EVAL-ADMP421Z-FLEX [ADI]
Omnidirectional Microphone with Bottom Port and Digital Output; 全向麦克风与底部端口和数字输出型号: | EVAL-ADMP421Z-FLEX |
厂家: | ADI |
描述: | Omnidirectional Microphone with Bottom Port and Digital Output |
文件: | 总17页 (文件大小:499K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Omnidirectional Microphone with
Bottom Port and Digital Output
Data Sheet
ADMP421
FEATURES
GENERAL DESCRIPTION
Small and thin 3 mm × 4 mm × 1 mm surface-mount package
High SNR of 61 dBA
High sensitivity of −26 dBFS
Flat frequency response from 100 Hz to 15 kHz
Low current consumption: <650 µA
Sleep mode for extended battery life
High PSR of 80 dBFS
The ADMP421 is a high performance, low power, digital output
bottom-ported omnidirectional MEMS microphone. The
ADMP421 consists of a MEMS microphone element and an
impedance converter amplifier followed by a fourth-order Σ-Δ
modulator. The digital interface allows for the pulse density
modulated (PDM) output of two microphones to be time-
multiplexed on a single data line using a single clock.
Fourth-order Σ-Δ modulator
The ADMP421 has a high SNR and high sensitivity, making it
an excellent choice for far field applications. The ADMP421 has
a flat wideband frequency response, resulting in natural sound
with high intelligibility. Low current consumption and a sleep
mode enable long battery life for portable applications. A built-
in particle filter provides high reliability. The ADMP421 complies
with the TIA-920 Telecommunications Telephone Terminal
Equipment Transmission Requirements for Wideband Digital
Wireline Telephones standard.
Digital PDM output
Compatible with Sn/Pb and Pb-free solder processes
RoHS/WEEE compliant
APPLICATIONS
Smartphones and feature phones
Teleconferencing systems
Digital video cameras
Bluetooth headsets
Video phones
The ADMP421 is available in a thin 3 mm × 4 mm × 1 mm
surface-mount package. It is reflow solder compatible with no
sensitivity degradation. The ADMP421 is halide free.
Tablets
FUNCTIONAL BLOCK DIAGRAM
ADMP421
CLK
PDM
ADC
MODULATOR
DATA
POWER
MANAGEMENT
CHANNEL
SELECT
Figure 1.
Rev. D
Information furnished by Analog Devices is believed to be accurate and reliable. However, no
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
rightsof third parties that may result fromits use. Specifications subject to change without notice. No
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Trademarks andregisteredtrademarks are the property of their respective owners.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
www.analog.com
Fax: 781.461.3113 ©2010–2011 Analog Devices, Inc. All rights reserved.
IMPORTANT LINKS for the ADMP421*
Last content update 09/20/2013 09:57 pm
DOCUMENTATION
PARAMETRIC SELECTION TABLES
Find Similar Products By Operating Parameters
AN-1140: Microphone Array Beamforming
AN-1124: Recommendations for Sealing Analog Devices, Inc., Bottom-
Port MEMS Microphones from Dust and Liquid Ingress
Consider ADMP401: Omnidirectional Microphone with Bottom Port
and Analog Output
AN-1112: Microphone Specifications Explained
Consider ADMP404: Omnidirectional Microphone with Bottom Port
and Analog Output
AN-1068: Reflow Soldering of the MEMS Microphone
Consider ADMP405: Omnidirectional Microphone with Bottom Port
and Analog Output
AN-1003: Recommendations for Mounting and Connecting Analog
Devices, Inc., Bottom-Ported MEMS Microphones
Consider ADMP441: Omnidirectional Microphone with Bottom Port
and Analog Output
CN-0078: iMEMS Digital Microphone Simplifies the Interface to a
SigmaDSP Audio Codec
Introducing iMEMS(R) Microphones This video compares the ADMP401
Analog MEMS and the ADMP421 Digital MEMS.
Consider ADMP504: Omnidirectional Microphone with Bottom Port
and Analog Output
Consider ADMP521: Omnidirectional Microphone with Bottom Port
and Analog Output
UG-326: PDM Digital Output MEMS Microphone Evaluation Board
UG-183: Evaluation Board User Guide for ADMP421
UG-118: EVAL-ADMP421Z Bottom Port Digital Output MEMS
Microphone Evaluation Board User Guide
MS-2472: Analog and Digital MEMS Microphone Design
DESIGN TOOLS, MODELS, DRIVERS & SOFTWARE
Microphone Beamforming Simulation Tool (32-bit)
- Documentation for the microphone beamforming simulator
Microphone Beamforming Simulation Tool (64-bit)
- Documentation for the microphone beamforming simulator
ADMP421 IBIS model
Considerations
MS-2275: Common Inter-IC Digital Interfaces for Audio Data Transfer
A History of Consumer Microphones:
Industrial ICs
EVALUATION KITS & SYMBOLS & FOOTPRINTS
MEMS Microphone Evaluation Boards
SUGGESTED COMPANION PRODUCTS
Recommended Audio Codecs for the ADMP421
ADMP421 FLEX Evaluation Board
ADMP421Z Evaluation Board
Symbols and Footprints
For a low power SigmaDSP codec with headphone driver and
PLL, we recommend the ADAU1761.
For a low power SigmaDSP codec with mono speaker driver
and PLL, we recommend the ADAU1781.
For a low power, 24-bit audio codec with headphone driver
and PLL, we recommend the ADAU1361.
PRODUCT RECOMMENDATIONS & REFERENCE DESIGNS
CN-0078: Digital MEMS Microphone Simple Interface to a SigmaDSP
Audio Codec
For a low power, 24-bit audio codec with a fixed-function
tunable signal processor, we recommend the ADAU1381.
For a low power, multi-channel, 24-bit audio codec in a wafer
level chip scale package, we recommend the ADAU1373.
DESIGN SUPPORT
Submit your support request here:
Linear and Data Converters
Embedded Processing and DSP
SAMPLE & BUY
ADMP421
Telephone our Customer Interaction Centers toll free:
Americas:
Europe:
China:
1-800-262-5643
00800-266-822-82
4006-100-006
View Price & Packaging
Request Evaluation Board
Request Samples
India:
1800-419-0108
8-800-555-45-90
Check Inventory & Purchase
Russia:
Find Local Distributors
Quality and Reliability
Lead(Pb)-Free Data
* This page was dynamically generated by Analog Devices, Inc. and inserted into this data sheet.
Note: Dynamic changes to the content on this page (labeled 'Important Links') does not
constitute a change to the revision number of the product data sheet.
This content may be frequently modified.
ADMP421
Data Sheet
TABLE OF CONTENTS
Features .............................................................................................. 1
Applications Information .............................................................. 10
Interfacing with Analog Devices Codecs................................ 10
Sleep Mode.................................................................................. 10
Applications....................................................................................... 1
General Description ......................................................................... 1
Functional Block Diagram .............................................................. 1
Revision History ............................................................................... 2
Specifications..................................................................................... 3
Timing Characteristics ................................................................ 4
Absolute Maximum Ratings............................................................ 5
ESD Caution.................................................................................. 5
Pin Configuration and Function Descriptions............................. 6
Typical Performance Characteristics ............................................. 7
PCB Land Pattern Layout................................................................ 8
Alternate PCB Land Patterns...................................................... 9
Power Savings When Disabling One Microphone in a
Multimicrophone Application.................................................. 10
Supporting Documents ............................................................. 10
Handling Instructions.................................................................... 11
Pick-and-Place Equipment ....................................................... 11
Reflow Solder.............................................................................. 11
Board Wash ................................................................................. 11
Reliability Specifications................................................................ 12
Outline Dimensions....................................................................... 13
Ordering Guide .......................................................................... 13
REVISION HISTORY
11/11—Rev. C to Rev. D
6/11—Rev. A to Rev. B
Changed PSRR to PSR .......................................................Universal
Changed Pb-Free Temperature from 245°C to 260°C, Table 4 .. 5
Changes to Figure 8 and Figure 9................................................... 8
Added Alternate PCB Land Patterns Section ............................... 9
Changes to Temperature Humidity Bias (THB) Description,
Table 6 .............................................................................................. 12
Changes to Figure 1...........................................................................1
Changes to Figure 5...........................................................................7
2/11—Rev. 0 to Rev. A
Changes to Features Section, Applications Section, and
General Description Section............................................................1
Added Dynamic Range Parameter, Changes to Input
Characteristics Parameter and Output Characteristics
Parameter, Deleted Polarity Parameter, Table 1 ............................3
Changes to Table 3.............................................................................5
Changes to Table 5.............................................................................6
Added Power-Saving Features Section ...........................................8
Updated Outline Dimensions....................................................... 13
Changes to Ordering Guide.......................................................... 13
8/11—Rev. B to Rev. C
Changes to Clock Frequency and Supply Voltage Parameters,
Table 1 ................................................................................................ 3
Changes to Table 3 and Table 4....................................................... 5
Deleted Power-Saving Features Section ........................................ 8
Changes to Figure 9.......................................................................... 8
Added Applications Information Section ..................................... 9
Added Supporting Documents, Evaluation Board User Guides,
Circuit Note, and Application Notes Sections .............................. 9
Changes to Interfacing with Analog Devices Codecs
4/10—Revision 0: Initial Version
Section................................................................................................ 9
Moved Sleep Mode Section and Power Savings When Disabling
One Microphone in a Multimicrophone Application Section ... 9
Changes to Figure 10........................................................................ 9
Change to Pick-and-Place Equipment Section........................... 10
Deleted Evaluation Board Section................................................ 10
Deleted Figure 10 and Figure 11; Renumbered Sequentially ... 10
Deleted Table 6; Renumbered Sequentially................................. 10
Deleted Figure 12............................................................................ 11
Change to Temperature Cycle Description, Table 6 .................. 11
Changes to Ordering Guide .......................................................... 12
Rev. D | Page 2 of 16
Data Sheet
ADMP421
SPECIFICATIONS
TA = 25°C, VDD = 1.8 V, CLK = 2.4 MHz, unless otherwise noted. All minimum and maximum specifications are guaranteed. Typical
specifications are not guaranteed.
Table 1.
Parameter
Symbol Test Conditions/Comments
Min
Typ
Max
Unit
PERFORMANCE
Directionality
Omni
−26
61
33
87
Sensitivity1
1 kHz, 94 dB SPL
−29
−23
dBFS
dBA
dBA SPL
dB
Signal-to-Noise Ratio
Equivalent Input Noise
Dynamic Range
Frequency Response2
SNR
EIN
20 kHz bandwidth, A-weighted
20 kHz bandwidth, A-weighted
Derived from EIN and maximum acoustic input
Low frequency −3 dB point
100
15
Hz
kHz
High frequency −3 dB point
Deviation limits from flat response within
pass band
−3/+2
dB
Total Harmonic Distortion
Power Supply Rejection
THD
PSR
105 dB SPL
217 Hz, 100 mV p-p square wave
superimposed on VDD = 1.8 V
3
%
dBFS
80
Maximum Acoustic Input
INPUT CHARACTERISTICS
Clock Frequency
Peak
120
dB SPL
CLK
1.0
40
2.43
3.3
60
MHz
%
Clock Duty Ratio
Clock frequency of 2.4 MHz or less
Input Voltage High
Input Voltage Low
OUTPUT CHARACTERISTICS
Output Voltage High
Output Voltage Low
Latency
VIH
VIL
0.65 × VDD
V
V
0.35 × VDD
0.3 × VDD
VOH
VOL
ILOAD = 0.5 mA
ILOAD = 0.5 mA
0.7 × VDD
VDD
0
<30
10
V
V
µs
ms
Wake-Up Time
From sleep mode, power on
POWER SUPPLY
Supply Voltage
Supply Current
VDD
IS
1.8
3.3
650
50
V
µA
µA
Normal mode
Sleep mode4
1 Relative to the rms level of a sine wave with positive amplitude equal to 100% 1s density and negative amplitude equal to 0% 1s density.
2 See Figure 5 and Figure 6.
3 The microphone operates at any clock frequency between 1.0 MHz and 3.3 MHz. Some specifications may not be guaranteed at frequencies other than 2.4 MHz.
4 The microphone enters sleep mode when the clock is turned off or the clock frequency is less than 1 kHz.
Rev. D | Page 3 of 16
ADMP421
Data Sheet
TIMING CHARACTERISTICS
Table 2.
Parameter
Description
Min
310
30
Max
Unit
Input
tCLKIN
Output
t1OUTEN
t1OUTDIS
t2OUTEN
Input clock period
1000
ns
DATA1 driven after falling clock edge
DATA1 disabled after rising clock edge
DATA2 driven after rising clock edge
DATA2 disabled after falling clock edge
ns
ns
ns
ns
20
20
30
t2OUTDIS
Timing Diagram
tCLKIN
CLK
t1OUTEN
t1OUTDIS
DATA1
DATA2
t2OUTDIS
t2OUTEN
Figure 2. Pulse Density Modulated Output Timing
Rev. D | Page 4 of 16
Data Sheet
ADMP421
ABSOLUTE MAXIMUM RATINGS
Table 3.
Stresses above those listed under Absolute Maximum Ratings
may cause permanent damage to the device. This is a stress
rating only; functional operation of the device at these or any
other conditions above those indicated in the operational
section of this specification is not implied. Exposure to absolute
maximum rating conditions for extended periods may affect
device reliability.
Parameter
Rating
Supply Voltage
−0.3 V to 3.6 V
Digital Pin Input Voltage
−0.3 V to VDD + 0.3 V or 3.6 V,
whichever is less
Sound Pressure Level (SPL)
Mechanical Shock
Vibration
160 dB
10,000 g
Per MIL-STD-883 Method 2007,
Test Condition B
ESD CAUTION
Temperature Range
−40°C to +85°C
CRITICAL ZONE
tP
T
TO T
L
P
T
P
RAMP-UP
T
L
tL
T
SMAX
T
SMIN
tS
RAMP-DOWN
PREHEAT
t
25°C TO PEAK
TIME
Figure 3. Recommended Soldering Profile Limits
Table 4. Recommended Soldering Profile Limits
Profile Feature
Sn63/Pb37
Pb Free
Average Ramp Rate (TL to TP)
Preheat
1.25°C/sec max
1.25°C/sec max
Minimum Temperature (TSMIN
)
100°C
100°C
Maximum Temperature (TSMAX
Time (TSMIN to TSMAX), tS
Ramp-Up Rate (TSMAX to TL)
Time Maintained Above Liquidous (tL)
Liquidous Temperature (TL)
)
150°C
200°C
60 sec to 75 sec
1.25°C/sec
45 sec to 75 sec
183°C
60 sec to 75 sec
1.25°C/sec
~50 sec
217°C
Peak Temperature (TP)
Time Within 5°C of Actual Peak Temperature (tP)
Ramp-Down Rate
215°C +3°C/−3°C
20 sec to 30 sec
3°C/sec max
260°C +0°C/−5°C
20 sec to 30 sec
3°C/sec max
5 minute max
Time 25°C (t25°C) to Peak Temperature
5 minute max
Rev. D | Page 5 of 16
ADMP421
Data Sheet
PIN CONFIGURATION AND FUNCTION DESCRIPTIONS
DATA
5
1
CLK
V
4
2
L/R SELECT
DD
3
GND
Figure 4. Pin Configuration (Bottom View)
Table 5. Pin Function Descriptions
Pin No. Mnemonic Description
1
2
CLK
Clock Input to Microphone.
L/R SELECT Left Channel or Right Channel Select.
DATA1 (right): L/R SELECT tied to GND.
DATA2 (left): L/R SELECT pulled to VDD.
3
4
GND
VDD
Ground.
Power Supply. Placing a 0.1 µF (100 nF) ceramic type X7R capacitor between Pin 4 (VDD) and ground is strongly
recommended for best performance and to avoid potential parasitic artifacts. The capacitor should be placed as
close to Pin 4 as possible.
5
DATA
Digital Output Signal (DATA1, DATA2).
Rev. D | Page 6 of 16
Data Sheet
ADMP421
TYPICAL PERFORMANCE CHARACTERISTICS
10
–40
–50
–60
–70
–80
–90
–100
8
6
4
2
0
–2
–4
–6
–8
–10
100
1k
10k
200
500
1k
2k
5k
10k
20k
FREQUENCY (Hz)
FREQUENCY (Hz)
Figure 5. Frequency Response Mask
Figure 7. Typical Power Supply Rejection vs. Frequency
10
0
–10
–20
100
1k
10k
FREQUENCY (Hz)
Figure 6. Typical Frequency Response (Measured)
Rev. D | Page 7 of 16
ADMP421
Data Sheet
PCB LAND PATTERN LAYOUT
The recommended PCB land pattern for the ADMP421 should
be laid out to a 1:1 ratio to the solder pads on the microphone
package, as shown in Figure 8. Care should be taken to avoid
applying solder paste to the sound hole in the PCB. A suggested
solder paste stencil pattern layout is shown in Figure 9. The
diameter of the sound hole in the PCB should be larger than the
diameter of the sound port of the microphone. A minimum
diameter of 0.5 mm is recommended.
3.80
CENTER LINE
ø1.70
(0.30)
4× 0.40 × 0.60
0.35
(1.000)
0.90 (0.30)
2.80
ø1.10
(0.30)
(0.550)
0.70
2× R0.10
(0.30)
2.05
0.35
Figure 8. Suggested PCB Land Pattern Layout
2.45
1.498 × 0.248
0.9
0.248 × 0.948 (2×)
0.398 × 0.298 (4×)
1.849
1.45
0.35
0.7
CENTER
LINE
1.000
0.248 × 1.148 (2×)
1.525
1.849
0.375
0.248 × 0.498 (2×)
24°
24°
1.498
1.17
0.205 WIDE
0.362 CUT (3×)
Figure 9. Suggested Solder Paste Stencil Pattern Layout
Rev. D | Page 8 of 16
Data Sheet
ADMP421
ALTERNATE PCB LAND PATTERNS
The ADMP421’s standard PCB land pattern has a solid ring
around the edge of the footprint, which may make routing the
microphone signals more difficult in some board designs. This
ring is used to improve the RF immunity performance of the
ADMP421, but it is not necessary to have this full ring
connected for electrical functionality. If a design can tolerate
reduced RF immunity then this ring can either be broken or
removed completely from the PCB footprint. Figure 10 shows
an example land pattern with no enclosing ring around the edge
of the part, and Figure 11 shows an example pattern with the
ring broken on two sides so that the inner pads can be more
easily routed on the PCB.
Figure 11. Example PCB Land Pattern with Broken Enclosing Ring
Note that in both of these patterns, the solid ring around the
sound port is still present; this ring is needed to ground the
microphone and for acoustic performance. The pad on the
package connected to this ring is ground and still needs a solid
electrical connection to the PCB ground. If a pattern like one of
these two examples is used on a PCB, take care that the
unconnected ring on the bottom of the ADMP421 is not placed
directly over any exposed copper. This ring on the microphone
is still at ground and any PCB traces routed underneath it need
to be properly masked to avoid short circuits.
Figure 10. Example PCB Land Pattern with No Enclosing Ring
Rev. D | Page 9 of 16
ADMP421
Data Sheet
APPLICATIONS INFORMATION
INTERFACING WITH ANALOG DEVICES CODECS
Analog Devices ADAU1361, ADAU1761, and ADAU1781
codecs feature digital microphone inputs that support the
ADMP421 PDM output data format. See the connection
diagrams shown in Figure 12, and refer to the AN-1003
Application Note and the codecs’ respective data sheets for
more details on the digital microphone interface.
SUPPORTING DOCUMENTS
Evaluation Board User Guides
UG-118, EVAL-ADMP421Z Bottom Port Digital Output MEMS
Microphone Evaluation Board
UG-183, EVAL-ADMP421Z-FLEX: Bottom-Ported Digital
Output MEMS Microphone Evaluation Board
SLEEP MODE
Circuit Note
The microphone enters sleep mode when the clock is turned off
or the clock frequency falls below 1 kHz. In sleep mode, the
microphone data output is in high impedance state and the
current consumption is less than 50 µA.
CN-0078, iMEMS Digital Microphone Simplifies the Interface to
a SigmaDSP Audio Codec
Application Notes
AN-1003, Recommendations for Mounting and Connecting
Analog Devices, Inc., Bottom-Ported MEMS Microphones
POWER SAVINGS WHEN DISABLING ONE
MICROPHONE IN A MULTIMICROPHONE
APPLICATION
AN-1068, Reflow Soldering of the MEMS Microphone
AN-1112, Microphone Specifications Explained
The ADMP421 has a unique power-saving feature when used in
systems where two or more microphones share the same clock
and/or data lines. The microphone is designed to present high
impedance on both the clock and data pins when the power
supply (VDD) pin is at 0 V or floating. This disabled microphone
presents no load to and consumes no power from other active
microphones.
AN-1124, Recommendations for Sealing Analog Devices, Inc.,
Bottom-Port MEMS Microphones from Dust and Liquid Ingress
1.8V TO 3.3V
AVDD
MICBIAS
CLK
ADMP421
ADAU1361
OR
V
DATA
DD
0.1µF
ADAU1761
L/R SELECT
GND
BCLK/GPIO2
CLK
ADMP421
JACKDET/MICIN
V
DATA
DD
0.1µF
L/R SELECT
GND
DGND
AGND
Figure 12. ADAU1361 and ADAU1761 Stereo Interface Block Diagram
Rev. D | Page 10 of 16
Data Sheet
ADMP421
HANDLING INSTRUCTIONS
PICK-AND-PLACE EQUIPMENT
REFLOW SOLDER
For best results, the soldering profile should be in accordance
with the recommendations of the manufacturer of the solder
paste used to attach the MEMS microphone to the PCB. It is
recommended that the solder reflow profile not exceed the limit
conditions specified in Figure 3 and Table 4.
The MEMS microphone can be handled using standard pick-
and-place and chip shooting equipment. Care should be taken
to avoid damage to the MEMS microphone structure as follows:
•
Use a standard pickup tool to handle the microphone.
Because the microphone hole is on the bottom of the
package, the pickup tool can make contact with any part
of the lid surface.
BOARD WASH
When washing the PCB, ensure that water does not make
contact with the microphone port. Blow-off procedures and
ultrasonic cleaning must not be used.
•
•
•
Use care during pick-and-place to ensure that no high
shock events above 10 kg are experienced because such
events may cause damage to the microphone.
Do not pick up the microphone with a vacuum tool that
makes contact with the bottom side of the microphone.
Do not pull air out of or blow air into the microphone port.
Do not use excessive force to place the microphone on
the PCB.
Rev. D | Page 11 of 16
ADMP421
Data Sheet
RELIABILITY SPECIFICATIONS
The microphone sensitivity after stress must deviate by no more than 3 dB from the initial value.
Table 6.
Stress Test
Description
Low Temperature Operating Life
High Temperature Operating Life
Temperature Humidity Bias (THB)
Temperature Cycle
High Temperature Storage
Low Temperature Storage
Component CDM ESD
−40°C, 500 hours, powered
+125°C, 500 hours, powered
+85°C/85% relative humidity (RH), 500 hours, powered
−40°C/+125°C, one cycle per hour, 1000 cycles
+150°C, 500 hours
−40°C, 500 hours
All pins, 0.5 kV
Component HBM ESD
All pins, 1.5 kV
Component MM ESD
All pins, 0.2 kV
Rev. D | Page 12 of 16
Data Sheet
ADMP421
OUTLINE DIMENSIONS
4.10
4.00
3.90
0.95 REF
2.05
0.70
1.70 DIA.
REFERENCE
CORNER
3.54 REF
0.40 × 0.60
, 5)
PIN 1
(Pins 1, 2, 4
1.10 DIA.
0.25 DIA.
0.30 REF
3
1.50
1
5
2
4
0.90
2.48
REF
(THRU HOLE)
0.30 REF
3.10
3.00
2.90
R 0.10 (2 ×)
2.80
1.05 REF
0.35
TOP VIEW
SIDE VIEW
0.35
0.30 REF
0.30 REF
1.10
1.00
0.90
0.72 REF
0.24 REF
3.80
BOTTOM VIEW
Figure 13. 5-Terminal Chip Array Small Outline No Lead Cavity [LGA_CAV]
4 mm × 3 mm Body
(CE-5-1)
Dimensions shown in millimeters
2.052
2.00
1.95
1.60 MAX
1.50 NOM
8.00
0.35
0.30
0.25
A
4.001
1.85
1.75
1.65
0.20
MAX
3.20
12.30
12.00
11.70
5.552
5.50
5.45
4.80
1.50 MIN
DIA
2.20
1.60
A
DETAIL A
0.25
3.80
1.30 REF
SECTION A-A
NOTES:
0.25
1. 10 SPROCKET HOLE PITCH CUMULATIVE TOLERANCE ± 0.20.
2. POCKET POSITION RELATIVE TO SPROCKET HOLE
MEASURED AS TRUE POSITION OF POCKET, NOT
POCKET HOLE.
0.50 R
DETAIL A
Figure 14. LGA_CAV Tape and Reel Outline Dimensions
Dimensions shown in millimeters
ORDERING GUIDE
Model1
ADMP421BCEZ-RL
ADMP421BCEZ-RL7
EVAL-ADMP421Z
EVAL-ADMP421Z-FLEX
Temperature Range
Package Description
Package Option2
CE-5-1
Ordering Quantity
−40°C to +85°C
−40°C to +85°C
5-Terminal LGA_CAV, 13”Tape and Reel
5-Terminal LGA_CAV, 7”Tape and Reel
Evaluation Board
5,000
1,000
CE-5-1
Flex Evaluation Board
1 Z = RoHS Compliant Part.
2 This package option is halide free.
Rev. D | Page 13 of 16
ADMP421
NOTES
Data Sheet
Rev. D | Page 14 of 16
Data Sheet
NOTES
ADMP421
Rev. D | Page 15 of 16
ADMP421
NOTES
Data Sheet
©2010–2011 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
D07596-0-11/11(D)
Rev. D | Page 16 of 16
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