/* ************************************************************************ * * global configuration, setup and settings * * (c) 2012-2020 by Markus Reschke * based on code from Markus Frejek and Karl-Heinz K�bbeler * * ************************************************************************ */ /* source management */ #define CONFIG_H /* * For MCU specific settings (port and pin assignments) and display * settings please edit also: * - ATmega328: config_328.h * - ATmega324/644/1284: config_644.h * - ATmega640/1280/2560: config_1280.h */ /* ************************************************************************ * Hardware options * ************************************************************************ */ /* * rotary encoder for user interface * - default pins: PD2 & PD3 (ATmega 328) * - could be in parallel with LCD module * - see ENCODER_PORT in config-.h for port pins * - uncomment to enable and also set ENCODER_PULSES & ENCODER_STEPS below * to match your rotary encoder */ #define HW_ENCODER /* * Number of Gray code pulses per step or detent for the rotary encoder * - typical values: 2 or 4, rarely 1 * - a rotary encoder's pulse is the complete sequence of 4 Gray code pulses * - adjust value to match your rotary encoder */ #define ENCODER_PULSES 4 /* * Number of detents or steps * - this is used by the detection of the rotary encoder's turning velocity * - it doesn't have to match exactly and also allows you to finetune the * the feedback (higher: slow down, lower: speed up) * - typical values: 20, 24 or 30 * - adjust value to match your rotary encoder */ #define ENCODER_STEPS 20 /* * increase/decrease push buttons for user interface * - alternative for rotary encoder * - see KEY_PORT in config-.h for port pins * - uncomment to enable */ //#define HW_INCDEC_KEYS /* * 2.5V voltage reference for Vcc check * - default pin: PC4 (ATmega 328) * - should be at least 10 times more precise than the voltage regulator * - see TP_REF in config-.h for port pin * - uncomment to enable and also adjust UREF_25 below for your voltage * reference */ //#define HW_REF25 // Disabled because of MCP1702 /* * Typical voltage of 2.5V voltage reference (in mV) * - see datasheet of the voltage reference * - or use >= 5.5 digit DMM to measure the voltage */ #define UREF_25 2495 /* * Probe protection relay for discharging caps * - default pin: PC4 (ATmega 328) * - low signal: short circuit probe pins * high signal via external reference: remove short circuit * - see TP_REF in config_.h for port pin * - uncomment to enable */ //#define HW_DISCHARGE_RELAY /* * Zener check / voltage measurement up to 50V DC * - default pin: PC3 (ATmega 328) * - 10:1 voltage divider * - DC-DC boost converter controled by test push button * - see TP_ZENER in config_.h for port pin * - uncomment to enable */ #define HW_ZENER /* * alternative mode for Zener check: don't switch boost converter * - when the DC-DC boost converter runs all the time * - when measuring an external voltage (circuit without boost converter) * - uncomment to enable */ //#define ZENER_UNSWITCHED /* * high resolution for Zener check * - 10mV instead of 0.1V * - uncomment to enable */ #define ZENER_HIGH_RES /* * fixed signal output * - in case the MCU's OC1B pin is wired as dedicated signal output * instead of driving the Rl probe resistor for test pin #2 * - uncomment to enable */ //#define HW_FIXED_SIGNAL_OUTPUT /* * basic frequency counter * - default pin: T0 (PD4 ATmega 328) * - uses T0 directly as frequency input * - counts up to 1/4 of MCU clock rate * - might be in parallel with LCD module * - uncomment to enable */ #define HW_FREQ_COUNTER_BASIC /* * extended frequency counter * - low and high frequency crystal oscillators * and buffered frequency input * - prescalers 1:1 and 16:1 (32:1) * - uses T0 directly as frequency input * - see COUNTER_CTRL_PORT in config-.h for port pins * - requires a display with more than 2 text lines * - uncomment to enable * - select the circuit's prescaler setting: either 16:1 or 32:1 */ //#define HW_FREQ_COUNTER_EXT #define FREQ_COUNTER_PRESCALER 16 /* 16:1 */ //#define FREQ_COUNTER_PRESCALER 32 /* 32:1 */ /* * event counter * - default pin: T0 (PD4 ATmega 328) * - uses T0 directly as event/pulse input (rising edge) * - no shared operation with displays possible for T0 * - requires additional keys (e.g. rotary encoder) and a display with * more than 5 lines * - only for MCU clock of 8, 16 or 20MHz * - uncomment to enable */ //#define HW_EVENT_COUNTER /* * trigger output for event counter * - uses probe #2 as trigger output, probes #1 and #3 are Gnd * - sets trigger output to high while counting * - uncomment to enable */ //#define EVENT_COUNTER_TRIGGER_OUT /* * IR remote control detection/decoder (via dedicated MCU pin) * - requires IR receiver module, e.g. TSOP series * - module is connected to fixed I/O pin * - see IR_PORT in config-.h for port pin * - uncomment to enable * - for additional protocols also enable SW_IR_RX_EXTRA */ //#define HW_IR_RECEIVER /* * fixed cap for self-adjustment * - see TP_CAP and ADJUST_PORT in config-.h for port pins * - uncomment to enable */ //#define HW_ADJUST_CAP /* * L/C meter hardware option * - uses T0 directly as frequency input * - see LC_CTRL_PORT in config-.h for port pins * - uncomment to enable */ //#define HW_LC_METER /* * L/C meter: value of reference capacitor C_p (in 0.1 pF) * - should be around 1000pF */ #define LC_METER_C_REF 10000 /* * L/C meter: also display frequency of LC oscillator * - helps to spot the oscillator's frequency drifting * - requires display with more than two text lines * - uncomment to enable */ //#define LC_METER_SHOW_FREQ /* * relay for parallel cap (sampling ADC) * - uncomment to enable (not implemented yet) */ //#define HW_CAP_RELAY /* ************************************************************************ * software options * ************************************************************************ */ /* * PWM generator with simple user interface * - signal output via OC1B * - uncomment to enable */ #define SW_PWM_SIMPLE /* * PWM generator with fancy user interface * - signal output via OC1B * - requires additional keys and display with more than 2 text lines * - uncomment to enable */ //#define SW_PWM_PLUS /* * Inductance measurement * - uncomment to enable */ #define SW_INDUCTOR /* * ESR measurement * - requires MCU clock >= 8 MHz * - choose SW_OLD_ESR for old method starting at 180nF * - uncomment to enable */ #define SW_ESR //#define SW_OLD_ESR /* * ESR Tool (in-circuit ESR measurement) * - requires SW_ESR or SW_OLD_ESR to be enabled * - uncomment to enable */ //#define SW_ESR_TOOL /* * check for rotary encoders * - uncomment to enable */ //#define SW_ENCODER /* * squarewave signal generator * - signal output via OC1B * - requires additional keys * - uncomment to enable */ #define SW_SQUAREWAVE /* * IR remote control detection/decoder (via probes) * - requires IR receiver module, e.g. TSOP series * - module will be connected to probe leads * - uncomment to enable */ //#define SW_IR_RECEIVER // Disabled to be able to fit in memory /* * current limiting resistor for IR receiver module * - for 5V only modules * - Warning: any short circuit may destroy your MCU * - uncomment to disable resistor */ //#define SW_IR_DISABLE_RESISTOR /* * additional protocols for IR remote control detection/decoder * - uncommon protocols which will increase flash memory usage ;) * - uncomment to enable */ //#define SW_IR_RX_EXTRA /* * IR remote control sender * - signal output via OC1B * - requires additional keys and display with more than 4 text lines * - also requires an IR LED with a simple driver * - uncomment to enable */ //#define SW_IR_TRANSMITTER /* * Alternative delay loop for IR remote control sender * - in case the the C compiler screws up the default delay loop * and causes incorrect pulse/pause timings * - uncomment to enable */ //#define SW_IR_TX_ALTDELAY /* * additional protocols for IR remote control sender * - uncommon protocols which will increase flash memory usage ;) * - uncomment to enable */ //#define SW_IR_TX_EXTRA /* * check for opto couplers * - uncomment to enable */ #define SW_OPTO_COUPLER /* * check for Unijunction Transistor * - uncomment to enable */ #define SW_UJT /* * check for Schottky Transistor (Schottky-clamped BJT) * - uncomment to enable */ #define SW_SCHOTTKY_BJT /* * Servo Check * - signal output via OC1B * - requires additional keys and display with more than 2 text lines * - uncomment to enable */ //#define SW_SERVO /* * DS18B20 - OneWire temperature sensor * - uncomment to enable * - also enable ONEWIRE_PROBES or ONEWIRE_IO_PIN (see section 'Busses') */ //#define SW_DS18B20 /* * OneWire: read and display ROM code * - option for OneWire related tools * - requires display with more than 2 text lines * - uncomment to enable */ //#define ONEWIRE_READ_ROM /* * scan OneWire bus for devices and list their ROM codes * - requires display with more than 2 text lines * - uncomment to enable * - also enable ONEWIRE_PROBES or ONEWIRE_IO_PIN (see section 'Busses') */ //#define SW_ONEWIRE_SCAN /* * capacitor leakage check * - requires display with more than two lines * - uncomment to enable */ //#define SW_CAP_LEAKAGE /* * display reverse hFE for BJTs * - hFE for collector and emitter reversed * - uncomment to enable */ //#define SW_REVERSE_HFE /* * display I_C/I_E test current for hFE measurement * - I_C for common emitter circuit * I_E for common collector circuit * - uncomment to enable */ //#define SW_HFE_CURRENT /* * R/C/L monitors * - monitor passive components connected to probes #1 and #3 * - monitors for L require SW_INDUCTOR to be enabled * - for ESR either SW_ESR or SW_OLD_ESR needs to be enabled * - uncomment to enable (one or more) */ //#define SW_MONITOR_R /* just R */ //#define SW_MONITOR_C /* just C plus ESR */ //#define SW_MONITOR_L /* just L */ //#define SW_MONITOR_RCL /* R plus L, or C plus ESR */ //#define SW_MONITOR_RL /* R plus L */ /* * DHT11, DHT22 and compatible humidity & temperature sensors * - uncomment to enable */ //#define SW_DHTXX /* * display font for test purposes * - uncomment to enable */ //#define SW_FONT_TEST /* * check resistor for matching E series norm value * - requires a display with more than 2 text lines * - color-code mode requires a color graphics display * - uncomment to enable (one or more) */ //#define SW_R_E24_5_T /* E24 5% tolerance, text */ //#define SW_R_E24_5_CC /* E24 5% tolerance, color-code */ //#define SW_R_E24_1_T /* E24 1% tolerance, text */ //#define SW_R_E24_1_CC /* E24 1% tolerance, color-code */ //#define SW_R_E96_T /* E96 1% tolerance, text */ //#define SW_R_E96_CC /* E96 1% tolerance, color-code */ /* * check capacitor for matching E series norm value * - requires a display with more than 2 text lines * - uncomment to enable (one or more) */ //#define SW_C_E6_T /* E6 20% tolerance, text */ //#define SW_C_E12_T /* E12 10% tolerance, text */ /* * check inductor for matching E series norm value * - requires a display with more than 2 text lines * - uncomment to enable (one or more) */ //#define SW_L_E6_T /* E6 20% tolerance, text */ //#define SW_L_E12_T /* E12 10% tolerance, text */ /* ************************************************************************ * workarounds for some testers * ************************************************************************ */ /* * Disable hFE measurement with common collector circuit and Rl as * base resistor. * - problem: * hFE values are way too high. * - affected testers: * Hiland M644 (under investigation) * - uncomment to enable */ //#define NO_HFE_C_RL /* ************************************************************************ * workarounds for some IDEs * ************************************************************************ */ /* * Oscillator startup cycles (after wakeup from power-safe mode): * - typical values * - internal RC: 6 * - full swing crystal: 16384 (also 256 or 1024 based on fuse settings) * - low power crystal: 16384 (also 256 or 1024 based on fuse settings) * - Please change value if it doesn't match your tester! */ #ifndef OSC_STARTUP #define OSC_STARTUP 16384 #endif /* ************************************************************************ * user interface * ************************************************************************ */ /* * Language of user interface. Available languages: * - English (default) * - Czech (based on ISO 8859-1) * - Czech 2 (with Czech characters based on ISO 8859-2) * - Danish * - German * - Polish (based on ISO 8859-1) * - Polish 2 (with Polish characters based on ISO 8859-2) * - Spanish * - Romanian * - Russian (with cyrillic characters based on Windows-1251) * - Russian 2 (with cyrillic characters based on Windows-1251) */ #define UI_ENGLISH //#define UI_CZECH //#define UI_CZECH_2 //#define UI_DANISH //#define UI_GERMAN //#define UI_ITALIAN //#define UI_POLISH //#define UI_POLISH_2 //#define UI_ROMANIAN //#define UI_RUSSIAN //#define UI_RUSSIAN_2 //#define UI_SPANISH /* * Use comma instead of dot to indicate a decimal fraction. * - uncomment to enable */ //#define UI_COMMA /* * Display temperatures in Fahrenheit instead of Celsius. * - uncomment to enable */ //#define UI_FAHRENHEIT /* * Display hexadecimal values in uppercase instead of lowercase * - uncomment to enable */ //#define UI_HEX_UPPERCASE /* * Set the default operation mode to auto-hold. * - instead of continous mode * - uncomment to enable */ #define UI_AUTOHOLD /* * Trigger the menu also by a short circuit of all three probes. * - former default behaviour * - uncomment to enable */ //#define UI_SHORT_CIRCUIT_MENU /* * Show key hints instead of cursor if available. * - currently only "Menu/Test" * - requires additional keys and display with a sufficient number of * text lines (recommended: >= 8 lines) * - uncomment to enable */ //#define UI_KEY_HINTS /* * Enter menu to select adjustment profile after powering on. * - uncomment to enable */ //#define UI_CHOOSE_PROFILE /* * Output components found also via TTL serial interface. * - uncomment to enable * - also enable SERIAL_BITBANG or SERIAL_HARDWARE (see section 'Busses') */ //#define UI_SERIAL_COPY /* * Control tester via TTL serial interface. * - uncomment to enable * - also enable SERIAL_BITBANG or SERIAL_HARDWARE, plus SERIAL_RW * (see section 'Busses') */ //#define UI_SERIAL_COMMANDS /* * Maximum time to wait after probing (in ms). * - applies to continuous mode only * - Time between printing the result and starting a new probing cycle. */ #define CYCLE_DELAY 3000 /* * Maximum number of probing runs without any component found in a row. * - applies to continuous mode only * - If this number is reached the tester will power off. * - When set to zero the tester will run only once and turn off * after CYCLE_DELAY. * - When set to 255 this feature will be disabled and the tester runs * until it's powered off manually. */ #define CYCLE_MAX 5 /* * Automatic power-off when no button is pressed for a while (in s). * - applies to auto-hold mode only * - uncomment to enable, also adjust timeout (in s) */ #define POWER_OFF_TIMEOUT 60 /* * component symbols for fancy pinout * - for 3-pin semiconductors * - requires graphics display and symbol bitmap * - uncomment to enable */ #define SW_SYMBOLS /* * color coding for probes * - requires color graphics LCD * - uncomment to enable * - edit colors.h to select correct probe colors */ #define SW_PROBE_COLORS /* * main menu: power off tester * - uncomment to enable */ #define SW_POWER_OFF /* * Round some values if appropriate. * - for * - DS18B20 (0.1 �C/F) * - uncomment to enable */ //#define UI_ROUND_DS18B20 /* * storage of firmware data (texts, tables etc) * - self-adjustment data is always stored in EEPROM * - fonts and symbols are always stored in Flash * - uncomment one */ #define DATA_EEPROM /* store data in EEPROM */ //#define DATA_FLASH /* store data in Flash */ /* ************************************************************************ * power management * ************************************************************************ */ /* * type of power switch * - soft-latching power switch (default) * - as in the tester's reference circuit * - tester is able to power itself off * - manual power switch * - tester isn't able to power itself off * - enable one */ #define POWER_SWITCH_SOFT //#define POWER_SWITCH_MANUAL /* * Battery monitoring mode: * - BAT_NONE disable battery monitoring completely * - BAT_DIRECT direct measurement of battary voltage (< 5V) * - BAT_DIVIDER measurement via voltage divider * - uncomment one of the modes */ //#define BAT_NONE //#define BAT_DIRECT #define BAT_DIVIDER /* * Unmonitored optional external power supply * - Some circuits supporting an additional external power supply are designed * in a way that prevents the battery monitoring to measure the voltage of * the external power supply. This would trigger the low battery shut-down. * The switch below will prevent the shut-down when the measured voltage is * below 0.9V (caused by the diode's leakage current). * - uncomment to enable */ //#define BAT_EXT_UNMONITORED /* * Voltage divider for battery monitoring * - BAT_R1: top resistor in Ohms * - BAT_R2: bottom resistor in Ohms */ #define BAT_R1 10000 #define BAT_R2 3300 /* * Voltage drop by reverse voltage protection diode and power management * transistor (in mV): * - or any other circuitry in the power section * - Get your DMM and measure the voltage drop! * - Schottky diode about 200mV / PNP BJT about 100mV. */ #define BAT_OFFSET 290 /* * Battery weak voltage (in mV). * - Tester warns if BAT_WEAK is reached. * - Voltage drop BAT_OFFSET is considered in calculation. */ #define BAT_WEAK 7400 /* * Battery low voltage (in mV). * - Tester powers off if BAT_LOW is reached. * - Voltage drop BAT_OFFSET is considered in calculation. */ #define BAT_LOW 6400 /* * Enter sleep mode when idle to save power. * - uncomment to enable */ #define SAVE_POWER /* ************************************************************************ * measurement settings and offsets * ************************************************************************ */ /* * ADC voltage reference based on Vcc (in mV). */ #define UREF_VCC 5001 /* * Offset for the internal bandgap voltage reference (in mV): -100 up to 100 * - To compensate any difference between real value and measured value. * - The ADC has a resolution of about 4.88mV for V_ref = 5V (Vcc) and * 1.07mV for V_ref = 1.1V (bandgap). * - Will be added to measured voltage of bandgap reference. */ #define UREF_OFFSET 0 /* * Exact values of probe resistors. * - Standard value for Rl is 680 Ohms. * - Standard value for Rh is 470k Ohms. */ /* Rl in Ohms */ #define R_LOW 680 /* Rh in Ohms */ #define R_HIGH 470000 /* * Offset for systematic error of resistor measurement with Rh (470k) * in Ohms. * - if resistors >20k measure too high or low adjust the offset accordingly * - standard offset is 350 Ohms */ #define RH_OFFSET 350 /* * Resistance of probes (in 0.01 Ohms). * - default offset for PCB tracks and probe leads * - resistance of two probes in series * - assuming all probes have same/similar resistance * - will be updated by self-adjustment */ #define R_ZERO 20 /* * Use probe pair specific resistance offsets instead of an * average value for all probes. * - uncomment to enable */ //#define R_MULTIOFFSET /* * Capacitance of probes (in pF). * - default offset for MCU, PCB tracks and probe leads * - Examples: * capacitance length * ------------------------- * 3pF about 10cm * 9pF about 30cm * 15pF about 50cm * - maximum value: 100 * - will be updated by self-adjustment */ #define C_ZERO 43 /* * Use probe pair specific capacitance offsets instead of an * average value for all probes. * - uncomment to enable */ //#define CAP_MULTIOFFSET /* * Maximum voltage at which we consider a capacitor being * discharged (in mV). */ #define CAP_DISCHARGED 2 /* * Correction factors for capacitors (in 0.1%) * - positive factor increases capacitance value * negative factor decreases capacitance value * - CAP_FACTOR_SMALL for caps < 4.7�F * - CAP_FACTOR_MID for caps 4.7 - 47�F * - CAP_FACTOR_LARGE for caps > 47�F */ #define CAP_FACTOR_SMALL 0 /* no correction */ #define CAP_FACTOR_MID -40 /* -4.0% */ #define CAP_FACTOR_LARGE -90 /* -9.0% */ /* * Number of ADC samples to perform for each mesurement. * - Valid values are in the range of 1 - 255. */ #define ADC_SAMPLES 25 /* * 100nF AREF buffer capacitor * - used by some MCU boards * - will increase measurement time * - recommendation: replace with 1nF capacitor * - uncomment to enable */ //#define ADC_LARGE_BUFFER_CAP /* ************************************************************************ * R & D - meant for firmware developers * ************************************************************************ */ /* * Enable read functions for display module. * - display driver and interface settings have to support this * - uncomment to enable */ //#define LCD_READ /* * Read ID of display controller. * - ID is shown at welcome screen (after firmware version) * - requires display read functions (LCD_READ) * - recommended: serial output (UI_SERIAL_COPY) * - uncomment to enable */ //#define SW_DISPLAY_ID /* * Read registers of display controller and output them via TTL serial. * - requires display read functions (LCD_READ) and * serial output (UI_SERIAL_COPY) * - uncomment to enable */ //#define SW_DISPLAY_REG /* ************************************************************************ * MCU specific setup to support different AVRs * ************************************************************************ */ /* MCU clock */ #define CPU_FREQ F_CPU /* * ATmega 328/328P */ #if defined(__AVR_ATmega328__) #include "config_328.h" /* * ATmega 324P/324PA/644/644P/644PA/1284/1284P */ #elif defined(__AVR_ATmega324P__) || defined(__AVR_ATmega644__) || defined(__AVR_ATmega1284__) #include "config_644.h" /* * ATmega 640/1280/2560 */ #elif defined(__AVR_ATmega640__) || defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__) #include "config_1280.h" /* * missing or unsupported MCU */ #else #error <<< No or wrong MCU type selected! >>> #endif /* ************************************************************************ * Busses * ************************************************************************ */ /* * I2C bus * - might be required by some hardware * - could be enabled already in display section (config_.h) * - for bit-bang I2C port and pins see I2C_PORT (config_.h) * - hardware I2C (TWI) uses automatically the proper MCU pins * - uncomment either I2C_BITBANG or I2C_HARDWARE to enable * - uncomment one of the bus speed modes */ //#define I2C_BITBANG /* bit-bang I2C */ //#define I2C_HARDWARE /* MCU's hardware TWI */ //#define I2C_STANDARD_MODE /* 100kHz bus speed */ //#define I2C_FAST_MODE /* 400kHz bus speed */ //#define I2C_RW /* enable I2C read support (untested) */ /* * SPI bus * - might be required by some hardware * - could be enabled already in display section (config_.h) * - for bit-bang SPI port and pins see SPI_PORT (config_.h) * - hardware SPI uses automatically the proper MCU pins * - uncomment either SPI_BITBANG or SPI_HARDWARE to enable */ //#define SPI_BITBANG /* bit-bang SPI */ //#define SPI_HARDWARE /* hardware SPI */ //#define SPI_RW /* enable SPI read support */ /* * TTL serial interface * - could be enabled already in display section (config_.h) * - for bit-bang serial port and pins see SERIAL_PORT (config_.h) * - hardware serial uses automatically the proper MCU pins * - uncomment either SERIAL_BITBANG or SERIAL_HARDWARE to enable */ //#define SERIAL_BITBANG /* bit-bang serial */ //#define SERIAL_HARDWARE /* hardware serial */ //#define SERIAL_RW /* enable serial read support */ /* * OneWire bus * - for dedicated I/O pin please see ONEWIRE_PORT (config_.h) * - uncomment either ONEWIRE_PROBES or ONEWIRE_IO_PIN to enable */ //#define ONEWIRE_PROBES /* via probes */ //#define ONEWIRE_IO_PIN /* via dedicated I/O pin */ /* ************************************************************************ * ADC clock * ************************************************************************ */ /* * ADC clock * - The ADC clock is 125000Hz by default. * - You could also set 250000Hz, but that exceeds the max. ADC clock * of 200kHz for 10 bit resolution! * - Special case for 20MHz MCU clock: 156250Hz */ #if CPU_FREQ == 20000000 /* 20MHz MCU clock */ #define ADC_FREQ 156250 #else /* all other MCU clocks */ #define ADC_FREQ 125000 #endif /* * define clock divider * - supports 1MHz, 2MHz, 4MHz, 8MHz, 16MHz and 20MHz MCU clocks * - we got only 7 fixed prescalers from 2 up to 128 */ /* 1MHz/250kHz */ #if CPU_FREQ / ADC_FREQ == 4 #define ADC_CLOCK_DIV (1 << ADPS1) #endif /* 1MHz/125kHz 2MHz/250kHz */ #if CPU_FREQ / ADC_FREQ == 8 #define ADC_CLOCK_DIV (1 << ADPS1) | (1 << ADPS0) #endif /* 2MHz/125kHz 4MHz/250kHz */ #if CPU_FREQ / ADC_FREQ == 16 #define ADC_CLOCK_DIV (1 << ADPS2) #endif /* 4MHz/125kHz 8MHz/250kHz */ #if CPU_FREQ / ADC_FREQ == 32 #define ADC_CLOCK_DIV (1 << ADPS2) | (1 << ADPS0) #endif /* 8MHz/125kHz 16MHz/250kHz */ #if CPU_FREQ / ADC_FREQ == 64 #define ADC_CLOCK_DIV (1 << ADPS2) | (1 << ADPS1) #endif /* 16MHz/125kHz 20MHz/156.25kHz */ #if CPU_FREQ / ADC_FREQ == 128 #define ADC_CLOCK_DIV (1 << ADPS2) | (1 << ADPS1) | (1 << ADPS0) #endif /* ************************************************************************ * derived values * ************************************************************************ */ /* * number of MCU cycles per �s * - min. 1 (for 1MHz) * - max. 20 (for 20MHz) */ #define MCU_CYCLES_PER_US (CPU_FREQ / 1000000) /* * number of MCU cycles per ADC cycle * - min. 4 * - max. 128 */ #define MCU_CYCLES_PER_ADC (CPU_FREQ / ADC_FREQ) /* * time of a MCU cycle (in 0.1 ns) */ #define MCU_CYCLE_TIME (10000 / (CPU_FREQ / 1000000)) /* ************************************************************************ * options management * ************************************************************************ */ /* * storage of program data (EEPROM/Flash) */ #if defined (DATA_EEPROM) /* memory type */ #define MEM_TYPE EEMEM /* read functions */ #define DATA_read_byte(addr) eeprom_read_byte(addr) #define DATA_read_word(addr) eeprom_read_word(addr) #elif defined (DATA_FLASH) /* memory type */ #define MEM_TYPE PROGMEM /* read functions */ #define DATA_read_byte(addr) pgm_read_byte(addr) #define DATA_read_word(addr) pgm_read_word(addr) #endif /* * hardware/software options */ /* power switch: prefer soft-latching type */ #ifdef POWER_SWITCH_SOFT #ifdef POWER_SWITCH_MANUAL #undef POWER_SWITCH_MANUAL #endif #endif /* additional keys */ /* rotary encoder, increase/decrease push buttons or touch screen */ #if defined (HW_ENCODER) || defined (HW_INCDEC_KEYS) | defined (HW_TOUCH) #define HW_KEYS #endif /* options which require additional keys */ #ifndef HW_KEYS /* key hints */ #ifdef UI_KEY_HINTS #undef UI_KEY_HINTS #endif /* PWM+ */ #ifdef SW_PWM_PLUS #undef SW_PWM_PLUS #define SW_PWM_SIMPLE #endif /* squarewave generator */ #ifdef SW_SQUAREWAVE #undef SW_SQUAREWAVE #endif /* Servo Check */ #ifdef SW_SERVO #undef SW_SERVO #endif /* IR Sender */ #ifdef SW_IR_TRANSMITTER #undef SW_IR_TRANSMITTER #endif #endif /* options which require inductance measurement */ #ifndef SW_INDUCTOR /* L monitor */ #ifdef SW_MONITOR_L #undef SW_MONITOR_L #endif /* RCL Monitor */ #ifdef SW_MONITOR_RCL #undef SW_MONITOR_RCL #endif /* RL Monitor */ #ifdef SW_MONITOR_RL #undef SW_MONITOR_RL #endif #endif /* options which require ESR measurement */ #if ! defined (SW_ESR) && ! defined (SW_OLD_ESR) /* ESR tool */ #ifdef SW_ESR_TOOL #undef SW_ESR_TOOL #endif #endif /* options which require a MCU clock >= 8MHz */ #if CPU_FREQ < 8000000 /* ESR measurement */ #ifdef SW_ESR #undef SW_ESR #endif /* old ESR measurement */ #ifdef SW_OLD_ESR #undef SW_OLD_ESR #endif #endif /* SPI */ #if defined (SPI_BITBANG) && defined (SPI_HARDWARE) #error <<< Select either bitbang or hardware SPI! >>> #endif #if defined (SPI_BITBANG) || defined (SPI_HARDWARE) #define HW_SPI #endif /* 9-Bit SPI requires bit-bang mode */ #ifdef SPI_9 #ifndef SPI_BITBANG #error <<< 9-Bit SPI requires bit-bang mode! >>> #endif #endif /* I2C */ #if defined (I2C_BITBANG) && defined (I2C_HARDWARE) #error <<< Select either bitbang or hardware I2C! >>> #endif #if defined (I2C_BITBANG) || defined (I2C_HARDWARE) #define HW_I2C #endif /* TTL serial */ #if defined (SERIAL_BITBANG) && defined (SERIAL_HARDWARE) #error <<< Select either bitbang or hardware serial interface! >>> #endif #if defined (SERIAL_BITBANG) || defined (SERIAL_HARDWARE) #define HW_SERIAL #endif /* VT100 display driver disables other options for serial interface */ #ifdef LCD_VT100 #ifdef UI_SERIAL_COPY #undef UI_SERIAL_COPY #endif #ifdef UI_SERIAL_COMMANDS #undef UI_SERIAL_COMMANDS #endif #endif /* options which require TTL serial */ #ifndef HW_SERIAL /* VT100 display */ #ifdef LCD_VT100 #undef LCD_VT100 #endif /* serial copy */ #ifdef UI_SERIAL_COPY #undef UI_SERIAL_COPY #endif /* remote commands */ #ifdef UI_SERIAL_COMMANDS #undef UI_SERIAL_COMMANDS #endif #endif /* options which require TTL serial RW */ #ifndef SERIAL_RW #ifdef UI_SERIAL_COMMANDS #undef UI_SERIAL_COMMANDS #endif #endif /* OneWire */ #if defined (ONEWIRE_PROBES) && defined (ONEWIRE_IO_PIN) #error <<< Select either probes or dedicated IO pin for Onewire! >>> #endif /* options which require OneWire */ #if ! defined (ONEWIRE_PROBES) && ! defined (ONEWIRE_IO_PIN) /* DS18B20 */ #ifdef SW_DS18B20 #undef SW_DS18B20 #endif /* OneWire scan */ #ifdef SW_ONEWIRE_SCAN #undef SW_ONEWIRE_SCAN #endif #endif /* touchscreen */ #ifdef TOUCH_PORT #define HW_TOUCH #endif /* LCD module */ #ifdef LCD_CONTRAST #define SW_CONTRAST #else #define LCD_CONTRAST 0 #endif /* options which require a color display */ #ifndef LCD_COLOR /* color coding for probes */ #ifdef SW_PROBE_COLORS #undef SW_PROBE_COLORS #endif #endif /* options which require a color graphics display */ #if ! defined (LCD_COLOR) || ! defined (LCD_GRAPHIC) /* resistor color-codes */ #ifdef SW_R_E24_5_CC #undef SW_R_E24_5_CC #endif #ifdef SW_R_E24_1_CC #undef SW_R_E24_1_CC #endif #ifdef SW_R_E96_CC #undef SW_R_E96_CC #endif #endif /* component symbols for fancy pinout */ #if defined (SYMBOLS_24X24_H) #define SYMBOLS_SELECTED #endif #if defined (SYMBOLS_24X24_HF) || defined (SYMBOLS_30X32_HF) || defined (SYMBOLS_32X32_HF) #define SYMBOLS_SELECTED #endif #if defined (SYMBOLS_24X24_VFP) #define SYMBOLS_SELECTED #endif #if defined (SYMBOLS_24X24_VP_F) #define SYMBOLS_SELECTED #endif /* fancy pinout requires graphic display and symbol set */ #ifdef SW_SYMBOLS /* graphic display */ #ifndef LCD_GRAPHIC #undef SW_SYMBOLS #endif /* symbol set */ #ifndef SYMBOLS_SELECTED #undef SW_SYMBOLS #endif #endif /* frequency counter */ #if defined (HW_FREQ_COUNTER_BASIC) || defined (HW_FREQ_COUNTER_EXT) #define HW_FREQ_COUNTER #endif /* IR detector/decoder */ #if defined (SW_IR_RECEIVER) && defined (HW_IR_RECEIVER) #error <<< Select either probes or dedicated IO pin for IR detector! >>> #endif /* rounding for DS18B20 requires DS18B20 support */ #ifdef UI_ROUND_DS18B20 #ifndef SW_DS18B20 #undef UI_ROUND_DS18B20 #endif #endif /* read functions for display require bus with read support enabled */ #ifdef LCD_READ #if defined(LCD_SPI) && ! defined(SPI_RW) #undef LCD_READ #endif #if defined(LCD_I2C) && ! defined(I2C_RW) #undef LCD_READ #endif /* can't check parallel busses */ #endif /* display ID requires read functions for display */ #ifdef SW_DISPLAY_ID #ifndef LCD_READ #undef SW_DISPLAY_ID #endif #endif /* output of display registers requires read functions for display and serial output */ #ifdef SW_DISPLAY_REG #ifndef LCD_READ #undef SW_DISPLAY_REG #endif #ifndef UI_SERIAL_COPY #undef SW_DISPLAY_REG #endif #endif /* ************************************************************************ * simplify ifdefs * ************************************************************************ */ /* E6 norm values */ #if defined (SW_C_E6_T) || defined (SW_L_E6_T) #define SW_E6 #endif /* E12 norm values */ #if defined (SW_C_E12_T) || defined (SW_L_E12_T) #define SW_E12 #endif /* E24 norm values */ #if defined (SW_R_E24_5_T) || defined (SW_R_E24_5_CC) || defined (SW_R_E24_1_T) || defined (SW_R_E24_1_CC) #define SW_E24 #endif /* E96 norm values */ #if defined (SW_R_E96_T) || defined (SW_R_E96_CC) #define SW_E96 #endif /* Show_ENormValues(), Display_EValue() */ #if defined (SW_R_E24_5_T) || defined (SW_R_E24_1_T) || defined (SW_R_E96_T) #ifndef FUNC_EVALUE #define FUNC_EVALUE #endif #ifndef SW_R_EXX #define SW_R_EXX #endif #endif #if defined (SW_C_E6_T) || defined (SW_C_E12_T) || defined (SW_L_E6_T) || defined (SW_L_E12_T) #ifndef FUNC_EVALUE #define FUNC_EVALUE #endif #endif /* Show_ENormCodes(), Display_ColorCode() */ #if defined (SW_R_E24_5_CC) || defined (SW_R_E24_1_CC) || defined (SW_R_E96_CC) #ifndef FUNC_COLORCODE #define FUNC_COLORCODE #endif #ifndef SW_R_EXX #define SW_R_EXX #endif #endif /* SmoothLongKeyPress() */ #if defined (SW_PWM_PLUS) || defined (SW_SERVO) || defined (HW_EVENT_COUNTER) || defined (HW_LC_METER) #ifndef FUNC_SMOOTHLONGKEYPRESS #define FUNC_SMOOTHLONGKEYPRESS #endif #endif /* Display_FullValue() */ #if defined (SW_SQUAREWAVE) || defined (SW_PWM_PLUS) || defined (HW_FREQ_COUNTER_EXT) || defined (SW_SERVO) #ifndef FUNC_DISPLAY_FULLVALUE #define FUNC_DISPLAY_FULLVALUE #endif #endif #if defined (SW_DS18B20) || defined (HW_EVENT_COUNTER) || defined (SW_DHTXX) #ifndef FUNC_DISPLAY_FULLVALUE #define FUNC_DISPLAY_FULLVALUE #endif #endif #if defined (FUNC_EVALUE) || defined (FUNC_COLORCODE) || defined (LC_METER_SHOW_FREQ) #ifndef FUNC_DISPLAY_FULLVALUE #define FUNC_DISPLAY_FULLVALUE #endif #endif /* Display_HexByte() */ #if defined (SW_IR_RECEIVER) || defined (HW_IR_RECEIVER) || defined (ONEWIRE_READ_ROM) || defined (SW_ONEWIRE_SCAN) || defined (SW_FONT_TEST) || defined (SW_DISPLAY_REG) #ifndef FUNC_DISPLAY_HEXBYTE #define FUNC_DISPLAY_HEXBYTE #endif #endif /* Display_HexValue() */ #if defined (SW_IR_TRANSMITTER) || defined (SW_DISPLAY_ID) #ifndef FUNC_DISPLAY_HEXVALUE #define FUNC_DISPLAY_HEXVALUE #endif #endif /* ************************************************************************ * EOF * ************************************************************************ */