Belimo 3/4" 6 way NPTnon-spring returnApplication | The 6-way characterized control valve is ideal for chilled beams, radiant ceilings,
and Fan Coil Units offering reduced wiring by using a single actuator instead
of two. It eliminates the need for a change over valve and enables the use of a
single coil for heating and cooling |
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Service | chilled, hot water, up to 60% glyco |
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Flow Characteristic | linear |
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Controllable Flow Range | Sequence 1 - (0° to 30° angle)¹, Dead
zone - (30° to 60°), Sequence - 2 (60° to
90° angle)² |
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End Fitting | NPT female ends |
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Stem Packing | EPDM (lubricated) |
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Characterized Disc | chrome plated steel |
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Body Pressure Rating [psi] | 230 |
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Media Temperature Range (Water) | 43°F to 180°F [6°C to 82°C] |
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Max Differential Pressure (Water) | 15 psi for typical applications |
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Servicing | maintenance free |
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Power Supply | 24 VAC ± 20%, 50/60 Hz, 24 VDC ± 10% |
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Power Consumption Running | 1.5 W |
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Power Consumption Holding | 0.4 W |
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Transformer Sizing | 3 VA (class 2 power source) |
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Electrical Connection | 3 ft [1 m], 18 GA plenum cable with 1/2”
conduit connector |
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Overload Protection | electronic thoughout 0° to 90° rotation |
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Input Impedance | 100 k ? for 2 to 10 VDC (0.1 mA), 500 ? for 4
to 20 mA |
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Direction of Rotation (Motor) | reversible with built-in switch |
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Manual Override | external push button |
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Running Time (Motor) | 90 sec |
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Ambient Temperature Range | -22°F to 122°F [-30°C to 50°C] |
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Storage Temperature Range | -40°F to 176°F [-40°C to 80°C] |
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Housing | NEMA 2, IP42, UL enclosure type 2 |
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Agency Listings | cULus acc. to UL60730-1A/-2-14, CAN/CSA
E60730-1:02, CE acc. to 2004/108/EC |
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Noise Level (Motor) | <35 dB (A) |
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Operating Range Y | 2 to 10 VDC, 4 to 20 mA w/ ZG-R01 (500 ?,
1/4 W resistor) |
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Position Indication | integrated into handle |
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Feedback Output U | 2 to 10 VDC |
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Operation | A loop pressure relief is designed into port number two (2). This allows the increased pressure to dissipate to the supply loop on port number one (1). This is intended to release any pressure build up in the loop (coil) when the valve is in the closed position and is isolated from the system expansion vessel. The change in pressure occurs due to a change in the media temperature in the coil while isolated from the pressure vessel. The pressure relief does not affect the effi ciency of the system because cross-fl ow cannot occur between the heating and cooling loops. The system loops (heating/cooling) should share a common expansion vessel to keep the system pressure and volume balanced. |
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Product Family
All orders are shipped same-day if the order is received by 1:00 PM Central Time. We ship worldwide.
UPS Hoilday Delivery Schedule
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For more informatrion about Warranty visit Warranty page.
You can also find answers to some common questions on our FAQ page
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