Emerson 7000 SERIES 7ADTB manual Electrical Operation

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INSTALLATION (continued)

GREEN

RED

operate

 

 

this switch

observe these lights

GREEN RED AMBER

Figure 1-4. Standard controls and indicators.

2 – Electrical Operation

This procedure checks electrical operation of the ATS.

Be sure to close the enclosure door

before proceeding to prevent personal injury

in case of electrical system fault.

Transfer Test

The ATS should still be bypassed and isolated. Both normal and emergency sources must be available and the emergency source generator (if used) must be capable of being started; put engine starting control in automatic position. The Transfer Switch Connected to Normal light and the Normal Source Accepted light should be on.

1.Turn the Isolation Handle clockwise (approximately 7 turns) until the window shows TEST position.

NOTE: The engine generator may be signalled to start while turning the Isolation Handle. If emergency source is available, the ATS may operate to the emergency position. If it does, operate Retransfer Delay Bypass switch.

2.Perform steps 1–5 at right. Observe the status lights.

Black square means light is on.

White square means light is off.

3.Turn the Isolation Handle clockwise (approximately 16 turns) to the CONN (connected) position.

4.Push in the Bypass Handle and turn it counterclock- wise until the OPEN indicator shows green.

This completes the Functional Test of the ADTB.

1---4

Turn and hold Transfer Control switch clockwise to Transfer

1Test until the engine starts and runs (within 15 sec.). The Emergency Source Accepted light should come on.

Transfer switch CN opens and the Transfer Switch Connected

2to Normal light should go off and the Load Disconnect Active light should come on. Both CN & CE contacts are now open.

After the delay transition time delay, the CE Transfer switch will operate to the Emergency

3position. The Transfer Switch Connected To Emergency light should come on and Load Dis- connect Active light goes off.

Transfer switch will operate back to Normal position after Feature 3A time delay. For im- mediate retransfer turn Transfer

4Control counterclockwise to Retransfer Delay Bypass. The Transfer Switch Connected To Normal light should come on; Transfer Switch Connected to Emergency light should go off.

The engine–generator will stop after the Feature 2E time delay

5(unloaded running engine cool- down). The Emergency Source Accepted light should go off.

Load

Disconnect

Active

Load

Disconnect

Active

Load

Disconnect

Active

Load

Disconnect

Active

Load

Disconnect

Active

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Contents Nameplate Rating LabelCatalog Number Identification 1600Remove three Shipping Angles From the Transfer Switch InstallationRemove the Shipping Skid Supporting foundation and mountingInstallation Voltage Checks Functional TestElectrical Operation Turn and hold Transfer Control switch clockwise to TransferPreventive Maintenance Testing & ServiceDisconnecting the Controller Replacement PartsTROUBLE-SHOOTING Testing & ServiceTrouble-Shooting Checks Maintenance HandleBypassing the ATS Bypassing & IsolatingTo Bypass Normal Source To Bypass Emergency SourceTurn crank Counter Clockwise Until Window Shows Isolating the ATSConn Test IsolateTurn crank clockwise until window shows Conn connected Return to ServiceTurn crank Clockwise Until Window Shows To Un-Bypass Normal Source Return to ServiceBypass Handle Turn it Counter Clockwise To Un-Bypass Emergency SourceSee Controller User’s Guide Index

7000 SERIES 7ADTB specifications

The Emerson 7000 Series 7ADTB is a state-of-the-art temperature transmitter designed for industrial applications that require high precision and reliability. As part of the renowned 7000 series, the 7ADTB model combines advanced digital technology with robust construction, making it an essential tool for temperature measurement in sectors such as oil and gas, chemical processing, pharmaceuticals, and food production.

One of the standout features of the 7ADTB is its exceptional accuracy. With a measurement range that adapts to various sensor types, including thermocouples, RTDs, and thermistors, the transmitter ensures precise readings and optimizes process control. The modular design allows for easy integration into existing systems, thereby enhancing operational efficiency.

The 7000 Series incorporates Emerson’s proprietary Micro Tracy technology, which provides excellent stability and minimizes drift, ensuring reliable performance over time. This is particularly important in environments where temperature fluctuations can affect product quality and safety. The transmitter offers a linearized output and is capable of digital communication via protocols such as HART, Profibus, and Fieldbus, allowing for seamless integration with modern control systems.

Another notable characteristic of the 7ADTB is its rugged construction. Built to endure harsh industrial conditions, the transmitter features a robust housing that is resistant to corrosion and mechanical stress. This durability not only extends the life of the instrument but also reduces the need for frequent maintenance.

The Emerson 7000 Series 7ADTB is also equipped with user-friendly interfaces and advanced diagnostic capabilities. A built-in display provides instant readings and real-time data while allowing users to easily navigate through configuration settings. Furthermore, the device includes self-diagnostic features that alert operators to potential issues before they escalate, promoting preventative maintenance practices.

Overall, the Emerson 7000 Series 7ADTB temperature transmitter is a versatile and reliable solution that caters to a wide range of industrial applications. With its exceptional accuracy, robust design, and advanced communication capabilities, it stands as a testament to Emerson's commitment to delivering innovative measurement solutions that enhance operational efficiency and product quality. This makes it a preferred choice for engineering professionals looking to optimize their temperature measurement processes.