MMD202-011 Bottom Port Digital MEMS Microphone
■MMD202 is a digital microphone built with MEMS acoustic sensor and IC,and is available in SMD compliant package.
●Features
■Sensitivity Normal Mode: -37dBFS
■Low Power Mode: -37dBFS
■Good signal to noise ratio Normal Mode (CLK=3.072 MHz: 70dB(A)
■Low Power Mode (CLK=768 KHz): 67dB(A)
■Size: 4 x 3 x 1.25mm
■Stable sensitivity over power supply range: 1.62–3.6V
■Current consumption Normal Mode(CLK=3.072 MHz): Typ.960μA
■Low Power Mode(CLK=768 KHz): Typ.260μA
■Standby Mode: <50μA
■Shielding suppression of EMI
Bottom Port Digital MEMS Microphone 、 digital microphone 、 Digital MEMS Microphone |
|
[ Mobile Devices ][ Teleconferencing System ][ Notebook ][ Portable ][ Tablet Devices ][ Headsets ][ Bluetooth devices ][ MP3 players ][ PDA ][ recording devices ] |
|
Datasheet |
|
|
|
Please see the document for details |
|
|
|
|
|
SMD |
|
English Chinese Chinese and English Japanese |
|
04/12/2022 |
|
Revision B |
|
|
|
2.7 MB |
- +1 Like
- Add to Favorites
Recommend
- Sekorm is an Authorized Distributor of MERRY that is a Famous Acoustic Sensors Manufacturer
- More than 250 IC Manufacturers Choose Sekorm as Authorized Distributor, Building Supply Chain Security
- TDK‘s Newest MEMS Microphone T5828 with SoundWire™ Functionality Offers 68dBA SNR and Acoustic Activity Detect
- TDK Announces Ultra-high AOP Analog MEMS Microphone ICS-40638 Enabling Clear Audio Capture in Loud and Noisy Conditions
- TDK Provides MEMS Microphone Solutions for Expanding the Possibilities of Interactive Robots
- OLE WOLFF Analog and Digital Mems Microphones With Excellent Signal-to-noise Ratio (SNR) and High Acoustic Overload Point (AOP)
- InvenSense® Introduces Comprehensive Portfolio of Disruptive New Digital and Analog Microphones
- PDM digital Output MEMS Microphone MSM261DDB020 Available in A 3.50mm×2.65mm×0.98mm Metal Can LGA Package
All reproduced articles on this site are for the purpose of conveying more information and clearly indicate the source. If media or individuals who do not want to be reproduced can contact us, which will be deleted.