ICS-43432

Low-Noise Microphone with I2S Digital Output GENERAL DESCRIPTION APPLICATIONS The ICS-43432 has a high SNR of 65 dBA and a wideband frequency response. The sensitivity tolerance of the ICS‐43432 is ±1 dB, which enables high-performance microphone arrays without the need for system calibration. FEATURES 2 The ICS-43432* is a digital I S output bottom port microphone. The complete ICS-43432 solution consists of a MEMS sensor, signal conditioning, an analog-to-digital converter, decimation and anti-aliasing filters, power management, and an industry standard 24-bit I²S interface. The I²S interface allows the ICS-43432 to connect directly to digital processors, such as DSPs and microcontrollers, without the need for an audio codec in the system. The ICS-43432 is available in a small 4 mm × 3 mm × 1 mm surface-mount package. *Protected by U.S. Patents 7,449,356; 7,825,484; 7,885,423; and 7,961,897. Other patents are pending. FUNCTIONAL BLOCK DIAGRAM FILTER Digital I²S Interface with High Precision 24-bit Data High 65 dBA SNR −26 dB FS Sensitivity ±1 dB Sensitivity Tolerance Wide Frequency Response from 50 Hz to 20 kHz Low Current Consumption: 1.0 mA High Power Supply Rejection: −80 dB FS 116 dB SPL Acoustic Overload Point Small 4 mm × 3 mm × 1 mm Surface-Mount Package Compatible with Sn/Pb and Pb-Free Solder Processes RoHS/WEEE Compliant PART I2S SERIAL PORT SCK ICS-43432 EV_ICS-43432-FX TEMP RANGE PACKAGING −40°C to +85°C — 13” Tape & Reel SD WS LR HARDWARE CONTROL CONFIG GND VDD POWER MANAGEMENT • • • • • • • • • • • Wearables Smart Televisions Remote Controls Teleconferencing Systems Gaming Consoles Security Systems Microphone Arrays ORDERING INFORMATION ICS-43432 ADC • • • • • • • ICS-43432 This document contains information on a preproduction product. Specifications and information herein are subject to change without notice. InvenSense Inc. 1745 Technology Drive, San Jose, CA 94089 U.S.A +1(408) 988–7339 www.invensense.com Document Number: DS-000038 Revision: 1.0 Release Date: 12/10/2014 ICS-43432 TABLE OF CONTENTS General Description ..................................................................................................................................................................... 1 Applications ................................................................................................................................................................................. 1 Features ....................................................................................................................................................................................... 1 Functional Block Diagram ............................................................................................................................................................ 1 Ordering Information ................................................................................................................................................................... 1 Table of Contents .................................................................................................................................................................................... 2 Specifications .......................................................................................................................................................................................... 4 Table 1. Electrical Characteristics ................................................................................................................................................ 4 Table 2. I²S Digital INPUT/Output ................................................................................................................................................ 5 Table 3. Serial Data Port Timing Specification ............................................................................................................................. 5 Timing Diagram ............................................................................................................................................................................ 5 Absolute Maximum Ratings .................................................................................................................................................................... 6 Table 4. Absolute Maximum Ratings ........................................................................................................................................... 6 ESD Caution ................................................................................................................................................................................. 6 Soldering Profile........................................................................................................................................................................... 7 Table 5. Recommended Soldering Profile.................................................................................................................................... 7 Pin Configurations And Function Descriptions ....................................................................................................................................... 8 Table 6. Pin Function Descriptions............................................................................................................................................... 8 Typical Performance Characteristics....................................................................................................................................................... 9 Theory of Operation ............................................................................................................................................................................. 10 Power Management .................................................................................................................................................................. 10 Startup and Normal Operation ....................................................................................................................................... 10 Table 7. Startup time ...................................................................................................................................................... 10 Standby Mode ................................................................................................................................................................ 10 Soft Unmute ................................................................................................................................................................... 10 Synchronizing Microphones ...................................................................................................................................................... 10 I²S Data Interface ....................................................................................................................................................................... 10 Data Output Mode ......................................................................................................................................................... 10 Data Word Length .......................................................................................................................................................... 11 Data Word Format .......................................................................................................................................................... 11 Data Output Format ....................................................................................................................................................... 12 Digital Microphone Sensitivity ................................................................................................................................................... 12 Digital Filter Characteristics ....................................................................................................................................................... 12 High-Pass Filter ............................................................................................................................................................... 12 Low-Pass Decimation Filter ............................................................................................................................................ 13 Applications Information ...................................................................................................................................................................... 14 SD Output Drive Strength .......................................................................................................................................................... 14 Document Number: DS-000038 Revision: 1.0 Page 2 of 20 ICS-43432 Power Supply Decoupling .......................................................................................................................................................... 14 Supporting Documents ......................................................................................................................................................................... 15 Evaluation Board User Guide ..................................................................................................................................................... 15 Application Notes ...................................................................................................................................................................... 15 PCB Design And Land Pattern Layout ................................................................................................................................................... 16 PCB Material And Thickness ...................................................................................................................................................... 16 Handling Instructions ............................................................................................................................................................................ 17 Pick And Place Equipment ......................................................................................................................................................... 17 Reflow Solder ............................................................................................................................................................................. 17 Board Wash................................................................................................................................................................................ 17 Outline Dimensions ............................................................................................................................................................................... 18 Ordering Guide .......................................................................................................................................................................... 18 Revision History ......................................................................................................................................................................... 19 Compliance Declaration Disclaimer ...................................................................................................................................................... 20 Document Number: DS-000038 Revision: 1.0 Page 3 of 20 ICS-43432 SPECIFICATIONS TABLE 1. ELECTRICAL CHARACTERISTICS (TA = +25°C, VDD = 1.8 to 3.3 V, SCK = 3.072 MHz, CLOAD = 30 pF unless otherwise noted. Typical specifications are not guaranteed.) PARAMETER PERFORMANCE Directionality Sensitivity Signal-to-Noise Ratio (SNR) Equivalent Input Noise (EIN) Acoustic Dynamic Range Digital Dynamic Range Frequency Response Total Harmonic Distortion (THD) Power-Supply Rejection (PSR) CONDITIONS 1 kHz, 94 dB SPL MIN −27 Derived from EIN and acoustic overload point Derived from EIN and full-scale acoustic level Low frequency −3 dB point High frequency −3 dB point 105 dB SPL 217 Hz, 100 mVp-p square wave superimposed on VDD = 1.8 V (Aweighted) TYP Omni −26 65 29 MAX UNITS −25 dB FS dBA dBA SPL 87 dB 91 dB 50 >20 0.3 Hz kHz % 1 −80 dB FS Power-Supply Rejection – Swept Sine 1 kHz sine wave −90 dB FS Acoustic Overload Point Full-Scale Digital Input Noise Floor POWER SUPPLY Supply Voltage (VDD) 10% THD 0 dB FS output 20 Hz to 20 kHz, A-weighted, rms 116 120 −91 dB SPL dB SPL dB FS Supply Current (IS) DIGITAL FILTER Group Delay VDD = 1.8 V VDD = 3.3 V 1.62 Normal Mode Standby Normal Mode Standby Acoustic input to digital output – 2 includes filter and I S serial output Pass Band Ripple Stop Band Attenuation Pass Band 3.63 1.4 20 1.5 24 2/fS fs = 48 kHz Page 4 of 20 V mA µA mA µA sec ±0.3 Note 1: See Figures 4 and 5. Document Number: DS-000038 Revision: 1.0 1.0 5 1.1 7 58 dB dB 20 kHz NOTES 1 ICS-43432 TABLE 2. I²S DIGITAL INPUT/OUTPUT (–40°C < TA < +85°C, 1.8 V < VDD < 3.3 V, unless otherwise noted.) PARAMETER CONDITIONS MIN MAX UNITS Voltage Input Low (VOL) 0 0.25 × VDD V Voltage Input High (VOH) 0.7 × VDD VDD V Voltage Input Low (VIL) 0 0.25 × VDD V Voltage Input High (VIH) 0.7 × VDD VDD V 150 pF MAX UNITS ns NOTES DIGITAL INPUT SD DIGITAL OUTPUT Maximum Load CLK = 3.072 MHz TABLE 3. SERIAL DATA PORT TIMING SPECIFICATION (–40°C < TA < +85°C, 1.8 V < VDD < 3.3 V, unless otherwise noted.) PARAMETER SCK high (tSCH) MIN 50 SCK low (tSCL) 50 ns SCK period (tSCP) 296 ns SCK frequency (fSCK) 0.460 3.379 MHz WS setup (tWSS) 0 ns WS hold (tWSH) 20 ns WS frequency (fWS) 7.19 52.8 TIMING DIAGRAM tSCH tSCP SCK tWSS tSCL tWSH WS SD Figure 1. Serial Data Port Timing Document Number: DS-000038 Revision: 1.0 Page 5 of 20 kHz NOTES ICS-43432 ABSOLUTE MAXIMUM RATINGS Stress above those listed as Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these conditions is not implied. Exposure to the absolute maximum ratings conditions for extended periods may affect device reliability. TABLE 4. ABSOLUTE MAXIMUM RATINGS PARAMETER RATING Supply Voltage (VDD) −0.3 V to +3.63 V Digital Pin Input Voltage −0.3 V to VDD + 0.3 V or 3.63 V, whichever is less Sound Pressure Level 160 dB Mechanical Shock 10,000 g Vibration Per MIL-STD-883 Method 2007, Test Condition B Temperature Range Biased −40°C to +85°C Storage −55°C to +150°C ESD CAUTION ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore proper ESD precautions should be taken to avoid performance degradation or loss of functionality. Document Number: DS-000038 Revision: 1.0 Page 6 of 20 ICS-43432 SOLDERING PROFILE CRITICAL ZONE TL TO TP tP TP TEMPERATURE RAMP-UP TL tL TSMAX TSMIN tS RAMP-DOWN PREHEAT t25°C TO PEAK TEMPERATURE TIME Figure 2. Recommended Soldering Profile Limits TABLE 5. RECOMMENDED SOLDERING PROFILE PROFILE FEATURE Average Ramp Rate (TL to TP) Preheat Minimum Temperature (TSMIN) Minimum Temperature (TSMIN) Time (TSMIN to TSMAX), tS Ramp-Up Rate (TSMAX to TL) Time Maintained Above Liquidous (tL) Liquidous Temperature (TL) Peak Temperature (TP) Time Within +5°C of Actual Peak Temperature (tP) Ramp-Down Rate Time +25°C (t25°C) to Peak Temperature Sn63/Pb37 1.25°C/sec max Pb-Free 1.25°C/sec max 100°C 100°C 150°C 200°C 60 sec to 75 sec 60 sec to 75 sec 1.25°C/sec 45 sec to 75 sec 183°C 1.25°C/sec ~50 sec 217°C 215°C ±3°C/−3°C 260°C +0°C/−5°C 20 sec to 30 sec 20 sec to 30 sec 3°C/sec max 3°C/sec max 5 min max 5 min max *The reflow profile in Table 5 is recommended for board manufacturing with InvenSense MEMS microphones. All microphones are also compatible with the J-STD-020 profile Document Number: DS-000038 Revision: 1.0 Page 7 of 20 ICS-43432 PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS GND 4 WS 5 3 VDD SCK 6 2 CONFIG SD 7 1 LR Figure 3. Pin Configuration (Top View, Terminal Side Down) TABLE 6. PIN FUNCTION DESCRIPTIONS PIN NAME TYPE 1 LR Input Left/Right channel select. When set low, the microphone outputs its signal in the left channel of the I²S frame. When set high, the microphone outputs its signal in the right channel. 2 CONFIG Input Pull to ground. The state of this pin is used at power-up. 3 VDD Power Power, 1.62 to 3.63 V. This pin should be decoupled to GND with a 0.1 μF capacitor. 4 GND Ground Ground. Connect to ground on the PCB. 5 WS Input Serial Data-Word Select for I²S Interface 6 7 SCK SD Input Output Document Number: DS-000038 Revision: 1.0 FUNCTION Serial Data Clock for I²S Interface Serial Data Output for I²S Interface. This pin tri-states when not actively driving the appropriate output channel. The SD trace should have a 100 kΩ pulldown resistor to discharge the line during the time that all microphones on the bus have tri-stated their outputs. Page 8 of 20 ICS-43432 TYPICAL PERFORMANCE CHARACTERISTICS 30 20 NORMALIZED AMPLITUDE (dB) NORMALIZED AMPLITUDE (dB) 15 10 5 0 –5 –10 –15 10 100 1k 20 10 0 -10 -20 -30 10k FREQUENCY (Hz) 10 100 Figure 4. Frequency Response Mask 1k   FREQUENCY (Hz) 10k Figure 5. Typical Frequency Response (Measured) 0 –20 10 THD + N (%) PSR (dB FS) –40 –60 –80 1 –100 –120 100 1k FREQUENCY (Hz) 0.1 10k Figure 6. PSR vs. Frequency, 100 mV p-p Swept Sine Wave 1.0 -5 0.8 OUTPUT AMPLITUDE (dB FS) 95 100 105 110   (dB SPL) INPUT 115 120 112 dB SPL 116 dB SPL 120 dB SPL 124 dB SPL 0.6 OUTPUT LEVEL (D) -10 -15 -20 -25 125 Figure 7. Total Harmonic Distortion + Noise (THD+N) vs. Input SPL 0 0.4 0.2 0 –0.2 –0.4 -30 -35 90 –0.6 90 95 100 105 110 115   INPUT AMPLITUDE (dB SPL) 120 125 –0.8 Figure 8. Linearity Document Number: DS-000038 Revision: 1.0 0 0.0002 0.0004 0.0006 TIME (Seconds) 0.0008 Figure 9. Clipping Characteristics Page 9 of 20 0.0010 ICS-43432 THEORY OF OPERATION POWER MANAGEMENT The ICS-43432 has two power states: normal operation, and standby mode. Startup and Normal Operation The ICS-43432 will begin to output non-zero data 4462 SCK clock cycles (1.5 ms with fSCK = 3.072 MHz) after initial power-up. The part is in normal operation mode when SCK and WS are active. Table 7 shows the startup time for different sampling rates. Table 7. Startup time fS (WS frequency) Startup time 48 kHz 1.5 ms 24 kHz 3.0 ms 16 kHz 4.5 ms 8 kHz 9.0 ms Standby Mode The microphone enters standby mode when the frequency of SCK falls below about 1 kHz. It is recommended to enter standby mode by stopping both the SCK and WS clock signals and pulling those signals to ground to avoid drawing current through the WS pin’s internal pull-down resistor. The timing for exiting standby mode is the same as normal startup. It is not recommended to supply active clocks (WS and SCK) to the ICS-43432 while there is no power supplied to VDD, doing this continuously turns on ESD protection diodes, which may affect long-term reliability of the microphone. Soft Unmute The ICS-43432 has a soft unmute feature to prevent pops on power-up. From the time that the ICS-43432 starts to output data, the volume will ramp up to the full-scale output level over 256 WS clock cycles. With a 48 kHz sampling rate, this unmute sequence will take about 5.3 ms. SYNCHRONIZING MICROPHONES Stereo ICS-43432 microphones are synchronized by the WS signal, so audio captured from two microphones sharing the same clock will be in sync. If the mics are enabled separately, this synchronization may take up to 0.35 ms after the enable signal is asserted while internal data paths are flushed. I²S DATA INTERFACE The slave serial data port’s format is I²S, 24-bit, twos complement. There must be 64 SCK cycles in each WS stereo frame. The L/R control pin determines whether the ICS-43432 outputs data in the left or right channel. When set to the left channel, the data will be output following WS’s falling edge and when set to output on the right channel, data will be output following WS’s rising edge. For a stereo application, the SD pins of the left and right ICS-43432 microphones should be tied together as shown in Figure 10. The format of a stereo I²S data stream is shown in Figure 11. Figure 12 and Figure 13 show the formats of a mono microphone data stream for left and right microphones, respectively. Data Output Mode The output data pin (SD) is tri-stated when it is not actively driving I²S output data. SD immediately tristates after the LSB is output so that another microphone can drive the common data line. Document Number: DS-000038 Revision: 1.0 Page 10 of 20 ICS-43432 The SD trace should have a pulldown resistor to discharge the line during the time that all microphones on the bus have tri-stated their outputs. A 100 kΩ resistor is sufficient for this, as shown in Figure 10. If the SD line needs to be discharged faster than a 100 kΩ resistor can, a smaller resistor, such as 10 kΩ, can be used. Data Word Length The output data word length is 24 bits per channel. Data Word Format The default data format is I²S (twos complement), MSB-first. In this format, the MSB of each word is delayed by one SCK cycle from the start of each half-frame. FROM VOLTAGE REGUL ATOR (1.8V TO 3.3V) SD SCK WS SYSTEM MASTER (DSP, MICROCONTROLLER, CODEC) 0.1µF 0.1µF VDD VDD VDD LR CONFIG LEFT ICS-43432 SCK SCK WS WS SD SD 100kΩ LR RIGHT CONFIG ICS-43432 GND GND Figure 10. System Block Diagram WS 1 2 3 4 24 25 26 32 33 34 35 36 56 57 58 64 SCK (64 × fS) SD (24-BIT) MSB LSB MSB LEFT CHANNEL HIGH-Z LSB HIGH-Z RIGHT CHANNEL HIGH-Z Figure 11. Stereo Output I²S Format WS 1 2 3 4 24 25 26 32 33 34 35 36 56 57 58 64 36 56 57 58 64 SCK (64 × fS) SD (24-BIT) MSB LSB HIGH-Z HIGH-Z LEFT CHANNEL Figure 12. Mono Output I²S Format Left Channel (LR = 0) WS 1 2 3 4 24 25 26 32 33 34 35 SCK (64 × fS) SD (24-BIT) MSB HIGH-Z LSB RIGHT CHANNEL Figure 13. Mono Output I²S Format Right Channel (LR = 1) Document Number: DS-000038 Revision: 1.0 Page 11 of 20 HIGH-Z ICS-43432 Data Output Format The output data word length is 24 bits/channel. The data word format is 2’s complement, MSB first. The output data pin (SD) is tri-stated when it is not actively driving output data. SD will immediately tri-state after the LSB is output so that another microphone can drive the common data line. DIGITAL MICROPHONE SENSITIVITY The sensitivity of a digital output microphone is specified in units of dB FS (decibels relative to a full-scale digital output). A 0 dB FS sine wave is defined as a signal whose peak just touches the full-scale code of the digital word (see Figure 5). This measurement convention means that signals with a different crest factor may have an RMS level higher than 0 dB FS. For example, a full-scale square wave has an RMS level of 3 dB FS. 1.0 0.8 DIGITAL AMPLITUDE (D) 0.6 0.4 0.2 0 –0.2 –0.4 –0.6 –0.8 –1.0 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 TIME (ms) Figure 11. 1 kHz, 0 dB FS Sine Wave The definition of a 0 dB FS signal must be understood when measuring the sensitivity of the ICS-43432. An acoustic input signal of a 1 kHz sine wave at 94 dB SPL applied to the ICS-43432 results in an output signal with a −26 dB FS level. This means that the output digital word peaks at −26 dB below the digital full-scale level. A common misunderstanding is that the output has an RMS level of −29 dB FS; however, this is not the case because of the definition of a 0 dB FS sine wave. There is no commonly accepted unit of measurement to express the instantaneous level of a digital signal output from the microphone, as opposed to the RMS level of the signal. Some measurement systems express the instantaneous level of an individual sample in units of D, where 1.0 D is digital full scale (see Figure 11). In this case, a −26 dB FS sine wave has peaks at 0.05 D. For more information about digital microphone sensitivity, see the AN-1112 Application Note, Microphone Specifications Explained. DIGITAL FILTER CHARACTERISTICS The ICS-43432 has an internal digital bandpass filter. A high-pass filter eliminates unwanted low frequency signals. A low-pass decimation filter scales the pass band with the sampling frequency and performs required out-of-band noise reduction. High-Pass Filter The ICS-43432 incorporates a high-pass filter to remove unwanted dc and very low frequency components. With fS = 48 kHz, this high pass filter has a −3 dB corner frequency of 3.7 Hz. The cutoff frequency scales with changes in sampling rate. This digital filter response is in addition to the acoustic high-pass response of the ICS-43432 that has a −3 dB corner of 50 Hz. Document Number: DS-000038 Revision: 1.0 Page 12 of 20 ICS-43432 Low-Pass Decimation Filter The analog-to-digital converter in the ICS-43432 is a single-bit, high order, sigma-delta (Σ-Δ) running at a high oversampling ratio. The noise shaping of the converter pushes the majority of the noise well above the audio band and gives the microphone a wide dynamic range. However, it does require a good quality low-pass decimation filter to eliminate the high frequency noise. The pass band of the filter extends to 0.417 × fS and, in that band, has only 0.04 dB of ripple. The high frequency cutoff of −3 dB occurs at 0.5 × fS. A 48 kHz sampling rate results in a pass band of 20.3 kHz and a half amplitude corner at 24 kHz; the stop-band attenuation of the filter is 58 dB. Note that these filter specifications scale with sampling frequency. Document Number: DS-000038 Revision: 1.0 Page 13 of 20 ICS-43432 APPLICATIONS INFORMATION SD OUTPUT DRIVE STRENGTH The SD data output pin must drive a load that includes the PCB trace and the tri-stated inputs of the other ICS-43432 SD pins connected to that same trace. The tri-stated load capacitance of the ICS-43432 SD pin is about 6 pF. The ICS-43432 has been designed to drive a load of 150 pF. POWER SUPPLY DECOUPLING For best performance and to avoid potential parasitic artifacts, placing a 0.1 µF ceramic type X7R or better capacitor between Pin 3 (VDD) and ground is strongly recommended. The capacitor should be placed as close to Pin 3 as possible. The connections to each side of the capacitor should be as short as possible, and the trace should stay on a single layer with no vias. For maximum effectiveness, locate the capacitor equidistant from the power and ground pins or, when equidistant placement is not possible, slightly closer to the power pin. Thermal connections to the ground planes should be made on the far side of the capacitor, as shown in Figure 14. VDD GND CAPACITOR TO V DD TO GND Figure 14. Recommended Power Supply Bypass Capacitor Layout Document Number: DS-000038 Revision: 1.0 Page 14 of 20 ICS-43432 SUPPORTING DOCUMENTS For additional information, see the following documents. EVALUATION BOARD USER GUIDE 2 UG-303, Bottom-Port I S Output MEMS Microphone Evaluation Board APPLICATION NOTES AN-100, MEMS Microphone Handling and Assembly Guide AN-1003, Recommendations for Mounting and Connecting the InvenSense Bottom-Ported MEMS Microphones AN-1112, Microphone Specifications Explained AN-1124, Recommendations for Sealing InvenSense Bottom-Port MEMS Microphones from Dust and Liquid Ingress AN-1140, Microphone Array Beamforming Document Number: DS-000038 Revision: 1.0 Page 15 of 20 ICS-43432 PCB DESIGN AND LAND PATTERN LAYOUT The recommended PCB land pattern for the ICS-43432 should be laid out to a 1:1 ratio to the solder pads on the microphone package, as shown in Figure 15. Take care to avoid applying solder paste to the sound hole in the PCB. A suggested solder paste stencil pattern layout is shown in Figure 16. 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. 6X 0.40X0.60 0.65 0.65 1.275 Ø1.65 1.08 2.15 Ø1.05 Figure 15. PCB Land Pattern Layout Dimensions shown in millimeters 6X 0.30X0.50 Ø1.65 Ø1.15 2.15 0.1(4x) 0.65 0.65 1.275 Figure 16. Suggested Solder Paste Stencil Pattern Layout Dimensions shown in millimeters PCB MATERIAL AND THICKNESS The performance of the ICS-43432 is not affected by PCB thickness. The ICS-43432 can be mounted on either a rigid or flexible PCB. A flexible PCB with the microphone can be attached directly to the device housing with an adhesive layer. This mounting method offers a reliable seal around the sound port while providing the shortest acoustic path for good sound quality. Document Number: DS-000038 Revision: 1.0 Page 16 of 20 ICS-43432 HANDLING INSTRUCTIONS PICK AND PLACE EQUIPMENT The MEMS microphone can be handled using standard pick-and-place and chip shooting equipment. Take care 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. • 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. REFLOW SOLDER For best results, the soldering profile must 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 2 and Table 5. BOARD WASH When washing the PCB, ensure that water does not make contact with the microphone port. Do not use blow-off procedures or ultrasonic cleaning. Document Number: DS-000038 Revision: 1.0 Page 17 of 20 ICS-43432 OUTLINE DIMENSIONS d 0.10 (4X) f 0.10 C C A (0.266) 4.00±0.10 REFERENCE CORNER 0.07 (0.72) 0.25 0.125±0.05 1.075 0.40X0.60 (6x) j 0.10 m C A B Ø1.65 3.00 2.15 (2.80) 3.00±0.10 Ø1.05 0.125±0.05 Ø0.35 B (3.86) 0.25 0.125±0.05 1.0±0.10 TOP VIEW SIDE VIEW 1.10 4.00 BOTTOM VIEW Figure 17. 7-Terminal Chip Array Small Outline No Lead Cavity 4.00 × 3.00 × 1.00 mm Body Dimensions shown in millimeters PIN 1 INDIC ATION PART NUMBE R 432 YYXXXX DATE COD E LOT TR ACEABILIT Y Figure 18. Package Marking Specification (Top View) ORDERING GUIDE PART ICS-43432 EV_ICS-43432-FX Document Number: DS-000038 Revision: 1.0 TEMP RANGE −40°C to +85°C 1.50 0.125±0.05 PACKAGE 7-Terminal LGA_CAV Flex Evaluation Board Page 18 of 20 QUANTITY 4,500 PACKAGING 13” Tape and Reel ICS-43432 REVISION HISTORY REVISION DATE REVISION DESCRIPTION 12/10/2014 1.0 Initial Release Document Number: DS-000038 Revision: 1.0 Page 19 of 20 ICS-43432 COMPLIANCE DECLARATION DISCLAIMER InvenSense believes the environmental and other compliance information given in this document to be correct but cannot guarantee accuracy or completeness. Conformity documents substantiating the specifications and component characteristics are on file. InvenSense subcontracts manufacturing, and the information contained herein is based on data received from vendors and suppliers, which has not been validated by InvenSense. This information furnished by InvenSense is believed to be accurate and reliable. However, no responsibility is assumed by InvenSense for its use, or for any infringements of patents or other rights of third parties that may result from its use. Specifications are subject to change without notice. InvenSense reserves the right to make changes to this product, including its circuits and software, in order to improve its design and/or performance, without prior notice. InvenSense makes no warranties, neither expressed nor implied, regarding the information and specifications contained in this document. InvenSense assumes no responsibility for any claims or damages arising from information contained in this document, or from the use of products and services detailed therein. This includes, but is not limited to, claims or damages based on the infringement of patents, copyrights, mask work and/or other intellectual property rights. Certain intellectual property owned by InvenSense and described in this document is patent protected. No license is granted by implication or otherwise under any patent or patent rights of InvenSense. This publication supersedes and replaces all information previously supplied. Trademarks that are registered trademarks are the property of their respective companies. InvenSense sensors should not be used or sold in the development, storage, production or utilization of any conventional or mass-destructive weapons or for any other weapons or life threatening applications, as well as in any other life critical applications such as medical equipment, transportation, aerospace and nuclear instruments, undersea equipment, power plant equipment, disaster prevention and crime prevention equipment. ©2014 InvenSense, Inc. All rights reserved. InvenSense, MotionTracking, MotionProcessing, MotionProcessor, MotionFusion, MotionApps, DMP, AAR and the InvenSense logo are trademarks of InvenSense, Inc. Other company and product names may be trademarks of the respective companies with which they are associated. ©2014 InvenSense, Inc. All rights reserved. Document Number: DS-000038 Revision: 1.0 Page 20 of 20