Emerson 2400S 1Rotating the transmitter on the sensor, Transmitter Orientation and Power Supply

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Transmitter Orientation and Power Supply

Figure 2-1Rotating the transmitter on the sensor

Clamping ring

Feedthrough

Feedthrough notches

CAUTION

Excessive rotation of the housing on the feedthrough can cause wiring damage and result in measurement error or flowmeter failure.

To reduce the risk of damaging internal wiring, do not rotate the housing more than 360°. You can rotate the transmitter either clockwise or counter-clockwise to reach the desired position.

2.4Rotating the user interface module on the transmitter (optional)

For easier access, the user interface module (whether or not the transmitter has an LCD display) can be rotated on the transmitter up to 360° in 90° increments.

To rotate the user interface module on the transmitter:

1.Remove power from the unit.

WARNING

Removing the transmitter housing cover in a hazardous area while the transmitter is powered up can cause an explosion.

To avoid the risk of an explosion, remove power from the transmitter before removing the transmitter housing cover.

2.Referring to Figure 2-2,remove the transmitter housing cover and user interface module:

a.Loosen the four transmitter housing cover screws.

b.Remove the transmitter housing cover.

c.Loosen the two user interface screws.

d.Gently lift the user interface module, disengaging it from the user interface connector on the transmitter.

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Micro Motion® Model 2400S Transmitters

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Contents Micro Motion Model 2400S Transmitters Page Contents Appendix a Dimensions and Specifications ContentsBefore You Begin SafetyPower Supply Wiring AN Wiring DP and DN OverviewFlowmeter components Transmitter installation overviewBefore You Begin 1Flowmeter documentation resources Flowmeter documentationTopic Document Micro Motion Model 2400S Transmitters Moisture protection Transmitter Orientation and Power SupplyWiring AN Wiring DP and DN Rotating the transmitter on the sensor optionalTransmitter Orientation and Power Supply 1Rotating the transmitter on the sensorPower type Power supply requirements1Power supply requirements TransmitterWiring the power supply 2Typical power cable resistances at 68 F 20 CGauge Resistance Model 2400S Analog transmitter Before You Begin Model 2400S PROFIBUS-DP transmitterMicro Motion Model 2400S Transmitters Before You Begin Power Supply I/O optionsWiring Model 2400S Analog Transmitters 1Terminal configuration optionsWiring the outputs Zone 1 Exe and Zone Channel Terminals Function Power1 CommMA output wiring 1Basic mA output wiring Internal power2HART/analog single-loop wiring Internal power Excessive current will damage the transmitter4HART/analog single-loop wiring External power Frequency output wiring Internal power External power8Frequency output wiring External power Discrete output wiring10Discrete output wiring External power 2Input voltage ranges for external power Discrete input wiringRange 13Discrete input wiring Internal power Wiring the outputs Zone 1 ExiHazardous area voltage Hazardous area safety3Safety parameters Hazardous area currentHazardous area inductance Hazardous area mA wiringHazardous area Hazardous area frequency/discrete output wiring 16Safe area mA output load resistance valuesExternal power supply Hazardous area discrete input wiring 19Safe area frequency/discrete output load resistance valuesMicro Motion Model 2400S Transmitters Wiring Model 2400S PROFIBUS-DP DeviceNet Transmitters Before You Begin Power Supply Wiring ANI/O wiring for Model 2400S PROFIBUS-DP transmitters Wiring Model 2400S PROFIBUS-DP and DeviceNet Transmitters1Model 2400S PROFIBUS-DP I/O wiring Enabling internal terminationI/O wiring for Model 2400S DeviceNet transmitters 3Model 2400S DeviceNet I/O wiringCover dimensions for stainless 344steel housing Dimensions and SpecificationsDimensions Policy IndexPower supply Models 2400S Analog and PROFIBUS-DP Dimensions and Specifications Physical specificationsModel 2400S PROFIBUS-DP Dimensions and Specifications Electrical connectionsModel 2400S Analog Model 2400S DeviceNetDimensions and Specifications User interfaceInterface functions Input/output signals Model 2400S Analog Zone 1 Exe or ZoneModel 2400S Analog Zone 1 Exi Host interface Dimensions and Specifications Digital communicationsAll versions Hazardous area classifications Environmental limitsEnvironmental effects All modelsMicro Motion Model 2400S Transmitters New and unused equipment SpecificationsReturn Policy Used equipmentMicro Motion Model 2400S Transmitters Specifications Return Policy IndexIndex Page 20003402

2400S specifications

The Emerson 2400S is a versatile and sophisticated process automation controller designed for industries that require precision and reliability. This advanced controller is recognized for its high performance in monitoring and controlling complex processes in various applications, including oil and gas, chemical processing, and water treatment.

One of the standout features of the Emerson 2400S is its exceptional processing power. With a robust architecture, it can handle multiple tasks simultaneously, allowing for real-time data processing and quick system responses. This capability is essential in dynamic environments where conditions change rapidly, ensuring that operations remain stable and efficient.

The 2400S also boasts an extensive range of input/output options. It supports various types of signals, including analog, digital, and serial communications. This flexibility allows integration with a wide range of sensors and devices, ensuring comprehensive monitoring and control capabilities across different systems.

One of the key technologies integrated into the Emerson 2400S is the use of advanced algorithms for predictive maintenance and process optimization. By analyzing historical data and current conditions, the controller can forecast potential issues and suggest corrective actions. This proactive approach not only enhances system reliability but also minimizes downtime and operational costs.

In addition to its powerful processing and predictive capabilities, the 2400S features a user-friendly interface. The graphical display allows operators to visualize critical data easily, making it simpler to manage operations and respond to alerts. This feature is crucial in enhancing overall situational awareness within control rooms.

The Emerson 2400S is also designed with high safety standards in mind. It includes built-in redundancies and fault-tolerance features, ensuring that operations can continue even in the event of component failures. This level of reliability is particularly important in industries where safety is paramount.

Moreover, the controller is equipped with advanced cybersecurity measures to protect against potential threats. With the increasing reliance on connected devices and networks, ensuring the integrity of the control system is critical. The Emerson 2400S employs robust encryption and secure access protocols to safeguard sensitive data.

In conclusion, the Emerson 2400S is a state-of-the-art process automation controller that combines high performance, versatility, and advanced safety features. Its ability to support various input/output configurations, coupled with predictive maintenance technologies and a user-friendly interface, makes it an ideal choice for industries requiring reliable and efficient process control.
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