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[/] [tiny_spi/] [trunk/] [README] - Rev 3

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OpenCores tiny SPI

Author(s):
  - Thomas Chou <thomas@wytron.com.tw>


This is an 8 bits SPI master controller. It features optional 
programmable baud rate and SPI mode selection. Altera SPI doesn't
support programmable rate which is needed for MMC SPI, nor does
Xilinx SPI.

It is small. It combines transmit and receive buffer and remove unused 
functions. It takes only 36 LEs for SPI flash controller, or 53 LEs for 
MMC SPI controller in an Altera CycoloneIII SOPC project. While Altera 
SPI takes around 143 LEs. OpenCores SPI takes 857 LEs and simple SPI 
takes 171 LEs.

It doesn't generate SS_n signal. Please use gpio core for SS_n, which
costs 3- LEs per pin. The gpio number is used for the cs number in
u-boot and linux drivers.


Parameters:

BAUD_WIDTH: bits width of programmable divider
  sclk = clk / ((baud_reg + 1) * 2)
  if BAUD_DIV is not zero, BAUD_WIDTH is ignored.

BAUD_DIV: fixed divider, must be even
  sclk = clk / BAUD_DIV

SPI_MODE: value 0-3 fixed mode CPOL,CPHA
          otherwise (eg, 4) programmable mode in control reg[1:0]

Registers map:

base+0  R shift register
base+4  R buffer register
        W buffer register
base+8  R status
          [1] TXR transfer ready
          [0] TXE transter end
        W irq enable
          [1] TXR_EN transfer ready irq enable
          [0] TXE_EN transter end irq enable
base+12 W control (optional)
          [1:0] spi mode
base+16 W baud divider (optional)

Program flow:

There is an 8-bits shift register and buffer register.

1. after reset or idle, TXR=1, TXE=1
2. first byte written to buffer register, TXR=0, TXE=1
3. buffer register swabbed with shift register, TXR=1, TXE=0   
   shift register has the first byte and starts shifting
   buffer register has (useless) old byte of shift register
4. second byte written to buffer register, TXR=0, TXE=0
5. first byte shifted,
   buffer register swabbed with shift register, TXR=1, TXE=0
   shift register has the second byte and starts shifting
   buffer register has the first received byte from shift register
6. third byte written to buffer register, TXR=0, TXE=0
7. repeat like 5.

9. last byte written to buffer register, TXR=0, TXE=0
10. last-1 byte shifted,
   buffer register swabbed with shift register, TXR=1, TXE=0
   shift register has the last byte and starts shifting
   buffer register has the last-1 received byte from shift register
11. last byte shifted, no more to write, TXR=1, TXE=1
   shift register has the last received byte
   
Interrupt usage:
Interrupt is controlled with irq enable reg.

For performace issue, at sclk > 200KHz, interrupt should not be used and 
polling will get better result. In this case, interrupt can be 
disconnected in SOPC builder to save 2 LEs. A 100MHz Nios2 is able to
serve 25 MHz sclk using polling.

This core uses zero-wait bus access. Clock crossing bridges between
CPU and this core might reduce performance.

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