Related to "medical equipment providers"

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

The Rugged Monitoring O201 is a compact design, designed for reliability to operate in extreme EMI, RFI, Microwave and high voltage environments. The O201 Fiber optic monitor combines reliability and user friendly configuration software.  It is a multi-channel fiber optic temperature monitor with precision measurement for Original Equipment manufacturers. The O201 has a measuring range from -271 °C to +300 °C. The system offers complete immunity to RFI, EMI, microwave radiation, and High Voltages  making it an optimal choice  for environments where the limitations of conventional temperature sensors/ monitors impact usage in extreme conditions. The system is based on proven GaAs technology  and designed for Plug and Play operation.

The O201 is designed to collect data and easy to integrate into existing systems through serial communication like RS-485 or analog outputs like 0-10 V / 4-20 mA. The O201 supports Modbus, CANbus protocols and a system fault relay. The module is designed with capability to add additional application logic for customer specific applications. It is designed with the needs of Monitoring, Test platforms or Industrial Process monitoring integration needs. It has the data integration capability of multiple test platforms.  Industry standard drivers availlable for a quick and easy connect to most popular laboratories softwares. There is a dedicated team for application specific customizations for fiber optic sensors,  monitor configuration and software integration to simplify the data collection of testing and monitoring applications.  

Description:

The Rugged Monitoring O201 is a compact design, designed for reliability to operate in extreme EMI, RFI, Microwave and high voltage environments. The O201 Fiber optic monitor combines reliability and user friendly configuration software.  It is a multi-channel fiber optic temperature monitor with precision measurement for Original Equipment manufacturers. The O201 has a measuring range from -271 °C to +300 °C. The system offers complete immunity to RFI, EMI, microwave radiation, and High Voltages  making it an optimal choice  for environments where the limitations of conventional temperature sensors/ monitors impact usage in extreme conditions. The system is based on proven GaAs technology  and designed for Plug and Play operation.

The O201 is designed to collect data and easy to integrate into existing systems through serial communication like RS-485 or analog outputs like 0-10 V / 4-20 mA. The O201 supports Modbus, CANbus protocols and a system fault relay. The module is designed with capability to add additional application logic for customer specific applications. It is designed with the needs of Monitoring, Test platforms or Industrial Process monitoring integration needs. It has the data integration capability of multiple test platforms.  Industry standard drivers availlable for a quick and easy connect to most popular laboratories softwares. There is a dedicated team for application specific customizations for fiber optic sensors,  monitor configuration and software integration to simplify the data collection of testing and monitoring applications.  

Related Keyphrases:

O201 Fiber optic monitor combines reliability | Industrial Process monitoring integration needs | application specific customizations | Industry standard drivers availlable | fiber optic temperature monitor | friendly configuration software | customer specific applications | data integration capability | Original Equipment manufacturers | popular laboratories softwares | additional application logic | high voltage environments | conventional temperature | monitoring applications | monitor configuration

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Description:

Increasing automation and centralization in all industries has created a need for having a flexible and expandable monitoring system that can collect data from large number of different sensors and provide a single visualization and control platform. 

The Rugged Monitoring R501 is designed with built-in flexibility and upgradability to accommodate for the changing needs of customers. The R501 solution provides real time monitoring of fiber optic temperature and many other parameters such as, Pressure, AC Current, AC Voltage, DC Current, DC Voltage, Binary Inputs etc. Different kinds of input/output (IO) modules (Analog Input, Digital Input, Analog Output, Digital Output) are available to fit into the chassis. It supports both rack mount and distributed installation. The R501 chassis can be installed into customer control panel providing flexibility to test/monitor up to 256 sensors. The FO modules and other IO modules can also be installed independently (Dinrail mount) and daisy chained to the central CPU module communicating over CANBUS/MODBUS. Distributed modules can also be directly connected to customer datalogger for high resolution data logging e.g. CAN-Logger. Advance ‘Rugged Connect’ software is available along with the R501 for data visualization, configuration and reporting.

It can be used in a wide range of applications including Aviation, Automotive, Cryogenic, Battery Bank/Racks, Medical, Semiconductors, Utilities, and R&D. It's wide measuring range (-271 °C to +300 °C), high precision and complete immunity to RFI, EMI, microwave radiation, and high voltages make it an obvious choice for temperature measurement in extreme conditions.

Related Keyphrases:

expandable monitoring system | Rugged Monitoring R501 | fiber optic temperature | high resolution data | customer control panel | s wide measuring range | temperature measurement | Distributed modules | data visualization | single visualization | real time monitoring | customer datalogger | different sensors | central CPU module | complete immunity

Description:

Predictive maintenance (PdM) techniques are designed to help determine the condition of in-service equipment in order to estimate when maintenance should be performed. This approach promises cost savings over routine or time-based preventive maintenance, because tasks are performed only when warranted. Thus, it is regarded as condition-based maintenance carried out as suggested by estimations of the degradation state of an item.[1][2] The main promise of predictive maintenance is to allow convenient scheduling of corrective maintenance, and to prevent unexpected equipment failures. The key is "the right information in the right time". By knowing which equipment needs maintenance, maintenance work can be better planned (spare parts, people, etc.) and what would have been "unplanned stops" are transformed to shorter and fewer "planned stops", thus increasing plant availability. Other potential advantages include increased equipment lifetime, increased plant safety, fewer accidents with negative impact on environment, and optimized spare parts handling.

Related Keyphrases:

prevent unexpected equipment failures | equipment needs maintenance | increased equipment lifetime | corrective maintenance | Predictive maintenance | preventive maintenance | maintenance work | increased plant safety | potential advantages | plant availability | right information | approach promises | degradation state | allow convenient | fewer accidents

Predictive maintenance differs from preventive maintenance because it relies on the actual condition of equipment, rather than average or expected life statistics, to predict when maintenance will be required.

Some of the main components that are necessary for implementing predictive maintenance are data collection and preprocessing, early fault detection, fault detection, time to failure prediction, maintenance scheduling and resource optimization.[3] Predictive maintenance has also been considered to be one of the driving forces for improving productivity and one of the ways to achieve "just-in-time" in manufacturing.[4]

Description:

Predictive maintenance differs from preventive maintenance because it relies on the actual condition of equipment, rather than average or expected life statistics, to predict when maintenance will be required.

Some of the main components that are necessary for implementing predictive maintenance are data collection and preprocessing, early fault detection, fault detection, time to failure prediction, maintenance scheduling and resource optimization.[3] Predictive maintenance has also been considered to be one of the driving forces for improving productivity and one of the ways to achieve "just-in-time" in manufacturing.[4]

Related Keyphrases:

Predictive maintenance differs | preventive maintenance | expected life statistics | early fault detection | resource optimization | failure prediction | actual condition | main components | data collection | driving forces | manufacturing | productivity | equipment | necessary

Predictive maintenance evaluates the condition of equipment by performing periodic (offline) or continuous (online) equipment condition monitoring. The ultimate goal of the approach is to perform maintenance at a scheduled point in time when the maintenance activity is most cost-effective and before the equipment loses performance within a threshold. This results in a reduction in unplanned downtime costs because of failure where for instance costs can be in the hundreds of thousands per day depending on industry.[5] In energy production in addition to loss of revenue and component costs, fines can be levied for non delivery increasing costs even further. This is in contrast to time- and/or operation count-based maintenance, where a piece of equipment gets maintained whether it needs it or not. Time-based maintenance is labor intensive, ineffective in identifying problems that develop between scheduled inspections, and so is not cost-effective.

Description:

Predictive maintenance evaluates the condition of equipment by performing periodic (offline) or continuous (online) equipment condition monitoring. The ultimate goal of the approach is to perform maintenance at a scheduled point in time when the maintenance activity is most cost-effective and before the equipment loses performance within a threshold. This results in a reduction in unplanned downtime costs because of failure where for instance costs can be in the hundreds of thousands per day depending on industry.[5] In energy production in addition to loss of revenue and component costs, fines can be levied for non delivery increasing costs even further. This is in contrast to time- and/or operation count-based maintenance, where a piece of equipment gets maintained whether it needs it or not. Time-based maintenance is labor intensive, ineffective in identifying problems that develop between scheduled inspections, and so is not cost-effective.

Related Keyphrases:

unplanned downtime costs | Predictive maintenance | maintenance activity | perform maintenance | condition monitoring | identifying problems | component costs | energy production | instance costs | labor intensive | ultimate goal | equipment | non delivery | inspections | performance

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

Telemetry is an automated communications process by which measurements and other data are collected at remote or inaccessible points and transmitted to receiving equipment for monitoring.[1] The word is derived from Greek roots: tele = remote, and metron = measure. Systems that need external instructions and data to operate require the counterpart of telemetry, telecommand.[2]

Although the term commonly refers to wireless data transfer mechanisms (e.g., using radio, ultrasonic, or infrared systems), it also encompasses data transferred over other media such as a telephone or computer network, optical link or other wired communications like power line carriers. Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data.

telemeter is a device used to remotely measure any quantity. It consists of a sensor, a transmission path, and a display, recording, or control device. Telemeters are the physical devices used in telemetry. Electronic devices are widely used in telemetry and can be wireless or hard-wired, analog or digital. Other technologies are also possible, such as mechanical, hydraulic and optical.[3]

Telemetry may be commutated to allow the transmission of multiple data streams in a fixed frame.

Description:

Telemetry is an automated communications process by which measurements and other data are collected at remote or inaccessible points and transmitted to receiving equipment for monitoring.[1] The word is derived from Greek roots: tele = remote, and metron = measure. Systems that need external instructions and data to operate require the counterpart of telemetry, telecommand.[2]

Although the term commonly refers to wireless data transfer mechanisms (e.g., using radio, ultrasonic, or infrared systems), it also encompasses data transferred over other media such as a telephone or computer network, optical link or other wired communications like power line carriers. Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data.

telemeter is a device used to remotely measure any quantity. It consists of a sensor, a transmission path, and a display, recording, or control device. Telemeters are the physical devices used in telemetry. Electronic devices are widely used in telemetry and can be wireless or hard-wired, analog or digital. Other technologies are also possible, such as mechanical, hydraulic and optical.[3]

Telemetry may be commutated to allow the transmission of multiple data streams in a fixed frame.

Related Keyphrases:

wireless data transfer mechanisms | Many modern telemetry systems | multiple data streams | communications process | transmit telemetry | external instructions | Electronic devices | inaccessible points | power line carriers | transmission path | physical devices | computer network | control device | communications | optical link