Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series.? The PFMV5?is a small flow sensor?with a rapid response time of less than 5ms.?
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series. The PFMV5 is a small flow sensor with a rapid response time of less than 5ms.
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series. The PFMV5 is a small flow sensor with a rapid response time of less than 5ms.
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series. The PFMV5 is a small flow sensor with a rapid response time of less than 5ms.
Answering the demands for a pressure sensor that would send an output over a wide range where most pressure sensors could not send a signal when adsorbing minute work pieces, SMC has designed the PFMV5 series. The PFMV5 is a small flow sensor with a rapid response time of less than 5ms.
CE2/CEU2 / / *3) 1 1.5 3)1 1 () 4. 1. , a. 060 5. b. 2585%RH c. d e. 6. f. g. ( ) h. i. 7. j. k. l. 2. 8. ,,, 9. 1. 10. 2. 11. 3. 1. 1. 0.11.0MPa 0.30.5MPa :060 2. 3 2. 1. 3. 5 2. 35% 1. ( 6 ) ()70% ()35% 2. 50% ( 6 ) 15% 3. 1. 4. () 0.5 3. 5.
Body Size: 5000, Thread: N (NPT), Port Size: 06 (3/4), Option: None, Voltage: 5 (24 VDC), Lead Wire: D (Type D, DIN Terminal w/Connector), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)
Body Size: 5000, Thread: N (NPT), Port Size: 10 (1), Option: S (Silencer), Voltage: 5 (24 VDC), Lead Wire: D (Type D, DIN Terminal w/Connector), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)
Body Size: 5000, Thread: N (NPT), Port Size: 10 (1), Option: None, Voltage: 5 (24 VDC), Lead Wire: D (Type D, DIN Terminal w/Connector), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)
Body Size: 5000, Thread: N (NPT), Port Size: 10 (1), Option: B (w/Bracket), Voltage: 5 (24 VDC), Lead Wire: D (Type D, DIN Terminal w/Connector), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)
Body Size: 5000, Thread: N (NPT), Port Size: 10 (1), Option: BS (w/Bracket, Silencer), Voltage: 5 (24 VDC), Lead Wire: D (Type D, DIN Terminal w/Connector), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: Non-locking Push Type, Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)