Emerson 7000 SERIES 7ADTB manual Installation, Remove the Shipping Skid, Mounting

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SECTION 1 INSTALLATION

The ASCO 7000 Series Automatic Delayed–Transition Transfer & Bypass–Iolation Switch (ADTB) consists of an upper bypass–isolation switch, a transfer switch, a monitoring and transfer control panel, and door– mounted controls. The ADTB is factory wired and tested. Installation requires removal of the shipping skid then securing the enclosure to the supporting founda- tion.

Remove the Shipping Skid

Open the front lower door and remove the two front lag screws securing the enclosure to the wood skid. Next remove the rear lower panel and remove the two rear lag screws securing the enclosure to the wood skid.

Supporting foundation and mounting

The supporting foundation for the enclosure must be level and straight. Allow at least 35 inches in front of the enclosure for draw out of the Transfer Switch. Refer to the enclosure outline drawing included with the 7000 Series ADTB for all mounting details including door opening space.

If bottom cable entry is used, the foundation must be prepared so that the conduit stubs are located correctly. Refer to the appropriate enclosure outline drawing for specified cable entrance area and location. Provide cable bending space and clearance to live metal parts. When a concrete floor is poured, use interlocking conduit spacer caps or a wood or metal template to maintain proper conduit alignment.

Mounting

Refer to the enclosure outline drawing furnished with this switch and mount the 7000 Series ADTB according to the details and instructions shown on the drawing.

Remove three Shipping Angles

from the Transfer Switch

Open the lower front door. The Transfer Switch carriage is secured to the frame for shipment. Remove the three shipping angle (1 upper left, 1 upper right, 1 lower right).

To prevent serious damage, remove three shipping angles from the Transfer Switch carriage. Do not turn the Isolation Handle until they are removed!

Figure 1-1. Typical enclosure,

remove 3 shipping

L–angles from transfer switch

Figure 1-2. Remove three shipping L–angles.

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Contents Catalog Number Identification Rating LabelNameplate 1600Remove the Shipping Skid InstallationRemove three Shipping Angles From the Transfer Switch Supporting foundation and mountingInstallation Functional Test Voltage ChecksTurn and hold Transfer Control switch clockwise to Transfer Electrical OperationDisconnecting the Controller Testing & ServicePreventive Maintenance Replacement PartsTrouble-Shooting Checks Testing & ServiceTROUBLE-SHOOTING Maintenance HandleTo Bypass Normal Source Bypassing & IsolatingBypassing the ATS To Bypass Emergency SourceConn Isolating the ATSTurn crank Counter Clockwise Until Window Shows Test IsolateTurn crank clockwise until window shows Conn connected Return to ServiceTurn crank Clockwise Until Window Shows Bypass Handle Turn it Counter Clockwise Return to ServiceTo Un-Bypass Normal Source To Un-Bypass Emergency SourceIndex See Controller User’s Guide

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.