Peter McGoron cff9cd967f | ||
---|---|---|
tests | ||
.gitignore | ||
COPYING | ||
COPYING_OHL | ||
Makefile | ||
README.md | ||
spi_master.v | ||
spi_master_no_read.v | ||
spi_master_no_write.v | ||
spi_slave.v | ||
spi_slave_no_read.v | ||
spi_slave_no_write.v |
README.md
Verilog SPI
Verilog SPI master and slave that supports all modes and variable width via parameters.
License
All code in this project is licensed to the terms of the Mozilla Public
License, v.2.0. A copy of this license may be found in the file COPYING
. You
can obtain one at https://mozilla.org/MPL/2.0/.
All Verilog source in this project is dual-licensed under the MPL v2.0 and the CERN-OHL-W v2.0 (or any later version).
Tests
Go into tests
and run make
. To rerun tests, run make clean
followed
by make
.
The test for each mode generates a .vcd
file which you may view using
GTKWave. You can use this to gauge which SPI mode is appropriate for
your device.
SPI Modes
Modes are denoted by modePH
, where P
is the polarity (0 for normal,
1 for inverted) and H
for phase:
H = 0
means the device reads on a rising edge and writes on a falling edge.H = 1
means the device reads on a falling edge and writes on a rising edge.
Although these modules support all SPI modes, they are labeled slightly differently from other SPI modes. The phase factor is denoted in terms of falling and rising edges, not in terms of leading and trailing edges. This means that polarity also flips the phase term, so a mode 3 device is a mode 10 device. Devices with regular clock polarity are unaffected, so a mode 0 device is a mode 00 device, and a mode 1 device is a mode 01 device.