Description
Parker 936-071031-010 VSO LowPro GC Proportional Valve
Product Overview
The Parker 936-071031-010 VSO LowPro GC is an ultra-compact proportional valve designed for space-constrained applications. Utilizing advanced electromagnetic actuation technology, this miniature valve features a compact 16mm diameter and 14mm height, making it well-suited for integration into portable devices or equipment with strict internal space requirements.
The VSO LowPro GC proportional valve is widely used in applications such as gas chromatography analyzers, PEEP flow control in respiratory equipment, and other portable or space-limited devices requiring precise gas flow control.
Key Specifications
Performance:
– Operating pressure range: 0 to 150 psi (0 to 10.3 bar)
– Orifice size: 0.007 inches (0.18 mm)
– Maximum flow rate: 3.5 SLPM
– Vacuum to pressure range: 27 inHg to 150 psi
– Maximum operating pressure: 150 psi, 10.3 bar
Materials:
– Valve body: C36000 brass
– Seals: FFKM
– Spring: 17-7 stainless steel
– Armature: Nickel-plated 1018 carbon steel
Electrical:
– Operating voltage: 3 VDC
– Power consumption: 0.7 W
– Response time: 10 ms (typical)
– Electrical connection: 4.5 inch leads
Environmental:
– Operating temperature range: -20°C to 85°C
– Mounting: Flange, screw mount
Other:
– Leakage rate: 0.030 SCCM Helium at 150 psi
– Cycle life: 100 million cycles
– Weight: 0.56 oz, 19 g
– Dimensions: Length 0.80 inches (20 mm), Width 0.63 inches (16 mm), Height 0.53 inches (14 mm)
Key Features:
1. Ultra-compact size for space-constrained applications
2. Fast response time for rapid switching control
3. Precise flow control up to 3.5 SLPM
4. Low power consumption at 0.7 W
5. Excellent leak-tightness with Helium leakage below 0.030 SCCM
6. Wide operating temperature range for harsh environments
7. Corrosion-resistant for use with various media
The VSO LowPro GC proportional valve is an ideal choice for gas chromatography analyzers, respiratory equipment, and other portable or space-limited applications, thanks to its outstanding performance characteristics and ultra-compact design.