Emerson 7ADTB manual Turn crank Counter Clockwise Until Window Shows, Isolating the ATS

Page 12

BYPASSING & ISOLATING (continued)

ISOLATING THE ATS

Isolating is required before any service work can be performed on the automatic transfer switch (ATS). Refer to Figures 3–9, 3–10, 3–11, and 3–12.

1.Bypass the closed automatic transfer switch contacts. See BYPASSING on pages 3–1 and 3–2.

2.Turn the Isolation Handle counterclockwise (approx. 8 turns) until window shows TEST. The TS Test amber light should come on. The ATS can be tested now without load interruption (see page 2–1).

Bypass Switch

E

Turn crank

 

counter-

 

clockwise

L

until

 

window

 

shows

 

TEST.

 

 

N

Automatic Transfer

Switch

Figure 3–9. CONNECTED to TEST position.

TS CONNECTED

Middle amber light

 

should be on.

TS TEST

 

 

TS ISOLATED

NOTE: In the TEST position the transfer switch solenoid operator circuit is energized through secondary disconnects.

Hazardous voltage capable of causing

electrical shock, burns, or death;

do not touch any control circuit terminals.

3.Continue turning Isolation Handle counterclockwise (approx. 6 turns) until the window shows ISOLATE. The TS Isolated amber light should come on.

Bypass Switch

E

Turn crank

 

 

counter-

 

 

clockwise

 

L

until

 

 

window

 

 

shows

 

 

ISOLATE.

 

 

 

 

N

Automatic Transfer

Switch

 

Figure 3–11. TEST to ISOLATE position.

 

TS CONNECTED

 

TS TEST

Lower amber light

TS ISOLATED

should be on.

 

 

 

position

CONN

counterclockwise – draws

window

TEST

out the transfer switch

ISOLATE

 

 

Figure 3–10. Isolation Handle turned to TEST.

3---3

position

CONN

counterclockwise – draws

window

TEST

out the transfer switch

ISOLATE

 

 

Figure 3–12. Isolation Handle turned to ISOLATE.

Image 12
Contents Table of Contents Rating LabelStandard Controls Indicators Group Controller NameplateCatalog Number Identification 600Installation SectionWhen normal source Engine Starting ContactsAuxiliary Circuits FailsGo off. Then put the starting Control selector switch on Voltage ChecksObserve these lights This switch Turn and hold Transfer Control switch clockwise to TransferElectrical Operation OperateTesting & Service Replacement PartsTable B. Trouble-Shooting Checks Contact position indicators= O Normal= C Load Disconnected = OBypass Switch Bypassing & IsolatingBypassing the ATS Upper amber lightPush Bypass Handle Turn it Counter ClockwiseTurn Bypass Handle Clock WiseTurn crank Counter Clockwise Until Window Shows Isolating the ATSMiddle amber light Should be on Lower amber lightContact Inspection Tab Handles Left rail Right railReturn to Service Turn crank Clockwise Until Window ShowsMiddle amber light Should come on Conn Bypass Handle Clockwise Bypass Handle Counter ClockwiseTurn the handle clockwise Turn the handle counterclockwise Index See Controller User’s Guide

7ADTB specifications

The Emerson 7ADTB is a cutting-edge device designed primarily for temperature and pressure monitoring in industrial applications. This versatile model showcases a blend of advanced technologies that ensure high accuracy, reliability, and durability even in the most demanding environments.

One of the key features of the Emerson 7ADTB is its exceptional measurement range. Capable of handling extreme temperatures and pressures, it appeals to industries such as oil and gas, chemical processing, and pharmaceuticals. The device is engineered to maintain precise readings, ensuring optimal safety and efficiency in processes where temperature and pressure control is crucial.

A standout technology in the Emerson 7ADTB is its intelligent sensor technology. This advanced feature allows the device to self-calibrate and adapt to various conditions, minimizing human error and ensuring accurate data collection. It uses built-in diagnostics to monitor its performance continuously, providing real-time alerts for any anomalies or maintenance needs. As a result, users can implement preventive measures to avoid costly downtimes.

The device is also notable for its robust construction. Built to withstand harsh industrial environments, the Emerson 7ADTB boasts an IP67 ingress protection rating, meaning it is dust-tight and can endure immersion in water. This characteristic, combined with high-grade materials, ensures a long lifespan and reliable performance in various applications, from offshore platforms to refining facilities.

Integrating seamlessly into existing systems is another crucial aspect of the Emerson 7ADTB. It supports a variety of communication protocols, including Modbus and HART, allowing for easy integration with control systems. This compatibility facilitates real-time data monitoring and control, enabling operators to make informed decisions based on accurate and timely information.

Moreover, the user-friendly interface of the Emerson 7ADTB enhances operational efficiency. The device features an intuitive display that allows users to access data, adjust settings, and perform diagnostics with ease, reducing the learning curve for new operators.

In conclusion, the Emerson 7ADTB represents a significant advancement in temperature and pressure measurement technology. With its robust construction, intelligent sensor capabilities, and ease of integration, it meets the demands of modern industrial applications while ensuring safety, reliability, and performance. As industries continue to evolve, devices like the Emerson 7ADTB will play a pivotal role in enhancing operational efficiency and productivity.