Simple driver for programming the Analogue Devices AD8951 Direct Digital Synthesizer using the cheap KL25Z board
Diff: main.cpp
- Revision:
- 0:21d4a8e3d6be
diff -r 000000000000 -r 21d4a8e3d6be main.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/main.cpp Sat Oct 26 18:22:46 2013 +0000 @@ -0,0 +1,91 @@ +// MBED driver for AD9851 digital synthesizer using hacked SPI interface +// Original code for AD9850 by Liam Goudge Sept 2013 +// Modified for AD9851 and KL25Z by Mike Richards Oct 2013 + +#include "mbed.h" + + +SPI device (PTD2, PTD3, PTD1); // Set the KL25Z SPI pins +DigitalOut CS(PTD0); // Use pin PTD0 as a fake Chip select (AD9851's FQ_UD line) +DigitalOut ADReset(PTA13); // Use Pin PTA13 as the reset line for AD9851 +int targetFrq; // 32-bit frequency word for the AD9851 +int phase; // Phase and multiplier word for AD9851 + +Serial pc(USBTX, USBRX); // tx, rx for debug terminal + +int reverseBits (int source) +{ +// Unfortunately need to invert bit order of the desired frequency setting since MBED only allows for MSB first from SPI. We need LSB first for AD9851 + int mask=0;; + int i=0; + int target=0; + int bitTarget=0x80000000; // Hard-wired for 32-bit inversion + + for (i=0;i<32;i++) { // ditto + mask=1<<i; + bitTarget=1<<(31-i); // ditto + + if (source & mask) + target=target | bitTarget; + } + return target; +} + +void writeSPI(int frq, int phase) +{ +// Send the 40-bit packet. NB: KL25Z only supports 8-bit SPI so send five 8-bit packets + + device.format(8,0); // 8-bits per packet, mode 0 (CPOL=0 CPHA=0) + device.frequency(1000000); //SPI clock set to 1MHz + + wait_ms(1); + + // First do chip select. Need to use a GPIO to fake the chip select since MBED doesn't allow to set positive logic CS signal + CS=1; // assert chip select (a.k.a FQ_UD frequency update input to AD9851) + wait_ms(1); + CS=0; + + // Write 5 x 8-bit packets for the frequency word + device.write(frq>>24); // Packet 1 + device.write(frq>>16); // Packet 2 + device.write(frq>>8); // Packet 3 + device.write(frq); // Packet 4 + device.write(phase); // Packet 5 - Finish with the phase, multiplier and factory settings byte + + // Now pulse FQ_UD again to load the word into the DDS + CS=0; + wait_ms(1); + CS=1; + wait_ms(1); + CS=0; +} + + +int main() +{ + + + int DesFrq = 5000000; // Set the desired output frequency in Hz + float Mult = 23.86093; // Multiplier for boards using a 30MHz clock oscillator and 6x multiplier + targetFrq= DesFrq * Mult ; // targetFrq is the 32-bit frequency word for the AD9851 + phase = 0x80; // Set the 6x clock multiplier for systems with 30MHz reference oscillator. + + // Reset the AD9851. Active high logic. Minimum reset period 5 clock cycles + ADReset=0; + wait_ms(5); + ADReset=1; + wait_ms(5); + ADReset=0; + + + while(1) + { + + writeSPI(reverseBits(targetFrq),phase); // Transfer the frequency settings to the AD9851 + + + + } + + +} \ No newline at end of file