KNOWLES 2403-260

2403 260 00057
SPEAKER-1318-4.5-SC-DUMBO
The 13x18x4.5 mm rectangular Dumbo
speaker is a high end miniature speaker
specifically designed for portable consumer
devices, such as music phones,
smartphones or tablet computers where
high quality sound is required. It is the
world’s first miniature speaker featuring
Knowles’ advanced membrane technologies
resulting in a state-of-the-art silicone
membrane. This unique Knowles silicone
membrane enables ultra-high excursion
rates providing extended low frequencies
(650 Hz in 1cm3 backvolume) and superior
bass performance. The Dumbo speaker also
features a higher power handling capacity
up to 700 mW and is compliant according
to the IPX7 waterproof standard.
Features:
•
•
•
•
•
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Optimized for extended low
frequencies (f0: 650 Hz in 1cm³
backvolume)
Unique Knowles silicone membrane
providing ultra-high excursion for
minimum THD, Q-factor and tumbling
Increased Power Handling Capacity (700
mW)
IPX7 waterproof standard compliant
100% in-line measurement of all
specified acoustical and electrical
parameters
©2011 Knowles Electronics
2403 260 00057
Contents
1.
Theory of operation............................................................................................................................. 3
2.
Mechanical Layout and Dimensions.................................................................................................... 4
2.1. Main Dimensions .........................................................................................................................4
2.2. PWB Layout .................................................................................................................................5
2.3. Spring Force .................................................................................................................................6
2.4. HNO3 Test area ...........................................................................................................................7
2.5. Part marking/labeling ..................................................................................................................8
2.6. Forces on component..................................................................................................................9
2.7. Material List ...............................................................................................................................10
Electrical and Acoustical Specifications..................................................................................................... 11
2.8. Frequency response ..................................................................................................................11
2.9. Electro-Acoustic Parameters .....................................................................................................12
2.10. Power handling..........................................................................................................................12
2.11. Measurement setup ..................................................................................................................13
2.12. Measured Parameters ...............................................................................................................13
2.13. Measurement adapter ..............................................................................................................14
3.
Environmental Conditions ................................................................................................................. 15
3.1. Storage.......................................................................................................................................15
3.2. Transportation ...........................................................................................................................15
3.3. Functionality ..............................................................................................................................15
4.
Environmental tests .......................................................................................................................... 16
4.1. Qualification tests......................................................................................................................16
4.2. Reliability tests ..........................................................................................................................16
4.3. Sample Size, Sequence ..............................................................................................................16
4.4. Period of Shelf-Life ....................................................................................................................16
4.5. Testing Procedures ....................................................................................................................16
5.
Related Documents ........................................................................................................................... 20
6.
Change History .................................................................................................................................. 21
7.
Disclaimer .......................................................................................................................................... 21
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©2011 Knowles Electronics
2403 260 00057
1.
Theory of operation
The 13x18x4.5 mm rectangular Dumbo speaker is an electrodynamic transducer, designed to translate
electrical analog signals into sound. The input signal is fed into a coil in a magnetic field, which is
attached to a membrane. Through the principle of the electromagnetic force, the membrane is moved
according to the contents of the input signal.
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©2011 Knowles Electronics
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2.
Mechanical Layout and Dimensions
2.1. Main Dimensions
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©2011 Knowles Electronics
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2.2. PWB Layout
positive voltage on pin +
moves membrane in direction of arrow
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©2011 Knowles Electronics
2403 260 00057
2.3. Spring Force
SPRING FORCE TABLE
Force at Basket level
0 mm
Force at Start Workingposition
0,5 mm
uncompressed (delivery position)
0N
Force at PPP level
-0,2 mm
2.3.1.
•
•
•
•
max 1,2 N
min 0,5N
0,65 +/- 0,15mm
max 1,2 N
Test method:
Test speed V=10mm/min
Load contact spring 2x to basket level (0mm)
The min. contact spring force shall be measured at test position (0,5mm) (second backwards
stroke of diagram)
Load contact spring to full compressed (-0,2mm) and measure max. contact spring force
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©2011 Knowles Electronics
2403 260 00057
2.4. HNO3 Test area
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©2011 Knowles Electronics
2403 260 00057
2.5. Part marking/labeling
Orientation Mark
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©2011 Knowles Electronics
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2.6. Forces on component
STATE
FROM FRONT TO BACK
FROM SIDE 1 TO SIDE 3
FROM SIDE 2 TO SIDE 4
TO POT
TO MEMBRANE
PULL OF FORCE
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FORCES ON DIFFERENT STATE OF COMPONENT
MIN.SURFACE OF
MAX. PERMANENT
PRESSURE [mm²]
FORCE [N]
10
3
10
10
10
0
0
0
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MAX. HANDLING
FORCE [N]
15
15
15
3
0
5
©2011 Knowles Electronics
2403 260 00057
2.7. Material List
1.
Material of basket:
Polycarbonate bromide free
2.
Material of membrane:
Silicone
3.
Material of pot:
soft magnetic Iron
4.
Material of magnet:
Nd Fe B
5.
Material of contact
CrNi-Steel gold plated
6.
Material of cover:
Polybutylenterephthalat (PBT)
7.
Dimensions:
18x13x4,5mm
8.
Mass:
2,65g
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©2011 Knowles Electronics
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Electrical and Acoustical Specifications
2.8. Frequency response
2.8.1.
Frequency response with 1ccm back cavity
105
35
100
30
95
25
90
20
85
15
80
10
75
5
70
THD [%]
SPL [dB rel 20uPa]
Typical frequency response measured on baffle according to chapter 2.6
(distance d = 10cm, P = 700mW, with 1ccm back cavity)
0
100
1000
10000
f [Hz]
SPL
THD
Limit
Tolerance window
Frequency Response
f
[Hz]
300
550
670
750
1250
1500
2000
3000
4000
7500
11000
14000
20000
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lower limit
[dBSPL]
70
94
89
89
91
89
80
80
upper limit
[dBSPL]
85
99
99
94
93
93
94
102
102
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THD
f
[Hz]
200
400
1100
2000
4500
5000
10000
upper limit
[%]
30
30
6
2
2
4
4
©2011 Knowles Electronics
2403 260 00057
2.9. Electro-Acoustic Parameters
Loudspeaker mounted in adapter acc. to 2.13.
1. Rated impedance
Z:
8Ω
2. Voice coil resistance
R:
7.2Ω±10%
3. Resonance frequency
(measured @1ccm, 700mW)
f0:
650Hz±7,5%
4. Maximum usable excursion xmax
p-p:
1 mm p-p
5. Nominal characteristic sensitivity (calculated for 1W in 1m)
average from 2kHz to 4kHz
73±2dB
5.1. Measured characteristic sensitivity (at 700mW in 10cm)
average from 2kHz to 4kHz
91,5±2dB
6. THD
according chapter 2.8.
7. Rub & buzz (measured @ 10cm, 1ccm, 700mW (2.29Veff) < 65dBSPL (300Hz -1500Hz)
All acoustic measurements at 23±2°C
2.10. Power handling
Loudspeaker mounted in lifetime test device (1ccm back cavity, open front)
1. Max short term power
(1sec. ON / 60sec. OFF)
1000mW (RMS)
2. Max continuous power
(500h)
700mW (RMS)
nd
(IEC268-1, 2 order high pass filtered, -3dB at 900Hz, crest factor 2)
nd
(IEC268-1, 2 order high pass filtered, -3dB at 650Hz, crest factor 2)
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©2011 Knowles Electronics
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2.11. Measurement setup
IEC BAFFLE
Rq, including wiring < 0,3Ω
freefield microphone
1/4“
power amplifier
analyzer
•
1cm³
•
≈
frequency
response
THD
d
measurement adapter
2.12. Measured Parameters
2.12.1.
Sensitivity
SPL is expressed in dB rel 20µPa, computed according to IEC 268-5.
Measurement set up and parameters according chapter 2.11.
This test is performed for 100% of products in the production line.
2.12.2.
Frequency response
Frequency response is measured according test set up in chapter 2.11 data sheet and checked against
the tolerance window defined in chapter 2.8. This Test is performed for 100% of products in the
production line.
2.12.3.
Total harmonic distortion (THD)
Is measured according IEC 268-5 (2nd to 5th harmonics) and test set up in chapter 2.11. This test is
performed for 100% of products in the production line.
2.12.4.
Rub& Buzz
Rub & Buzz will be measured in the Inline-measuring device with a sinusoidal sweep. Rub and Buzz is
defined as the maximum peak sound pressure in transmission range of the 5kHz high pass filter.
Signal and evaluation criteria are according to chapter 2.9. This test is performed for 100% of products
in the production line.
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©2011 Knowles Electronics
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2.13. Measurement adapter
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©2011 Knowles Electronics
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3.
Environmental Conditions
3.1. Storage
The transducer fulfils the specified data after treatment according to the conditions of
ETS 300 019-2-1
Specification of environmental test: Storage
Test spec. T 1.2: Weather protected, not temperature controlled storage
locations.
3.2. Transportation
The transducer fulfils the specified data after treatment according to the conditions of
ETS 300 019-2-2
Specification of environmental test: Transportation
Test Spec. T 2.3: Public Transportation
3.3. Functionality
The transducer fulfils the specified data after treatment according to the conditions of
ETS 300 019-2-5
ETS 300 019-2-7
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Specification of environmental test: Ground vehicle installations
Test spec. T 5.1: Protected installation
Specification of environmental test: Portable and non-stationary use
Test spec. T 7.3E: Partly weather protected and non-weather protected
locations.
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©2011 Knowles Electronics
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4.
Environmental tests
4.1. Qualification tests
According to our milestone plan (Product Creation Process), a complete qualification test will be done
at design validation of products manufactured under serial conditions.
1x per year and product family a requalification takes place. The qualification process covers all tests
described under 4.5 and a complete inspection.
4.2. Reliability tests
1x per month and product family samples are taken and submitted to tests described under 4.5.2
4.3. Sample Size, Sequence
Unless otherwise stated 20 arbitrary new samples will be used to perform each test for both,
qualification and requalification test as described under 4.1 and 4.2.
4.4. Period of Shelf-Life
The period of shelf-life is 2 years.
4.5. Testing Procedures
4.5.1.
Storage Tests
4.5.1.1.
Low Temperature Storage Test
Parameter
Test Method and
Conditions
Duration
Evaluation Standard
Low Temperature
Storage
-40°C
168h
Measurements after 2 hours
recovery time.
(Ref. EN 60068-2-1)
rel. humidity not
controlled
All samples fully operable.
All acoustical parameters
according specification with
tolerances increased by 50 %.
4.5.1.2.
High Temperature Storage Test
Parameter
Test Method and
Conditions
Duration
Evaluation Standard
Dry Heat Storage
+85°C
168h
(Ref. EN 60068-2-2)
rel. humidity not
controlled
Measurements after 2 hours
recovery time.
All samples fully operable.
All acoustical parameters
according specification with
tolerances increased by 50 %.
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©2011 Knowles Electronics
2403 260 00057
4.5.1.3.
Temperature Cycle Test
Parameter
Test Method and
Conditions
Duration
Evaluation Standard
Change of Temperature
-40°C/+85°C
5 cycles
(Ref. EN 60068-2-14)
Transition time <3 min.
See Figure 4-1 below
>2h for each
temperature
Measurements after 2 hours
recovery time.
All samples fully operable.
All acoustical parameters
according specification with
tolerances increased by 50 %.
+85°C
-40°C
2h
3m
2h
3m
2h
3m
2h
3m
2h
3m
2h
3m
2h
3m
2h
3m
2h
3m
2h
3m
Figure 4-1: Temperature Cycle Test
4.5.1.4.
Temperature / Humidity Cycle Test
Parameter
Test Method and
Conditions
Duration
Evaluation Standard
Damp heat, cyclic
+25°C/+55°C
6 cycles.
(Ref. IEC 60068-2-30)
90% to 95% RH.
24h at each
temperature
Measurements after 2 hours
recovery time.
Temp. change time <3h
See Figure 4-2 below
All samples fully operable.
All acoustical parameters
according specification with
tolerances increased by 50 %.
Caution: no condensed
water on products!
+55°C
+25°C
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
9h
3h
Figure 4-2: Temperature / Relative Humidity Cycle Test
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©2011 Knowles Electronics
2403 260 00057
4.5.2.
Operating Tests
4.5.2.1.
Cold Operation Test
Parameter
Test Method and
Conditions
Duration
Evaluation Standard
Cold Operation Test
-20°C
72h
Measurements after 2 hours recovery time.
(Ref. EN 60068-2-1)
rel. humidity not
controlled
All samples fully operable.
THD may be increased after test. All other
acoustical parameters according
specification with tolerances increased by
50 %.
signal acc. Chapter
2.10
4.5.2.2.
Dry Heat Operation Test
Parameter
Test Method and
Conditions
Duration
Evaluation Standard
Dry Heat Operation
+70°C
500h
Measurements after 2 hours recovery time.
(Ref. EN 60068-2-2)
rel. humidity not
controlled
All samples fully operable.
The allowable change in sensitivity shall
not be greater than 3 dB. All other
acoustical parameters according
specification with tolerances increased by
50 %.
signal acc. Chapter
2.10
4.5.3.
Salt Mist Test
Parameter
Test Method and
Conditions
Duration
Evaluation Standard
Salt Mist
The part must be
subjected to 2 hours
spray of 5% NaCl
salt mist, at 35°C
then be left at 40°C
and 95% RH for 22h.
3 cycles
The samples shall be washed after the test
with distilled water and dried at T< 50°C.
(Ref. IEC60068-2-52,
Kb / Severity 2
4.5.4.
Component may have reduced
performance, but must still function
properly. The allowable sensitivity
difference shall not be greater than ±3dB
from initial sensitivity.
Shock Resistance Test (Free Fall Test) - unprotected product
Parameter
Test Method and
Conditions
Conditions /
Sample size
Evaluation Standard
Mechanical shock
Drop of sample without
fixation of release plane
from a height of 1.5m
onto concrete floor.
Each 3 shocks
in both
directions of the
3 axes.
Component may have reduced
performance, but must still
function properly. The allowable
sensitivity difference shall not
be greater than ±3dB from
initial sensitivity.
(Ref. IEC60068-2-32
Ed), Procedure 1
(18 drops in
total)
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©2011 Knowles Electronics
2403 260 00057
4.5.5.
Impact Durability Test (Tumble Test) – protected product
Parameter
Test Method and
Conditions
Conditions /
Sample size
Evaluation Standard
Impact durability (in a
Tumble Tester)
Speaker in drop test box
or representative
mechanics. Random
drops on steel base.
30 units
Component may have reduced
performance, but must still
function properly. The
allowable sensitivity difference
shall not be greater than ±3 dB
from initial sensitivity.
(Ref. IEC60068-2-32
Ed)
180 drops, 1m
DUT power off
(SPR a7.1.1)
4.5.6.
Resistance to Electrostatic Discharge
Parameter
Test Method and
Conditions
Conditions /
Sample size
Evaluation Standard
Resistance to ESD
One pole is grounded and
the ESD pulse is applied
to the other pole. The
speaker must be stressed
first with one polarisation
and then with the other
polarisation. DUT must be
discharged between each
ESD exposure.
10 exposures on
each polarity / 5
units
All samples fully operable.
IEC61000-4-2 Level 4
(SPR c 2.5.1)
DUT Power off
All acoustical parameters
according specification with
tolerances increased by
50%.
Level 4: contact +/- 8kV,
air +/- 15kV
4.5.7.
Water-resistant
Parameter
Test Method and
Conditions
Conditions /
Sample size
Evaluation Standard
Water resistant acc.
IPx7
The part must be
immersed in 1m of water
for 30min in a
appropriate test adapter.
10 units
No ingress of water through
the products allowed.
(Ref. EN60529)
1m, 30min
Measurements after samples
are dry.
All samples fully operable.
The allowable change in
sensitivity shall not be greater
than 3 dB. All other acoustical
parameters according
specification with tolerances
increased by 50 %.
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©2011 Knowles Electronics
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5.
Related Documents
IEC 268-5
IEC 68-2
EN 60068-2
ISO 2859 - 1
ISO 3951
ETS 300 019-2-1
ETS 300 019-2-2
ETS 300 019-2-5
ETS 300 019-2-7
Release – Revision: D
Sound System equipment
Part 5: Loudspeaker
Environmental testing
Environmental testing
Sampling procedures for inspection by attributes
Part 1: Sampling plans indexed by acceptable quality level (AQL) for lot-by-lot
inspection
Sampling procedures and charts for inspection by variables for percent
defectives.
Specification of environmental test: Storage
Test spec. T 1.2: Weather protected, not temperature controlled storage
locations
Specification of environmental test: Transportation
Test spec. T 2.3: Public Transportation
Specification of environmental test: Ground vehicle installations
Test spec. T 5.1: Protected installation
Specification of environmental test: Portable and non-stationary use
Test spec. T 7.3E: Partly weather protected and non-weather protected
locations
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©2011 Knowles Electronics
2403 260 00057
6.
Change History
Status
Version
Date
ECR
Comment / Changes
Initials of owner
Obsolete
A
15.10.10
2957
First release
CP/FL/MW/EK
Obsolete
B
04.04.11
3108
New membrane technology
CP/SA/FH
Obsolete
C
16.08.11
3249
FH/AH/SA/MS/CP
Release
D
28.10.11
3353
Add. Overshoot area in Product drawing (Page #4),
modify measurement adapter (Page #14)
Changed Chapter 3: From 1cm to 10cm
Updated drawing of Measurement Adapter
Updated Material List
Modify feature description and theory of operation
7.
AT/CP
Disclaimer
Stresses above the Absolute Maximum Ratings may cause permanent damage to the device. These are
stress ratings only. The device may not function when operated at these or any other conditions
beyond those indicated under “Electrical and Acoustical Specifications”. Exposure beyond those
indicated under “Electrical and Acoustical Specifications” for extended periods may affect device
reliability.
This product is not qualified for use in
automotive applications
Frequency range in telecom application:
300 Hz – 3,4 kHz
The information contained in this literature is based on our experience to date and is believed to be reliable and it is subject to change without notice. It is
intended as a guide for use by persons having technical skill at their own discretion and risk. We do not guarantee favorable results or assume any liability in
connection with its use. Dimensions contained herein are for reference purposes only. For specific dimensional requirements consult factory. This publication
is not to be taken as a license to operate under, or recommendation to infringe any exiting patents. This supersedes and voids all previous literature.
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©2011 Knowles Electronics