.svg?v=180920048278408794651776809924){kind=small}
STP-IX455C | Edwards Signaling Turbomolecular Pump 300–450 L/s 5 x 10⁻⁸ Torr
- Regular price
- $11,399.00
- Sale price
- $11,399.00
- Regular price
-
Couldn't load pickup availability
Product Description P/N: STP-IX455C
Description
The Edwards Signaling STP-IX455C Turbomolecular Pump is a high-performance vacuum pump engineered for ultra-high vacuum (UHV) and high-vacuum applications. Delivering a pumping speed range of 300–450 L/s, it achieves an ultimate pressure of 5 x 10⁻⁸ Torr, ensuring reliable, contamination-free operation in advanced scientific and industrial systems. Its compact and efficient design makes it suitable for semiconductor processing, analytical instrumentation, and research environments.
Technical Specifications
| Condition | New/Never Used Surplus |
| Brand | Edwards Signaling |
| Category | Vacuum Pumps |
| Part Number | STP-IX455C |
| Subcategory | Turbomolecular Pumps |
| Series | STP Series |
| Type | Magnetically Levitated Turbomolecular Pump |
| Pumping Speed | 300–450 L/s |
| Ultimate Pressure | 5 x 10⁻⁸ Torr |
| Bearing Type | Magnetic |
| Lubrication Type | Oil-Free |
| Cooling Method | Convection or Forced Air (depending on setup) |
| Mounting Orientation | Any (Flexible Installation) |
| Operating Environment | High and Ultra-High Vacuum Systems |
| Compatible Controllers | Edwards Turbo Pump Controllers (e.g., TIC, D3972 Series) |
| Typical Applications | Semiconductor, Analytical, Research, Industrial |
| Noise Level | Low Acoustic Emission |
| Maintenance Interval | Extended (Non-Contact Design) |
| Weight | 36 lbs |
Information About STP-IX455C
The STP-IX455C is part of the Edwards STP Series of magnetically levitated turbomolecular pumps, designed for clean, vibration-free vacuum generation. It incorporates an advanced rotor design supported by magnetic bearings that eliminate mechanical contact, reducing wear and maintenance requirements. Optimized for stable, continuous operation, this pump delivers high throughput for light and heavy gases alike, making it ideal for demanding vacuum processes. Its robust build and precise control system enable integration into OEM, analytical, and semiconductor equipment.
Key Features:
- High Pumping Speed: Provides 300–450 L/s for rapid evacuation and efficient vacuum generation.
- Ultra-High Vacuum Capability: Achieves pressures down to 5 x 10⁻⁸ Torr for demanding UHV systems.
- Magnetic Bearing Design: Contact-free operation minimizes vibration and extends service life.
- Clean, Oil-Free Operation: Ideal for contamination-sensitive environments such as research and semiconductor processes.
- Compact and Lightweight: Weighs only 36 lbs, allowing flexible installation in compact system designs.
- Low Maintenance: Magnetically levitated rotor design significantly reduces maintenance intervals.
- Quiet and Stable Performance: Optimized balance and bearing technology ensure smooth, low-noise operation.
- Compatible with Edwards Controllers: Operates with compatible Edwards turbo pump controllers for precise control and protection.
The STP-IX455C delivers the reliability and precision required for high- and ultra-high vacuum applications across analytical, industrial, and semiconductor environments.
Description
The Edwards Signaling STP-IX455C Turbomolecular Pump is a high-performance vacuum pump engineered for ultra-high vacuum (UHV) and high-vacuum applications. Delivering a pumping speed range of 300–450 L/s, it achieves an ultimate pressure of 5 x 10⁻⁸ Torr, ensuring reliable, contamination-free operation in advanced scientific and industrial systems. Its compact and efficient design makes it suitable for semiconductor processing, analytical instrumentation, and research environments.
Technical Specifications
| Condition | New/Never Used Surplus |
| Brand | Edwards Signaling |
| Category | Vacuum Pumps |
| Part Number | STP-IX455C |
| Subcategory | Turbomolecular Pumps |
| Series | STP Series |
| Type | Magnetically Levitated Turbomolecular Pump |
| Pumping Speed | 300–450 L/s |
| Ultimate Pressure | 5 x 10⁻⁸ Torr |
| Bearing Type | Magnetic |
| Lubrication Type | Oil-Free |
| Cooling Method | Convection or Forced Air (depending on setup) |
| Mounting Orientation | Any (Flexible Installation) |
| Operating Environment | High and Ultra-High Vacuum Systems |
| Compatible Controllers | Edwards Turbo Pump Controllers (e.g., TIC, D3972 Series) |
| Typical Applications | Semiconductor, Analytical, Research, Industrial |
| Noise Level | Low Acoustic Emission |
| Maintenance Interval | Extended (Non-Contact Design) |
| Weight | 36 lbs |
Information About STP-IX455C
The STP-IX455C is part of the Edwards STP Series of magnetically levitated turbomolecular pumps, designed for clean, vibration-free vacuum generation. It incorporates an advanced rotor design supported by magnetic bearings that eliminate mechanical contact, reducing wear and maintenance requirements. Optimized for stable, continuous operation, this pump delivers high throughput for light and heavy gases alike, making it ideal for demanding vacuum processes. Its robust build and precise control system enable integration into OEM, analytical, and semiconductor equipment.
Key Features:
- High Pumping Speed: Provides 300–450 L/s for rapid evacuation and efficient vacuum generation.
- Ultra-High Vacuum Capability: Achieves pressures down to 5 x 10⁻⁸ Torr for demanding UHV systems.
- Magnetic Bearing Design: Contact-free operation minimizes vibration and extends service life.
- Clean, Oil-Free Operation: Ideal for contamination-sensitive environments such as research and semiconductor processes.
- Compact and Lightweight: Weighs only 36 lbs, allowing flexible installation in compact system designs.
- Low Maintenance: Magnetically levitated rotor design significantly reduces maintenance intervals.
- Quiet and Stable Performance: Optimized balance and bearing technology ensure smooth, low-noise operation.
- Compatible with Edwards Controllers: Operates with compatible Edwards turbo pump controllers for precise control and protection.
The STP-IX455C delivers the reliability and precision required for high- and ultra-high vacuum applications across analytical, industrial, and semiconductor environments.