Gas Analyzers : Stanford Research UGA100

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Stanford Research UGA100
放大图片Stanford Research UGA100

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100amu Universal Gas Analyzer

The UGA Series Universal Gas Analyzers are state-of-the-art bench top mass spectrometers that operate from above atmospheric pressure to UHV. They are ideal for on-line monitoring and analysis of gas mixtures. Whether you’re measuring trace-level contaminants, solvents, hydrocarbons, refrigerants or corrosive gases, your UGA analyzer is up to the task.
UGA applications include semiconductor exhaust gas monitoring, glove box analysis, fuel cell studies, Freon detection, pollution monitoring, fermentation studies and general R&D vacuum analysis.
These analyzers are also simple to operate and maintain. The chassis design allows the instrument to be operated vertically or horizontally, and both front-panel and computer operation are supported.

Principle of operation
The UGA system uses a two-stage pressure reducing inlet to sample gases at atmospheric pressure. After the pressure is reduced to around 10-6 Torr, the gas stream is sent to a mass spectrometer (residual gas analyzer - RGA) which measures the concentration of each mass of interest.
The UGA Windows software provides a graphical user interface for complex graphing and data analysis. The software also allows remote control of the system’s valves, heaters and pumps.
For gas sampling in the range of 10-1 to 10-4 Torr, the vacuum inlet assembly is used. Simply attach a
2 ¾” CF to ¼” tube adapter to one of the CF ports, and adjust the length of the tube for the inlet pressure.
Direct access to the RGA is provided for UHV applications (<10-4 Torr). Any of the 2 ¾” CF ports of the vacuum inlet assembly can be used to connect to your vacuum chamber.

Multi-capillary inlet
An optional multi-port sampling inlet consists of 16 manifold-mounted valves that can be used with a variety of capillaries.

Heated chamber
The UGA system is equipped with individual heaters for the vacuum chamber (including RGA), the turbo pump connector, and the vacuum inlet assembly. During bakeout, the system can be heated to 120 C.

Dual-diaphragm pumps
Separate diaphragm pumps are used to handle the bypass flow and backing of the turbo pump. This architecture allows corrosive gases (chlorine, fluorine, etc.) to be analyzed without damaging the RGA and turbo pump, and virtually eliminates the problem of back streaming. Measuring high concentrations of low mass gases (hydrogen, helium, etc.) is no longer a problem.

Turbo pump venting
An optional valve and inlet to the turbo pump’s exhaust is available for users who wish to vent with dry nitrogen (or other inert gases). This keeps the pump free from water and other contaminants present in air.

Using your UGA
The UGA system can be controlled from the front-panel or from a computer. A choice of manual or auto-control of all system components is provided.
Data is measured and displayed using the UGA software. The intuitive user interface allows measurements to be made quickly and easily. Data is captured and displayed in real-time, or scheduled for acquisition at a specified time.
Features include analog and histogram scan modes, pressure vs. time plots, leak detection, gas library, and on-line help.
RGA parameters can also be controlled and monitored through a high-level ASCII command set. Standard RS-232 and Ethernet interfaces are used as the data link to your PC.

Best value
The UGA Analyzers offer the best value of any system currently available. They provide more performance, better features, and are priced well below the competition.

  • 制造商: Stanford Research
  • 模型: UGA100