This study addresses the problem of noise reduction using piezoelements. The nonlinear technique, synchronized switch damping (SSD), is implemented. The device is a pulse-tube termination equipped with piezoelements, which allows performant damping of the vibration resulting from an incident acoustic wave. Due to this damping, both reflected and transmitted wave are reduced. In the semipassive damping approach proposed in this paper, energy degradation is strongly enhanced when the piezoelements are continuously switched from open to short circuit synchronously to the strain. This technique has been developed following two strategies. The first is SSD on a short circuit in which the piezoelement is always in open circuit, except for a very brief period at each strain extremum where it is short-circuited. The second approach is SSD on an inductor. The process is very similar, except that instead of forcing the voltage to zero, the voltage is exactly reversed using a controlled oscillating discharge of the piezoelement capacitor on an inductor during switch drive. Due to this switching mechanism, a phase shift appears between the strain and the resulting voltage, thus creating energy dissipation. Following SSD on an piezoelement, attenuations of 15dB in reflection and 7dB in transmission were obtained.

1.
Bao
,
X. Q.
,
Varadan
,
V. K.
, and
Howarth
,
T. R.
(
1990
). “
Design model of a bilaminar piezoceramic composite actuator for an active acoustic attenuation control system
,”
J. Acoust. Soc. Am.
87
, pp.
1350
1352
.
2.
Browning
,
D. R.
, and
Wynn
,
W. D.
(
1993
). “
Multiple-mode piezoelectric passive damping experiments for an elastic plate
,”
Proceedings 11th Int. Modal Analysis Conf.
(
Kissimmee
,
FL
), pp.
1520
1526
.
3.
Clark
,
W. W.
(
2000
). “
Vibration control with state-switching piezoelectric materials
,”
J. Intell. Mater. Syst. Struct.
11
,
263
271
.
4.
Clark
,
W. W.
, and
Corr
,
L. R.
(
2003
). “
A novel semi-active multi-modal vibration control law for a piezoceramic actuator
,”
Trans. ASME, J. Vib. Acoust.
125
,
214
222
.
5.
Cunefare
,
K. A.
(
2002
). “
State-switched absorber for vibration control of point-excited beams
,”
J. Intell. Mater. Syst. Struct.
13
,
97
105
.
6.
Cunefare
,
K. A.
,
De Rosa
,
S.
,
Sadegh
,
N.
, and
Larson
,
G.
(
2000
). “
State-switched absorber for semiactive structural control
,”
J. Intell. Mater. Syst. Struct.
11
,
300
310
.
7.
Davis
,
C. L.
, and
Lesieutre
,
G. A.
(
1998
). “
An actively-tuned solid state piezoelectric vibration absorber
,”
Proceedings of the SPIE-The International Society for Optical Engineering
,
3327
,
169
182
.
8.
Davis
,
C. L.
, and
Lesieutre
,
G. A.
(
2000
). “
An actively-tuned solid state vibration absorber using capacitive shunting of piezoelectric stiffness
,”
J. Sound Vib.
232
,
601
617
.
9.
Gibson
,
W. C.
, and
Johnson
,
C. D.
(
1987
). “
Optimisation methods for design of viscoelastic damping treatments
,”
Proceedings of the ASME Conference on Vibration and Noise
5
,
279
286
.
10.
Hagood
,
W. N.
, and
Flotow
,
A. V.
(
1991
). “
Damping of structural vibrations with piezoelectric material and passive electric networks
,”
J. Sound Vib.
146
,
234
268
.
11.
Ho
,
S.
(
2000
). “
Active control of plate-through noise transmission
,”
Dynamics and Design Conference 2000
, JSME, CD-ROM proceedings, Paper No. 746.
12.
Holdhusen
,
M.
, and
Cunefare
,
K. A.
(
2004
). “
Optimization of a state-switched absorber applied to a continuous vibrating system
,”
Proceedings, SPIE Smart Structures and Materials Conf.: Passive Damping and Isolation
,
5386
,
319
328
.
13.
Hong
,
J.
(
2001
). “
Active control of radiated sound from a vibrating plate
,”
Proceedings of DETC
, ASME, Vib-21481.
14.
Lafleur
,
L. D.
,
Shields
,
F. D.
, and
Hendrix
,
J. E.
(
1991
). “
Acoustically active surfaces using piezorubber
,”
J. Acoust. Soc. Am.
90
,
1230
1237
.
15.
Larson
,
G. D.
,
Rogers
,
P. H.
, and
Munk
,
W.
(
1998
). “
State switched transducers: A new approach to high-power low frequency, underwater projectors
,”
J. Acoust. Soc. Am.
103
(
3
),
1428
1441
.
16.
Lee
,
J. K.
,
Kim
,
J.
, and
Rhee
,
Ch. J.
(
2002
). “
Noise reduction of passive and active hybrid panels
,”
Smart Mater. Struct.
11
,
940
946
.
17.
Morgan
,
R. A.
, and
Wang
,
K. W.
(
2002
). “
Active-passive piezoelectric absorbers for systems under multiple non-stationary harmonic excitations
,”
J. Sound Vib.
255
(
4
),
685
700
.
18.
Niederberger
,
D.
,
Morari
,
M.
, and
Pietrzko
,
S.
(
2004
). “
A new control approach for switching shunt damping
,”
Proceedings, SPIE Smart Structures and Materials Conf.: Passive Damping and Isolation
5386
,
426
437
.
19.
Peiffer
,
A.
,
Storm
,
S.
,
Roder
,
A.
,
Maier
,
R.
, and
Frank
,
P.
(
2005
). “
Active vibration control for high speed train bogies
,”
Smart Mater. Struct.
14
,
1
18
.
20.
Richard
,
C.
,
Guyomar
,
D.
,
Audigier
,
D.
, and
Ching
,
G.
(
1999
). “
Semi-passive damping using continuous switching of a piezoelectric device
,”
Proceedings of the SPIE Smart Struct. and Mat Conf., Passive Damping and Isolation, San Diego
,
3672
,
104
111
.
21.
Richard
,
C.
,
Guyomar
,
D.
,
Audigier
,
D.
, and
Bassaler
,
H.
(
2000
). “
Enhanced semi passive damping using continuous switching of a piezoelectric device on an inductor
,”
Proceedings, SPIE Smart Structures and Materials Conf.: Passive Damping and Isolation
3989
,
288
299
.
22.
Wu
,
S.
(
1998
). “
Method for multiple shunt damping of structural vibration using a single PZT transducer
,”
Proceedings, SPIE Smart Structures and Materials Conf.: Passive Damping and Isolation, San Diego
3327
,
159
168
.
23.
Zhang
,
J. M.
,
Chang
,
W.
,
Varadan
,
V. K.
, and
Varadan
,
V. K.
(
2001
). “
Passive underwater acoustic damping using shunted piezoelectric coating
,”
Smart Mater. Struct.
10
,
414
420
.
You do not currently have access to this content.