte / Address ID No. 0 IN0 bit 0,1 1 IN1 bit 0,1 2 IN2 bit 0,1 3 IN3 bit 0,1 0 4 IN4 bit 0,1 5 IN5 bit 0,1 6 bit 0 7 bit 0 0 HOLD bit 0,1 1 SVON bit 0,1 2 DRIVE bit 0,1 3 RESET bit 0,1 1 4 SETUP bit 0,1 5 JOG(-) bit 0 6 JOG(+) bit 0 7 FLGTH bit 0 ID1 0,1 2 1 No. 063 1ABS() 2 INC( 3 1 )0: ( ) 4 H 2 065500 mm/s 5 L 6 H 7 4 2147483647 0.01mm 8 9 L 10 H 2 065500 mm/s2
Vibration resistance for 2 hours in each direction X, Y and Z respectively (De-energized) Impact resistance 147 m/s2 3 times in each directions of X, Y and Z respectively (De-energized) Standard CE marking, UL (CSA), RoHS Weight 300 g 1: All unused connectors must have a seal cap fitted. -25No.EX-OMS0027 Dimensions -26No.EX-OMS0027 End plate Model Indication and How to Order EX600-ED End
Applying an excessive impact (more than 300 m/s2) may damage the product and cause malfunction. (2) Observe the proper tightening torque for mounting. If the screws are tightened in excessive of the specified torque range (0.2 to 0.4 Nm), it may damage the cylinder/actuator, mounting screws, mounting brackets, and sensor etc.
Do not drop, hit or apply excessive shock (100m/s2) to the product. The inner parts can be damaged leading to malfunction even if the sensor body is not damaged. 2. The tensile strength of the lead wire with connector is 35N. Exceeding this value can cause breakage. Be sure to hold the body when handling. 3. Avoid repeatedly bending or stretching the lead wire with connector.
resistance Impact resistance 147 m/s2 is given 3 times for each direction X, Y and Z Operating environment No corrosive gas -12No.EX##-OMU0020-A 3.
to 300 Parallel Stroke 701 to 800 20 to 550 12 to 330 6 to 180 24 to 750 16 to 500 8 to 250 30 to 750 20 to 550 10 to 300 range 801 to 900 24 to 610 16 to 410 8 to 200 30 to 750 20 to 550 10 to 300 901 to 1000 24 to 500 16 to 340 8 to 170 30 to 750 20 to 520 10 to 250 1001 to 1100 30 to 660 20 to 440 10 to 220 1101 to 1200 30 to 570 20 to 380 10 to 190 Max acceleration/deceleration [mm/s2
Table 8-15 Compliance EMC Directive 2004/108/EC Low Voltage Directive 2006/95/EC CE Marking Machinery Directive 2006/42/EC SEMATECH S2-93, S8-95 SEMI S2-0703, S8-0701, F47-0200 UL E229305 / UL1995 HRZ Series 8.7 Compliance 8-25 HRX-OM-I051 Chapter 8 Appendix Serial No. Model: Judgment 8.8 Thermo Chiller Daily Inspection Sheet Circulating fluid supply port cap Looseness IN press.
Table 8-7 Compliance EMC Directive 2004/108/EC Low Voltage Directive 2006/95/EC CE Marking Machinery Directive 2006/42/EC SEMATECH S2-93, S8-95 SEMI S2-0703, S8-0701, F47-0200 UL E229305 / UL1995 8.7 Compliance HRW Series 8-14 HRX-OM-K003 Chapter 8 Appendix 8.8 Thermo Chiller Daily Inspection Sheet Serial No. Model: Judgment Circulating fluid supply port cap Looseness IN press.
Please install a load to give an output current of 80 mA or less. 6 - Wiring diagram (Input signal 1Brow n S1 2W hi t e S2 3Bl ue S3 4Bl ack S4 Power supply DC24V+/-10% 5G ray Pow er suppl y Note: Common is no polarity. The power supply can connect the direction of the plus or minus either.
It may cause electric shock or other accidents. 1) Do not drop, hit or apply excessive shock (100m/s2 or more) to the product when handling it. Caution Even if the ionizer body is not damaged, the internal components may be damaged, leading to a malfunction. 7 Doc. No.: IZ-OMR0035 1. How to Order 1-1. Ionizer 1-2.
Caution Do not drop, bump or apply excessive impacts (1000m/s2 or more for solid state auto switches) while handling. Although the body of the auto switch may not be damaged, the inside of the auto switch could be damaged and cause malfunction. 2. Observe the proper tightening torque for mounting an auto switch.
[IS400-2 (Float switch only)] 1000 cm3 tank 121538-1A-S1 IS400-1 Metal bowl with level gauge 121538-1A-S2 IS400-2 Note) Bowl O-ring (or seal) is included for the AL20 to AL60.
Required gripping force = 0.01 kg x 10 x 9.8 m/s2 = Approx. 0.98 N or more Pressure 0.6 MPa 4 0.5 Gripping method: External gripping Gripping force N 3 (Note 1) 0.4 0.3 2 1.25 1 0 30 20 10 Gripping point L mm Selecting the MHC2-6D. The gripping force of 1.25 N is obtained from the intersection point of gripping point distance L = 25 mm and pressure of 0.4 MPa.
Required griping force = 0.15 kg x 20 x 9.8 m/s2 = Approx. 29.4 N or more 80 60 30 40 20 0 Gripping point L mm Length of gripping point: 30 mm Selecting the MHF2-12D The gripping force is obtained from the intersection point of the gripping point distance L = 30 mm and a pressure of 0.4 MPa.
Example) For setting the gripping force to be at least 20 times the workpiece mass: Required gripping force = 0.3 kg x 20 x 9.8 m/s2 60 N Further allowance should be provided when great acceleration or impact is expected during workpiece transfer.
Required gripping force = 0.1 kg x 20 x 9.8 m/s2 () 19.6 N or more 0 10 20 30 40 50 60 Gripping point L (mm) Selecting MHZ2-16D. A gripping force of 24 N is obtained from the intersection point of gripping point distance L = 30 mm and pressure of 0.4 MPa.
W : Weight (kg) F : Load (N) FE : Load equivalent to impact (N) a : Average speed (mm/s) M : Static moment (Nm) : Collision speed (mm/s) L1 : Distance to the center of load gravity (m) ME : Dynamic moment (Nm) g : Gravitational acceleration (9.8 m/s2) At impact: = 1.4 a 1.4 100 = 1.4 a (mm/s) FE = agW Note 4) ME = FEL1 = 0.05agWL1 (Nm) 1 3 Note 4) Average load coefficient (This coefficient
W : Weight (kg) F : Load (N) FE : Load equivalent to impact (N) a : Average speed (mm/s) M : Static moment (Nm) : Collision speed (mm/s) L1 : Distance to the center of load gravity (m) ME : Dynamic moment (Nm) g : Gravitational acceleration (9.8 m/s2) At impact: = 1.4 a 1.4 100 = 1.4 a (mm/s) FE = agW Note 4) ME = FEL1 = 0.05agWL1 (Nm) 1 3 Note 4) Average load coefficient (This coefficient
W : Mass (kg) F : Load (N) FE : Load equivalent to impact (when stopper collides) (N) a : Average speed (mm/s) M : Static moment (Nm) : Collision speed (mm/s) L1 : Distance to the center of load gravity (m) ME : Dynamic moment (Nm) g : Gravitational acceleration (9.8 m/s2) At impact: = 1.4 a 1.4 100 = 1.4 a (mm/s) FE = agW Note 4) ME = FEL1 = 0.05 agWL1 (Nm) 1 3 Note 4) Average load coefficient
Fix the adjusting bolt to around 0.5 mm projection from the shock absorber as shown below. m: Weight of impact object (kg) g : Gravitational acceleration (9.8 m/s2) RHC 2000 1500 Stroke adjusting unit MK(2) Note) The speed of the impact object is measured at the time of impact with the shock absorber.