MPS™ True LEL™ Explosives Gas Sensor 4.0 Downloads

MPS™ Flammable Gas 4.0 Sensor Datasheet:

Overview

NevadaNano’s MPS™ Flammable Gas Sensor 4.0 is the next generation of gas detection and quantification for worker safety and leak detection in drilling, transportation, and production of oil & gas and chemical products. The smart sensor quickly detects and accurately quantifies over a dozen gases and gas mixtures using a standard factory calibration. It has built-in environmental compensation and automatic self-testing for fail-safe operation. It is intrinsically safe, robust, and extremely poison resistant. Sensor readings are output on a digital bus or configurable analog output – no added electronics are required. With no field calibration required, the MPS™ Flammable Gas Sensor 4.0 delivers industry-leading performance and a low cost of ownership.

Features

gas sensor
MPS S4 Flammable Sensor ATEX - FM

Gas Classification

The old way: Conventional sensing technologies (e.g. catalytic bead, NDIR) use a “k-factor” multiplier to convert raw sensor signals to gas concentrations in % LEL. These “k-factors” are based on known relative sensitivities of these sensors to different gases. A single “k-factor”, corresponding to a particular gas, must be selected manually during system setup; if the sensor is then exposed to a gas other than the one selected, significant errors in reported concentration can occur.

The MPS™ way: The MPS Flammable Gas Sensor 4.0 applies a real-time conversion factor automatically, using the latest measured thermal properties of the
ambient air/gas and the environmental conditions. The %LEL values reported for the bulk,
which may contain a mixture of gases, achieves the same high levels of accuracy achieved with single gases.

MPS K factor Gas Classification

MPS™ Mini Flammable Gas 4.0 Sensor Datasheet:

Overview

NevadaNano’s MPS™ Mini Flammable Gas Sensor 4.0 is the next generation of gas detection and quantification for worker safety and leak detection in drilling, transportation, and production of oil & gas and chemical products. The smart sensor quickly detects and accurately quantifies over a dozen gases and gas mixtures using a standard factory calibration. It has built-in environmental compensation and automatic self-testing for fail-safe operation. It is robust, and extremely poison resistant. Sensor readings are output on a digital bus or configurable analog output – no added electronics are required. With no field calibration required, the MPS™ Mini Flammable Gas Sensor 4.0 delivers industry-leading performance and a low cost of ownership.

Features

MPS S4 Flammable Sensor ATEX - FM

Gas Classification

The old way: Conventional sensing technologies (e.g. catalytic bead, NDIR) use a “k-factor” multiplier to convert raw sensor signals to gas concentrations in % LEL. These “k-factors” are based on known relative sensitivities of these sensors to different gases. A single “k-factor”, corresponding to a particular gas, must be selected manually during system setup; if the sensor is then exposed to a gas other than the one selected, significant errors in reported concentration can occur.

The MPS™ way: The MPS Flammable Gas Sensor 4.0 applies a real-time conversion factor automatically, using the latest measured thermal properties of the
ambient air/gas and the environmental conditions. The %LEL values reported for the bulk,
which may contain a mixture of gases, achieves the same high levels of accuracy achieved with single gases.

MPS K factor Gas Classification

MPS™ Flammable Gas Sensor 4.0 User Manual:

How the MPS™ Flammable Gas Sensor 4.0 Works

The MPS™ Flammable Gas Sensor 4.0 is a smart sensor with built-in environmental compensation that detects and accurately quantifies over a dozen gases as well as gas mixtures. It is intrinsically safe, robust, extremely poison-resistant, and calibrated for all gases by performing only a single calibration with methane. Sensor readings are output on a standard digital bus or industry-standard analog output.

The MPS™ transducer is a micro-machined membrane with an embedded Joule heater and resistance thermometer. The MEMS transducer is mounted on a PCB and packaged inside a filtered enclosure that is permeable to ambient air. Presence of a flammable gas causes changes in the thermodynamic properties of the air/gas mixture. These properties are measured by the transducer and processed by patented algorithms to report an accurate concentration and to classify the flammable gas.

Other sensing technologies (e.g. catalytic bead, NDIR) require a “k-factor” multiplier to convert raw sensor signals to gas concentrations in %LEL. These “k-factors” are based on known relative sensitivities of these sensors to different gases. A single “k-factor”, corresponding to a particular gas, must be selected manually during system setup; if the sensor is then exposed to a gas other than the one selected, significant errors in reported concentration occur.

In contrast, the MPS™ Flammable Gas Sensor 4.0 applies a real-time conversion factor automatically, using the latest measured thermal properties of the ambient air/gas and the environmental conditions. The %LEL values reported for the bulk, which may contain a mixture of gases, achieve the same high levels of accuracy achieved with single gases.

Scroll to Top

Please Complete to View Download

Name(Required)

Privacy is very important to us and we never share or sell any of our information with anyone. You can be secure knowing we value and always safeguard your data and online presence.

WEBINAR: Reduce LDAR costs & cut emissions with MethaneTrack™ USA | UAE/Europe
This is default text for notification bar