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Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam...

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Transducer Technology
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Page 1: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Transducer Technology

Page 2: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

OVERVIEW•Broadband Transducers•Wide beam Transducers•Tilted Element™ Transducers•Transducer performance photos•NMEA 2000® Products•Transducer Installation & Troubleshooting

Page 3: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Transducer Specifications

Power “Q”Quality Factor

TVR(dB) RVR(dB) FOM

B744V 600W 28 @50kHz31 @200kHz

155@50kHz164@200kHz

-174@50kHz-184@200kHz

-31@50kHz-21@200kHz

B260 1kW 8 @50kHz8 @200kHz

162@50kHz175@200kHz

-173@50kHz-183@200kHz

-14@50kHz-10@200kHz

R199 2kW 3 @50kHz2 @200kHz

167@50kHz177@200kHz

-174@50kHz-182@200kHz

-9@50kHz-6@200kHz

R209 2-3kW

2 @50kHz2 @200kHz

171@50kHz172@200kHz

-177@50kHz-184@200kHz

-7@50kHz-12@200kHz

Page 4: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Non-Broadband 200kHz-Matching layer B260

Q=8 Impedance 377Ω

Non-Broadband 200kHz-NO Matching layer B260Q=26 Impedance 132Ω

200kHz Ceramic Performance

Overlay

Page 5: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Broadband B260Q= 8 Impedance 90Ω Overlay

Non-Broadband 200kHz-NO Matching layer B260Q=26 Impedance 132Ω

Page 6: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Echo Waveforms

Transducer: P319 Frequency: 200 kHzQ=31 Cycles: 35

Transducer: B260Frequency: 200 kHzQ=8 Cycles: 10

Transducer: R99Frequency: 200 kHzQ=2 Cycles: 10

Page 7: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Fish 6” above blends into bottom echo by

long ring from high Q

Fish 6” above blends into bottom echo by

long ring from high Q

Shows fish as “blobs”Fish less than 6” above bottom will blend in

Individual fish are detectedFish are detected 1” above the bottom

0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4-10

-8

-6

-4

-2

0

2

4

6

8

10

ti illi d

0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4

-10

-8

-6

-4

-2

0

2

4

6

8

10

time, milliseconds

Broadband vs. No Broadband

Fish 1” above the bottom is still

detected by short ring from low Q

Fish 1” above the bottom is still

detected by short ring from low Q

Individual fish blend togetherIndividual fish blend together

Individual fish are separated

Individual fish are separated

Short Ring- Low Q Long ring- High Q

Page 8: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Compare depth measurement performance:

- changes in input power- change transducer (use different FOMs)- active sonar equation predicts the trend

Page 9: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

0 200 400 600 800 1000 1200 1400 1600Depth, m

50 kHz B260 transducer, Received Voltage vs Bottom range

+6 dB +3 dB 0 dB, B260 1kW -3 dB -6 dB -9 dB-12 dB-15 dB-18 dB-21 dB5 μVrms (-106 dBV) det. thresh.

808 m

Signal too weak

( 4 dB dashed line )

Rel

ativ

e le

vel,

dB

10

30

50

70

90

4

Must be above this line to obtain a good measurement

R99, R209

B260

B258, SS270W

B164

B744V, B60

50kHz Range Data

Page 10: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

0 100 200 300 400 500 600 700 800Depth, m

200 kHz B260 transducer, Received Voltage vs Bottom range

+6 dB +3 dB 0 dB, B260 1kW -3 dB -6 dB -9 dB-12 dB-15 dB-18 dB-21 dB5 μVrms (-106 dBV) det. thresh.

Signal too weak

200kHz Range Data

407 m

Rel

ativ

e le

vel,

dB

10

0

20

30

40

50

60

70

80

90

4Must be above this line to obtain a good measurement

R99R209

B164

B744V, B60SS270W

B258

Page 11: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Broadband = Less voltage needed to drive transducer

B260 Non-Broadband:

√ (1000 RMS Watts x 8 x 300Ω) = 1,549 Volts

B260 broadband:

√ (1000 RMS Watts x 8 x 90Ω) = 849 Volts

Page 12: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Individual fish below & along side baitfish

Individual fish below & along side baitfish

Individual fish holding tight

to bottom

Individual fish holding tight

to bottom

Page 13: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Broadband Transducer

Non-Broadband Transducer

Page 14: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Low ring=Excellent Shallow-water operation

Page 15: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

SS270W Wide Beam

• 25° degree beam at both frequencies• Provides four times the beam width at 200kHz• Can retrofit existing B260 installations• Stainless Steel Housing• Includes High Performance Fairing• Built-in Temp sensor

Page 16: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

SS270W Twin 25° beams @ 50 and 200kHz

Page 17: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

User Benefits• Excellent at detecting mid to shallow water fish

(bait, tuna, marlin etc.)• Split screen 50/200kHz fishfinder display is

more intuitive for novice users• Same targets appear in both beams• Advanced users can identify fish species

Page 18: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

SS270W-Same bottom imaging @ both frequencies

Page 19: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Wide vs. narrow beam-Ping pong balls

SS270W SS270WB260 B260

50kHz 200kHz

SS270W B260 SS270W

200kHz

Page 20: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

SS270W @ 35 MPH

Page 21: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

• Frequency agility allows the user to adjust the frequency if the connected echosounder is "tunable".

• No loss of sensitivity across the frequency range• Adjusting the frequency will change the beam

width and depth capabilities. • Certain fish are more detectable at specific

frequencies so the fishfinder & transducer can be tuned to get the best echo return for the species being targeted (tuna, marlin, ground fish, bait).

Benefits of Tunable Fishfinders with Broadband Transducers

Page 22: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Broadband R209 / R299Q=2

Broadband B260Q=8 Overlay

Page 23: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

R209 External Mount / R299 In-Hull

• Broadband on both low and high frequencies.• 24 low-frequency ceramics that can operate anywhere

between 33kHz to 60kHz and can handle up to 3 kW of input power.

• High-frequency 3.5" single-ceramic can operate between 130kHz to 210 kHz and can handle up to 2 kW of input power.

• R309 and R399 units operate between 25kHz to 45kHz and 130kHz to 210 kHz.

Page 24: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Broadband and the future: CHIRP

•Improved signal-to-noise ratio•Very good performance from shallow to deep•Better target definition•Better performance at speed•Variable beamwidths•Better rejection of noise sources

-Frequency Modulated Transmissions

Page 25: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Tilted Element™ Transducers

Page 26: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

B164 1 kW Tilted Element™• Engineered for Center console

and sport fishing boats• 50/200kHz :constructed of three

dual frequency elements.• Low-profile design leaves no

protrusion below the hull• No High Performance fairing

required• Built-in temp sensor

Page 27: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

SS270W Wide Beam Tilted Element™ Pair

• SS270W split up into 2 transducers• Same ceramics and performance as the SS270W• Separate transducers for 50 kHz and 200 kHz• Top of the line 1kW tilted element™• Engineered for Center console and trailered boats• Transducers can be sold separately• No High Performance Fairing needed• Built-in temp sensor

Page 28: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

SS270W Tilted Element™ Pair

Wiring

Page 29: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

200kHz Wide / Narrow beam Switch box

•Allows SS270W 200kHz to workwith existing B260 / M260 installations.

•User now has a switchable 200kHz wide or narrow beam for the specific type of fishing.

Page 30: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

SS260 Narrow Beam Tilted Element™ Pair

• B260 split up into 2 transducers• Same ceramics and performance as the B260• Separate transducers for 50 kHz and 200 kHz• Top of the line 1kW tilted element™• Engineered for Center console and trailered boats• Transducers can be sold separately• No High Performance Fairing needed• Built-in temp sensor

Page 31: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Transducer performance photos

600W B744V 1kW B164 1kW B258

1kW B260 1kW M260

Garmin GSD22 Raymarine DSM300 Furuno FCV585

Page 32: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 33: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 34: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 35: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 36: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 37: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 38: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 39: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

R199 In-Hull Signal Loss

50kHz

No Fiberglass

Q = 3

50kHz

¾ inch Fiberglass

Q = 4.1

Page 40: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

200kHz

No Fiberglass

Q = 2

R199 In-Hull Signal Loss

200kHz

¾ inch Fiberglass

Q = 4.5

Page 41: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt
Page 42: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

NMEA 0183 and 2000® Smart Transducers

• All processing is done inside the transducer• Operates at 235kHz• No interference with on-board sounder• Perfect for displaying digital depth/speed/temperature

• DT800- Retractable Tilted Element™ Thru-Hull Depth / Temperature• DST800- Retractable Thru-Hull Depth / Speed /Temperature• P39- Transom Mount Depth / Speed /Temperature• P79- In-Hull Depth only• T42- High performance Temperature

Page 43: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Installation & Troubleshooting

Basics: Mounting Location

• The water flowing across the hull must be smooth with aminimum of bubbles and turbulence (especially at high speeds).•DO NOT MOUNT near water intake or dischargeopenings or behind strakes, fittings, or hull irregularities.• The transducer must be continuously immersed in water.• The transducer beam must be unobstructed by the keel or propeller shaft(s).• Choose a location away from interference caused by power and radiation sources such as: the propeller(s) and shaft(s), other machinery, other echosounders, and other cables. The lower the noise level, the higher the echosounder gain setting that can be used.• Choose a location with a minimum deadrise angle.• Choose an accessible spot inside the vessel with adequate headroom for the height of the housing, tightening the nuts, and removing the insert.

Page 44: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Thru-hull location selection

Transducer placement Transducer placement should be aft and should be aft and close to the close to the centerline. It needs to centerline. It needs to be located low be located low enough that the enough that the transducer is in the transducer is in the water at all times.water at all times.

Page 45: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Thru-Hull Mounting Location

Consider items Consider items such as the lifting such as the lifting strap placement strap placement ininthe location as the location as well as trailer well as trailer bunks and rollers bunks and rollers if it is a trailered if it is a trailered vessel.vessel.

Page 46: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Thru-hull location selection

Be sure that the Be sure that the transducer signal will transducer signal will not intersect the prop not intersect the prop shaft(s), keel or any shaft(s), keel or any other hull projections, other hull projections, and that it is not and that it is not directly indirectly in--line with the line with the prop(s).prop(s).

Page 47: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Thru hulls can be Thru hulls can be used on stepped used on stepped hull vessels, but hull vessels, but they must be they must be located ahead of the located ahead of the trailing edge of the trailing edge of the first step and low to first step and low to the keel to operate the keel to operate well.well.

BOWBOW

Thru-hull location on stepped hulls

Page 48: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

M260 and R199 In-Hull Tanks

• Now shipped with flat 90° tank bottom which can be easily cut for bow-stern or port-starboard mounting.

• To fill the new tank, we recommend using non-toxic propylene glycol (RV / Marine anti-freeze).

• To mount the tank to the hull, we recommend using fiberglass resin, Marine Tex® or Fusor® 100EZ / T10.

Page 49: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

As with thruAs with thru--hulls, hulls, The selected The selected location should be location should be aft and close to aft and close to the centerline so the centerline so that the hull below that the hull below the transducer is the transducer is in the water at all in the water at all times.times.

In-hull location selection

Page 50: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

In-hull location selection

The hull below The hull below and in front of and in front of the transducer the transducer must be free from must be free from any sources of any sources of turbulence, just turbulence, just as with a thru as with a thru hull installation.hull installation.

Page 51: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Testing for depth function

Using an EDI transducer Using an EDI transducer test box you can test box you can determine the resonant determine the resonant frequency of a frequency of a transducer and confirm transducer and confirm that it is operating that it is operating properlyproperly

Black lead from transducer Black lead from transducer tester attaches to black tester attaches to black Airmar wire(Airmar wire(--depth)depth)

Red lead from transducer Red lead from transducer tester attaches to blue tester attaches to blue Airmar wire(+depth)Airmar wire(+depth)

Page 52: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Testing for Temperature••Red lead from ohm meter Red lead from ohm meter attaches to brown Airmar attaches to brown Airmar wire.wire.

••Black lead from ohm Black lead from ohm meter attaches to white meter attaches to white Airmar wire.Airmar wire.

With meter set to OHMS the With meter set to OHMS the reading should be in the reading should be in the 10,000 ohm range at 77 10,000 ohm range at 77 degrees F. degrees F. The resistance increases as The resistance increases as the temp decreases. the temp decreases. The sensor will read The sensor will read correctly in or out of water.correctly in or out of water.

Page 53: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Testing for Speed

•Apply Negative battery voltage to Airmar bare wire and attach black lead from volt meter

•Apply positive Battery voltage to Airmar red wire

•Attach red lead from volt meter to Airmar green wire

• Turn the paddlewheel slowly by hand. The volt meter should toggle between zero volts and the input voltage with each quarter turn of rotation.

Page 54: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Identifying Interference

• If the screen interference increases proportional to vessel speed this usually indicates that the transducer face is exposed to aerated water

• If the interference appears at a specific rpm this could be a sign of electrical interference on the sounder’s power line. Try powering the sounder directly from a stand-alone battery.

Page 55: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Identifying flow noise

• If experiencing interference with a transom mounted transducer test drive the vessel to determine what speed the image is lost at. Move the transducer to it’s lowest position and retest.

• If screen image is improved repeat until you are satisfied with results. If screen image gets worse, move transducer up and re-test until improvement is seen.

Page 56: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Identifying flow noise

• Perform a slow but constant turn to the side of the hull that the transom transducer is mounted. Gradually increase rate of turn. If screen image improves the transducer needs to be mounted lower in the water.

• If screen image is worse when turning to the same side as the transducer try turning the opposite direction. This would indicate the transducer needs to be mounted higher in the water.

Page 57: Transducer Technology - Airmar Transducer...•Broadband Transducers ... • The transducer beam must be unobstructed by the keel or propeller ... Microsoft PowerPoint - NMEA 2007.ppt

Questions?


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