Body Size: 2000, Thread: N (NPT), Port Size: 02 (1/4), Option: B (w/Bracket), Voltage: 5 (24 VDC), Lead Wire: KO (M12 Connector, w/o Cable), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: B (Push-turn Locking Slotted Type), Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)

Body Size: 4000, Thread: N (NPT), Port Size: 04 (1/2), Option: BS (w/Bracket, Silencer), Voltage: 5 (24 VDC), Lead Wire: KO (M12 Connector, w/o Cable), 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: 4000, Thread: N (NPT), Port Size: 04 (1/2), Option: S (Silencer), Voltage: 3 [110 VAC (115 VAC)], Lead Wire: D (Type D, DIN Terminal w/Connector), Surge Suppressor: None, Manual Override: B (Push-turn Locking Slotted Type), Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)

Body Size: 3000, Port Thread: N (NPT), Port Size: 03 (3/8), Option: G (Round Type Pressure Gauge w/Limit Indicator), Voltage: 5 (24 VDC), Electrical Entry: D (Type D, DIN Terminal w/Connector), Surge Suppressor: None or Manual Override, Flow Direction, Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)

Body Size: 5000, Thread: N (NPT), Port Size: 10 (1), Option: BGS (w/Bracket, Round Type Pressure Gauge, Silencer), Voltage: 5 (24 VDC), Lead Wire: KO (M12 Connector, w/o Cable), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: B (Push-turn Locking Slotted 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: KO (M12 Connector, w/o Cable), Surge Suppressor: Z (with Light/Surge Voltage Suppressor), Manual Override: B (Push-turn Locking Slotted 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: BG (w/Bracket, Round Type Pressure Gauge w/Limit Indicator), Voltage: 6 (12 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: 3000, Thread: N (NPT), Port Size: 03 (3/8), Option: G (Round Type Pressure Gauge w/Limit Indicator), Voltage: 5 (24 VDC), Lead Wire: D (Type D, DIN Terminal w/Connector), Surge Suppressor: None, Manual Override: B (Push-turn Locking Slotted 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: 6 (12 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: 3000, Thread: N (NPT), Port Size: 03 (3/8), Option: G (Round Type Pressure Gauge w/Limit Indicator), Voltage: 5 (24 VDC), Lead Wire: Y (Type Y, DIN Terminal w/Connector), Surge Suppressor: None, Manual Override: B (Push-turn Locking Slotted Type), Flow Direction/Pressure Unit: Z (Name Plate and Pressure Gauge in Imperial Units)

Series AV is a soft start up valve for low-speed air supply to gradually raise initial pressure in an air system and for quick exhaust by cutting off air supply. OSHA compliant, lockable soft start valve, Large effective area, Low power consumption, Modular design, VALVE, SOFT START, VALVE, AVL SOFT START LOCK-OUT VALVE, KA, AVL BODY PORT 3/4 NPT, 7.19887 lb

This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VALVE, SOFT START, VALVE, AVL SOFT START LOCK-OUT VALVE, KA, AVL BODY PORT 3/4 NPT, .00000 lb

Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal heat generation. This improves performance, decreases operating costs, and allows for direct control by PLC output relays.

VALVE, SOLENOID, 3 PORT SOLENOID VALVE, I90, 120.00000 lb

VALVE, SOLENOID, 3 PORT SOLENOID VALVE, I90, 120.00000 lb

Customers looking for a compact, light-weight, high flow valve for piloting process valves or actuator applications, need search no longer.  SMC's series V100 is one of the most advanced solenoid valves in today's market.  The standard V100 uses only 0.35w, which is 76% less than comparable valves.  

Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal heat generation. This improves performance, decreases operating costs, and allows for direct control by PLC output relays.

Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal heat generation. This improves performance, decreases operating costs, and allows for direct control by PLC output relays.

Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal heat generation. This improves performance, decreases operating costs, and allows for direct control by PLC output relays.

Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal heat generation. This improves performance, decreases operating costs, and allows for direct control by PLC output relays.