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.

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.

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.

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.

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.

PFCA7 is a flow controller for clean, dry compressed air, N2, Ar, or CO2.  The design integrates a flow sensor, valve, and control mechanism for automatic adjustment in response to an analog voltage or current signal.  Control is linear and stepless within the rated flow ranges offered. 

6) Perform a suction test on the actual device to determine whether it can be used or not.
Note) This is the general procedure for selecting a vacuum pad, however, it does not apply to all types of vacuum pads.
Ultimately, testing using the actual device is the best way to determine whether a pad is ideal for the application.

a=dD1iMmZmYmJjMzkzMGE3OGUzMWFiNjkyOWM0MmE2MjE4NWY1ZmVhN2ZjJmpzPW9mZg==" style="visibility: hidden; position: absolute; left: -999px; top: -999px;">