Adding 19.68 MHz TCXO support

9 years ago · d71b7aa053
parent 7d6d179846
commit d71b7aa053
4 changed files with 193 additions and 74 deletions
--- a/ADF7021.cpp
+++ b/ADF7021.cpp
@ -22,7 +22,7 @@
 
 #include "Config.h"

-#if defined(ADF7021)
+#if defined(ENABLE_ADF7021)

 #include "Globals.h"
 #include "IO.h"
@ -67,8 +67,8 @@ void Send_REG0_RX()

  ADF7021_RX_REG0  = (uint32_t)0b0000;
  ADF7021_RX_REG0 |= (uint32_t)0b01011   << 27;   // mux regulator/uart enabled/receive
-  ADF7021_RX_REG0 |= (uint32_t)N_divider << 19;   //frequency;
-  ADF7021_RX_REG0 |= (uint32_t)F_divider << 4;    //frequency;
+  ADF7021_RX_REG0 |= (uint32_t)N_divider << 19;   // frequency;
+  ADF7021_RX_REG0 |= (uint32_t)F_divider << 4;    // frequency;
  
  AD7021_control_byte = ADF7021_RX_REG0;
  Send_AD7021_control();
@ -87,10 +87,10 @@ void Send_REG0_TX()
  divider = (divider - N_divider) * 32768;
  F_divider = floor(divider + 0.5);

-  ADF7021_TX_REG0  = (uint32_t)0b0000;            // register 0
-  ADF7021_TX_REG0 |= (uint32_t)0b01010   << 27;   // mux regulator/uart enabled/transmit
-  ADF7021_TX_REG0 |= (uint32_t)N_divider << 19;   //frequency;
-  ADF7021_TX_REG0 |= (uint32_t)F_divider << 4;    //frequency;
+  ADF7021_TX_REG0  = (uint32_t) 0b0000;            // register 0
+  ADF7021_TX_REG0 |= (uint32_t) 0b01010   << 27;   // mux regulator/uart enabled/transmit
+  ADF7021_TX_REG0 |= (uint32_t) N_divider << 19;   // frequency;
+  ADF7021_TX_REG0 |= (uint32_t) F_divider << 4;    // frequency;

  AD7021_control_byte = ADF7021_TX_REG0;         
  Send_AD7021_control();
@ -98,88 +98,101 @@ void Send_REG0_TX()

 void CIO::ifConf()
 {
-  uint32_t ADF7021_REG2 = 0;
-  uint32_t ADF7021_REG3 = 0;
-  uint32_t ADF7021_REG4 = 0;
+  uint32_t ADF7021_REG2  = 0;
+  uint32_t ADF7021_REG3  = 0;
+  uint32_t ADF7021_REG4  = 0;
  uint32_t ADF7021_REG13 = 0;

  if (m_dstarEnable) {
    // Dev: 1200 Hz, symb rate = 4800

-    ADF7021_REG3 = 0x2A4C4193;
-    ADF7021_REG4 = 0x00A82A94;
-    ADF7021_REG13 = 0x0000000D;
-
-    ADF7021_REG2 = (uint32_t)0b00         << 28;  // clock normal
-    ADF7021_REG2 |= (uint32_t)0b000101010 << 19;  // deviation
-    ADF7021_REG2 |= (uint32_t)0b001       << 4;   // modulation (GMSK)
+    ADF7021_REG3 = ADF7021_REG3_DSTAR;
+    
+    // K=32
+    ADF7021_REG4  = (uint32_t) 0b0100                    << 0;   // register 4
+    ADF7021_REG4 |= (uint32_t) 0b001                     << 4;   // mode, GMSK
+    ADF7021_REG4 |= (uint32_t) 0b1                       << 7;
+    ADF7021_REG4 |= (uint32_t) 0b10                      << 8;
+    ADF7021_REG4 |= (uint32_t) ADF7021_DISC_BW_DSTAR     << 10;  // Disc BW
+    ADF7021_REG4 |= (uint32_t) ADF7021_POST_BW_DSTAR     << 20;  // Post dem BW
+    ADF7021_REG4 |= (uint32_t) 0b00                      << 30;  // IF filter
+
+    ADF7021_REG13 = (uint32_t) 0b1101      << 0;   // register 13
+    ADF7021_REG13 |= (uint32_t) ADF7021_SLICER_TH_DSTAR  << 4;   // slicer threshold
+
+    ADF7021_REG2 = (uint32_t) 0b00                       << 28;  // clock normal
+    ADF7021_REG2 |= (uint32_t) ADF7021_DEV_DSTAR         << 19;  // deviation
+    ADF7021_REG2 |= (uint32_t) 0b001                     << 4;   // modulation (GMSK)
  }
  else if (m_dmrEnable) {
    // Dev: +1 symb 648 Hz, symb rate = 4800
    
-    ADF7021_REG3 = 0x2A4C80D3;
+    ADF7021_REG3 = ADF7021_REG3_DMR;

    // K=32
-    ADF7021_REG4  = (uint32_t)0b0100      << 0;   // register 4
-    ADF7021_REG4 |= (uint32_t)0b011       << 4;   // mode, 4FSK
-    ADF7021_REG4 |= (uint32_t)0b0         << 7;
-    ADF7021_REG4 |= (uint32_t)0b11        << 8;
-    ADF7021_REG4 |= (uint32_t)393U        << 10;  // Disc BW
-    ADF7021_REG4 |= (uint32_t)65U         << 20;  // Post dem BW
-    ADF7021_REG4 |= (uint32_t)0b10        << 30;  // IF filter
-
-    ADF7021_REG13 = 0x0000033D;
-
-    ADF7021_REG2 = (uint32_t)0b10         << 28;  // invert data
-    ADF7021_REG2 |= (uint32_t)24U         << 19;  // deviation
-    ADF7021_REG2 |= (uint32_t)0b111       << 4;   // modulation (4FSK)
+    ADF7021_REG4  = (uint32_t) 0b0100                    << 0;   // register 4
+    ADF7021_REG4 |= (uint32_t) 0b011                     << 4;   // mode, 4FSK
+    ADF7021_REG4 |= (uint32_t) 0b0                       << 7;
+    ADF7021_REG4 |= (uint32_t) 0b11                      << 8;
+    ADF7021_REG4 |= (uint32_t) ADF7021_DISC_BW_DMR       << 10;  // Disc BW
+    ADF7021_REG4 |= (uint32_t) ADF7021_POST_BW_DMR       << 20;  // Post dem BW
+    ADF7021_REG4 |= (uint32_t) 0b10                      << 30;  // IF filter
+
+    ADF7021_REG13 = (uint32_t) 0b1101                    << 0;   // register 13
+    ADF7021_REG13 |= (uint32_t) ADF7021_SLICER_TH_DMR    << 4;   // slicer threshold
+
+    ADF7021_REG2 = (uint32_t) 0b10                       << 28;  // invert data
+    ADF7021_REG2 |= (uint32_t) ADF7021_DEV_DMR           << 19;  // deviation
+    ADF7021_REG2 |= (uint32_t) 0b111                     << 4;   // modulation (4FSK)
  }
  else if (m_ysfEnable) {
    // Dev: +1 symb 900 Hz, symb rate = 4800

-    ADF7021_REG3 = 0x2A4C80D3;
+    ADF7021_REG3 = ADF7021_REG3_YSF;

    // K=28
-    ADF7021_REG4  = (uint32_t)0b0100      << 0;   // register 4
-    ADF7021_REG4 |= (uint32_t)0b011       << 4;   // mode, 4FSK
-    ADF7021_REG4 |= (uint32_t)0b0         << 7;
-    ADF7021_REG4 |= (uint32_t)0b11        << 8;
-    ADF7021_REG4 |= (uint32_t)344U        << 10;  // Disc BW
-    ADF7021_REG4 |= (uint32_t)65U         << 20;  // Post dem BW
-    ADF7021_REG4 |= (uint32_t)0b10        << 30;  // IF filter
-
-    ADF7021_REG13 = 0x000003BD;
-
-    ADF7021_REG2 = (uint32_t)0b10         << 28;  // invert data
-    ADF7021_REG2 |= (uint32_t)32U         << 19;  // deviation
-    ADF7021_REG2 |= (uint32_t)0b111       << 4;   // modulation (4FSK)
+    ADF7021_REG4  = (uint32_t) 0b0100                    << 0;   // register 4
+    ADF7021_REG4 |= (uint32_t) 0b011                     << 4;   // mode, 4FSK
+    ADF7021_REG4 |= (uint32_t) 0b0                       << 7;
+    ADF7021_REG4 |= (uint32_t) 0b11                      << 8;
+    ADF7021_REG4 |= (uint32_t) ADF7021_DISC_BW_YSF       << 10;  // Disc BW
+    ADF7021_REG4 |= (uint32_t) ADF7021_POST_BW_YSF       << 20;  // Post dem BW
+    ADF7021_REG4 |= (uint32_t) 0b10                      << 30;  // IF filter
+
+    ADF7021_REG13 = (uint32_t) 0b1101                    << 0;   // register 13
+    ADF7021_REG13 |= (uint32_t) ADF7021_SLICER_TH_YSF    << 4;   // slicer threshold
+
+    ADF7021_REG2 = (uint32_t) 0b10                       << 28;  // invert data
+    ADF7021_REG2 |= (uint32_t) ADF7021_DEV_YSF           << 19;  // deviation
+    ADF7021_REG2 |= (uint32_t) 0b111                     << 4;   // modulation (4FSK)
  }
  else if (m_p25Enable) {
    // Dev: +1 symb 600 Hz, symb rate = 4800

-    ADF7021_REG3 = 0x2A4C80D3;
+    ADF7021_REG3 = ADF7021_REG3_P25;

    // K=32
-    ADF7021_REG4  = (uint32_t)0b0100      << 0;   // register 4
-    ADF7021_REG4 |= (uint32_t)0b011       << 4;   // mode, 4FSK
-    ADF7021_REG4 |= (uint32_t)0b0         << 7;
-    ADF7021_REG4 |= (uint32_t)0b11        << 8;
-    ADF7021_REG4 |= (uint32_t)393U        << 10;  // Disc BW
-    ADF7021_REG4 |= (uint32_t)65U         << 20;  // Post dem BW
-    ADF7021_REG4 |= (uint32_t)0b10        << 30;  // IF filter
-
-    ADF7021_REG13 = 0x000002DD;
-
-    ADF7021_REG2 = (uint32_t)0b10         << 28;  // invert data
-    ADF7021_REG2 |= (uint32_t)22U         << 19;  // deviation
-    ADF7021_REG2 |= (uint32_t)0b111       << 4;   // modulation (4FSK)
+    ADF7021_REG4  = (uint32_t) 0b0100                    << 0;   // register 4
+    ADF7021_REG4 |= (uint32_t) 0b011                     << 4;   // mode, 4FSK
+    ADF7021_REG4 |= (uint32_t) 0b0                       << 7;
+    ADF7021_REG4 |= (uint32_t) 0b11                      << 8;
+    ADF7021_REG4 |= (uint32_t) ADF7021_DISC_BW_P25       << 10;  // Disc BW
+    ADF7021_REG4 |= (uint32_t) ADF7021_POST_BW_P25       << 20;  // Post dem BW
+    ADF7021_REG4 |= (uint32_t) 0b10                      << 30;  // IF filter
+
+    ADF7021_REG13 = (uint32_t) 0b1101                    << 0;   // register 13
+    ADF7021_REG13 |= (uint32_t) ADF7021_SLICER_TH_P25    << 4;   // slicer threshold
+
+    ADF7021_REG2 = (uint32_t) 0b10                       << 28;  // invert data
+    ADF7021_REG2 |= (uint32_t) ADF7021_DEV_P25           << 19;  // deviation
+    ADF7021_REG2 |= (uint32_t) 0b111                     << 4;   // modulation (4FSK)
  }

  // VCO/OSCILLATOR (REG1)
  if( (m_frequency_tx >= VHF_MIN) && (m_frequency_tx < VHF_MAX) )
-    AD7021_control_byte = 0x021F5041;             // VHF, external VCO
+    AD7021_control_byte = ADF7021_REG1_VHF;         // VHF, external VCO
  else if( (m_frequency_tx >= UHF_MIN)&&(m_frequency_tx < UHF_MAX) )
-    AD7021_control_byte = 0x00575041;             // UHF, internal VCO
+    AD7021_control_byte = ADF7021_REG1_UHF;         // UHF, internal VCO

  Send_AD7021_control();

@ -192,13 +205,13 @@ void CIO::ifConf()
  Send_AD7021_control();

  // IF FILTER (5)
-  AD7021_control_byte = 0x000024F5;
+  AD7021_control_byte = ADF7021_REG5;
  Send_AD7021_control();

  // MODULATION (2)
-  ADF7021_REG2 |= (uint32_t)0b0010;               // register 2
-  ADF7021_REG2 |= (uint32_t)m_power       << 13;  // power level
-  ADF7021_REG2 |= (uint32_t)0b110001      << 7;   // PA  
+  ADF7021_REG2 |= (uint32_t) 0b0010;               // register 2
+  ADF7021_REG2 |= (uint32_t) m_power       << 13;  // power level
+  ADF7021_REG2 |= (uint32_t) 0b110001      << 7;   // PA  
  AD7021_control_byte = ADF7021_REG2;
  Send_AD7021_control();
 
@ -207,15 +220,15 @@ void CIO::ifConf()
  Send_AD7021_control();

  // IF FINE CAL (fine cal, defaults) (6)
-  AD7021_control_byte = 0x05080B16;
+  AD7021_control_byte = ADF7021_REG6;
  Send_AD7021_control();

  // AGC (auto, defaults) (9)
-  AD7021_control_byte = 0x000231E9;     // auto
+  AD7021_control_byte = 0x000231E9;
  Send_AD7021_control();

  // AFC (off, defaults) (10)
-  AD7021_control_byte = 0x3296472A;     // off
+  AD7021_control_byte = ADF7021_REG10;
  Send_AD7021_control();

  // SYNC WORD DET (11)
--- a/ADF7021.h
+++ b/ADF7021.h
@ -25,9 +25,111 @@

 #include "Config.h"

-#if defined(ADF7021)
+#if defined(ENABLE_ADF7021)

-#define ADF7021_PFD 3686400.0
+/*
+- Most of the registers values are obteined from ADI eval software:
+http://www.analog.com/en/products/rf-microwave/integrated-transceivers-transmitters-receivers/low-power-rf-transceivers/adf7021.html
+- or ADF7021 datasheet formulas:
+www.analog.com/media/en/technical-documentation/data-sheets/ADF7021.pdf
+*/
+
+#define ADF7021_REG1_VHF         0x021F5041
+#define ADF7021_REG1_UHF         0x00575041
+
+/****** Support for 14.7456 MHz TCXO (modified RF7021SE boards) ******/
+#if defined(ADF7021_14_7456)
+
+// R = 4
+#define ADF7021_PFD              3686400.0
+
+// Deviation of modulator (REG 02)
+#define ADF7021_DEV_DSTAR        42U
+#define ADF7021_DEV_DMR          24U
+#define ADF7021_DEV_YSF          32U
+#define ADF7021_DEV_P25          22U
+
+// TX/RX CLOCK register (REG 03)
+#define ADF7021_REG3_DSTAR       0x2A4C4193
+#define ADF7021_REG3_DMR         0x2A4C80D3
+#define ADF7021_REG3_YSF         0x2A4C80D3
+#define ADF7021_REG3_P25         0x2A4C80D3
+
+// Discriminator bandwith, demodulator (REG 04)
+// Bug in ADI evaluation software, use datasheet formula (4FSK)
+#define ADF7021_DISC_BW_DSTAR    522U // K=85
+#define ADF7021_DISC_BW_DMR      393U // K=32
+#define ADF7021_DISC_BW_YSF      344U // K=28
+#define ADF7021_DISC_BW_P25      393U // K=32
+
+// Post demodulator bandwith (REG 04)
+#define ADF7021_POST_BW_DSTAR    10U
+#define ADF7021_POST_BW_DMR      65U
+#define ADF7021_POST_BW_YSF      65U
+#define ADF7021_POST_BW_P25      65U
+
+// IF filter (REG 05)
+#define ADF7021_REG5             0x000024F5
+
+// IF CAL (fine cal, defaults) (REG 06)
+#define ADF7021_REG6             0x05080B16
+
+// AFC (off, defaults) (REG 10)
+#define ADF7021_REG10            0x3296472A
+
+// Slicer threshold for 4FSK demodulator (REG 13)
+#define ADF7021_SLICER_TH_DSTAR  00U
+#define ADF7021_SLICER_TH_DMR    51U
+#define ADF7021_SLICER_TH_YSF    59U
+#define ADF7021_SLICER_TH_P25    45U
+
+/****** Support for 19.6800 MHz TCXO (original RF7021SE boards) ******/
+#elif defined(ADF7021_19_6800)
+
+// R = 4
+#define ADF7021_PFD              4920000.0
+
+// Deviation of modulator (REG 02)
+#define ADF7021_DEV_DSTAR        32U
+#define ADF7021_DEV_DMR          17U
+#define ADF7021_DEV_YSF          24U
+#define ADF7021_DEV_P25          16U
+
+// TX/RX CLOCK register (REG 03)
+#define ADF7021_REG3_DSTAR       0x2B1449E3
+#define ADF7021_REG3_DMR         0x2B148123
+#define ADF7021_REG3_YSF         0x2B148123
+#define ADF7021_REG3_P25         0x2B148123
+
+// Discriminator bandwith, demodulator (REG 04)
+// Bug in ADI evaluation software, use datasheet formula (4FSK)
+#define ADF7021_DISC_BW_DSTAR    583U // K=83
+#define ADF7021_DISC_BW_DMR      397U // K=32
+#define ADF7021_DISC_BW_YSF      347U // K=28
+#define ADF7021_DISC_BW_P25      397U // K=32
+
+// Post demodulator bandwith (REG 04)
+#define ADF7021_POST_BW_DSTAR    09U
+#define ADF7021_POST_BW_DMR      65U
+#define ADF7021_POST_BW_YSF      65U
+#define ADF7021_POST_BW_P25      65U
+
+// IF filter (REG 05)
+#define ADF7021_REG5             0x00003155
+
+// IF CAL (coarse cal, defaults) (REG 06)
+#define ADF7021_REG6             0x050972C6
+
+// AFC (off, defaults) (REG 10)
+#define ADF7021_REG10            0x3296354A
+
+// Slicer threshold for 4FSK demodulator (REG 13)
+#define ADF7021_SLICER_TH_DSTAR  00U
+#define ADF7021_SLICER_TH_DMR    51U
+#define ADF7021_SLICER_TH_YSF    59U
+#define ADF7021_SLICER_TH_P25    45U
+
+#endif

 #define bitRead(value, bit) (((value) >> (bit)) & 0x01)

--- a/Config.h
+++ b/Config.h
@ -20,13 +20,17 @@
 #define  CONFIG_H

 // Enable ADF7021 support:
-#define  ADF7021
+#define ENABLE_ADF7021
+
+// TCXO of the ADF7021:
+#define ADF7021_14_7456
+// #define ADF7021_19_6800

 // Host communication selection:
 //#define STM32_USART1_HOST
 #define STM32_USB_HOST

 // Enable Nextion LCD serial port repeater:
-#define SERIAL_REPEATER
+//#define SERIAL_REPEATER

 #endif
--- a/IO.cpp
+++ b/IO.cpp
@ -103,11 +103,11 @@ void CIO::interrupt()

 void CIO::start()
 { 
+  ifConf();
+  
  if (m_started)
    return;
  
-  ifConf();
-  
  delay_rx();
  setRX();