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[[File:audioModule.png|thumb]]
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[[File:ambulanceDrone.jpg|thumb|Prototype of an ambulance drone. Source: http://alecmomont.com/projects/dronesforgood/]]
  
 
==Short Description==
 
==Short Description==
Cellular audio applications depend on an audio interface to connect a microphone/speaker. Acoustic waves, usually voice, are captured by a microphone, amplified and subsequently sampled into the digital domain by an Analog to Digital Converter (ADC). In the other direction a stream of digital audio samples is first mapped into the analog domain by and Digital to Analog Converter (DAC) and subsequently amplified to drive a speaker, where the analog signal is translated into acoustic waves.
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Cellular audio applications depend on an audio interface to connect a microphone/speaker. Acoustic waves, usually voice, are captured by a microphone, amplified, and subsequently sampled into the digital domain by an Analog to Digital Converter (ADC). In the other direction a stream of digital audio samples is first mapped into the analog domain by an Digital to Analog Converter (DAC) and subsequently amplified to drive a speaker, where the analog signal is translated into acoustic waves.
  
A huge variety of integrated audio modules such as [1] exist on the marked. In cellular application an audio chip can be placed between microphone/speaker and a cellular modem. However, emerging applications, such as emergency watches [2] or ambulance drones [3], require highly integrated components due to their low footprint and extremely low power consumption.
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A huge variety of integrated audio modules such as [1] exist on the marked. In cellular devices an audio chip can be placed between microphone/speaker and a cellular modem. However, emerging applications, such as emergency watches [2] or ambulance drones [3], require highly integrated components due to their low footprint and extremely low power consumption.
  
 
Highly integrated cellular modems and ADC/DAC modules are under active research at the institute. In this project, the missing link to a microphone/speaker connection shall be designed. To this end, a switching amplifier supporting all common cellular audio standards (see [4,5]) shall be designed and integrated on a chip. This is a perfect learning opportunity for analog integrated circuits design.
 
Highly integrated cellular modems and ADC/DAC modules are under active research at the institute. In this project, the missing link to a microphone/speaker connection shall be designed. To this end, a switching amplifier supporting all common cellular audio standards (see [4,5]) shall be designed and integrated on a chip. This is a perfect learning opportunity for analog integrated circuits design.
  
===Status: Available ===
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: Looking for 1-2 Semester/Master students
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===Status: Obsolete ===
 
: Contact: [[:User:Weberbe|Benjamin Weber]]
 
: Contact: [[:User:Weberbe|Benjamin Weber]]
 
===Prerequisites===
 
: Interest in audio applications and analog integrated circuits design
 
: Recommended course: [http://www.iis.ee.ethz.ch/stud_area/vorlesungen/analogics.en.html Analog Integrated Circuits (AIC)]
 
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===Status: Completed ===
 
: Fall Semester 2014 (sem13h2)
 
: Matthias Baer, Renzo Andri
 
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: Supervision: [[:User:Belfanti | Sandro Belfanti]]
 
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===Character===
 
: 20% Theory
 
: 80% Implementation
 
 
===Professor===
 
: [http://www.iis.ee.ethz.ch/portrait/staff/huang.en.html Qiuting Huang]
 
  
 
==References==  
 
==References==  
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[5] [http://www.3gpp.org/DynaReport/26-series.htm 3GPP Codecs Specifications; 3G and beyond/GSM]
 
[5] [http://www.3gpp.org/DynaReport/26-series.htm 3GPP Codecs Specifications; 3G and beyond/GSM]
  
[[Category:Hot]]
 
 
[[Category:Analog]]
 
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[[Category:Semester Thesis]]
 
 
[[Category:Master Thesis]]
 
[[Category:Master Thesis]]
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[[Category:Telecommunications]]
 
[[Category:Audio]]
 
[[Category:Audio]]
 
[[Category:Weberbe]]
 
[[Category:Weberbe]]
 
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STATUS
 
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Latest revision as of 17:15, 17 December 2015

Prototype of an ambulance drone. Source: http://alecmomont.com/projects/dronesforgood/

Short Description

Cellular audio applications depend on an audio interface to connect a microphone/speaker. Acoustic waves, usually voice, are captured by a microphone, amplified, and subsequently sampled into the digital domain by an Analog to Digital Converter (ADC). In the other direction a stream of digital audio samples is first mapped into the analog domain by an Digital to Analog Converter (DAC) and subsequently amplified to drive a speaker, where the analog signal is translated into acoustic waves.

A huge variety of integrated audio modules such as [1] exist on the marked. In cellular devices an audio chip can be placed between microphone/speaker and a cellular modem. However, emerging applications, such as emergency watches [2] or ambulance drones [3], require highly integrated components due to their low footprint and extremely low power consumption.

Highly integrated cellular modems and ADC/DAC modules are under active research at the institute. In this project, the missing link to a microphone/speaker connection shall be designed. To this end, a switching amplifier supporting all common cellular audio standards (see [4,5]) shall be designed and integrated on a chip. This is a perfect learning opportunity for analog integrated circuits design.


Status: Obsolete

Contact: Benjamin Weber

References

[1] ADAU1461 Audio Codec

[2] Limmex Emergency Watch

[3] Drones For Good

[4] 3GPP Codecs Specifications; GSM only

[5] 3GPP Codecs Specifications; 3G and beyond/GSM