Detcon IR-622 User Manual

3.0 D

ESCRIPTION

Detcon MicroSafe™ Model IR-622, combustible hydorcarbon gas sensors are non-intrusive “Smart” sensors

designed to detect and monitor combustible hydorcarbon gas in air over the range of 0-100% lower explosive limit

(LEL). One of the primary features of the sensor is its method of automatic calibration which guides the user

through each step via instructions displayed on the backlit LCD. The sensor features f ield adjustable, fully program-

mable alarms and provides relays for two alarms plus fault as standard. The sensor comes with two different out-

puts: analog 4-20 mA, and serial RS-485. These outputs allow for greater f lexibility in system integration and instal-

lation. The microprocessor supervised electronics are packaged as a plug-in module that mates to a standard con-

nector board. Both are housed in an explosion proof condulet that includes a glass lens window which allows for

the display of sensor readings as well as access to the sensor’s menu driven features via a hand-held programming

magnet.

The sensor technology is a f ield proven “plug-in replaceable” non-dispersive infrared (NDIR) optical type. NDIR

optical sensors show an excellent response to a long list of combustible hydrocarbon gases. This technique is non-

selective and may be used for the detection and monitoring of many target combustible hydrocarbon gases. As

compared to catalytic bead sensors, with NDIR there is no risk of sensor poisoning, no risk of high concentration

saturation, and no need for O2 to be present. The NDIR type sensor is characteristically stable for both span and

zero and is capable of providing reliable performance with low maintenance requirements for periods approaching

5 years in most industrial environments.

3.0.1 Non-dispersive Infrared (NDIR) Optical Sensor

The Detcon NDIR sensor is designed as a miniature single piece “plug-in replaceable” component, which can easily be

changed out in the field. The NDIR sensor consists of an infrared lamp source, two pyroelectric detectors, and an

optical gas sample cavity. The lamp source produces infrared radiation which interacts with the target gas as it travels

through the optical gas sample cavity. The infrared radiation contacts each of two pyroelectric detectors at the comple-

tion of the optical path. The “active” pyroelectric detector is covered by a filter specific to the part of the IR spectrum

where the target gas absorbs light. The “reference” pyroelectric detector is covered by a filter specific to the non-

absorbing part of the IR spectrum. When the target gas is present, it absorbs IR radiation and the signal output from

the “active” pyroelectric detector decreases accordingly while the “reference” detector output remains unchanged. The

ratio of the “active” and “reference” detector outputs is then used to compute the target gas concentration.

Detcon Model IR-622 Combustible Hydrocarbon Sensor PG.3