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Bob
I have tested different frequencys from 40KHz
to 620KHz and I belive the best all-around
frequency is 200-250 KHz.
40K. I did get a range of 2500 meters but
no resolution at all. However I could penetrate
20 meters of the seafloor mud.
100K, range of 400 meters but wooden
wreck is hard to see.
200K I got a range of 200 meters, good signal
level and ok resolution.
500K good resolution and 100 m range.
620K 80m range with a transducer only 100mm long.
Design example for 250K:
Aperture of 400x6mm.
The wawelenght will be 6 mm.
Horisontal beamwidh 6/400 radians = 0.9 degrees.
Vertical beamwidh 6/6 radians = 60 degrees.
It is difficult to do exact calculations since the
exact frequency is unknown until the transducer is ready.
It seems that the free crystals behave slight
different to the one put into the transducer.
I let it be what it will be and tune the electronics
to fit the transducer.
As example my 200K crystals become 220K when the
transducer was tested.
Sture
I have tested different frequencys from 40KHz
to 620KHz and I belive the best all-around
frequency is 200-250 KHz.
40K. I did get a range of 2500 meters but
no resolution at all. However I could penetrate
20 meters of the seafloor mud.
100K, range of 400 meters but wooden
wreck is hard to see.
200K I got a range of 200 meters, good signal
level and ok resolution.
500K good resolution and 100 m range.
620K 80m range with a transducer only 100mm long.
Design example for 250K:
Aperture of 400x6mm.
The wawelenght will be 6 mm.
Horisontal beamwidh 6/400 radians = 0.9 degrees.
Vertical beamwidh 6/6 radians = 60 degrees.
It is difficult to do exact calculations since the
exact frequency is unknown until the transducer is ready.
It seems that the free crystals behave slight
different to the one put into the transducer.
I let it be what it will be and tune the electronics
to fit the transducer.
As example my 200K crystals become 220K when the
transducer was tested.
Sture
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