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Gamme de produits » EMS 5300
EMS 5300

The Model 5300 Oxygen System
is a Microprocessor based oxygen measuring/control system for combustion efficiency.
The 5300 utilizes filed proven microprocessor technology and dual on board, nonvolatile RAM. Each unit contains a primary and backup memory with auto load capability. Intuitive "Blockware" configuration language is standard. Functions (AIN, PD, LOALM,F (x)�) are simply copied into configuration, and then the control signal is "wired" from block to block. Blockware can be edited from the front panel or with a link to PC3-edit software. Factory burn-in of each unit insures trouble free installation. The microprocessor flexibility allows the system to be tailored to the customers needs. Daily auto calibration checks to meet EPA requirement, customer selectable alarm set points and delay time. Alarm acknowledgment, channel display are easily accessed from the front panel controls. Optional configuration for Dual fuel (Oil/Gas) Single Point Positioning (Jackshaft) or Fuel-Air Ration Control, Parallel Positioning O2 Trim. Custom configurations are available.

The Model 2100 In-Situ probe for gas process temperature up to 1400OF (790OC)
Consisting of a zirconium oxide fuel sensor mounted in a heavy-duty probe with lengths from 12" to 12 feet (0.5 to 6 meters), electronics in a NEMA 12 enclosure. The probes are designed to provide accurate, continuous oxygen measurements on a long-term basis with a minimum of maintenance. In the event of a component failure, the probe can be easily disassembled in the field, and the fuel cell sensor, heater, and temperature sensor assembly can be quickly and easily replaced. Costly downtime awaiting factory repairs can be avoided.
For Hazardous location applications a Class I, Group C&D, Class II, Groups E, F&G enclosure is available

Model 3200 Ex-Situ probe is used when process gas exceeds 1500 OF (800 OC).
The Inconel 600 or Ceramic probe 12-36 inch (30-92cm) uses aspiration air to draw the process gasses to the cell located just outside the process stream. Maximum process gas temperatures up to 3000OF (1650OC)can be analyzed. In the event of a component failure, the probe can be easily disassembled in the field, and the fuel cell sensor, heater, and temperature sensor assembly the same as used in the Model 2100 probe can be quickly and easily replaced.