Emerson 7ATB manual Index, See Controller User’s Guide

Page 16

A

auxiliary circuits, 1–2

B

bus connections, 1–2 bypassing the ATS, 3–1

C

catalog number, inside cover cleaning, 2–1

connections power, 1–2

controller disconnecting, 2–1

see Controller User’s Guide

D

drawout, transfer switch, 3–2, 3–3

E

electrical operation, 1–4

Emergency Source Accepted light, 1–3

Engine Control selector switch Auto position, 2–1

engine starting contacts, 1–2

F

foundation, 1–1 frequency, generator, 2–2 functional test, 1–3, 1–4

H

harness, 1–2 disconnect plugs, 2–1

HELP customercare@asco.com 800–800–ASCO

INDEX

I

inspection, 3–1

installation, 1–1

isolating the ATS, 3–2

L

lights, 1–3, 1–4

load connected to emergency, 1–4

load connected to normal, 1–4

lubrication, 2–1

M

maintenance, preventive, 2–1

maintenance handle, 2–2 warning, 2–2

manual load transfer, 2–2 warning, 2–2

N

nameplate, cover

Normal Source Accepted light, 1–3

O

operation electrical, 1–4 manual, 2–2

warning, 2–2

P

parts, 2–1

phase rotation check, 1–3

preventive maintenance, 2–1

problem, 2–2

R

rating label, cover

removal of shipping angles, 1–1 removal of shipping skid, 1–1 replacement parts, 2–1 return to service, 3–4, 3–5

S

service

ASCO Services, Inc. (ASI), 2–1 settings

see Controller User’s Guide

shipping angles, 1–1 warning, 1–1

shipping skid, 1–1

support legs on 4000 A, 3–3

T

test, functional, 1–3, 1–4 testing power cables, 1–2 time delays, 2–1

see Controller User’s Guide

Transfer Control selector switch Retransfer Delay Bypass, 1–4 Transfer Test, 1–4

Transfer Switch Connected To Emergency light, 1–4

Transfer Switch Connected To Normal light, 1–4

transfer test, 1–3, 2–1

transfer to emergency, 1–4, 2–1 transfer to normal, 1–4, 2–1 troubleshooting, 2–2

V

voltage checks, 1–3

voltage, pickup and dropout settings see Controller User’s Guide

Printed in U.S.A.

E ASCO Power Technologies, L.P. 2009

 

Image 16
Contents Rating Label Table of ContentsNameplate Page Catalog Number Identification 4000Status Lights 1000 1200 1600 2000 2600 3000 4000Page Installation Remove Shipping Brackets / Angles From the Transfer SwitchRemove the Shipping Skid Supporting FoundationInstallation Functional Test Voltage ChecksElectrical Operation Transfer TestTesting & Service Preventive MaintenanceDisconnecting the Controller Transfer TestTesting & Service Trouble-Shooting ChecksTROUBLE-SHOOTING Manual Load Transfer Maintenance HandleBypassing & Isolating PushBypass Handle Turn it Clockwise Pull outTurn crank Counter Clockwise Until Window Shows Bypassing & IsolatingIsolating the ATS Drawout procedure Turn crank Clockwise Until Window Shows Return to ServiceTurn crank clockwise until window shows Conn connected Return to Service Bypass Handle Turn it Counter ClockwiseTo Un-Bypass Normal Source To Un-Bypass Emergency SourceIndex See Controller User’s Guide

7ATB specifications

The Emerson 7ATB represents a significant advancement in underwater technology designed for deepwater exploration and data collection. This innovative submersible vehicle is engineered to perform a range of tasks, from scientific research to natural resource exploration, while ensuring safety and efficiency in performance.

One of the standout features of the 7ATB is its robust design, capable of withstanding extreme pressures found at significant ocean depths. The submersible is made from high-strength materials that not only protect its internal components but also reduce weight for enhanced maneuverability. Its streamlined shape minimizes drag, allowing for efficient navigation through the underwater environment.

The 7ATB is equipped with state-of-the-art sensor technology. This includes multi-beam sonar for accurate mapping of the seafloor and advanced imaging systems that capture high-resolution, real-time images and video. The incorporation of in-situ chemical sensors enables the vehicle to analyze water quality and detect various substances, making it invaluable for environmental monitoring.

A key characteristic of the Emerson 7ATB is its advanced autonomy capabilities. The submersible can operate independently for extended periods through automated navigation and mission planning. This autonomy is supported by sophisticated algorithms that allow it to maneuver efficiently and avoid obstacles while performing pre-programmed tasks. Furthermore, it boasts a flexible payload system, accommodating a variety of instruments tailored to specific missions.

In terms of communication, the 7ATB employs a hybrid system that combines acoustic and satellite technologies to maintain a reliable link with the control center, even in remote locations. This ensures real-time data transmission, enabling scientists and operators to make informed decisions during operations.

The vehicle also features battery technology designed for extended operational life, reducing the need for frequent retrieves. This efficiency not only enhances productivity but also minimizes the logistical challenges often associated with deep-sea missions.

Overall, the Emerson 7ATB is a remarkable combination of durability, advanced technology, and operational efficiency, positioning it as a go-to solution for underwater exploration and research in challenging environments. Its innovative features set a new standard for submersible vehicles, revolutionizing how we explore and understand the ocean depths.