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The FPGA Programming Handbook

You're reading from   The FPGA Programming Handbook An essential guide to FPGA design for transforming ideas into hardware using SystemVerilog and VHDL

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Product type Paperback
Published in Apr 2024
Publisher Packt
ISBN-13 9781805125594
Length 550 pages
Edition 2nd Edition
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Tools
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Authors (2):
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Guy Eschemann Guy Eschemann
Author Profile Icon Guy Eschemann
Guy Eschemann
Frank Bruno Frank Bruno
Author Profile Icon Frank Bruno
Frank Bruno
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Toc

Table of Contents (17) Chapters Close

Preface 1. Introduction to FPGA Architectures FREE CHAPTER 2. FPGA Programming Languages and Tools 3. Combinational Logic 4. Counting Button Presses 5. Let’s Build a Calculator 6. FPGA Resources and How to Use Them 7. Math, Parallelism, and Pipelined Design 8. Introduction to AXI 9. Lots of Data? MIG and DDR2 10. A Better Way to Display – VGA 11. Bringing It All Together 12. Using the PMOD Connectors – SPI and UART 13. Embedded Microcontrollers Using the Xilinx MicroBlaze 14. Advanced Topics 15. Other Books You May Enjoy
16. Index

What is a digital microphone?

A digital microphone needs to receive analog audio data and convert it to digital data, which is usable for digital electronics. Let’s look at how we can accomplish this using Pulse-Density Modulation (PDM).

What is PDM?

A PDM signal is captured by a 1-bit analog-to-digital converter (ADC) that receives an analog waveform and encodes its output as a string of digital pulses, as shown in Figure 6.1. When the pulses are denser over a period of time, they represent larger values. In Figure 6.1, we see a signal from the testbench as a sine wave. The following signal shows an example of what a PDM form of that waveform might look like:

Figure 6.1: PDM waveform example

The advantage of this type of signal is that we only need a single wire to transmit the information since audio is limited to about 24 kHz and our clock rate will be orders of magnitude above this.

With the basics of digital microphones and PDM, let’s now...

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