...
Background
System Requirements
Requirement |
---|
Value | Requirement Explanation | |
---|---|---|
Input frequency range | 20-20kHz | Human audible range |
Input amplitude |
Orders of Modulation | 2 | Allows for lower frequency oversampling, while keeping the footprint small |
Effective bit resolution |
Interface
...
8 1/2 | Necessary to discern high-pitched bird noise | |
Schematic (WIP)
Second-Order Delta-Sigma Modulator
...
Implementation
Timeline
- Understand existing testing infrast
- Design plan
- Design and test low-frequency first-order modulator
- Convert to second-order modulator
- Push to design frequency
- Remove idealized components and adjust for sky130
- Begin layout and routing
Files
All of the files involved with this project are stored in a GitHub repository as part of C2S2's organization. The file organization is as follows:
Panel | ||||||||
---|---|---|---|---|---|---|---|---|
| ||||||||
Theory of Design
A Delta-Sigma Modulator (DSM) is a type of analog-to-digital converter (ADC) that converts analog signals into digital signals. It's commonly used in applications where high-resolution conversion is needed, such as in audio and communication systems. The basic idea behind a Delta-Sigma Modulator is to use a one-bit quantizer in a feedback loop, which oversamples the input signal and produces a high-density data stream that can be decimated to obtain the digital output.
- The Delta Sigma ADC is composed of three main parts: the modulator, digital filter, and decimator.
- The modulator is the biggest and most important challenge in designing a delta-sigma ADC.
- A modulator works in a feedback loop with an oversampling clock frequency. This clock signal is subtracted from the input signal, which is then integrated. This signal is then fed into a latched comparator (1-bit ADC), that can inhibit the clock signal in the feedback loop.
- The intended output is a square wave, which, when averaged, can produce the input analog signal.
- The 0-signal corresponds to the clock signal at the output (0 average)
- A large input creates a longer duty cycle and longer period at the output, which averages to a greater value.
...
Testing
Testing Strategy
<TBD>
...