SPM0423HD4H-WB

SPM0423HD4H-WB
Digital SiSonicTM Microphone
The SPM0423HD4H-WB is a miniature, highperformance, low power, top port silicon
digital microphone with a single bit PDM
output. Using Knowles’ proven high
performance SiSonicTM MEMS technology,
the SPM0423HD4H-WB consists of an
acoustic sensor, a low noise input buffer,
and a sigma-delta modulator. These devices
are suitable for applications such as
cellphones, smart phones, laptop
computers, sensors, digital still cameras,
portable music recorders, and other
portable electronic devices where excellent
wideband audio performance and RF
immunity are required.
Revision: E
Sheet 1 of 13
Features:
• PDM Output
• Supports Dual Multiplexed Channels
• Ultra-Stable Performance
• Standard SMD Reflow
• Omnidirectional
6/18/2013
©2013 Knowles Electronics
SPM0423HD4H-WB
1.
ABSOLUTE MAXIMUM RATINGS
Parameter
Absolute Maximum Rating
Units
VDD, DATA to Ground
-0.3, +5.0
V
CLOCK to Ground
-0.3, +5.0
V
SELECT to Ground
-0.3, +5.0
V
±5
mA
Indefinite to Ground or VDD
sec
-40 to +100
°C
Input Current
Short Circuit Current to/from DATA
Temperature Range
Stresses exceeding these “Absolute Maximum Ratings” may cause permanent damage to the device. These are
stress ratings only. Functional operation at these or any other conditions beyond those indicated under “Acoustic
& Electrical Specifications” is not implied. Exposure beyond those indicated under “Acoustic & Electrical
Specifications” for extended periods may affect device reliability.
2.
ACOUSTIC & ELECTRICAL SPECIFICATIONS
TEST CONDITIONS: 23 ±2°C, 55±20% R.H., VDD=1.8 V, FCLOCK=2.4 MHz, SELECT pin grounded, no load,
unless otherwise indicated
Parameter
Symbol
Conditions
Min
Typ
Max
Units
Supply Voltage1
VDD
1.6
-
3.6
V
1,2,3
IDD
-
500
600
µA
Supply Current
Sleep Current3
Sensitivity
1
Signal to Noise Ratio
Total Harmonic
Distortion
Acoustic Overload
Point
ISLEEP
FCLOCK < 1 kHz
-
25
50
µA
S
94 dB SPL @ 1 kHz
-29
-26
-23
dBFS
SNR
94 dB SPL @ 1 kHz, A-weighted
-
56
-
dB(A)
THD
94 dB SPL @ 1 kHz, S = Typ
-
-
1
%
AOP
10% THD @ 1 kHz, S = Typ
115
-
-
dB
SPL
Fullscale = ±100
-
4
-
% FS
DC Output
Directivity
Omnidirectional
Polarity
Increasing sound pressure
Decreasing density of 1’s
Data Format
½ Cycle PDM
Logic Input High
VIH
0.65xVDD
-
3.6
V
Logic Input Low
VIL
-0.3
-
0.35xVDD
V
Logic Output High
VOH
IOUT = 1 mA
0.65xVDD
-
VDD
V
Logic Output Low
VOL
IOUT = 1 mA
0
-
0.35xVDD
V
Revision: E
Sheet 2 of 13
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©2013 Knowles Electronics
SPM0423HD4H-WB
Parameter
Min
Typ
Max
Units
SELECT (high)
VDD -0.2
-
3.6
V
SELECT (low)
-0.3
-
0.2
V
-
1
10
mA
Short Circuit Current
Symbol
ISC
Conditions
Grounded DATA pin
Output Load
CLOAD
-
-
100
pF
Clock Frequency
FCLOCK
1.0
-
3.25
MHz
40
-
60
%
-
-
10
ns
Clock Duty Cycle
Clock Rise/Fall Time
tEDGE
Fall-asleep Time4,5
FCLOCK < 1 kHz
-
-
10
ms
Wake-up Time4,6
FCLOCK ≥ 1 MHz
-
-
10
ms
CLOAD = 13pf
18
-
60
ns
0
-
16
ns
Delay Time for Valid
Data
tDV
Delay Time for High Z
tDZ
1
100% tested.
IDD varies with CLOAD according to: ΔIDD = 0.5*VDD*ΔCLOAD*FCLOCK.
3
Maximum specifications are measured at maximum VDD. Typical specifications are measured at standard test
conditions.
4
Valid microphones states are: Powered Down Mode (mic off), Sleep Mode (low current, DATA = high-Z, fast startup),
and Active Mode (normal operation).
5
Time from FCLOCK < 1 kHz to ISLEEP specification is met when transitioning from Active Mode to Sleep Mode.
6
Time from FCLOCK ≥ 1 MHz to all applicable specifications are met when transitioning from Sleep Mode to Active Mode.
2
Revision: E
Sheet 3 of 13
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©2013 Knowles Electronics
SPM0423HD4H-WB
3.
MICROPHONE STATE DIAGRAM
Active
Mode
Powered
Down
Mode
Revision: E
Sheet 4 of 13
Sleep
Mode
6/18/2013
©2013 Knowles Electronics
SPM0423HD4H-WB
4.
FREQUENCY RESPONSE CURVE
Sensitivity (dB)
Typical Free Field Response
Normalized to 1 kHz
20
18
16
14
12
10
8
6
4
2
0
-2
-4
-6
-8
-10
-12
-14
-16
-18
-20
100
1,000
10,000
Frequency (Hz)
Revision: E
Sheet 5 of 13
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©2013 Knowles Electronics
SPM0423HD4H-WB
5.
INTERFACE CIRCUIT
VDD
VDD
.1µf
.1µf
SELECT
SELECT
Mic
(High)
Mic
(Low)
DATA CLOCK
Microphone
SELECT
Asserts DATA On
Latch DATA On
Mic (High)
VDD
Rising Clock Edge
Falling Clock Edge
Mic (Low)
GND
Falling Clock Edge
Rising Clock Edge
Note: All Ground pins must be connected to ground.
Capacitors near the microphone should not contain Class 2 dielectrics.
Detailed information on acoustic, mechanical, and system integration can be found in
the latest SiSonicTM Design Guide application note.
6.
TIMING DIAGRAM
1/FCLOCK
VIH
CLOCK
tEDGE
tEDGE
VIL
tDZ
tDV
DATA
(SELECT = VDD)
VOH
Mic (High)
Data
VOL
tDV
tDZ
DATA
(SELECT = GND)
Revision: E
Sheet 6 of 13
High Z
High Z
VOH
Mic (Low)
Data
VOL
6/18/2013
©2013 Knowles Electronics
SPM0423HD4H-WB
7.
MECHANICAL SPECIFICATIONS
Item
Dimension Tolerance
Units
Length (L)
4.72
±0.10
mm
Width (W)
3.76
±0.10
mm
Height (H)
1.25
±0.10
mm
Acoustic Port (AP)
Ø0.84
±0.08
mm
Pin #
Pin Name
Type
Description
1
GROUND
Power
Ground
2
SELECT
Non-Digital
Input
Lo/Hi (L/R) Select
This pin is internally pulled low.
3
GROUND
Power
Ground
4
CLOCK
Digital I
Clock Input
5
DATA
Digital O
PDM Output
6
VDD
Power
Power Supply
Notes: Pick Area only extends to 0.25 mm of any edge or hole unless otherwise specified.
Dimensions are in millimeters unless otherwise specified.
Tolerance is ±0.15mm unless otherwise specified
Revision: E
Sheet 7 of 13
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©2013 Knowles Electronics
SPM0423HD4H-WB
8.
EXAMPLE LAND PATTERN
9.
EXAMPLE SOLDER STENCIL PATTERN
Notes: Dimensions are in millimeters unless otherwise specified.
Further optimizations based on application should be performed.
Revision: E
Sheet 8 of 13
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©2013 Knowles Electronics
SPM0423HD4H-WB
10. PACKAGING & MARKETING DETAIL
Model Number
Suffix
Reel Diameter
Quantity Per Reel
SPM0423HD4H-WB
-6
13”
4,800
Pin 1
Alpha Character A:
TM
“S”: Knowles SiSonic Production
“E”: Knowles Engineering Samples
“P”: Knowles Prototype Samples
“JIN NUMBER”:
Unique Job Identification Number
for product traceability
Notes: Dimensions are in millimeters unless otherwise specified.
Vacuum pickup only in the pick area indicated in Mechanical Specifications.
Tape & reel per EIA-481.
Labels applied directly to reel and external package.
Shelf life: Twelve (12) months when devices are to be stored in factory supplied,
unopened ESD moisture sensitive bag under maximum environmental conditions of
30°C, 70% R.H.
Revision: E
Sheet 9 of 13
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©2013 Knowles Electronics
SPM0423HD4H-WB
11. RECOMMENDED REFLOW PROFILE
tP
TP
Ramp-up
Temperature
TL
tL
TSMAX
TSMIN
tS Preheat
Ramp-down
25°C
Time
Time 25°C to Peak
Profile Feature
Average Ramp-up rate (TSMAX to TP)
Preheat
• Temperature Min (TSMIN)
• Temperature Max (TSMAX)
• Time (TSMIN to TSMAX) (tS)
Time maintained above:
• Temperature (TL)
• Time (tL)
Peak Temperature (TP)
Time within 5°C of actual Peak Temperature (tP)
Ramp-down rate (TP to TSMAX)
Time 25°C to Peak Temperature
Pb-Free
3°C/second max.
150°C
200°C
60-180 seconds
217°C
60-150 seconds
260°C
20-40 seconds
6°C/second max
8 minutes max
Notes: Based on IPC/JDEC J-STD-020 Revision C.
All temperatures refer to topside of the package, measured on the package body
surface.
Revision: E
Sheet 10 of 13
6/18/2013
©2013 Knowles Electronics
SPM0423HD4H-WB
12. ADDITIONAL NOTES
(A) MSL (moisture sensitivity level) Class 1.
(B) Maximum of 3 reflow cycles is recommended.
(C) In order to minimize device damage:
• Do not board wash or clean after the reflow process.
• Do not brush board with or without solvents after the reflow process.
• Do not directly expose to ultrasonic processing, welding, or cleaning.
• Do not insert any object in port hole of device at any time.
• Do not apply over 30 psi of air pressure into the port hole.
• Do not pull a vacuum over port hole of the microphone.
• Do not apply a vacuum when repacking into sealed bags at a rate faster than 0.5 atm/sec.
13. MATERIALS STATEMENT
Meets the requirements of the European RoHS directive, 2011/65/EC as amended.
Meets the requirements of the industry-standard IEC 61249-2-21:2003 for halogenated
substances and Knowles Green Materials Standards Policy section on Halogen-Free.
Ozone depleting substances are not used in the product or the processes used to make the
product including compounds listed in annex A, B, and C of the “Montreal Protocol on
Substances that deplete the ozone Layer.”
Revision: E
Sheet 11 of 13
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©2013 Knowles Electronics
SPM0423HD4H-WB
14. RELIABILITY SPECIFICATIONS
Test
Description
Thermal Shock
100 cycles air-to-air thermal shock from -40oC to +125oC with 15
minute soaks. (IEC 68-2-4)
High Temperature Storage
1,000 hours at +105oC environment (IEC 68-2-2 Test Ba)
Low Temperature Storage
1,000 hours at -40oC environment (IEC 68-2-2 Test Aa)
High Temperature Bias
1,000 hours at +105oC under bias (IEC 68-2-2 Test Ba)
Low Temperature Bias
1,000 hours at -40oC under bias (IEC 68-2-2 Test Aa)
Temperature / Humidity Bias
1,000 hours at +85oC/85% R.H. under bias. (JESD22-A101A-B)
Vibration
ESD-HBM
ESD-LID/GND
ESD-MM
4 cycles of 20 to 2,000 Hz sinusoidal sweep with 20 G peak
acceleration lasting 12 minutes in X, Y, and Z directions.
(Mil-Std-883E, method 2007.2 A)
3 discharges of ±2 kV direct contact to I/O pins. (MIL 883E, Method
3015.7)
3 discharges of ±8 kV direct contact to lid while unit is grounded.
(IEC 61000-4-2)
3 discharges of ±200 V direct contact to I/O pins.
(ESD STM5.2)
Reflow
5 reflow cycles with peak temperature of +260oC
Mechanical Shock
3 pulses of 10,000 G in the X, Y, and Z direction (IEC 68-2-27, Test Ea)
Note: After reliability tests are performed, the sensitivity of the microphones shall not deviate
more than 3 dB from its initial value.
Revision: E
Sheet 12 of 13
6/18/2013
©2013 Knowles Electronics
SPM0423HD4H-WB
15. SPECIFICATIONS REVISIONS
Revision
Specification Changes
Date
A
Initial Release (C10111410)
6/30/10
B
Typographical error and format changes.
New RoHS statement (C10114438); updated humidity conditions and ESD
descriptions (C10114466); released in new format (C10114628)
10/20/10
D
Fixed typos in Reliability Section 14 (C10114690)
3/27/13
E
Update CLOAD value for tDV (C10114972)
6/18/13
C
2/28/13
Information contained herein is subject to change without notice. It may be used by a party at their own discretion
and risk. We do not guarantee any results or assume any liability in connection with its use. This publication is not
to be taken as a license to operate under any existing patents.
Revision: E
Sheet 13 of 13
6/18/2013
©2013 Knowles Electronics