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@ -1,3 +1,27 @@
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/*!
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The ADF4351 chip is a wideband freqency synthesizer integrated circuit that can generate frequencies
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from 35 MHz to 4.4 GHz. It incorporates a PLL (Fraction-N and Integer-N modes) and VCO, along with
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prescalers, dividers and multipiers. The users add a PLL loop filter and reference frequency to
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create a frequency generator with a very wide range, that is tuneable in settable frequency steps.
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The ADF4351 chip provides an I2C interface for setting the device registers that control the
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frequency and output levels, along with several IO pins for gathering chip status and
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enabling/disabling output and power modes.
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The ADF4351 library provides an Arduino API for accessing the features of the ADF chip.
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The basic PLL equations for the ADF4351 are:
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\f$ RF_{out} = f_{PFD} \times (INT +(\frac{FRAC}{MOD})) \f$
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where:
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\f$ f_{PFD} = REF_{IN} \times \left[ \frac{(1 + D)}{( R \times (1 + T))} \right] \f$
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\f$ D = \textrm{RD2refdouble, ref doubler flag}\f$
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\f$ R = \textrm{RCounter, ref divider}\f$
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\f$ T = \textrm{RD1Rdiv2, ref divide by 2 flag}\f$
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This library uses the BigNumber library (included) from Nick Gammon
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Modified by J. Pfitzer from David Fannin (https://github.com/dfannin/adf4351), KK6DF for usage with an ESP32 board
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MIT License
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*/
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#include "ADF4351.h"
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#define ADF_FREQ_MAX 4294967295UL ///< Maximum Generated Frequency = value of MAX Unsigned Long
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@ -277,32 +301,6 @@ int ADF4351::setrf(uint32_t f)
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// write data into register
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void ADF4351::WriteRegister(uint32_t regData){
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/*digitalWrite(_le, LOW);
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_regData = regData;
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for(int i=0; i<32; i++)
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{
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if(((_regData<<i)&0x80000000)==0x80000000)
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{
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digitalWrite(_data,1);
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}
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else
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{
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digitalWrite(_data,0) ;
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}
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digitalWrite(_sclk, HIGH);
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delay(1);
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digitalWrite(_sclk, LOW);
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}
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// load data into register
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digitalWrite(_le, HIGH);
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delay(1);
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digitalWrite(_le, LOW);*/
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byte txbyte ;
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digitalWrite(_le, LOW) ;
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