Powered gas monitor with engineering units display and alarm
LEDs. Certified for use in hazardous areas
Allows non-intrusive "one-man" sensor calibration
in hazardous areas without area declassification.
Requires only a simple magnetic wand.
No other special electronic
devices are needed.
CSA certified for Div. 1 & 2 Groups B, C, D hazardous
areas AND C22.2 No. 152 for LEL Combustible Monitors.
"END OF SENSOR LIFE" feature warns when sensors
are nearing time for replacement. Offset & gain calibration
values may be seen on the LCD for tracking sensor degradation
with age.
Provides continuous digital readout of the engineering units
monitored by the sensor.
Universal sensor head accepts "plug-in" sensor modules
allowing field replacement of sensors without wiring changes.
4-20mA output sends constant 1.5mA "In Cal" signal
during calibration periods.
1 minute "Power-Up" & "Post Cal" Delay
Modes lock 4-20mA output at 4mA to allow sensor stabilization
and prevent erroneous alarm trips.
Standard "Fault Supervision" circuitry continuously
monitors for failed sensor or missing sensor. 4-20mA output
transmits 0mA during Faults.
Standard M1 models include the M1/LEL for catalytic bead LEL
sensors, the M1/EC for electrochemical sensors and the M1/mA
for 4-20mA inputs.
Available options include isolated 4-20mA output, 5 amp form
"C" HIGH - WARN - FAULT alarm contacts and RS-485
Modbus® interface.
Model M1 Non-Intrusive Gas Monitor detects combustibles,
many toxics or oxygen gas concentrations and displays them
in engineering units on a 3½ digit LCD readout. Sensors
plug into a universal sensor head and are easy to replace.
Modbus® RS-485, 3 alarm levels and isolated 4-20mA options
allow the M1 to solve most application interface requirements.
Nonintrusive magnetic zero/span controls allow one-man calibration
without opening the enclosure. Nonvolatile memory retains
all calibration values during power loss. Any "Power
On" or "CAL Exit" is followed by a 1-minute
delay where the 4-20mA output is locked at 4mA to prevent
false alarm trips.
Offset & gain readings are stored and may be seen on
the LCD for tracking sensor degradation. As sensors age they
lose sensitivity and require higher gain values. Tracking
this effect provides useful data for determining when to replace
the sensor. A "End of Sensor Life" feature activates
as gain values exceed a threshold.
Three M1 models are available. The M1/LEL accepts catalytic
bead combustible detectors and the M1/EC accepts electro-chemical
sensors. The M1/mA accepts 4-20mA inputs. Each provide calibrated
4-20mA outputs. M1/LEL and M1/EC models include the universal
¾ inch N.P.T. sensor head capable of accepting all
GDS Corp. sensors. The M1/mA accepts 4-20mA inputs and is
commonly interfaced with "blind" monitors.
A "Unity" control resets ZERO and SPAN settings
to the middle of their range. This sets offset to zero and
gain to one. From unity, the zero controls have a range of
+ 15% and the span controls from .5-2. Diagnostic messages
on the LCD indicate modes such FAULT, CAL, DELAY and ESL (end
of sensor life).
Simrad GD10P - IR point
The ultimate Infra-Red point detector with versions
covering a wide range of combustible gases. GD10P may be stand-alone,
duct mounted, or used in sampling systems.
The ultimate Infra-Red point detector with versions covering
a wide range of combustible gases. GD10P may be stand-alone,
duct mounted, or used in sampling systems.
GD10P has proven its advantages in numerous North-Sea offshore
installations: Safe, reliable and low maintenance.
Features:
Life-time stability
The SimSource infrared light source is a solid-state component
with a stable output and 60years of expected lifteime. This,
together with the Simrad Optonics IR-path design gives you
a detector with unparallelled stability.
No false alarms
Unlike most gas detectors in use today, the GD10P will give
an error signal and not cause gas alarms in case of detector
failure.
No poisioning or saturation
- Immune to silicon vapours, H2S and other widely used agents.
- High gas concentrations will not saturate the detector.
- Can be used to detect gases where oxygen is not present,
e.g. in sub-sea production units
Low maintenance costs
GD10P requires no regular field maintenance, apart from cleaning
the optics. It has a fixed factory calibration, and is not
recalibrated during its lifetime.
Applications:
Refineries
Arrays of GD10P is used for fast detection and reliable location
of leaks. Only point detectors are able to do this, and the
GD10P point detector does it better.
Chemical industry
GD10P is available in versions detecting different gases,
is well suited for sampling systems and is well protected
for use in rough environments. Safe detection in industrial
plants is not a lightweight task.
Specification:
GENERAL
Detection range: Standard: 0 - 100% LEL (0-5% Vol) Methane
Option: 0 100% Volume Methane.
Response time: T20=1 sec, T50=2.5 sec, T90=6 sec
Lifetime stability: Better than +/-5% of full scale reading
(No recalibration)
Accuracy: 0-50% reading: Better than +/-3% of full scale reading
50-100% reading: Better than +/-5% of full scale reading
Other versions: Carbondioxide (CO2)
Hexane (C6H14)
Isobuthane (C4H10)
Metanol (CH4O)
n-Butane (C4H10)
Propane (C3H8)
Pentane (C5H12)
Ethylene (C2H4)
Other gas versions and detection ranges also available.
Technology: Dual source, dual path, infrared detection.
OUTPUT SIGNAL
Interface: 4-20mA Current loop, source or sink
ELECTRICAL
Power Supply: 24 VDC (18 - 32VDC), 3,5W
ENVIRONMENTAL
Temperature: Operating, standard: -20 to +45 degC
Operating, option: -40 to +60 degC
Humidity: 99% RH non-condensing
HOUSING
Protection: Main compartment: EExd IIC T6
Terminal compartment: EExe
General: IP66/IP67 DIN 40050
Certification: According to ATEX Directive 94/9/EC
Other approvals available.
WARRANTY
Instument:
IR-Source 5 years
15 years on the Simsource (TM)
Model M1 Toxic / Combustible Gas Monitor 
Simrad GD10P - IR point
The ultimate Infra-Red point detector with versions
covering a wide range of combustible gases. GD10P may be stand-alone,
duct mounted, or used in sampling systems.
