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nanovna.h
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nanovna.h
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/*
* Copyright (c) 2019-2020, Dmitry (DiSlord) [email protected]
* Based on TAKAHASHI Tomohiro (TTRFTECH) [email protected]
* All rights reserved.
*
* This is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3, or (at your option)
* any later version.
*
* The software is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Radio; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#pragma once
#include "ch.h"
// Define LCD display driver and size
#if defined(NANOVNA_F303)
#define LCD_DRIVER_ST7796S
#define LCD_480x320
#else
#define LCD_DRIVER_ILI9341
#define LCD_320x240
#endif
// Enable DMA mode for send data to LCD (Need enable HAL_USE_SPI in halconf.h)
#define __USE_DISPLAY_DMA__
// LCD or hardware allow change brightness, add menu item for this
#if defined(NANOVNA_F303)
#define __LCD_BRIGHTNESS__
#else
//#define __LCD_BRIGHTNESS__
#endif
// Use DAC (in H4 used for brightness used DAC, so need enable __LCD_BRIGHTNESS__ for it)
//#define __VNA_ENABLE_DAC__
// Allow enter to DFU from menu or command
#define __DFU_SOFTWARE_MODE__
// Add RTC clock support
#define __USE_RTC__
// Add RTC backup registers support
#define __USE_BACKUP__
// Add SD card support, req enable RTC (additional settings for file system see FatFS lib ffconf.h)
#define __USE_SD_CARD__
// Use unique serial string for USB
#define __USB_UID__
// If enabled serial in halconf.h, possible enable serial console control
#define __USE_SERIAL_CONSOLE__
// Add show y grid line values option
#define __USE_GRID_VALUES__
// Add remote desktop option
#define __REMOTE_DESKTOP__
// Add RLE8 compression capture image format
#define __CAPTURE_RLE8__
// Allow flip display
#define __FLIP_DISPLAY__
// Add shadow on text in plot area (improve readable, but little slowdown render)
#define _USE_SHADOW_TEXT_
// Faster draw line in cell algorithm (better clipping and faster)
// #define __VNA_FAST_LINES__
// Use build in table for sin/cos calculation, allow save a lot of flash space (this table also use for FFT), max sin/cos error = 4e-7
#define __VNA_USE_MATH_TABLES__
// Use custom fast/compact approximation for some math functions in calculations (vna_ ...), use it carefully
#define __USE_VNA_MATH__
// Use cache for window function used by FFT (but need FFT_SIZE*sizeof(float) RAM)
//#define USE_FFT_WINDOW_BUFFER
// Enable data smooth option
#define __USE_SMOOTH__
// Enable optional change digit separator for locales (dot or comma, need for correct work some external software)
#define __DIGIT_SEPARATOR__
// Use table for frequency list (if disabled use real time calc)
//#define __USE_FREQ_TABLE__
// Enable DSP instruction (support only by Cortex M4 and higher)
#ifdef ARM_MATH_CM4
#define __USE_DSP__
#endif
// Add measure module option (allow made some measure calculations on data)
#define __VNA_MEASURE_MODULE__
// Add Z normalization feature
//#define __VNA_Z_RENORMALIZATION__
/*
* Submodules defines
*/
// If SD card enabled
#ifdef __USE_SD_CARD__
// Allow run commands from SD card (config.ini in root)
#define __SD_CARD_LOAD__
// Allow screenshots in TIFF format
#define __SD_CARD_DUMP_TIFF__
// Allow dump firmware to SD card
#define __SD_CARD_DUMP_FIRMWARE__
// Enable SD card file browser, and allow load files from it
#define __SD_FILE_BROWSER__
#endif
// If measure module enabled, add submodules
#ifdef __VNA_MEASURE_MODULE__
// Add LC match function
#define __USE_LC_MATCHING__
// Enable Series measure option
#define __S21_MEASURE__
// Enable S11 cable measure option
#define __S11_CABLE_MEASURE__
// Enable S11 resonance search option
#define __S11_RESONANCE_MEASURE__
#endif
/*
* Hardware depends options for VNA
*/
#if defined(NANOVNA_F303)
// Define ADC sample rate in kilobyte (can be 48k, 96k, 192k, 384k)
//#define AUDIO_ADC_FREQ_K 768
//#define AUDIO_ADC_FREQ_K 384
#define AUDIO_ADC_FREQ_K 192
//#define AUDIO_ADC_FREQ_K 96
//#define AUDIO_ADC_FREQ_K 48
// Define sample count for one step measure
#define AUDIO_SAMPLES_COUNT (48)
//#define AUDIO_SAMPLES_COUNT (96)
//#define AUDIO_SAMPLES_COUNT (192)
// Frequency offset, depend from AUDIO_ADC_FREQ settings (need aligned table)
// Use real time build table (undef for use constant, see comments)
// Constant tables build only for AUDIO_SAMPLES_COUNT = 48
#define USE_VARIABLE_OFFSET
// Maximum sweep point count (limit by flash and RAM size)
#define SWEEP_POINTS_MAX 401
#define AUDIO_ADC_FREQ_K1 384
#else
//#define AUDIO_ADC_FREQ_K 768
//#define AUDIO_ADC_FREQ_K 384
#define AUDIO_ADC_FREQ_K 192
//#define AUDIO_ADC_FREQ_K 96
//#define AUDIO_ADC_FREQ_K 48
// Define sample count for one step measure
#define AUDIO_SAMPLES_COUNT (48)
//#define AUDIO_SAMPLES_COUNT (96)
//#define AUDIO_SAMPLES_COUNT (192)
// Frequency offset, depend from AUDIO_ADC_FREQ settings (need aligned table)
// Use real time build table (undef for use constant, see comments)
// Constant tables build only for AUDIO_SAMPLES_COUNT = 48
#define USE_VARIABLE_OFFSET
// Maximum sweep point count (limit by flash and RAM size)
#define SWEEP_POINTS_MAX 101
#endif
// Minimum sweep point count
#define SWEEP_POINTS_MIN 21
// Dirty hack for H4 ADC speed in version screen (Need for correct work NanoVNA-App)
#ifndef AUDIO_ADC_FREQ_K1
#define AUDIO_ADC_FREQ_K1 AUDIO_ADC_FREQ_K
#endif
/*
* main.c
*/
// Minimum frequency set
#define FREQUENCY_MIN 800
// Maximum frequency set
#define FREQUENCY_MAX 2700000000U
// Frequency threshold (max frequency for si5351, harmonic mode after)
#define FREQUENCY_THRESHOLD 300000100U
// XTAL frequency on si5351
#define XTALFREQ 26000000U
// Define i2c bus speed, add predefined for 400k, 600k, 900k
#define STM32_I2C_SPEED 900
// Define default src impedance for xtal calculations
#define MEASURE_DEFAULT_R 50.0f
// Add IF select menu in expert settings
#ifdef USE_VARIABLE_OFFSET
#define USE_VARIABLE_OFFSET_MENU
#endif
#if AUDIO_ADC_FREQ_K == 768
#define FREQUENCY_OFFSET_STEP 16000
// For 768k ADC (16k step for 48 samples)
#define FREQUENCY_IF_K 8 // only 96 samples and variable table
//#define FREQUENCY_IF_K 12 // only 192 samples and variable table
//#define FREQUENCY_IF_K 16
//#define FREQUENCY_IF_K 32
//#define FREQUENCY_IF_K 48
//#define FREQUENCY_IF_K 64
#elif AUDIO_ADC_FREQ_K == 384
#define FREQUENCY_OFFSET_STEP 4000
// For 384k ADC (8k step for 48 samples)
//#define FREQUENCY_IF_K 8
#define FREQUENCY_IF_K 12 // only 96 samples and variable table
//#define FREQUENCY_IF_K 16
//#define FREQUENCY_IF_K 20 // only 96 samples and variable table
//#define FREQUENCY_IF_K 24
//#define FREQUENCY_IF_K 32
#elif AUDIO_ADC_FREQ_K == 192
#define FREQUENCY_OFFSET_STEP 4000
// For 192k ADC (sin_cos table in dsp.c generated for 8k, 12k, 16k, 20k, 24k if change need create new table )
//#define FREQUENCY_IF_K 8
#define FREQUENCY_IF_K 12
//#define FREQUENCY_IF_K 16
//#define FREQUENCY_IF_K 20
//#define FREQUENCY_IF_K 24
//#define FREQUENCY_IF_K 28
#elif AUDIO_ADC_FREQ_K == 96
#define FREQUENCY_OFFSET_STEP 2000
// For 96k ADC (sin_cos table in dsp.c generated for 6k, 8k, 10k, 12k if change need create new table )
//#define FREQUENCY_IF_K 6
//#define FREQUENCY_IF_K 8
//#define FREQUENCY_IF_K 10
#define FREQUENCY_IF_K 12
#elif AUDIO_ADC_FREQ_K == 48
#define FREQUENCY_OFFSET_STEP 1000
// For 48k ADC (sin_cos table in dsp.c generated for 3k, 4k, 5k, 6k, if change need create new table )
//#define FREQUENCY_IF_K 3
//#define FREQUENCY_IF_K 4
//#define FREQUENCY_IF_K 5
#define FREQUENCY_IF_K 6
//#define FREQUENCY_IF_K 7
#endif
/*
* CPU Hardware depend functions declaration
*/
#include "hardware.h"
#define AUDIO_ADC_FREQ (AUDIO_ADC_FREQ_K*1000)
#define FREQUENCY_OFFSET (FREQUENCY_IF_K*1000)
// Apply calibration after made sweep, (if set 1, then calibration move out from sweep cycle)
#define APPLY_CALIBRATION_AFTER_SWEEP 0
// Speed of light const
#define SPEED_OF_LIGHT 299792458
// pi const
#define VNA_PI 3.14159265358979323846f
#define VNA_TWOPI 6.28318530717958647692f
// Define frequency range (can be unsigned)
typedef uint32_t freq_t;
// Optional sweep point (in UI menu)
#if SWEEP_POINTS_MAX >=401
#define POINTS_SET_COUNT 5
#define POINTS_SET {51, 101, 201, 301, SWEEP_POINTS_MAX}
#define POINTS_COUNT_DEFAULT SWEEP_POINTS_MAX
#elif SWEEP_POINTS_MAX >=301
#define POINTS_SET_COUNT 4
#define POINTS_SET {51, 101, 201, SWEEP_POINTS_MAX}
#define POINTS_COUNT_DEFAULT SWEEP_POINTS_MAX
#elif SWEEP_POINTS_MAX >=201
#define POINTS_SET_COUNT 3
#define POINTS_SET {51, 101, SWEEP_POINTS_MAX}
#define POINTS_COUNT_DEFAULT SWEEP_POINTS_MAX
#elif SWEEP_POINTS_MAX >=101
#define POINTS_SET_COUNT 2
#define POINTS_SET {51, SWEEP_POINTS_MAX}
#define POINTS_COUNT_DEFAULT SWEEP_POINTS_MAX
#endif
extern float measured[2][SWEEP_POINTS_MAX][2];
#define CAL_TYPE_COUNT 5
#define CAL_LOAD 0
#define CAL_OPEN 1
#define CAL_SHORT 2
#define CAL_THRU 3
#define CAL_ISOLN 4
#define CALSTAT_LOAD (1<<0)
#define CALSTAT_OPEN (1<<1)
#define CALSTAT_SHORT (1<<2)
#define CALSTAT_THRU (1<<3)
#define CALSTAT_ISOLN (1<<4)
#define CALSTAT_ES (1<<5)
#define CALSTAT_ER (1<<6)
#define CALSTAT_ET (1<<7)
#define CALSTAT_ED CALSTAT_LOAD
#define CALSTAT_EX CALSTAT_ISOLN
#define CALSTAT_APPLY (1<<8)
#define CALSTAT_INTERPOLATED (1<<9)
#define CALSTAT_ENHANCED_RESPONSE (1<<10)
#define ETERM_ED 0 /* error term directivity */
#define ETERM_ES 1 /* error term source match */
#define ETERM_ER 2 /* error term refrection tracking */
#define ETERM_ET 3 /* error term transmission tracking */
#define ETERM_EX 4 /* error term isolation */
#if SWEEP_POINTS_MAX <= 256
#define FFT_SIZE 256
#elif SWEEP_POINTS_MAX <= 512
#define FFT_SIZE 512
#endif
void cal_collect(uint16_t type);
void cal_done(void);
#define MAX_FREQ_TYPE 5
enum stimulus_type {
ST_START=0, ST_STOP, ST_CENTER, ST_CW, ST_SPAN, ST_STEP, ST_VAR
};
freq_t getFrequency(uint16_t idx);
freq_t getFrequencyStep(void);
void set_marker_index(int m, int idx);
freq_t get_marker_frequency(int marker);
void reset_sweep_frequency(void);
void set_sweep_frequency(uint16_t type, freq_t frequency);
void set_bandwidth(uint16_t bw_count);
uint32_t get_bandwidth_frequency(uint16_t bw_freq);
void set_power(uint8_t value);
void set_smooth_factor(uint8_t factor);
uint8_t get_smooth_factor(void);
int32_t my_atoi(const char *p);
uint32_t my_atoui(const char *p);
float my_atof(const char *p);
bool strcmpi(const char *t1, const char *t2);
int get_str_index(const char *v, const char *list);
int parse_line(char *line, char* args[], int max_cnt);
void swap_bytes(uint16_t *buf, int size);
int packbits(char *source, char *dest, int size);
void pause_sweep(void);
void toggle_sweep(void);
int load_properties(uint32_t id);
#ifdef __USE_BACKUP__
void update_backup_data(void);
#endif
void set_sweep_points(uint16_t points);
bool sd_card_load_config(void);
void VNAShell_executeCMDLine(char *line);
#ifdef __REMOTE_DESKTOP__
// State flags for remote touch state
#define REMOTE_NONE 0
#define REMOTE_PRESS 1
#define REMOTE_RELEASE 2
typedef struct {
char new_str[6];
int16_t x;
int16_t y;
int16_t w;
int16_t h;
} remote_region_t;
void remote_touch_set(uint16_t state, int16_t x, int16_t y);
void send_region(remote_region_t *rd, uint8_t * buf, uint16_t size);
#endif
#define SWEEP_ENABLE 0x01
#define SWEEP_ONCE 0x02
#define SWEEP_BINARY 0x08
#define SWEEP_REMOTE 0x40
#define SWEEP_UI_MODE 0x80
extern uint8_t sweep_mode;
extern const char *info_about[];
/*
* Measure timings for si5351 generator, after ready
*/
// Enable si5351 timing command, used for debug align times
//#define ENABLE_SI5351_TIMINGS
#if defined(NANOVNA_F303)
// Generator ready delays, values in us
#define DELAY_BAND_1_2 US2ST( 100) // Delay for bands 1-2
#define DELAY_BAND_3_4 US2ST( 120) // Delay for bands 3-4
#define DELAY_BANDCHANGE US2ST(2000) // Band changes need set additional delay after reset PLL
#define DELAY_CHANNEL_CHANGE US2ST( 100) // Switch channel delay
#define DELAY_SWEEP_START US2ST(2000) // Delay at sweep start
// Delay after set new PLL values in ms, and send reset
#define DELAY_RESET_PLL_BEFORE 0 // 0 (0 for disabled)
#define DELAY_RESET_PLL_AFTER 4000 // 4000 (0 for disabled)
#else
// Generator ready delays, values in us
#define DELAY_BAND_1_2 US2ST( 100) // 0 Delay for bands 1-2
#define DELAY_BAND_3_4 US2ST( 140) // 1 Delay for bands 3-4
#define DELAY_BANDCHANGE US2ST( 800) // 2 Band changes need set additional delay after reset PLL
#define DELAY_CHANNEL_CHANGE US2ST( 100) // 3 Switch channel delay
#define DELAY_SWEEP_START US2ST( 100) // 4 Delay at sweep start
// Delay after before/after set new PLL values in ms
#define DELAY_RESET_PLL_BEFORE 0 // 5 0 (0 for disabled)
#define DELAY_RESET_PLL_AFTER 4000 // 6 4000 (0 for disabled)
#endif
/*
* dsp.c
*/
// Define aic3204 source clock frequency (on 8MHz used fractional multiplier, and possible little phase error)
#define AUDIO_CLOCK_REF (8000000U)
// Define aic3204 source clock frequency (on 12288000U used integer multiplier)
//#define AUDIO_CLOCK_REF (12288000U)
// Disable AIC PLL clock, use input as CODEC_CLKIN (not stable on some devices, on long work)
//#define AUDIO_CLOCK_REF (98304000U)
// Buffer contain left and right channel samples (need x2)
#define AUDIO_BUFFER_LEN (AUDIO_SAMPLES_COUNT*2)
// Bandwidth depend from AUDIO_SAMPLES_COUNT and audio ADC frequency
// for AUDIO_SAMPLES_COUNT = 48 and ADC = 48kHz one measure give 48000/48=1000Hz
// for AUDIO_SAMPLES_COUNT = 48 and ADC = 96kHz one measure give 96000/48=2000Hz
// for AUDIO_SAMPLES_COUNT = 48 and ADC = 192kHz one measure give 192000/48=4000Hz
// Define additional measure count for menus
#if AUDIO_ADC_FREQ/AUDIO_SAMPLES_COUNT == 16000
#define BANDWIDTH_8000 ( 1 - 1)
#define BANDWIDTH_4000 ( 2 - 1)
#define BANDWIDTH_1000 ( 8 - 1)
#define BANDWIDTH_333 ( 24 - 1)
#define BANDWIDTH_100 ( 80 - 1)
#define BANDWIDTH_30 (256 - 1)
#elif AUDIO_ADC_FREQ/AUDIO_SAMPLES_COUNT == 8000
#define BANDWIDTH_8000 ( 1 - 1)
#define BANDWIDTH_4000 ( 2 - 1)
#define BANDWIDTH_1000 ( 8 - 1)
#define BANDWIDTH_333 ( 24 - 1)
#define BANDWIDTH_100 ( 80 - 1)
#define BANDWIDTH_30 (256 - 1)
#elif AUDIO_ADC_FREQ/AUDIO_SAMPLES_COUNT == 4000
#define BANDWIDTH_4000 ( 1 - 1)
#define BANDWIDTH_2000 ( 2 - 1)
#define BANDWIDTH_1000 ( 4 - 1)
#define BANDWIDTH_333 ( 12 - 1)
#define BANDWIDTH_100 ( 40 - 1)
#define BANDWIDTH_30 (132 - 1)
#elif AUDIO_ADC_FREQ/AUDIO_SAMPLES_COUNT == 2000
#define BANDWIDTH_2000 ( 1 - 1)
#define BANDWIDTH_1000 ( 2 - 1)
#define BANDWIDTH_333 ( 6 - 1)
#define BANDWIDTH_100 ( 20 - 1)
#define BANDWIDTH_30 ( 66 - 1)
#define BANDWIDTH_10 (200 - 1)
#elif AUDIO_ADC_FREQ/AUDIO_SAMPLES_COUNT == 1000
#define BANDWIDTH_1000 ( 1 - 1)
#define BANDWIDTH_333 ( 3 - 1)
#define BANDWIDTH_100 ( 10 - 1)
#define BANDWIDTH_30 ( 33 - 1)
#define BANDWIDTH_10 (100 - 1)
#endif
typedef int16_t audio_sample_t;
void dsp_process(audio_sample_t *src, size_t len);
void reset_dsp_accumerator(void);
void calculate_gamma(float *gamma);
void fetch_amplitude(float *gamma);
void fetch_amplitude_ref(float *gamma);
void generate_DSP_Table(int offset);
/*
* tlv320aic3204.c
*/
void tlv320aic3204_init(void);
void tlv320aic3204_set_gain(uint8_t lgain, uint8_t rgain);
void tlv320aic3204_select(uint8_t channel);
void tlv320aic3204_write_reg(uint8_t page, uint8_t reg, uint8_t data);
/*
* vna_math.c
*/
#include "vna_math.h"
/*
* plot.c
*/
// LCD display size settings
#ifdef LCD_320x240 // 320x240 display plot definitions
#define LCD_WIDTH 320
#define LCD_HEIGHT 240
// Define maximum distance in pixel for pickup marker (can be bigger for big displays)
#define MARKER_PICKUP_DISTANCE 20
// Used marker image settings
#define _USE_MARKER_SET_ 1
// Used font settings
#define _USE_FONT_ 1
#define _USE_SMALL_FONT_ 0
// Plot area size settings
// Offset of plot area (size of additional info at left side)
#define OFFSETX 10
#define OFFSETY 0
// Grid count, must divide
//#define NGRIDY 10
#define NGRIDY 8
// Plot area WIDTH better be n*(POINTS_COUNT-1)
#define WIDTH 300
// Plot area HEIGHT = NGRIDY * GRIDY
#define HEIGHT 232
// GRIDX calculated depends from frequency span
// GRIDY depend from HEIGHT and NGRIDY, must be integer
#define GRIDY (HEIGHT / NGRIDY)
// Need for reference marker draw
#define CELLOFFSETX 5
#define AREA_WIDTH_NORMAL (CELLOFFSETX + WIDTH + 1 + 4)
#define AREA_HEIGHT_NORMAL ( HEIGHT + 1)
// Smith/polar chart
#define P_CENTER_X (CELLOFFSETX + WIDTH/2)
#define P_CENTER_Y (HEIGHT/2)
#define P_RADIUS (HEIGHT/2)
// Other settings (battery/calibration/frequency text position)
// Battery icon position
#define BATTERY_ICON_POSX 1
#define BATTERY_ICON_POSY 1
// Calibration text coordinates
#define CALIBRATION_INFO_POSX 0
#define CALIBRATION_INFO_POSY 100
#define FREQUENCIES_XPOS1 OFFSETX
#define FREQUENCIES_XPOS2 (LCD_WIDTH - 23 * sFONT_WIDTH)
#define FREQUENCIES_XPOS3 (LCD_WIDTH/2 + OFFSETX - 16 * sFONT_WIDTH / 2)
#define FREQUENCIES_YPOS (AREA_HEIGHT_NORMAL)
#endif // end 320x240 display plot definitions
#ifdef LCD_480x320 // 480x320 display definitions
#define LCD_WIDTH 480
#define LCD_HEIGHT 320
// Define maximum distance in pixel for pickup marker (can be bigger for big displays)
#define MARKER_PICKUP_DISTANCE 30
// Used marker image settings
#define _USE_MARKER_SET_ 2
// Used font settings
#define _USE_FONT_ 2
#define _USE_SMALL_FONT_ 2
// Plot area size settings
// Offset of plot area (size of additional info at left side)
#define OFFSETX 15
#define OFFSETY 0
// Grid count, must divide
//#define NGRIDY 10
#define NGRIDY 8
// Plot area WIDTH better be n*(POINTS_COUNT-1)
#define WIDTH 455
// Plot area HEIGHT = NGRIDY * GRIDY
#define HEIGHT 304
// GRIDX calculated depends from frequency span
// GRIDY depend from HEIGHT and NGRIDY, must be integer
#define GRIDY (HEIGHT / NGRIDY)
// Need for reference marker draw
#define CELLOFFSETX 5
#define AREA_WIDTH_NORMAL (CELLOFFSETX + WIDTH + 1 + 4)
#define AREA_HEIGHT_NORMAL ( HEIGHT + 1)
// Smith/polar chart
#define P_CENTER_X (CELLOFFSETX + WIDTH/2)
#define P_CENTER_Y (HEIGHT/2)
#define P_RADIUS (HEIGHT/2)
// Other settings (battery/calibration/frequency text position)
// Battery icon position
#define BATTERY_ICON_POSX 3
#define BATTERY_ICON_POSY 2
// Calibration text coordinates
#define CALIBRATION_INFO_POSX 0
#define CALIBRATION_INFO_POSY 100
#define FREQUENCIES_XPOS1 OFFSETX
#define FREQUENCIES_XPOS2 (LCD_WIDTH - 22 * sFONT_WIDTH)
#define FREQUENCIES_XPOS3 (LCD_WIDTH/2 + OFFSETX - 14 * sFONT_WIDTH / 2)
#define FREQUENCIES_YPOS (AREA_HEIGHT_NORMAL + 2)
#endif // end 480x320 display plot definitions
// UI size defines
// Text offset in menu
#define MENU_TEXT_OFFSET 6
#define MENU_ICON_OFFSET 4
// Scale / ref quick touch position
#define UI_SCALE_REF_X0 (OFFSETX - 5)
#define UI_SCALE_REF_X1 (OFFSETX + CELLOFFSETX + 10)
// Leveler Marker mode select
#define UI_MARKER_Y0 30
// Maximum menu buttons count
#define MENU_BUTTON_MAX 16
#define MENU_BUTTON_MIN 8
// Menu buttons y offset
#define MENU_BUTTON_Y_OFFSET 1
// Menu buttons size = 21 for icon and 10 chars
#define MENU_BUTTON_WIDTH (7 + 12 * FONT_WIDTH)
#define MENU_BUTTON_HEIGHT(n) (AREA_HEIGHT_NORMAL/(n))
#define MENU_BUTTON_BORDER 1
#define KEYBOARD_BUTTON_BORDER 1
#define BROWSER_BUTTON_BORDER 1
// Browser window settings
#define FILES_COLUMNS (LCD_WIDTH/160) // columns in browser
#define FILES_ROWS 10 // rows in browser
#define FILES_PER_PAGE (FILES_COLUMNS*FILES_ROWS) // FILES_ROWS * FILES_COLUMNS
#define FILE_BOTTOM_HEIGHT 20 // Height of bottom buttons (< > X)
#define FILE_BUTTON_HEIGHT ((LCD_HEIGHT - FILE_BOTTOM_HEIGHT)/FILES_ROWS) // Height of file buttons
// Define message box width
#define MESSAGE_BOX_WIDTH 180
// Height of numerical input field (at bottom)
#define NUM_INPUT_HEIGHT 32
// On screen keyboard button size
#if 1 // Full screen keyboard
#define KP_WIDTH (LCD_WIDTH / 4) // numeric keypad button width
#define KP_HEIGHT ((LCD_HEIGHT - NUM_INPUT_HEIGHT) / 4) // numeric keypad button height
#define KP_X_OFFSET 0 // numeric keypad X offset
#define KP_Y_OFFSET 0 // numeric keypad Y offset
#define KPF_WIDTH (LCD_WIDTH / 10) // text keypad button width
#define KPF_HEIGHT KPF_WIDTH // text keypad button height
#define KPF_X_OFFSET 0 // text keypad X offset
#define KPF_Y_OFFSET (LCD_HEIGHT - NUM_INPUT_HEIGHT - 4 * KPF_HEIGHT) // text keypad Y offset
#else // 64 pixel size keyboard
#define KP_WIDTH 64 // numeric keypad button width
#define KP_HEIGHT 64 // numeric keypad button height
#define KP_X_OFFSET (LCD_WIDTH-MENU_BUTTON_WIDTH-16-KP_WIDTH*4) // numeric keypad X offset
#define KP_Y_OFFSET 20 // numeric keypad Y offset
#define KPF_WIDTH (LCD_WIDTH / 10) // text keypad button width
#define KPF_HEIGHT KPF_WIDTH // text keypad button height
#define KPF_X_OFFSET 0 // text keypad X offset
#define KPF_Y_OFFSET (LCD_HEIGHT - NUM_INPUT_HEIGHT - 4 * KPF_HEIGHT) // text keypad Y offset
#endif
/*
* Font size defines
*/
#define FONT_SMALL 0
#define FONT_NORMAL 1
#if _USE_FONT_ == 0
extern const uint8_t x5x7_bits[];
#define FONT_START_CHAR 0x16
#define FONT_WIDTH 5
#define FONT_GET_HEIGHT 7
#define FONT_STR_HEIGHT 8
#define FONT_GET_DATA(ch) ( &x5x7_bits[(ch-FONT_START_CHAR)*FONT_GET_HEIGHT])
#define FONT_GET_WIDTH(ch) (8-(x5x7_bits[(ch-FONT_START_CHAR)*FONT_GET_HEIGHT]&0x7))
#elif _USE_FONT_ == 1
extern const uint8_t x6x10_bits[];
#define FONT_START_CHAR 0x16
#define FONT_WIDTH 6
#define FONT_GET_HEIGHT 10
#define FONT_STR_HEIGHT 11
#define FONT_GET_DATA(ch) ( &x6x10_bits[(ch-FONT_START_CHAR)*FONT_GET_HEIGHT])
#define FONT_GET_WIDTH(ch) (8-(x6x10_bits[(ch-FONT_START_CHAR)*FONT_GET_HEIGHT]&0x7))
#elif _USE_FONT_ == 2
extern const uint8_t x7x11b_bits[];
#define FONT_START_CHAR 0x16
#define FONT_WIDTH 7
#define FONT_GET_HEIGHT 11
#define FONT_STR_HEIGHT 11
#define FONT_GET_DATA(ch) ( &x7x11b_bits[(ch-FONT_START_CHAR)*FONT_GET_HEIGHT])
#define FONT_GET_WIDTH(ch) (8-(x7x11b_bits[(ch-FONT_START_CHAR)*FONT_GET_HEIGHT]&7))
#elif _USE_FONT_ == 3
extern const uint8_t x11x14_bits[];
#define FONT_START_CHAR 0x16
#define FONT_WIDTH 11
#define FONT_GET_HEIGHT 14
#define FONT_STR_HEIGHT 16
#define FONT_GET_DATA(ch) ( &x11x14_bits[(ch-FONT_START_CHAR)*2*FONT_GET_HEIGHT ])
#define FONT_GET_WIDTH(ch) (14-(x11x14_bits[(ch-FONT_START_CHAR)*2*FONT_GET_HEIGHT+1]&0x7))
#endif
#if _USE_SMALL_FONT_ == 0
extern const uint8_t x5x7_bits[];
#define sFONT_START_CHAR 0x16
#define sFONT_WIDTH 5
#define sFONT_GET_HEIGHT 7
#define sFONT_STR_HEIGHT 8
#define sFONT_GET_DATA(ch) ( &x5x7_bits[(ch-sFONT_START_CHAR)*sFONT_GET_HEIGHT])
#define sFONT_GET_WIDTH(ch) (8-(x5x7_bits[(ch-sFONT_START_CHAR)*sFONT_GET_HEIGHT]&0x7))
#elif _USE_SMALL_FONT_ == 1
extern const uint8_t x6x10_bits[];
#define sFONT_START_CHAR 0x16
#define sFONT_WIDTH 6
#define sFONT_GET_HEIGHT 10
#define sFONT_STR_HEIGHT 11
#define sFONT_GET_DATA(ch) ( &x6x10_bits[(ch-sFONT_START_CHAR)*sFONT_GET_HEIGHT])
#define sFONT_GET_WIDTH(ch) (8-(x6x10_bits[(ch-sFONT_START_CHAR)*sFONT_GET_HEIGHT]&0x7))
#elif _USE_SMALL_FONT_ == 2
extern const uint8_t x7x11b_bits[];
#define sFONT_START_CHAR 0x16
#define sFONT_WIDTH 7
#define sFONT_GET_HEIGHT 11
#define sFONT_STR_HEIGHT 11
#define sFONT_GET_DATA(ch) ( &x7x11b_bits[(ch-sFONT_START_CHAR)*sFONT_GET_HEIGHT])
#define sFONT_GET_WIDTH(ch) (8-(x7x11b_bits[(ch-sFONT_START_CHAR)*sFONT_GET_HEIGHT]&7))
#elif _USE_SMALL_FONT_ == 3
extern const uint8_t x11x14_bits[];
#define sFONT_START_CHAR 0x16
#define sFONT_WIDTH 11
#define sFONT_GET_HEIGHT 14
#define sFONT_STR_HEIGHT 16
#define sFONT_GET_DATA(ch) ( &x11x14_bits[(ch-sFONT_START_CHAR)*2*sFONT_GET_HEIGHT ])
#define sFONT_GET_WIDTH(ch) (14-(x11x14_bits[(ch-sFONT_START_CHAR)*2*sFONT_GET_HEIGHT+1]&0x7))
#endif
#if _USE_FONT_ != _USE_SMALL_FONT_
void lcd_set_font(int type);
#else
#define lcd_set_font(type) {}
#endif
extern const uint8_t numfont16x22[];
#define NUM_FONT_GET_WIDTH 16
#define NUM_FONT_GET_HEIGHT 22
#define NUM_FONT_GET_DATA(ch) (&numfont16x22[ch*2*NUM_FONT_GET_HEIGHT])
// Glyph names from numfont16x22.c
enum {
KP_0 = 0, KP_1, KP_2, KP_3, KP_4, KP_5, KP_6, KP_7, KP_8, KP_9,
KP_PERIOD,
KP_MINUS,
KP_BS,
KP_k, KP_M, KP_G,
KP_m, KP_u, KP_n, KP_p,
KP_X1, KP_ENTER, KP_PERCENT, // Enter values
#if 0
KP_INF,
KP_DB,
KP_PLUSMINUS,
KP_KEYPAD,
KP_SPACE,
KP_PLUS,
#endif
// Special uint8_t buttons
KP_EMPTY = 255 // Empty button
};
/*
* LC match text output settings
*/
#ifdef __VNA_MEASURE_MODULE__
// X and Y offset to L/C match text
#define STR_MEASURE_X (OFFSETX + 0)
// Better be aligned by cell (cell height = 32)
#define STR_MEASURE_Y (OFFSETY + 80)
// 1/3 Width of text (use 3 column for data)
#define STR_MEASURE_WIDTH (FONT_WIDTH * 10)
// String Height (need 2 + 0..4 string)
#define STR_MEASURE_HEIGHT (FONT_STR_HEIGHT + 1)
#endif
#ifdef __USE_GRID_VALUES__
#define GRID_X_TEXT (WIDTH - 5 * sFONT_WIDTH)
#endif
// Render control chars
#define R_BGCOLOR "\001" // hex 0x01 set background color
#define R_FGCOLOR "\002" // hex 0x02 set foreground color
#define R_TEXT_COLOR "\002\001" // set 1 color index as foreground
#define R_LINK_COLOR "\002\031" // set 25 color index as foreground
// Additional chars in fonts
#define S_ENTER "\026" // hex 0x16
#define S_DELTA "\027" // hex 0x17
#define S_SARROW "\030" // hex 0x18
#define S_INFINITY "\031" // hex 0x19
#define S_LARROW "\032" // hex 0x1A
#define S_RARROW "\033" // hex 0x1B
#define S_PI "\034" // hex 0x1C
#define S_MICRO '\035' // hex 0x1D
#define S_OHM "\036" // hex 0x1E
#define S_DEGREE "\037" // hex 0x1F
#define S_SIEMENS "S" //
#define S_dB "dB" //
#define S_Hz "Hz" //
#define S_FARAD "F" //
#define S_HENRY "H" //
#define S_SECOND "s" //
#define S_METRE "m" //
#define S_VOLT "V" //
#define S_AMPER "A" //
#define S_PPM "ppm" //
// Max palette indexes in config
#define MAX_PALETTE 32
// trace
#define MAX_TRACE_TYPE 30
enum trace_type {
TRC_LOGMAG=0, TRC_PHASE, TRC_DELAY, TRC_SMITH, TRC_POLAR, TRC_LINEAR, TRC_SWR, TRC_REAL, TRC_IMAG,
TRC_R, TRC_X, TRC_Z, TRC_ZPHASE,
TRC_G, TRC_B, TRC_Y, TRC_Rp, TRC_Xp,
TRC_sC, TRC_sL,
TRC_pC, TRC_pL,
TRC_Q,
TRC_Rser, TRC_Xser, TRC_Zser,
TRC_Rsh, TRC_Xsh, TRC_Zsh,
TRC_Qs21
};
// Mask for define rectangular plot
#define RECTANGULAR_GRID_MASK ((1<<TRC_LOGMAG)|(1<<TRC_PHASE)|(1<<TRC_DELAY)|(1<<TRC_LINEAR)|(1<<TRC_SWR)|(1<<TRC_REAL)|(1<<TRC_IMAG)\
|(1<<TRC_R)|(1<<TRC_X)|(1<<TRC_Z)|(1<<TRC_ZPHASE)\
|(1<<TRC_G)|(1<<TRC_B)|(1<<TRC_Y)|(1<<TRC_Rp)|(1<<TRC_Xp)\
|(1<<TRC_sC)|(1<<TRC_sL)\
|(1<<TRC_pC)|(1<<TRC_pL)\
|(1<<TRC_Q)\
|(1<<TRC_Rser)|(1<<TRC_Xser)|(1<<TRC_Zser)\
|(1<<TRC_Rsh)|(1<<TRC_Xsh)|(1<<TRC_Zsh)\
|(1<<TRC_Qs21))
// complex graph type (polar / smith / admit)
#define ROUND_GRID_MASK ((1<<TRC_POLAR)|(1<<TRC_SMITH))
// Scale / Amplitude input in nano/pico values graph type
#define NANO_TYPE_MASK ((1<<TRC_DELAY)|(1<<TRC_sC)|(1<<TRC_sL)|(1<<TRC_pC)|(1<<TRC_pL))
// Trace info description structure
typedef float (*get_value_cb_t)(int idx, const float *v); // get value callback
typedef struct trace_info {
const char *name; // Trace name
const char *format; // trace value printf format for marker output
const char *dformat; // delta value printf format
const char *symbol; // value symbol
float refpos; // default refpos
float scale_unit; // default scale
get_value_cb_t get_value_cb; // get value callback (can be NULL, in this case need add custom calculations)
} trace_info_t;
// Trace render options in plot.c
extern const trace_info_t trace_info_list[MAX_TRACE_TYPE];
// marker smith value format
enum {MS_LIN, MS_LOG, MS_REIM, MS_RX, MS_RLC, MS_GB, MS_GLC, MS_RpXp, MS_RpLC, MS_SHUNT_RX, MS_SHUNT_RLC, MS_SERIES_RX, MS_SERIES_RLC, MS_END};
#define ADMIT_MARKER_VALUE(v) ((1<<(v))&((1<<MS_GB)|(1<<MS_GLC)|(1<<MS_RpXp)|(1<<MS_RpLC)))
#define LC_MARKER_VALUE(v) ((1<<(v))&((1<<MS_RLC)|(1<<MS_GLC)|(1<<MS_RpLC)|(1<<MS_SHUNT_RLC)|(1<<MS_SERIES_RLC)))
#define S11_SMITH_VALUE(v) ((1<<(v))&((1<<MS_LIN)|(1<<MS_LOG)|(1<<MS_REIM)|(1<<MS_RX)|(1<<MS_RLC)|(1<<MS_GB)|(1<<MS_GLC)|(1<<MS_RpXp)|(1<<MS_RpLC)))
#define S21_SMITH_VALUE(v) ((1<<(v))&((1<<MS_LIN)|(1<<MS_LOG)|(1<<MS_REIM)|(1<<MS_SHUNT_RX)|(1<<MS_SHUNT_RLC)|(1<<MS_SERIES_RX)|(1<<MS_SERIES_RLC)))
typedef struct {
const char *name; // Trace name
const char *format; // trace value printf format for marker output
get_value_cb_t get_re_cb; // get real value callback
get_value_cb_t get_im_cb; // get imag value callback (can be NULL, in this case need add custom calculations)
} marker_info_t;
extern const marker_info_t marker_info_list[MS_END];
// lever_mode
enum {LM_MARKER, LM_SEARCH, LM_FREQ_0, LM_FREQ_1, LM_EDELAY};
#define MARKER_INVALID -1
#define TRACE_INVALID -1
// properties flags
#define DOMAIN_MODE (1<<0)
#define DOMAIN_FREQ (0<<0)
#define DOMAIN_TIME (1<<0)
// Time domain function
#define TD_FUNC (0b11<<1)
#define TD_FUNC_BANDPASS (0b00<<1)
#define TD_FUNC_LOWPASS_IMPULSE (0b01<<1)
#define TD_FUNC_LOWPASS_STEP (0b10<<1)
// Time domain window
#define TD_WINDOW (0b11<<3)
#define TD_WINDOW_NORMAL (0b00<<3)
#define TD_WINDOW_MINIMUM (0b01<<3)
#define TD_WINDOW_MAXIMUM (0b10<<3)
// Sweep mode
#define TD_START_STOP (0<<0)
#define TD_CENTER_SPAN (1<<6)
// Marker track
#define TD_MARKER_TRACK (1<<7)
// Marker delta
#define TD_MARKER_DELTA (1<<8)
// Marker delta
//#define TD_MARKER_LOCK (1<<9) // reserved
//
// config.vna_mode flags (16 bit field)
//
enum {
VNA_MODE_AUTO_NAME = 0,// Auto name for files
#ifdef __USE_SMOOTH__
VNA_MODE_SMOOTH, // Smooth function (0: Geom, 1: Arith)
#endif
#ifdef __USE_SERIAL_CONSOLE__
VNA_MODE_CONNECTION, // Connection flag (0: USB, 1: SERIAL)
#endif
VNA_MODE_SEARCH, // Marker search mode (0: max, 1: min)
VNA_MODE_SHOW_GRID, // Show grid values
VNA_MODE_DOT_GRID, // Dotted grid lines
#ifdef __USE_BACKUP__
VNA_MODE_BACKUP, // Made backup settings (save some settings after power off)
#endif
#ifdef __FLIP_DISPLAY__
VNA_MODE_FLIP_DISPLAY, // Flip display
#endif
#ifdef __DIGIT_SEPARATOR__
VNA_MODE_SEPARATOR, // Comma or dot digit separator (0: dot, 1: comma)
#endif
#ifdef __SD_CARD_DUMP_TIFF__
VNA_MODE_TIFF, // Save screenshot format (0: bmp, 1: tiff)
#endif
#ifdef __USB_UID__
VNA_MODE_USB_UID // Use unique serial string for USB
#endif
};
// Update config._vna_mode flags function
typedef enum {VNA_MODE_CLR = 0, VNA_MODE_SET, VNA_MODE_TOGGLE} vna_mode_ops;
void apply_VNA_mode(uint16_t idx, vna_mode_ops operation);
#ifdef __VNA_MEASURE_MODULE__
// Measure option mode
enum {
MEASURE_NONE = 0,
#ifdef __USE_LC_MATCHING__
MEASURE_LC_MATH,
#endif
#ifdef __S21_MEASURE__
MEASURE_SHUNT_LC,
MEASURE_SERIES_LC,
MEASURE_SERIES_XTAL,
MEASURE_FILTER,
#endif
#ifdef __S11_CABLE_MEASURE__
MEASURE_S11_CABLE,
#endif
#ifdef __S11_RESONANCE_MEASURE__
MEASURE_S11_RESONANCE,
#endif
MEASURE_END
};
#endif
#define STORED_TRACES 1
#define TRACES_MAX 4
#define TRACE_INDEX_COUNT (TRACES_MAX+STORED_TRACES)
typedef struct trace {
uint8_t enabled;
uint8_t type;
uint8_t channel;
uint8_t smith_format;
float scale;
float refpos;
} trace_t;
// marker 1 to 8
#define MARKERS_MAX 8
typedef struct marker {
uint8_t enabled;
uint8_t reserved;
uint16_t index;
freq_t frequency;
} marker_t;
typedef struct config {
uint32_t magic;
uint32_t _harmonic_freq_threshold;
int32_t _IF_freq;
int16_t _touch_cal[4];
uint16_t _vna_mode;
uint16_t _dac_value;
uint16_t _vbat_offset;
uint16_t _bandwidth;
uint8_t _lever_mode;
uint8_t _brightness;
uint16_t _lcd_palette[MAX_PALETTE];
uint32_t _serial_speed;
uint32_t _xtal_freq;
float _measure_r;