Series: 5 (VP500), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type, Bracket: w/o Bracket, Flow Direction: R (Right to Left)
Series: 7 (VP700), Pressure Specification: Standard (0.7 MPa), Voltage: 3 [110 VAC, (115 VAC)], Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type
Series: 5 (VP500), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type
Series: 7 (VP700), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: S (w/Surge Voltage Suppressor), Manual Override: Non-locking Push Type
Series: 5 (VP500), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type
Series: 5 (VP500), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: S (w/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Bracket: B (w/Bracket)
Series: 7 (VP700), Pressure Specification: Standard (0.7 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: S (w/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Bracket: w/o Bracket, Flow Direction: R (Right to Left)
Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 6 (12 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: A (Non-locking Push Type, Manual)
Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type, Bracket: B (w/Bracket)
Series: 7 (VP700), Pressure Specification: K (High-pressure Type, 1.0 MPa), Voltage: 5 (24 VDC), Electrical Entry: DO (DIN Terminal w/o Connector), Light/Surge Voltage Suppressor: w/o Light/Surge Voltage Suppressor, Manual Override: Non-locking Push Type, Bracket: B (w/Bracket), Flow Direction: R (Right to Left)
110.0 to 110.0 kPa2 MPaPressure sensor: Stainless steel 630, Fitting: Stainless steel 304Fluids do not corrode stainless steel 630 and 304R1/4, NPT1/4, G1/4?, URJ1/4, TSJ1/4, Rc1/8Piping direction: Rear/Bottom12 to 24 VDC ?
0.105 to 1.100 MPa4 MPaPressure sensor: Stainless steel 630, Fitting: Stainless steel 304Fluids do not corrode stainless steel 630 and 304R1/4, NPT1/4, G1/4?, URJ1/4, TSJ1/4, Rc1/8Piping direction: Rear/Bottom12 to 24 VDC ?
0.105 to 1.100 MPa4 MPaPressure sensor: Stainless steel 630, Fitting: Stainless steel 304Fluids do not corrode stainless steel 630 and 304R1/4, NPT1/4, G1/4?, URJ1/4, TSJ1/4, Rc1/8Piping direction: Rear/Bottom12 to 24 VDC ?
110.0 to 110.0 kPa2 MPaPressure sensor: Stainless steel 630, Fitting: Stainless steel 304Fluids do not corrode stainless steel 630 and 304R1/4, NPT1/4, G1/4?, URJ1/4, TSJ1/4, Rc1/8Piping direction: Rear/Bottom12 to 24 VDC ?
I/O Configurator (NFC version) As the parameter setting requires time for settlement, do not turn off the power supply for 2 seconds. : Establishing communication after changing units As the settings between the wireless master unit and the wireless slave unit are different, it is necessary to update the displayed parameter by clicking the "Refresh button" on the screen of the I/O Configurator for NFC after changing the
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping/fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping /fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping/fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
When installing piping or a fitting into a port, ensure that sealant material and cutting chips of threads do not enter piping. When using sealant tape, leave the first 2 threads exposed at the end of piping /fitting. T ightening torque Undertightening causes liquid or air leakage w hile overtightening causes breakage of threads and other parts.
IP65() 4.57()JIS C 3306 0.51.5mm 22 ,3 O JIS C2805 R1.25-3 Y () 1.25-3 2.53.7 0.290.35Nm () 4 4 4 4 5 5 5 5 (3 ) 0.50.6Nm 2 () 2 () 1 () 1 () 4() 3() 4() 3() 5() 4 5 DC AC DC AC SGC SGH AC 9 SGC200*-OMJ0004-A SGC/SGH Series SGC/SGH Series SGC/SGH Series SGC/SGH Series/ / / / DIN DIN DIN DIN AC DC DIN IP65() ( ( ( ( ) ) ) ) (4.5~7) IP65() NL:,R: LED:,R: V: V: 180 AC DIN (DO