Related to "quality controladvantages"

The Rugged Monitoring O201 is a compact design, din-rail mount and standalone OEM module that can be easily installed along with the devices / machines and be used for various applications that require fiber optic temperature sensors.

The O201 is based on proven GaAs (Gallium Arsenide) technology of fiber optic temperature measurement. It is a multi-channel fiber optic temperature monitor that comes into 4 options i.e. 02 channels, 04 channels, 06 channels and 08 channels. Up to 32 x O201 units can be connected in series (daisy chain distributed architecture) using Modbus, CANBUS or DNP3.0 protocols to make the total of 256 channel monitoring system.

The O201 fiber optic temperature monitor offers higher accuracy (0.2 Deg C, relative), with 100% repeatability, over a wide measurement range (-269 °C to +300 °C). The monitor does not need periodic calibrations and complex compensations while measuring the temperature under harsh conditions, EMI, RFI, Microwave and high voltage environments.

The O201 comes with advanced software, Rugged Connect, for data logging, visualization, configuration and reporting. The Rugged Connect software is common software being utilized for all fiber optic temperature monitors from RUGGED MONITORING. The system has built-in industry-standard data integration protocols for third party system integration using serial (RS485) and CAN ports. A new type of communication port and protocols can also be implemented upon request. Industry-standard drivers are also available for a quick connection to most popular laboratory software e.g. MATLAB, LabView, python etc.

The O201 system has one system fault relay that gets actuated in the event of any fault with the system. The system also has an option for integrated analog output card (up to 8 channels) for sending temperature information out to their party system in current (4-20mA) or Voltage (0-5V or 0-10V) signal format.

The O201 system is an ideal choice with higher ROI (Return on Investment) for the equipment manufacturers that need to have the flexibility to offer fiber optic temperature measurement feature into their machines /devices.

RUGGED MONITORING not only provides quality product and services to customers, but it also helps customers in faster hardware and software customization with the support of its highly skilled team that has more than 100 years of experience in Fiber optics.

Description:

The Rugged Monitoring O201 is a compact design, din-rail mount and standalone OEM module that can be easily installed along with the devices / machines and be used for various applications that require fiber optic temperature sensors.

The O201 is based on proven GaAs (Gallium Arsenide) technology of fiber optic temperature measurement. It is a multi-channel fiber optic temperature monitor that comes into 4 options i.e. 02 channels, 04 channels, 06 channels and 08 channels. Up to 32 x O201 units can be connected in series (daisy chain distributed architecture) using Modbus, CANBUS or DNP3.0 protocols to make the total of 256 channel monitoring system.

The O201 fiber optic temperature monitor offers higher accuracy (0.2 Deg C, relative), with 100% repeatability, over a wide measurement range (-269 °C to +300 °C). The monitor does not need periodic calibrations and complex compensations while measuring the temperature under harsh conditions, EMI, RFI, Microwave and high voltage environments.

The O201 comes with advanced software, Rugged Connect, for data logging, visualization, configuration and reporting. The Rugged Connect software is common software being utilized for all fiber optic temperature monitors from RUGGED MONITORING. The system has built-in industry-standard data integration protocols for third party system integration using serial (RS485) and CAN ports. A new type of communication port and protocols can also be implemented upon request. Industry-standard drivers are also available for a quick connection to most popular laboratory software e.g. MATLAB, LabView, python etc.

The O201 system has one system fault relay that gets actuated in the event of any fault with the system. The system also has an option for integrated analog output card (up to 8 channels) for sending temperature information out to their party system in current (4-20mA) or Voltage (0-5V or 0-10V) signal format.

The O201 system is an ideal choice with higher ROI (Return on Investment) for the equipment manufacturers that need to have the flexibility to offer fiber optic temperature measurement feature into their machines /devices.

RUGGED MONITORING not only provides quality product and services to customers, but it also helps customers in faster hardware and software customization with the support of its highly skilled team that has more than 100 years of experience in Fiber optics.

Related Keyphrases:

fiber optic temperature measurement feature | O201 fiber optic temperature monitor | fiber optic temperature monitors | third party system integration | one system fault relay | popular laboratory software | temperature information | data integration protocols | Rugged Monitoring O201 | Rugged Connect software | software customization | O201 system | wide measurement range | equipment manufacturers

Description:

The Rugged Monitoring Tsens probes have been designed and built so they can be incorporated in your transformers to give precise results (direct measurements of temperature). The sensing technology is based on the proven zero-drift GaAs technology. They are completely built using first quality materials, all with very high dielectric strength, so your transformers can benefit from accurate temperature readings, which is essential to a good knowledge of transformer aging rate. During a factory heatrun tests these probes will give to both transformer manufacturer and operator invaluable information regarding the transformer expected MVA performance. The patented tip construction makes them extremely robust, while being very easy to install in radial spacers or in other pressboard material (such as for temperature measurements in yokes or other transformer components). The spiral-wrap cable is especially constructed to allow complete oil penetration so you can be assured that no air can be present. All materials used in the probe construction are compatible with high temperature kerosene desoprtion processes.

Related Keyphrases:

high temperature kerosene desoprtion processes | accurate temperature readings | operator invaluable information | allow complete oil penetration | temperature measurements | transformer manufacturer | high dielectric strength | transformer components | first quality materials | Monitoring Tsens probes | factory heatrun tests | direct measurements | probe construction | tip construction | GaAs technology

The Rugged Monitoring O201 is a compact design, din-rail mount and standalone OEM module that can be easily installed along with the devices / machines and be used for various applications that require fiber optic temperature sensors.

The O201 is based on proven GaAs (Gallium Arsenide) technology of fiber optic temperature measurement. It is a multi-channel fiber optic temperature monitor that comes into 4 options i.e. 02 channels, 04 channels, 06 channels and 08 channels. Up to 32 x O201 units can be connected in series (daisy chain distributed architecture) using Modbus, CANBUS or DNP3.0 protocols to make the total of 256 channel monitoring system.

The O201 fiber optic temperature monitor offers higher accuracy (0.2 Deg C, relative), with 100% repeatability, over a wide measurement range (-269 °C to +300 °C). The monitor does not need periodic calibrations and complex compensations while measuring the temperature under harsh conditions, EMI, RFI, Microwave and high voltage environments.

The O201 comes with advanced software, Rugged Connect, for data logging, visualization, configuration and reporting. The Rugged Connect software is common software being utilized for all fiber optic temperature monitors from RUGGED MONITORING. The system has built-in industry-standard data integration protocols for third party system integration using serial (RS485) and CAN ports. A new type of communication port and protocols can also be implemented upon request. Industry-standard drivers are also available for a quick connection to most popular laboratory software e.g. MATLAB, LabView, python etc.

The O201 system has one system fault relay that gets actuated in the event of any fault with the system. The system also has an option for integrated analog output card (up to 8 channels) for sending temperature information out to their party system in current (4-20mA) or Voltage (0-5V or 0-10V) signal format.

The O201 system is an ideal choice with higher ROI (Return on Investment) for the equipment manufacturers that need to have the flexibility to offer fiber optic temperature measurement feature into their machines /devices.

RUGGED MONITORING not only provides quality product and services to customers, but it also helps customers in faster hardware and software customization with the support of its highly skilled team that has more than 100 years of experience in Fiber optics.

Description:

The Rugged Monitoring O201 is a compact design, din-rail mount and standalone OEM module that can be easily installed along with the devices / machines and be used for various applications that require fiber optic temperature sensors.

The O201 is based on proven GaAs (Gallium Arsenide) technology of fiber optic temperature measurement. It is a multi-channel fiber optic temperature monitor that comes into 4 options i.e. 02 channels, 04 channels, 06 channels and 08 channels. Up to 32 x O201 units can be connected in series (daisy chain distributed architecture) using Modbus, CANBUS or DNP3.0 protocols to make the total of 256 channel monitoring system.

The O201 fiber optic temperature monitor offers higher accuracy (0.2 Deg C, relative), with 100% repeatability, over a wide measurement range (-269 °C to +300 °C). The monitor does not need periodic calibrations and complex compensations while measuring the temperature under harsh conditions, EMI, RFI, Microwave and high voltage environments.

The O201 comes with advanced software, Rugged Connect, for data logging, visualization, configuration and reporting. The Rugged Connect software is common software being utilized for all fiber optic temperature monitors from RUGGED MONITORING. The system has built-in industry-standard data integration protocols for third party system integration using serial (RS485) and CAN ports. A new type of communication port and protocols can also be implemented upon request. Industry-standard drivers are also available for a quick connection to most popular laboratory software e.g. MATLAB, LabView, python etc.

The O201 system has one system fault relay that gets actuated in the event of any fault with the system. The system also has an option for integrated analog output card (up to 8 channels) for sending temperature information out to their party system in current (4-20mA) or Voltage (0-5V or 0-10V) signal format.

The O201 system is an ideal choice with higher ROI (Return on Investment) for the equipment manufacturers that need to have the flexibility to offer fiber optic temperature measurement feature into their machines /devices.

RUGGED MONITORING not only provides quality product and services to customers, but it also helps customers in faster hardware and software customization with the support of its highly skilled team that has more than 100 years of experience in Fiber optics.

Related Keyphrases:

fiber optic temperature measurement feature | O201 fiber optic temperature monitor | fiber optic temperature monitors | third party system integration | one system fault relay | popular laboratory software | temperature information | data integration protocols | Rugged Monitoring O201 | Rugged Connect software | software customization | O201 system | wide measurement range | equipment manufacturers

Description:

The Rugged Monitoring Tsens probes have been designed and built so they can be incorporated in your transformers to give precise results (direct measurements of temperature). The sensing technology is based on the proven zero-drift GaAs technology. They are completely built using first quality materials, all with very high dielectric strength, so your transformers can benefit from accurate temperature readings, which is essential to a good knowledge of transformer aging rate. During a factory heatrun tests these probes will give to both transformer manufacturer and operator invaluable information regarding the transformer expected MVA performance. The patented tip construction makes them extremely robust, while being very easy to install in radial spacers or in other pressboard material (such as for temperature measurements in yokes or other transformer components). The spiral-wrap cable is especially constructed to allow complete oil penetration so you can be assured that no air can be present. All materials used in the probe construction are compatible with high temperature kerosene desoprtion processes.

Related Keyphrases:

high temperature kerosene desoprtion processes | accurate temperature readings | operator invaluable information | allow complete oil penetration | temperature measurements | transformer manufacturer | high dielectric strength | transformer components | first quality materials | Monitoring Tsens probes | factory heatrun tests | direct measurements | probe construction | tip construction | GaAs technology

Description:

Advantages of Fiber Optics: Fiber optic monitoring in wood drying provides significant benefits to traditional methods    


  • Test certificates for customer specification compliance    
  • Fiber optic sensors are immune to RF/ Microwave
  • Avoid RF waves burning the center of the beam
  • Continuous Monitoring for quality control  

Products used for this solution: Rugged Monitoring Products used in these applications 


  • Monitors: T 301
  • Sensors: Lsens – T, Rugged capillary
  • Software: Rugged Connect



Related Keyphrases:

customer specification compliance | Rugged Monitoring Products | beamContinuous Monitoring | Rugged capillarySoftware | Fiber optic monitoring | Fiber optic sensors | significant benefits | traditional methods | MicrowaveAvoid RF | Test certificates | quality control | Rugged Connect | MicrowaveAvoid | T 301Sensors | applications

Description:

Why Wood drying

In the wood industry, wood is dried

• Remove moisture

• Improve structural integrity to avoid damage from shrinkage

• Control the color, shape

• Elimination of living organisms like insects and parasites.

Advantages of Microwave/RF Drying

• Fast drying ( 2 days in a Kiln instead of 2 month in the back yard ) 

• The most homogeneous drying process

• Minimize danger of cracks, shape and changing the color of wood

• Avoiding burning the center of the beam


Chemical free

• Methyl bromide (MeBr) has been widely used to decontaminate wood infected by living organisms.

• MeBr is highly toxic and depletes the stratospheric ozone layer, the use of Microwave is non toxic and eco friendly

Typical Customers

• Wood processors

• Wood Exporters

• Furniture manufacturers

• Shipping material providers

Advantages of Fiber Optics

Fiber optic monitoring in wood drying provides significant benefits to traditional methods

• Test certificates for customer specification compliance

• Fiber optic sensors are immune to RF/ Microwave

• Avoid RF waves burning the center of the beam

• Continuous Monitoring for quality control

Advantages of Fiber Optics

Fiber optic monitoring in wood drying provides significant benefits to traditional methods


• Sensors 

• Monitors

• Softwarea






Related Keyphrases:

Fiber OpticsFiber optic monitoring | customer specification compliance | Improve structural integrity | material providersAdvantages | stratospheric ozone layer | friendlyTypical Customers | quality controlAdvantages | decontaminate wood | Fiber optic sensors | Furniture manufacturers | significant benefits | Continuous Monitoring | traditional methods | bull | wood industry

Description:

The Rugged Monitoring Tsens probes have been designed and built so they can be incorporated in your transformers to give precise results (direct measurements of temperature). The sensing technology is based on the proven zero-drift GaAs technology. They are completely built using first quality materials, all with very high dielectric strength, so your transformers can benefit from accurate temperature readings, which is essential to a good knowledge of transformer aging rate. During a factory heatrun tests these probes will give to both transformer manufacturer and operator invaluable information regarding the transformer expected MVA performance. The patented tip construction makes them extremely robust, while being very easy to install in radial spacers or in other pressboard material (such as for temperature measurements in yokes or other transformer components). The spiral-wrap cable is especially constructed to allow complete oil penetration so you can be assured that no air can be present. All materials used in the probe construction are compatible with high temperature kerosene desoprtion processes.

Related Keyphrases:

high temperature kerosene desoprtion processes | accurate temperature readings | operator invaluable information | allow complete oil penetration | temperature measurements | transformer manufacturer | high dielectric strength | transformer components | first quality materials | Monitoring Tsens probes | factory heatrun tests | direct measurements | probe construction | tip construction | GaAs technology

Description:

The Rugged Monitoring Tsens probes have been designed and built so they can be incorporated in your transformers to give precise results (direct measurements of temperature). The sensing technology is based on the proven zero-drift GaAs technology. They are completely built using first quality materials, all with very high dielectric strength, so your transformers can benefit from accurate temperature readings, which is essential to a good knowledge of transformer aging rate. During a factory heatrun tests these probes will give to both transformer manufacturer and operator invaluable information regarding the transformer expected MVA performance. The patented tip construction makes them extremely robust, while being very easy to install in radial spacers or in other pressboard material (such as for temperature measurements in yokes or other transformer components). The spiral-wrap cable is especially constructed to allow complete oil penetration so you can be assured that no air can be present. All materials used in the probe construction are compatible with high temperature kerosene desoprtion processes.

Related Keyphrases:

high temperature kerosene desoprtion processes | accurate temperature readings | operator invaluable information | allow complete oil penetration | temperature measurements | transformer manufacturer | high dielectric strength | transformer components | first quality materials | Monitoring Tsens probes | factory heatrun tests | direct measurements | probe construction | tip construction | GaAs technology

Description:

The Rugged Monitoring Tsens probes have been designed and built so they can be incorporated in your transformers to give precise results (direct measurements of temperature). The sensing technology is based on the proven zero-drift GaAs technology. They are completely built using first quality materials, all with very high dielectric strength, so your transformers can benefit from accurate temperature readings, which is essential to a good knowledge of transformer aging rate. During a factory heatrun tests these probes will give to both transformer manufacturer and operator invaluable information regarding the transformer expected MVA performance. The patented tip construction makes them extremely robust, while being very easy to install in radial spacers or in other pressboard material (such as for temperature measurements in yokes or other transformer components). The spiral-wrap cable is especially constructed to allow complete oil penetration so you can be assured that no air can be present. All materials used in the probe construction are compatible with high temperature kerosene desoprtion processes.

Related Keyphrases:

high temperature kerosene desoprtion processes | accurate temperature readings | operator invaluable information | allow complete oil penetration | temperature measurements | transformer manufacturer | high dielectric strength | transformer components | first quality materials | Monitoring Tsens probes | factory heatrun tests | direct measurements | probe construction | tip construction | GaAs technology

Description:

The Rugged Monitoring Tsens probes have been designed and built so they can be incorporated in your transformers to give precise results (direct measurements of temperature). The sensing technology is based on the proven zero-drift GaAs technology. They are completely built using first quality materials, all with very high dielectric strength, so your transformers can benefit from accurate temperature readings, which is essential to a good knowledge of transformer aging rate. During a factory heatrun tests these probes will give to both transformer manufacturer and operator invaluable information regarding the transformer expected MVA performance. The patented tip construction makes them extremely robust, while being very easy to install in radial spacers or in other pressboard material (such as for temperature measurements in yokes or other transformer components). The spiral-wrap cable is especially constructed to allow complete oil penetration so you can be assured that no air can be present. All materials used in the probe construction are compatible with high temperature kerosene desoprtion processes.

Related Keyphrases:

high temperature kerosene desoprtion processes | accurate temperature readings | operator invaluable information | allow complete oil penetration | temperature measurements | transformer manufacturer | high dielectric strength | transformer components | first quality materials | Monitoring Tsens probes | factory heatrun tests | direct measurements | probe construction | tip construction | GaAs technology