The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

I/O and actuator cables are also identical to the standard LEY Body sizes: 16, 25, 40; Maximum work load: 100 kg (horizontal); 46 kg (vertical); Maximum speed: 800 mm/s (16mm lead, size 40); Maximum acceleration: 10, 000 mm/s ²; Stroke range: 30 to 500mm in 50mm increments; Positioning repeatability: ±0.02mm; Motor type: 24 VDC step motor with incremental A/B phase encoder

Body sizes: 16, 25, 40; Maximum work load: 100 kg (horizontal); 46 kg (vertical); Maximum speed: 800 mm/s (16mm lead, size 40); Maximum acceleration: 10, 000 mm/s²; Stroke range: 30 to 500mm in 50mm increments; Positioning repeatability: ±0.02mm; Motor type: 24 VDC step motor with incremental A/B phase encoder

The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

The AC-B series has a maximum set pressure of 125 psi and offers embedded gauge and pressure switch options not found in the AC-A. The element and bowl on the AF series is now one-piece, making element replacement easier. Required maintenance space has been reduced by as much as 46% on the AFseries, depending on the body size.

The ZB is available as a single unit or mounted to a manifold of up to 12 stations. 

The ZB is available as a single unit or mounted to a manifold of up to 12 stations. 

The ZB is available as a single unit or mounted to a manifold of up to 12 stations. 

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.

The ZB is available as a single unit or mounted to a manifold of up to 12 stations. 

The ZB is available as a single unit or mounted to a manifold of up to 12 stations. 

The ZB is available as a single unit or mounted to a manifold of up to 12 stations. 

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.