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Basic Echosounder

Presenter’s Name

Date

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INTRODUCTION

What Is an EchoSounder

Basic Operation

Transducer

Types of Recorder

Transducer Characteristic

Hull Mounted Transducer

Over the side Mounted Transducer

Bar check

Sound velocity

Table of Contents

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By the end of this session you will be able to:

State the difference between high & low frequency

Transducers

Describe two different methods of mounting a transducer

State the different types of recorder

Explain why we require the velocity of sound in sea

water,

And name two methods of obtaining this value.

Explain what a bar check is, and why it is carried out

Data that can be obtained from an echosounder

Explain the basic operation of a single beam

echosounder

Introduction

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WHAT CAN WE OBTAIN FROM AN

ECHOSOUNDER?

Distance from the sea surface to the seabed;

Water depth

A permanent record of water depth and seabed

Gain some knowledge of the seabed materials

Identify any large objects or obstructions &

Possibly identify specific targets

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BASIC OPERATION

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TRANSDUCER FREQUENCY CHARACTERISTICS

HIGH FREQUENCY (eg 210 khz)

– No penetration of seabed muds

– VERY GOOD DEFINITION (approx 1cm +/- 0.1% of depth value)

– Maximum depth approximately 100 - 120m

LOW FREQUENCY (eg 33 khz)

– Some penetration of soft mud and silts on the seabed

– SLIGHTLY LESS DEFINITION (approx 5cm +/- 0.1% of depth value)

– Maximum depth approximately 1500m

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HULL MOUNTED TRANSDUCER

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OVER THE SIDE MOUNTING

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TYPES OF RECORDER

STYLUS eg ATLAS DESO 20

THERMAL eg ATLAS DESO 25

PC BASED eg Marimatech 206C

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VELOCIMETER eg. SVP16

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VELOCIMETER eg.DIGIBAR

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TS Bridge eg. Valeport

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BAR CHECK

d = @ 1m to check Tx DCR (Draft)

D = representative working depth to

check speed of sound

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The Bar Check

Hydrographers use a bar check to calibrate the echosounder for local

sound velocity conditions.

This is not used for multibeam systems.

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The Bar Check

1. Lower a bar or plate 5’ or 2m beneath the surface.

• Adjust the ‘zero’ or ‘draft’ or ‘tide’ knob on your sounder until you read the correct sounding.

2. Lower the bar to your intended depth of measurement.

• Adjust the sound velocity speed until you read the correct value.

3. Repeat steps 1 and 2 until you don’t have to make any adjustments.

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Things That Can Screw Up Your Bar Check

Disinterested bar holders.

Wave action. (Nothing like trying to calibrate your sounder to a tenth of a

foot while standing in a 2’ sea.)

Currents that move the bar from beneath the transducer when you lower it,

limiting your ability to see it.

Performing the bar check outside your survey area.

Surveying with a single bar check in an area where the sound velocity

profile changes (fresh versus salt water boundaries).

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Examples of Echosounder records

Here are some Examples of what you may see during your career as an

engineer or surveyor:-

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NOISE

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DIGIT LINE

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SOFT BOTTOM HARD

BOTTOM

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ROCKS

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200 & 33 Khz SUPERIMPOSED

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HEAVE

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FISH ECHO & AIR BUBBLES

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CAVITATION

FADING

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NOISE

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BAR CHECK

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HIGH GAIN

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LOW GAIN

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NORMAL GAIN

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ANNOTATION

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ZOOM FUNCTION

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AUTO RANGE

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