Emerson F-SERIES SENSOR installation manual Wiring, Core processor to a 4-wire remote transmitter

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Wiring

Step 4 Wiring

Improperly sealed housings can expose electronics to moisture, which can cause measurement error or flowmeter failure. Inspect and grease all gaskets and O-rings. Fully close and tighten all housing covers and conduit openings.

Installation options

The sensor has one of the following electronics configurations:

An integral Model 1700/2700 or IFT9701 transmitter. No wiring is required between the sensor and the transmitter. Skip to Grounding on page 19.

A core processor to a 4-wire remote transmitter (requires 4-wire cable); see Core processor to a 4-wire remote transmitter, below.

A core processor to a remote host (requires 4-wire cable); refer to the Micro Motion MVDDirect ConnectFlowmeter Installation Manual.

A junction box to a 9-wire remote transmitter (requires 9-wire cable); see Junction box to a 9-wire remote transmitter or remote core processor on page 18.

Core processor to a 4-wire remote transmitter

Follow the steps below to connect the 4-wire cable between the core processor and the transmitter.

1.Use one of the following methods to shield the wiring from the core processor to the transmitter:

If you are installing unshielded wiring in continuous metallic conduit that provides 360° termination shielding for the enclosed wiring, go to page 17 (step 6 of the wiring procedure).

If you are installing a user-supplied cable gland with shielded cable or armored cable, terminate the shields in the cable gland. Terminate both the armored braid and the shield drain wires in the cable gland. Never connect the drain wires to the internal ground screw of the core processor. Go to page 17 (step 6 of the wiring procedure).

If you are installing a Micro Motion-supplied cable gland at the core processor housing:

-Prepare the cable and apply shielded heat shrink as described below. The shielded heat shrink provides a shield termination suitable for use in the gland when using cable whose shield consists of foil and not a braid. Proceed to step 2 of the wiring procedure, below.

-With armored cable, where the shield consists of braid, prepare the cable as described below, but do not apply heat shrink. Proceed to step 2 of the wiring procedure, below.

2.Remove the cover from the core processor housing.

3.Slide the gland nut and the clamping insert over the cable.

Sensor Installation: F-Series

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Contents Micro Motion Series Sensor Page Before You Begin Customer serviceTroubleshooting Installation options Specifications DefinitionsEuropean installations Series sensor with core processor Before You Begin Series sensor with junction box Series sensor with integrally mounted IFT9701 transmitter Before You Begin Determining a Location Hazardous area installationsFull flow tubes Environmental limitsMount electronics remotely use junction box 176 140 Maximum process temperature in F C UL and CSA ambient temperature limitsMaximum cable lengths Maximum wiring distancesPipe run ValvesSelf-draining applications Orienting the SensorFlow direction arrow Vertical pipelineMounting an F-Series sensor Mounting the SensorElectronics mounting for high-temperature F-Series sensors Core processor to a 4-wire remote transmitter WiringMicro Motion cable gland and heat shrink Applying the heat shrink Connecting the wires at the core processor Grounding Pressure Ratings at High TemperaturesSeries pressure ratings at high temperatures Removing a purge plug Case purging procedurePurge Fittings Purge rate Time Sensor model Time required to purge F-Series sensor casesUsed equipment Return PolicyNew and unused equipment Page 20002298

F-SERIES SENSOR specifications

The Emerson F-Series Sensor is an innovative solution designed to enhance industrial processes through precise monitoring and control. Engineered for reliability and accuracy, the F-Series Sensor offers important features and technologies that cater to a wide range of applications, including temperature, pressure, and level measurement.

One of the standout characteristics of the F-Series is its exceptional measurement accuracy. The sensor provides high fidelity data essential for real-time monitoring, which can significantly improve process efficiency and safety. With an accuracy rating that meets or exceeds industry standards, the F-Series Sensor is designed to minimize operational risks while maximizing compliance with regulatory requirements.

Durability is another hallmark of the Emerson F-Series Sensor. Built with robust materials that resist corrosion and damage from harsh environments, the F-Series ensures longevity and consistent performance even in challenging conditions. This resilience is crucial for industries such as oil and gas, chemical processing, and water treatment, where sensors are exposed to extreme temperatures and pressures.

One of the key technologies integrated into the F-Series is predictive diagnostics. By utilizing advanced algorithms, the sensor can perform self-checks and predict potential failures before they occur. This proactive approach helps reduce maintenance costs and downtime, ensuring that operations can continue smoothly with minimal interruptions.

Moreover, the F-Series Sensor supports seamless integration with Emerson’s advanced automation systems. This compatibility allows for enhanced data analytics and visualization, empowering operators to make informed decisions based on real-time insights. With connectivity options such as wireless communication, the F-Series can easily be incorporated into existing systems, facilitating a transition to smarter manufacturing.

The F-Series is also designed with user-friendly features in mind. An intuitive interface simplifies the configuration and calibration process, allowing users to set parameters quickly and efficiently. Additionally, its compact form factor makes it easier to install in a variety of locations, providing versatile deployment options tailored to specific industrial needs.

In conclusion, the Emerson F-Series Sensor combines accuracy, durability, advanced technologies, and user-friendliness, making it an ideal choice for industries looking to enhance their operational capabilities. By leveraging these features, organizations can achieve better process management while ensuring safety and reliability in their operations.
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