The MKS 972B DualMag cold cathode vacuum transducer integrates advanced cold cathode inverted magnetron and MicroPirani thermal conductivity MEMS sensor technologies to deliver precise vacuum measurement from ultra-high vacuum levels to atmospheric pressure. Its compact modular design is ideal for applications where controller size and local control are critically important.
Product Features
- Combines cold cathode inverted magnetron and MicroPirani MEMS sensor technologies
- Measures vacuum/pressure range from 1x10-8 Torr to atmosphere
- MicroPirani sensor provides 1-2 decades lower measuring range than traditional Pirani gauges
- Compact, small footprint design reduces installation space and costs
- User serviceable to minimize downtime
- Supports both analog and digital communication interfaces
- Low-cost multi-sensor design for versatile vacuum measurement
- Optional local display for easy onsite monitoring
Applications
- Analytical equipment such as mass spectrometer control
- Scanning electron microscopes (SEM)
- Coating systems requiring precise vacuum control
- General vacuum base pressure measurement tasks
Benefits
- Compact design saves valuable tool space without sacrificing performance
- Enhanced measurement accuracy over a wide vacuum range improves process control
- Serviceable components reduce maintenance time and costs
- Flexible communication options enable easy integration into existing systems
- Cost-effective multi-sensor solution reduces overall system expenses
- Optional display allows immediate local reading without additional equipment
Why Choose the MKS 972B Cold Cathode Transducer?
The MKS 972B DualMag vacuum transducer offers a highly compact, multi-sensor solution that combines advanced sensor technologies to cover ultra-high to atmospheric pressure ranges. Its versatile communication options, user serviceability, and optional display make it the ideal choice for demanding applications requiring reliable, accurate vacuum measurement and control in limited spaces.
