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PIC18LF14K22 interface with ADF7021 transceiver
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prasad_21



Joined: 12 Nov 2014
Posts: 11

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PIC18LF14K22 interface with ADF7021 transceiver
PostPosted: Tue Feb 17, 2015 2:31 am     Reply with quote

I am working on RF communication using ADF7021 and PIC18LF14K22 but CCS does not have inbuilt driver for ADF. Please help me with the driver file for the same. Thanks.
temtronic



Joined: 01 Jul 2010
Posts: 9225
Location: Greensville,Ontario

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PostPosted: Tue Feb 17, 2015 6:21 am     Reply with quote

That device is a 48pin SMT and requires a LOT of expert PCB designing to get it to operate correctly, so I assume you are using a 'module' and not the SMT chip?
If so, then I'd download AD's PDF of their 'demo kit'. It has a lot of the details in it.
This is NOT an easy project for a beginner though with a LOT of reading and a LOT of code cutting, you might be able to get them to work in a month or so.
Step 1, get a PIC to run the 1Hz LED program
Step 2, get a PIC to 'talk' to a PC
Step 3, get 2 PICs to 'communicate' via RS232 hardwired
Step 4, cut code to have a PIC access the xcvr
Step 5, cut code to have PICs use AD xcvr.

You must breakdown the project into small, simple steps, building on what works (and doesn't). RF communications is 'tricky' and involves a LOT of reading and testing.

good luck
Jay
dyeatman



Joined: 06 Sep 2003
Posts: 1933
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PostPosted: Tue Feb 17, 2015 9:53 am     Reply with quote

One thing that you have to decide is which interface will you use?
You have a number to choose from SPI, I2C, RS232 etc.

After you confirm the PIC is working correctly, establishing comms with
the chip will be relatively easy. On the other hand, setting up the chip
is quite a bit harder.
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Google and Forum Search are some of your best tools!!!!
prasad_21



Joined: 12 Nov 2014
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PostPosted: Wed Feb 18, 2015 11:56 pm     Reply with quote

@temtronic
Thanks for your reply. I am using a module which is in working condition i.e. i already have a proven hardware ready to use and only need to write the firmware and establish communication between adf and pic, the first 3 steps stated by you have already been done. I need a driver file of ADF for an SPI communication to be established. As far as the ready demo kit of ADF is concerned it is just the hardware which is available and again the firmware is to be established so i decided to go ahead with the hardware which i already have.
prasad_21



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Posts: 11

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PostPosted: Thu Feb 19, 2015 12:02 am     Reply with quote

@dyeatman
I have decided to choose SPI interface and have confirmed the working status of PIC. Now my concern is to establish communication for which i have taken help of google and various forums but i am not getting the help required. Kindly help me with the driver of ADF with initialization of registers. Thanks.
prasad_21



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PostPosted: Sat Feb 28, 2015 3:12 am     Reply with quote

Can anyone please help me with the driver? I am stuck. Thanks..
asmboy



Joined: 20 Nov 2007
Posts: 2128
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PostPosted: Sun Mar 01, 2015 10:39 am     Reply with quote

i suggest you post the code you have done so far.

include information on the frequency band you want to use
and data formats you propose to transfer.

as of now, you have not shown us anything to know how badly
"stuck" you really are.
keep in mind that
nobody on the forum is going to write a driver for you -
prasad_21



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PostPosted: Mon Mar 09, 2015 3:56 am     Reply with quote

@asmboy
Thanks for your suggestion..
Please find below the code i have written so far.. And as far the problem is concerned i have no idea which register configurations should be chosen for my application and why, but still i have assumed some default configurations and written the code, so was wanting help for the same. I have it in mind that nobody is going to write a driver for me.

Frequency:869MHz
Data Format: Binary

Code:
#ifndef ADF_SELECT

      #define ADF_SELECT PIN_C0 //C1
      #define ADF_CLK    PIN_C3
      #define ADF_DI     PIN_C2  //mosi
      #define ADF_DO     PIN_C4  //miso

#endif

#define  N_REGISTER_0                       0
#define  VCO_OSCILLATOR_REGISTER_1          1
#define  TRANSMIT_MODULATION_REGISTER_2     2
#define  TRANSMIT_RECEIVE_CLOCK_REGISTER_3  3
#define  DEMODULATOR_SETUP_REGISTER_4       4
#define  IF_FILTER_SETUP_REGISTER_5         5
#define  IF_FINE_CAL_SETUP_REGISTER_6       6
#define  READBACK_SETUP_REGISTER_7          7
#define  POWER_DOWN_TEST_REGISTER_8         8
#define  AGC_REGISTER_9                     9
#define  AFC_REGISTER_10                    10
#define  SYNC_WORD_DETECT_REGISTER_11       11
#define  SWD_THRESHOLD_SETUP_REGISTER_12    12
#define  FSK_3_4FSK_DEMOD_REGISTER_13       13
#define  TEST_DAC_REGISTER_14               14
#define  TEST_MODE_REGISTER_15              15


/*********************************************************************************/
/*********       define N_REGISTER_0                      ************************/
#define  BIT_8_INTEGER_N                       44
#define  BIT_15_FRACTIONAL_N_Tx                5961
#define  BIT_15_FRACTIONAL_N_Rx                5794

/***  MUXOUT_CONTROL  ***/
#define  REGULATOR_READY              (0x0<<29)
#define  FILTER_CAL_COMPLETE          (0x1<<29)
#define  DIGITAL_LOCK_DETECT          (0x2<<29)
#define  RSSI_READY                   (0x3<<29)
#define  Tx_Rx                        (0x4<<29)
#define  LOGIC_ZERO                   (0x5<<29)
#define  TRISTATE                     (0x6<<29)
#define  LOGIC_ONE                     (0x7<<29)

#define  UART_MODE_EN                 (0x1<<28)
#define  TRANSMIT                     (0x0<<27)
#define  RECEIVE                      (0x1<<27)
#define  INTEGER_N                    (BIT_8_INTEGER_N<<19)
#define  FRACTIONAL_N_Tx              (BIT_15_FRACTIONAL_N_Tx<<4)
#define  FRACTIONAL_N_Rx              (BIT_15_FRACTIONAL_N_Rx<<4)



/**********************************************************************************/
/*********       define VCO_OSCILLATOR_REGISTER_1      ****************************/
#define  BIT_4_VCO_BIASCURRENT             10
#define  BIT_2_CP_CURRENT                  2
#define  BIT_2_XTAL_BIAS                   2
#define  BIT_4_CLOCKOUT_DIVIDE             0
#define  BIT_3_R_COUNTER_DIVIDE_RATIO      1


#define  EXTERNAL_L_VCO               (0x1<<25)
//VCO CENTER FREQ ADJUST
#define  NOMINAL                      (0x0<<23)
#define  VCO_ADJUST_UP_1              (0x1<<23)
#define  VCO_ADJUST_UP_2              (0x2<<23)
#define  VCO_ADJUST_UP_3              (0x3<<23)
//VCO_BIAS
#define  VCO_BIASCURRENT              (BIT_4_VCO_BIASCURRENT<<19)
#define  RF_DIVIDE_BY_2               (0x1<<18)
#define  VCO_LOOP_CONDITION_ON        (0x1<<17)
#define  CP_CURRENT                   (BIT_2_CP_CURRENT<<15)
#define  XTAL_BIAS                    (BIT_2_XTAL_BIAS<<13)
#define  XOSC_ENABLE                  (0x1<<12)
#define  XTAL_DOUBLER                 (0x1<<11)
#define  CLOCKOUT_DIVIDE              (BIT_4_CLOCKOUT_DIVIDE<<7)
#define  R_COUNTER_DIVIDE_RATIO       (BIT_3_R_COUNTER_DIVIDE_RATIO<<4)

/**********************************************************************************/
/*********       define TRANSMIT_MODULATION_REGISTER_2     ************************/
#define  BIT_9_Tx_FREQUENCY_DEVIATION    7
#define  BIT_6_POWER_AMPLIFIER           46
#define  BIT_2_PA_BIAS                   2
#define  BIT_3_PA_RAMP                   1


#define  RAISED COSINE ALPHA          (0x1<<30)
//TxDATA INVERT
#define  TxINVERT_NORMAL              (0x0<<28)
#define  TxINVERT_CLK                 (0x1<<28)
#define  TxINVERT_DATA                (0x2<<28)
#define  TxINV_CLK_AND_DATA           (0x3<<28)

#define  Tx_FREQUENCY_DEVIATION       (BIT_9_Tx_FREQUENCY_DEVIATION<<19)
#define  POWER_AMPLIFIER              (BIT_6_POWER_AMPLIFIER<<13)
#define  PA_BIAS                      (BIT_2_PA_BIAS<<11)
#define  PA_RAMP                      (BIT_3_PA_RAMP<<8)
#define  PA_ENABLE                    (0x1<<7)
//MODULATION_SCHEME
#define  FSK_2                        (0x0<<4)
#define  GAUSSIAN_2FSK                (0x1<<4)
#define  FSK_3                        (0x2<<4)
#define  FSK_4                        (0x3<<4)
#define  OVERSAMPLED_2FSK             (0x4<<4)
#define  RAISED_COSINE_2FSK           (0x5<<4)
#define  RAISED_COSINE_3FSK           (0x6<<4)
#define  RAISED_COSINE_4FSK           (0x7<<4)
/**********************************************************************************/
/*********       define  TRANSMIT_RECEIVE_CLOCK_REGISTER_3     ********************/

#define  BIT_6_AGC_CLK_DIVIDE          10
#define  BIT_8_SEQUENCER_CLK_DIVIDE    197
#define  BIT_8_CDR_CLK_DIVIDE          38
#define  BIT_4_DEM_CLK_DIVIDE          4
#define  BIT_2_BBOS_CLK_DIVIDE         2


#define  AGC_CLK_DIVIDE               (BIT_6_AGC_CLK_DIVIDE<<26)
#define  SEQUENCER_CLK_DIVIDE         (BIT_8_SEQUENCER_CLK_DIVIDE<<18)
#define  CDR_CLK_DIVIDE               (BIT_8_CDR_CLK_DIVIDE<<10)
#define  DEM_CLK_DIVIDE               (BIT_4_DEM_CLK_DIVIDE<<6)
#define  BBOS_CLK_DIVIDE              (BIT_2_BBOS_CLK_DIVIDE<<4)

/***********************************************************************************/
/*********       define  DEMODULATOR_SETUP_REGISTER_4           ********************/

#define  BIT_10_POST_DEMOD_BW         4
#define  BIT_10_DISCRIMINATOR_BW      590

//IF_BW
#define  IF_BW_12_5kHz                (0x0<<30)
#define  IF_BW_18_75kHz               (0x1<<30)
#define  IF_BW_25kHz                  (0x2<<30)
#define  IF_BW_INVALID                (0x3<<30)
#define  POST_DEMOD_BW                (BIT_10_POST_DEMOD_BW<<20)
#define  DISCRIMINATOR_BW             (BIT_10_DISCRIMINATOR_BW<<10)
//Rx_NVERT
#define  Rx_INVERT_NORMAL             (0x0<<8)
#define  Rx_INVERT_CLK                (0x1<<8)
#define  Rx_INVERT_DATA               (0x2<<8)
#define  Rx_INVERT_CLK_DATA           (0x3<<8)

#define  DOT_PRODUCT                  (0x1<<7)
//DEMOD_SCHEME
#define  DEMOD_SCHEME_2FSK_LINEAR     (0x0<<4)
#define  DEMOD_SCHEME_2FSK_CORRELATOR (0x1<<4)
#define  DEMOD_SCHEME_3FSK            (0x2<<4)
#define  DEMOD_SCHEME_4FSK            (0x3<<4)

/***********************************************************************************/
/*********       define  IF_FILTER_SETUP_REGISTER_5             ********************/
#define  BIT_5_IR_GAIN_ADJUST_MAG      0
#define  BIT_4_IR_PHASE_ADJUST_MAG     0
#define  BIT_6_IF_FILTER_ADJUST        0
#define  BIT_9_IF_FILTER_DIVIDER       392

#define  IR_GAIN_ADJUST_UP_DN          (0x1<<31)
#define  IR_GAIN_ADJUST_Q              (0x1<<30)
#define  IR_GAIN_ADJUST_MAG            (BIT_5_IR_GAIN_ADJUST_MAG<<25)
#define  IR_PHASE_ADJUST_Q             (0x1<<24)
#define  IR_PHASE_ADJUST_MAG           (BIT_4_IR_PHASE_ADJUST_MAG<<20)
#define  IF_FILTER_ADJUST              (BIT_6_IF_FILTER_ADJUST<<14)
#define  IF_FILTER_DIVIDER             (BIT_9_IF_FILTER_DIVIDER<<5)
#define  IF_CAL_COARSE                 (0x1<<4)


/***********************************************************************************/
/*********       define  IF_FINE_CAL_SETUP_REGISTER_6           ********************/
#define  BIT_7_IF_CAL_DWELL_TIME        40
#define  BIT_8_IF_CAL_UPPER_TONE_DIVIDE 75
#define  BIT_8_IF_CAL_LOWER_TONE_DIVIDE 150

#define  IR_CAL_SOURCE_+_2             (0x1<<30)
//IR CAL SOURCEDRIVE LEVEL
#define  IR_CAL_SOURCEDRIVE_LEVEL_OFF  (0x0<<28)
#define  IR_CAL_SOURCEDRIVE_LEVEL_LOW  (0x1<<28)
#define  IR_CAL_SOURCEDRIVE_LEVEL_MED  (0x2<<28)
#define  IR_CAL_SOURCEDRIVE_LEVEL_HIGH (0x3<<28)

#define  IF_CAL_DWELL_TIME             (BIT_7_IF_CAL_DWELL_TIME<<21)
#define  IF_CAL_UPPER_TONE_DIVIDE      (BIT_8_IF_CAL_UPPER_TONE_DIVIDE<<13)
#define  IF_CAL_LOWER_TONE_DIVIDE      (BIT_8_IF_CAL_LOWER_TONE_DIVIDE<<5)
#define  IF_FINE_CAL                   (0x1<<4)

/***********************************************************************************/
/*********       define  READBACK_SETUP_REGISTER_7              ********************/
#define  READBACK_ENABLED              (0x1<<8)
//READBACK MODE
#define  AFC_WORD                      (0x0<<6)
#define  ADC_OUTPUT                    (0x1<<6)
#define  FILTER_CAL                    (0x2<<6)
#define  SILICON_RE                    (0x3<<6)
//ADC MODE
#define  MEASURE_RSSI                  (0x0<<4)
#define  BATTERY_VOLTAGE               (0x1<<4)
#define  TEMP_SENSOR                   (0x2<<4)
#define  TO_EXTERNAL_PIN               (0x3<<4)
/***********************************************************************************/
/*********       define  POWER_DOWN_TEST_REGISTER_8             ********************/
#define  COUNTER RESET                 (0x1<<15)
#define  CDR_RESET                     (0x1<<14)
#define  DEMOD_RESET                   (0x1<<13)
#define  PA_ENABLE_Rx_MODE             (0x1<<12)
#define  Tx/Rx_SWITCH_ENABLE           (0x1<<11)
#define  LOG_AMP_ENABLE                (0x1<<10)
#define  DEMOD_ENABLE                  (0x1<<9)
#define  ADC_ENABLE                    (0x1<<8)
#define  FILTER_ENABLE                 (0x1<<7)
#define  LNA/MIXER_ENABLE              (0x1<<6)
#define  SYNTH_ENABLE                  (0x1<<4)
/***********************************************************************************/
/*********       define  AGC_REGISTER_9                         ********************/
#define  BIT_7_AGC_HIGH_THRESHOLD      70
#define  BIT_7_AGC_LOW_THRESHOLD       30

#define  MIXER_LINEARITY_HIGH          (0x1<<28)
#define  LNA_CURRENT                   (0x0<<26)
#define  LNA_MODE_REDUCED GAIN         (0x1<<25)
#define  FILTER_CURRENT_HIGH           (0x1<<24)
#define  FILTER_GAIN_8                 (0x0<<22)
#define  FILTER_GAIN_24                (0x1<<22)
#define  FILTER_GAIN_72                (0x2<<22)
#define  FILTER_GAIN_INVALID           (0x3<<22)
#define  LNA_GAIN_3                    (0x0<<20)
#define  LNA_GAIN_10                   (0x1<<20)
#define  LNA_GAIN_30                   (0x2<<20)
#define  LNA_GAIN_INVALID              (0x3<<20)
//AGC_MODE
#define  AUTO_AGC                      (0x0<<18)
#define  MANUAL_AGC                    (0x1<<18)
#define  FREEZE_AGC                    (0x2<<18)

#define  AGC_HIGH_THRESHOLD            (BIT_7_AGC_HIGH_THRESHOLD<<11)
#define  AGC_LOW_THRESHOLD             (BIT_7_AGC_LOW_THRESHOLD<<4)
/***********************************************************************************/
/*********       define  AFC_REGISTER_10                        ********************/
#define  BIT_8_MAX_AFC_RANGE           50
#define  BIT_3_KP                      4
#define  BIT_4_KI                      11
#define  BIT_12_AFC_SCALING_FACTOR     426

#define  MAX_AFC_RANGE                 (BIT_8_MAX_AFC_RANGE<<24)
#define  KP                            (BIT_3_KP<<21)
#define  KI                            (BIT_4_KI<<17)
#define  AFC_SCALING_FACTOR            (BIT_12_AFC_SCALING_FACTOR<<5)
#define  AFC_EN                        (0x1<<4)

/***********************************************************************************/
/*********       define  SYNC_WORD_DETECT_REGISTER_11           ********************/

#define  BIT_24_SYNC_BYTE_SEQUENCE     0xFAAAAE

#define  SYNC_BYTE_SEQUENCE            (BIT_24_SYNC_BYTE_SEQUENCE<<8)

//MATCHINGTOLERANCE
#define  ACCEPT_0_ERRORS               (0x0<<6)
#define  ACCEPT_1_ERROR                (0x1<<6)
#define  ACCEPT_2_ERRORS               (0x2<<6)
#define  ACCEPT_3_ERRORS               (0x3<<6)
//SYNC_BYTE_LENGTH
#define  SYNC_12_BITS                  (0x0<<4)
#define  SYNC_16_BITS                  (0x1<<4)
#define  SYNC_20_BITS                  (0x2<<4)
#define  SYNC_24_BITS                  (0x3<<4)
/***********************************************************************************/
/*********       define  SWD_THRESHOLD_SETUP_REGISTER_12        ********************/

#define  BIT_8_DATA_PACKET_LENGTH       1

#define  DATA_PACKET_LENGTH            (BIT_8_DATA_PACKET_LENGTH<<8)

//SWD MODE
#define  SWD PIN LOW                                      (0x0<<6)
#define  SWD_PIN_HIGH_AFTER_NEXT_SYNCWORD                 (0x1<<6)
#define  SWD_HIGH_AFTER_NEXT_SYNCWORD_INTERRUPT_PIN_HIGH  (0x2<<6)
#define  INTERRUPT_PIN_HIGH                               (0x3<<6)
//LOCK THRESHOLD MODE
#define  THRESHOLD_FREE_RUNNING                           (0x0<<4)
#define  LOCK_THRESHOLD_AFTER_NEXT_SYNCWORD               (0x1<<4)
#define  LOCK_THRESHOLD_AFTER_NEXT_SYNCWORD_FOR_DATA_PACKET           (0x2<<4)
#define  LOCK_THRESHOLD                                   (0x3<<4)
/***********************************************************************************/
/*********       define  FSK_3_4FSK_DEMOD_REGISTER_13           ********************/
#define  BIT_4_FSK3_PREAMBLE_TIME_VALIDATE   0
#define  BIT_7_FSK3_CDR_THRESHOLD            0
#define  BIT_7_FSK3_FSK4_SLICER_THRESHOLD    0

#define  FSK3_PREAMBLE_TIME_VALIDATE    (BIT_4_FSK3_PREAMBLE_TIME_VALIDATE<<22)
#define  FSK3_CDR_THRESHOLD             (BIT_7_FSK3_CDR_THRESHOLD<<15)

//VITERBI_PATH_MEMORY
#define  BITS_4_VITERBI_PATH_MEMORY     (0x0<<13)
#define  BITS_6_VITERBI_PATH_MEMORY     (0x1<<13)
#define  BITS_8_VITERBI_PATH_MEMORY     (0x2<<13)
#define  BITS_32_VITERBI_PATH_MEMORY    (0x3<<13)

#define  PHASE_CORRECTION               (0x1<<12)
#define  FSK3_VITERBI_DETECTOR          (0x1<<11)
#define  FSK3_FSK4_SLICER_THRESHOLD     (BIT_7_FSK3_FSK4_SLICER_THRESHOLD<<4)
/***********************************************************************************/
/*********       define  TEST_DAC_REGISTER_14                   ********************/
#define  BIT_3_ED_LEAK_FACTOR           0
#define  BIT_4_TEST_DAC_GAIN            0
#define  BIT_16_TEST_DAC_OFFSET         0

#define  NO_PULSE_EXTENSION             (0x0<<30)
#define  EXTENDED_BY_1                  (0x1<<30)
#define  EXTENDED_BY_2                  (0x2<<30)
#define  EXTENDED_BY_3                  (0x3<<30)
#define  ED_LEAK_FACTOR                 (BIT_3_ED_LEAK_FACTOR<<27)
//PULSE_EXTENSION
#define  FULL_RESPONSE_TO_PEAK          (0x0<<25)
#define  RESPONSE_0_5_TO_PEAK           (0x1<<25)
#define  RESPONSE_0_25_TO_PEAK          (0x2<<25)
#define  RESPONSE_0_125_TO_PEAK         (0x3<<25)
#define  TEST_DAC_GAIN                  (BIT_4_TEST_DAC_GAIN<<21)
#define  TEST_DAC_OFFSET                (BIT_16_TEST_DAC_OFFSET<<5)
#define  TEST_TDAC_EN                   (0x1<<4)
/***********************************************************************************/
/*********       define  TEST_MODE_REGISTER_15                  ********************/
//CAL OVERRIDE
#define  AUTO_CAL                       (0x0<<30)
#define  OVERRIDE_GAIN                  (0x1<<30)
#define  OVERRIDE_BW                    (0x2<<30)
#define  OVERRIDE_BW_AND_GAIN           (0x3<<30)
#define  REG_1_PD                       (0x1<<29)
#define  FORCE_LD_HIGH_8                (0x1<<28)
//ANALOG_TEST_MODES
#define  BAND_GAP_VOLTGE                (0x0<<24)
#define  CURRENT_40uA_FROM_REG4         (0x1<<24)
#define  FILTER_I_CHANNEL_STAGE_1       (0x2<<24)
#define  FILTER_I_CHANNEL_STAGE_2       (0x3<<24)
#define  FILTE_I_CHANNEL_STAGE_1        (0x4<<24)
#define  FILTER_Q_CHANNEL_STAGE_1       (0x5<<24)
#define  FILTER_Q_CHANNEL_STAGE_2       (0x6<<24)
#define  FILTE_Q_CHANNEL_STAGE_1        (0x7<<24)
#define  ADC_REFERENCE_VOLTAGE          (0x8<<24)
#define  BIAS_CURRENT_FROM_RSSI_5uA     (0x9<<24)
#define  FILTER_COARSE_CAL_OSCILLATOR_O_P (0xa<<24)
#define  ANALOG_RSSI_I_CHANNEL          (0xb<<24)
#define  OSET_LOOP_VE_FBACK_V_I_CH      (0xc<<24)
#define  SUMMED_O_P_OF_RSSI_RECTIFIER_P (0xd<<24)
#define  SUMMED_O_P_OF_RSSI_RECTIFIER_N (0xe<<24)
#define  BIAS_CURRENT_FROM_BB_FILTER    (0xf<<24)
//PLL_TEST_MODES
#define  NORMAL_OPERATION               (0x0<<20)
#define  RDIV                           (0x1<<20)
#define  NDIV                           (0x2<<20)
#define  RCNTR_2_ON_MUXOUT              (0x3<<20)
#define  NCNTR_2_ON_MUXOUT              (0x4<<20)
#define  ACNTR_TO_MUXOUT                (0x5<<20)
#define  PFD_PUMP_UP_TO_MUXOUT          (0x6<<20)
#define  PFD_PUMP_DN_TO_MUXOUT          (0x7<<20)
#define  SDATA_TO_MUXOUT_OR_SREAD       (0x8<<20)
#define  ANALOG_LOCK_DETECT_ON_MUXOUT   (0x9<<20)
#define  END_OF_COARSE_CAL_ON_MUXOUT    (0xa<<20)
#define  END_OF_FINE_CAL_ON_MUXOUT      (0xb<<20)
#define  FORCE_NEW_PRESCALER_CONFIG_FOR_ALL_N    (0xc<<20)
#define  TEST_MUX_SELECTS_DATA          (0xd<<20)
#define  LOCK_DETECT_PERCISION          (0xe<<20)
//#define  RESERVED                     (0xf<<20)

//CLK_-MUX
#define  NORMAL_NO_OUTPUT               (0x0<<17)
#define  DEMOD_CLK                      (0x1<<17)
#define  CDR_CLK                        (0x2<<17)
#define  SEQ_CLK                        (0x3<<17)
#define  BB_OFFSET_CLK                  (0x4<<17)
#define  SIGMA_DELTA_CLK                (0x5<<17)
#define  ADC_CLK                        (0x6<<17)
#define  TxRxCLK                        (0x7<<17)
//PFD/CP_TEST_MODES
#define  DEFAULT_NO_BLEED               (0x0<<14)
#define  VE_CONSTANT_BLEED              (0x1<<14)
#define  CVE_CONSTANT_BLEED             (0x2<<14)
#define  CVE_PULSED_BLEED               (0x3<<14)
#define  CVE_PULSE_BLD_DELAY_UP         (0x4<<14)
#define  CPPUMPUP                       (0x5<<14)
#define  CPTRI_STATE                    (0x6<<14)
#define  CPPUMPDN                       (0x7<<14)
//¦²-¦¤_TEST_MODES
#define  DEFAULT_3RD_ORDER_SD_NO_DITHER (0x0<<11)
#define  ST1_ORDER_SD                   (0x1<<11)
#define  ND2_ORDER_SD                   (0x2<<11)
#define  DITHER_TO_FIRST_STAGE          (0x3<<11)
#define  DITHER_TO_SECOND_STAGE         (0x4<<11)
#define  DITHER_TO_THIRD_STAGE          (0x5<<11)
#define  DITHER_8                       (0x6<<11)
#define  DITHER_32                      (0x7<<11)
//Tx_TEST_MODES
#define  Tx_CARRIER_ONLY                (0x0<<8)
#define  Tx_PVE_TONE_ONLY               (0x1<<8)
#define  Tx_NVE_TONE_ONLY               (0x2<<8)
#define  Tx_1010_PATTERN                (0x3<<8)
#define  Tx_PN9_DATA_AT_PROGRAMED_RATE  (0x4<<8)
#define  Tx_SYNC_BYTE_REPEATEDLY        (0x5<<8)
#define  NORMAL_OPERAT                  (0x6<<8)
//Rx_TEST_MODES
#define  Rx_TEST_MODES_NORMAL           (0x0<<4)
#define  SCLK_SDATA_I_Q                 (0x1<<4)
#define  REVERSE_I_Q                    (0x2<<4)
#define  LINEAR_SLICER_ON_RXDATA        (0x3<<4)
#define  CORRELATOR_SLICER_ON_TxRxDATA  (0x4<<4)
#define  ADDITIONAL_FILTERING_ON_I_Q    (0x5<<4)
#define  ENVELOPE_DETECTOR_WATCHDOG_DISABLED   (0x6<<4)
//#define  RESERVED                     (0x7<<4)
#define  ENABLE_REG_14_DEMOD_PARAMETERS (0x8<<4)
#define  PROHIBIT_CALACTIVE             (0x9<<4)
#define  ENABLE_DEMOD_DURING_CAL        (0xa<<4)
#define  FORCE_CALACTIVE                (0xb<<4)
#define  I_Q_TO_TxRxCLK_TxRxDATA        (0xc<<4)
#define  POWER_DOWN_DDT_AND_ED_IN_T_4_MODE     (0xd<<4)
#define  SDATA_TO_CDR                   (0xe<<4)
#define  FSK3_SLICER_ON_TxRxDATA        (0xf<<4)

unsigned long int ADF7021Registers[16];

void init_adf();
void ADF7021Registers_TRANSMITTER_config(void);
void ADF7021Registers_RECEIVER_config(void);

void init_adf()
{
   int1 i;

   output_low( ADF_DI);
   output_low( ADF_CLK);
   output_low( ADF_SELECT);
   i=input(ADF_DO);

   setup_spi(SPI_MASTER | SPI_H_TO_L | SPI_CLK_DIV_16);

   output_high(ADF_SELECT);
}

void ADF7021Registers_TRANSMITTER_config (void)
{
    ADF7021Registers[0]=N_REGISTER_0|TRANSMIT|INTEGER_N|FRACTIONAL_N_Tx;
    ADF7021Registers[1]=VCO_OSCILLATOR_REGISTER_1|XOSC_ENABLE|R_COUNTER_DIVIDE_RATIO|XTAL_BIAS|CP_CURRENT|VCO_LOOP_CONDITION_ON|VCO_BIASCURRENT;
    ADF7021Registers[2]=TRANSMIT_MODULATION_REGISTER_2|PA_ENABLE|PA_BIAS|POWER_AMPLIFIER|Tx_FREQUENCY_DEVIATION|FSK_2|TxINVERT_NORMAL;
    ADF7021Registers[3]=TRANSMIT_RECEIVE_CLOCK_REGISTER_3|AGC_CLK_DIVIDE|SEQUENCER_CLK_DIVIDE|CDR_CLK_DIVIDE|DEM_CLK_DIVIDE|BBOS_CLK_DIVIDE;
    ADF7021Registers[4]=DEMODULATOR_SETUP_REGISTER_4|IF_BW_25kHz|POST_DEMOD_BW|DISCRIMINATOR_BW|Rx_INVERT_NORMAL|DEMOD_SCHEME_2FSK_CORRELATOR;
    ADF7021Registers[5]=IF_FILTER_SETUP_REGISTER_5|IF_CAL_COARSE|IF_FILTER_DIVIDER|IF_FILTER_ADJUST|IR_PHASE_ADJUST_MAG|IR_GAIN_ADJUST_MAG;
    ADF7021Registers[6]=IF_FINE_CAL_SETUP_REGISTER_6|IF_CAL_LOWER_TONE_DIVIDE|IF_CAL_UPPER_TONE_DIVIDE|IF_CAL_DWELL_TIME|IR_CAL_SOURCEDRIVE_LEVEL_OFF;
    ADF7021Registers[7]=READBACK_SETUP_REGISTER_7;
    ADF7021Registers[8]=POWER_DOWN_TEST_REGISTER_8;
    ADF7021Registers[9]=AGC_REGISTER_9|AGC_LOW_THRESHOLD|AGC_HIGH_THRESHOLD|AUTO_AGC|LNA_GAIN_3|FILTER_GAIN_8|LNA_CURRENT;
    ADF7021Registers[10]=AFC_REGISTER_10|AFC_SCALING_FACTOR|KI|KP|MAX_AFC_RANGE;
    ADF7021Registers[11]=SYNC_WORD_DETECT_REGISTER_11|SYNC_24_BITS|SYNC_BYTE_SEQUENCE|ACCEPT_0_ERRORS;
    ADF7021Registers[12]=SWD_THRESHOLD_SETUP_REGISTER_12|THRESHOLD_FREE_RUNNING|SWD_HIGH_AFTER_NEXT_SYNCWORD_INTERRUPT_PIN_HIGH|DATA_PACKET_LENGTH;
    ADF7021Registers[13]=FSK_3_4FSK_DEMOD_REGISTER_13;
    ADF7021Registers[14]=TEST_DAC_REGISTER_14;
    ADF7021Registers[15]=TEST_MODE_REGISTER_15;
}

void ADF7021Registers_RECEIVER_config (void)
{
    ADF7021Registers[0]=N_REGISTER_0|RECEIVE|INTEGER_N|FRACTIONAL_N_Rx;
    ADF7021Registers[1]=VCO_OSCILLATOR_REGISTER_1|XOSC_ENABLE|R_COUNTER_DIVIDE_RATIO|XTAL_BIAS|CP_CURRENT|VCO_LOOP_CONDITION_ON|VCO_BIASCURRENT;
    ADF7021Registers[2]=TRANSMIT_MODULATION_REGISTER_2|PA_ENABLE|PA_BIAS|POWER_AMPLIFIER|Tx_FREQUENCY_DEVIATION|FSK_2|TxINVERT_NORMAL;
    ADF7021Registers[3]=TRANSMIT_RECEIVE_CLOCK_REGISTER_3|AGC_CLK_DIVIDE|SEQUENCER_CLK_DIVIDE|CDR_CLK_DIVIDE|DEM_CLK_DIVIDE|BBOS_CLK_DIVIDE;
    ADF7021Registers[4]=DEMODULATOR_SETUP_REGISTER_4|IF_BW_25kHz|POST_DEMOD_BW|DISCRIMINATOR_BW|Rx_INVERT_NORMAL|DEMOD_SCHEME_2FSK_CORRELATOR;
    ADF7021Registers[5]=IF_FILTER_SETUP_REGISTER_5|IF_CAL_COARSE|IF_FILTER_DIVIDER|IF_FILTER_ADJUST|IR_PHASE_ADJUST_MAG|IR_GAIN_ADJUST_MAG;
    ADF7021Registers[6]=IF_FINE_CAL_SETUP_REGISTER_6|IF_CAL_LOWER_TONE_DIVIDE|IF_CAL_UPPER_TONE_DIVIDE|IF_CAL_DWELL_TIME|IR_CAL_SOURCEDRIVE_LEVEL_OFF;
    ADF7021Registers[7]=READBACK_SETUP_REGISTER_7;
    ADF7021Registers[8]=POWER_DOWN_TEST_REGISTER_8;
    ADF7021Registers[9]=AGC_REGISTER_9|AGC_LOW_THRESHOLD|AGC_HIGH_THRESHOLD|AUTO_AGC|LNA_GAIN_3|FILTER_GAIN_8|LNA_CURRENT;
    ADF7021Registers[10]=AFC_REGISTER_10|AFC_SCALING_FACTOR|KI|KP|MAX_AFC_RANGE;
    ADF7021Registers[11]=SYNC_WORD_DETECT_REGISTER_11|SYNC_24_BITS|SYNC_BYTE_SEQUENCE|ACCEPT_0_ERRORS;
    ADF7021Registers[12]=SWD_THRESHOLD_SETUP_REGISTER_12|THRESHOLD_FREE_RUNNING|SWD_HIGH_AFTER_NEXT_SYNCWORD_INTERRUPT_PIN_HIGH|DATA_PACKET_LENGTH;
    ADF7021Registers[13]=FSK_3_4FSK_DEMOD_REGISTER_13;
    ADF7021Registers[14]=TEST_DAC_REGISTER_14;
    ADF7021Registers[15]=TEST_MODE_REGISTER_15;
}
asmboy



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PostPosted: Mon Mar 09, 2015 11:02 am     Reply with quote

Code:

#define  ACCEPT_0_ERRORS               (0x0<<6)
#define  IF_BW_12_5kHz                (0x0<<30)
#define  Rx_INVERT_NORMAL             (0x0<<8)
.....

#define  SWD PIN LOW                                      (0x0<<6)
above as two problems for the coding of one 
.........

       #define ADF_SELECT PIN_C0 //C1

      #define ADF_CLK    PIN_C3
      #define ADF_DI     PIN_C2  //mosi
      #define ADF_DO     PIN_C4  //miso

 output_low( ADF_DI);
   output_low( ADF_CLK);
   output_low( ADF_SELECT);
   i=input(ADF_DO);

   setup_spi(SPI_MASTER | SPI_H_TO_L | SPI_CLK_DIV_16);



you have lots of assorted trouble here - but you are calling for a HARDWARE SPI setup in your code .
recall that on 18F PICS SDO is pin_C5 while SDI i PIN_C4

i especially fond of expressions in the form of 0x0<< anything
and
also placing ANY text on a #define line - before a <CR> can be problematic
as the compiler directive is a text replace command.
SEE:
#define ADF_SELECT PIN_C0 //C1
#define SWD PIN LOW (0x0<<6)

overall, you have posted a very odd attempt at creating constants in your defines, and i am not at all sure they will compile to what you desire.

you clearly have a very long way to go before you are even ready to attempt actually configuring the part.
Having a working SPI command channel is your immediate challenge...
followed closely by the need to be well versed in the RF hardware aspects of what you want to achieve -circuit wise.

all the code in the world won't fix a lack of understanding of the RF functions of the chip you wish to use. this is a very flexible part with many similar uses- but not at all "plug and play"..
prasad_21



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PostPosted: Wed Mar 11, 2015 3:34 am     Reply with quote

@asmboy
Thanks for viewing my code.
I am calling Hardware SPI as i am using hardware SPI circuit wise and the channel is working. The expressions in the form of (0x0<<) are used for the register bits configuration, as far as #define SWD PIN LOW (0x0<<6) is concerned, this is done for selection of the SWD mode in Register 12 of ADF7021. I already have a proven hardware all i have to do is a firmware for which i am doing the driver programming.
temtronic



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PostPosted: Wed Mar 11, 2015 5:23 am     Reply with quote

I have to agree with asmboy about the defines. It is not the 'normal' or 'regular' way to assign bits to a register. Every datasheet for every micro or peripheral I've ever read shows the 'registers' as a group of bits so the feature is represented as a binary pattern (IE: 0b00110101) as opposed to a hex value left shifted a decimal value.
If you'd used the datasheet format then everyone can quickly compare and see if you've miscomputed a define. As you've done it , I can't see if they're right or wrong. Obviously ,if you have ONE define wrong the driver will not function correctly. That one error could take you days to discover.

I have to assume you have a pair of premade modules and not raw chips. If so a basic drive should be easy as I also assume there's a 'default' or 'test' configuration for the ADF7021 device. If you have a premade module, post a link to the device,there may be a driver 'on the web' already.

Jay
asmboy



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PostPosted: Wed Mar 11, 2015 1:31 pm     Reply with quote

Code:

#define SWD PIN LOW (0x0<<6)


how do you USE this define in your program code ?

normally i would expect the form SWD_PIN_LOW
but with the extra spaces you have in the #define
I am wondering how you use this text substitution w/o the compiler
halting and barfing an error at you..... Very Happy Very Happy Very Happy
ckielstra



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PostPosted: Wed Mar 11, 2015 4:07 pm     Reply with quote

Code:
       #define ADF_SELECT PIN_C0 //C1

      #define ADF_CLK    PIN_C3
      #define ADF_DI     PIN_C2  //mosi
      #define ADF_DO     PIN_C4  //miso

 output_low( ADF_DI);
   output_low( ADF_CLK);
   output_low( ADF_SELECT);
   i=input(ADF_DO);

   setup_spi(SPI_MASTER | SPI_H_TO_L | SPI_CLK_DIV_16);
This part confuses me.

prasad_21 wrote:
I am calling Hardware SPI as i am using hardware SPI circuit wise and the channel is working.
You say you are using hardware SPI, but on you PIC18LF14K22 the SDO is on PIN_C7 and SDI on PIN_B4. You are using C2, respectively C4.

Also, the ADF7021 is generating the clock, so that chip should be the SPI master.

Your SPI setup configures for SPI mode 2, that's wrong. I can't easily find the right SPI mode for this chip, but at least it is clear the data is clocked in at the rising clock edge. This means you have to use SPI mode 0 or 3, my guess would be it is a mode 0 setup.

I always use the following conversion table to configure the SPI settings:
Code:
// SPI Mode | MOTOROLA | MICROCHIP | CCS                          | Clock line idle | Data clocked in at
//----------------------------------------------------------------|-----------------|-------------------
//          | CPOL CPHA|  CKP CKE  |                              |                 |
//    0     |  0    0  |   0   1   | SPI_L_TO_H | SPI_XMIT_L_TO_H | low             | low to high edge
//    1     |  0    1  |   0   0   | SPI_L_TO_H                   | low             | high to low edge
//    2     |  1    0  |   1   1   | SPI_H_TO_L                   | high            | high to low edge
//    3     |  1    1  |   1   0   | SPI_H_TO_L | SPI_XMIT_L_TO_H | high            | low to high edge
//
// Example: setup_spi(SPI_MASTER | SPI_MODE_3 | SPI_CLK_DIV_4 );
#define SPI_MODE_0  (SPI_L_TO_H | SPI_XMIT_L_TO_H)
#define SPI_MODE_1  (SPI_L_TO_H)
#define SPI_MODE_2  (SPI_H_TO_L)
#define SPI_MODE_3  (SPI_H_TO_L | SPI_XMIT_L_TO_H)


Last but not least, where is your SPI configuration for the ADF7021? This requires setting R0_DB28 to 1 and setting R15_DB[17:19] to 0x7. Both these settings are missing from your program.
temtronic



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PostPosted: Wed Mar 11, 2015 4:41 pm     Reply with quote

tidbits I've found..

chip is $4
eval board is $75

complete C code ( for another micro) is on the web.....

at least one other has been to this forum about the chip...


Jay
prasad_21



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PostPosted: Wed Mar 11, 2015 11:30 pm     Reply with quote

@temtronic
I have taken help of the driver available for another micro which is the supporting document for the evaluation board and written this code. The module which i have is a custom built module and no link can be provided for it to search for a driver directly on web, i have tried all of it.
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