GB2233190A

GB2233190A - Improvements relating to transducers.

Info

Publication number: GB2233190A
Application number: GB8910111A
Authority: GB
Inventors: Michael Laurence Henning; Alan Charles Curtis; Martin Trevor Goosey
Original assignee: GEC Marconi Ltd; GE Healthcare UK Ltd; Plessey Co Ltd; Marconi Co Ltd
Current assignee: GE Healthcare UK Ltd; Plessey Co Ltd; BAE Systems Electronics Ltd
Priority date: 1989-05-03
Filing date: 1989-05-03
Publication date: 1991-01-02
Also published as: GB8910111D0; CA2034500A1; AU5562490A; EP0423308A1; WO1990013367A1

Abstract

A large area transducer suitable for use in a hydrophone comprises a sheet (6) of polyvinylidene fluoride/trifluoro ethylene formed with a plurality of dome-shaped protrusions (7) which may be formed simultaneously using a vacuum forming an injection moulding technique. The dome-shaped protrusions (7) are closed by a rigid baseplate (8) to enable the transducer to operate in the transverse mode.

Description

IMPROVEMENTS RELATING TO TRANSDUCERS This invention relates to transducers (e.g. hydrophone transducers) and relates more specifically to large area transducers which are required, for example, in large area sonar arrays employed in submarines, for example.

Large area transducers may comprise composite materials with polyvinylidene fluoride (PVdF) sheet as the active element.

Alternatively, polyvinylidene fluoride/trifluoro athylene (PVdF/TrFE) co-polymer materials may be used which has the advantage that normal polymer moulding techniques, such as vacuum forming and injection moulding can be used before poling of the material takes place. This is in contrast to the use of PVdF sheet as the active element of the transducer where uniaxial stretching must take place during or prior to poling thereby placing severe constraints upon the forms of transducer that can be made using PVdF sheet.

The simplest known form of large area hydrophone transducer using PVdF sheet material or its co-polymer PVdF/TrFE comprises a plain sheet of PVdF poled through the thickness of the sheet and arranged to operate in hydrostatic mode. However, the hydrostatic mode of operation of large area hydrophone transducers inherently lacks the desired degree of sensitivity and an adequate performance of such hydrophones can only really be achieved by the use of associated high quality electronics equipment.

An alternative construction of hydrophone transducer which utilises the co-polymer of PVdF comprises a flanged hollow dome structure formed from the co-polymer in which the base of the hollow dome structure is closed by a rigid base element. The presence of air in the hollow dome structure allows the hydrophone transducer to operate in the so-called transversed mode. This transverse mode of operation renders the hydrophone transducer inherently more sensitive (e.g. by 20dB) than the hydrostatic mode of operation. The hollow dome structure may be formed by vacuum forming or injection moulding.

The present invention is directed to a relatively low-cost highperformance large area transducer which lends itself to high volume production.

According to the present invention there is provided a large area transducer (e.g. hydrophone transducer) comprising a sheet of PVdF/TrFE formed with a plurality of dome-shaped protrusions the bases of which are closed by means of a rigid baseplate to provide a plurality of hollow dome structures the number of these dome structures and their size being dependent inter alia upon the requisite deformation (e.g. acoustic) properties of the transducer.

The dome structures may all be of the same size or the dome sizes may be varied across the sheet of co-polymer material in order to provide a requisite beam pattern.

The dome structures are preferably formed simultaneously in the sheet of co-polymer material by vacuum forming or injection moulding.

By way of example the present invention will now be described with reference to the accompanying drawings in which: Figure 1 shows a known single dome transducer structure; and, Figure 2 shows a multiple dome structure large area hydrophone transducer according to the invention.

Referring to Figure 1, this shows a hydrophone transducer comprising a flanged hollow domed structure 1 formed from a sheet of PVdF/TrFE co-polymer material by vacuum forming or injection moulding. The open base end of the hollow dome 1 is closed by a means of a rigid baseplate 2 so that the presence of air contained within the dome structure 1 enables the hydrophone transducer to function in the more sensitive so-called transverse mode in response to the impingement of acoustic waves thereon rather than the hydrostatic mode when submerged below the sea surface. Electrodes for the hydrophone transducer are provided at 3 and 4 and are connected to the flange 5 of the dome structure 1 and the backplate 2, respectively.

Referring now to Figure 2 of the drawings, this shows a large area hydrophone transducer according to the invention. The transducer comprises a relatively large sheet of PVdF/TrFE copolymer material 6 formed, as by vacuum forming, with a plurality of dome-shaped protrusions 7 the open ends of which are closed by a common rigid backplate 8 which is preferably made of acoustically transparent material such as glass reinforced resin. The air trapped within the dome structures allows the multiple domed hydrophone transducer to operate in the more sensitive transverse mode when submerged below the sea surface and having acoustic waves impinging thereon. The transducer is provided with electrodes 9 and 10 which are connected, respectively, to the sheet 6 and the back plate 8.

The thickness of the sheet 6 and the size of the dome structures will need to take into account the sea pressure to which the transducer will be subjected when submerged. Purely by way of #example a co-polymer sheet 15 cm2 may be provided with about 30 dome structures but the number of domes will be limited by the vacuum forming process. The alternative use of injection moulding for producing the dome-shaped protrusions simultaneously is also envisaged.

The number of domes needed to provide the requisite acoustic properties will depend upon dome size and the extent of the electroding.

In the manufacture of the transducer shown the dome-shaped protrusions 7 will be formed on the sheet 6 of co-polymer material simultaneously after which the domed sheet and the backplate will be provided with electrodes. Finally, the domed sheet will be mounted on the backplate 8. It may here be mentioned that PVdF material could not be used for the domed sheet because of the need for using uniaxial stretching of the material.

Although, in the embodiment of Figure 2 the dome protrusions 7 are all the same size it should be appreciated that the sizes may be varied across the sheet in order to produce a desired beam pattern for the transducer.

Claims

CLAIMS:

1. A large area transducer comprising a sheet of PVdFFrFE material formed with a plurality of dome-shaped protrusions and mounted on a rigid base-plate which closes the open ends of the dome-shaped protrusions to provide a plurality of hollow dome structures the number of dome structures provided and their size being dependent inter alia on the requisite deformation (e.g. acoustic) properties of the transducer.

2. A large area transducer as claimed in Claim 1, in which the dome structures are all of the same size.

3. A large area transducer as claimed in Claim 1, in which the sizes of the dome structures are varied across the sheet in order to provide a requisite beam pattern for the transducer.

4. A large area transducer as claimed in any preceding claim, in which the dome-shaped protrusions are formed in the co-polymer sheet by vacuum forming or injection moulding.

5. A large area transducer as claimed in any preceding claim, in which the rigid baseplate is composed of acoustically transparent material such as glass-reinforced resin.

6. A hydrophone embodying a large area transducer as claimed in any preceding claim.

7. A hydrophone transducer substantially as hereinbefore described with reference to the accompanying drawings.