193 lines
13 KiB
C
193 lines
13 KiB
C
// Supporting information: https://github.com/S5NC/EBYTE_ESP32-S3/
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// Originally developed for E22-900M30S with ESP32-S3-WROOM-1-N4
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// NOTE: Uses ESP32-S3-WROOM-1-N4.json in boards folder (via platformio.ini board field), assumes 4 MB (quad SPI) flash, no PSRAM
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// FIXME: implement SX12 module type autodetection and have setup for each case (add E32 support)
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// E32 has same pinout except having extra pins. I assume that the GND on it is connected internally to other GNDs so it is not a
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// problem to NC the extra GND pins.
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// For each EBYTE module pin in this section, provide the pin number of the ESP32-S3 you connected it to
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// The ESP32-S3 is great because YOU CAN USE PRACTICALLY ANY PINS for the connections, but avoid some pins (such as on the WROOM
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// modules the following): strapping pins (except 0 as a user button input as it already has a pulldown resistor in typical
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// application schematic) (0, 3, 45, 46), USB-reserved (19, 20), and pins which aren't present on the WROOM-2 module for
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// compatiblity as it uses octal SPI, or are likely connected internally in either WROOM version (26-37), and avoid pins whose
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// voltages are set by the SPI voltage (47, 48), and pins that don't exist (22-25) You can ALSO set the SPI pins (SX126X_CS,
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// SX126X_SCK, SX126X_MISO, SX126X_MOSI) to any pin with the ESP32-S3 due to \ GPIO Matrix / IO MUX / RTC IO MUX \, and also the
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// serial pins, but this isn't recommended for Serial0 as the WROOM modules have a 499 Ohm resistor on U0TXD (to reduce harmonics
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// but also acting as a sort of protection)
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// We have many free pins on the ESP32-S3-WROOM-X-Y module, perhaps it is best to use one of its pins to control TXEN, and use
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// DIO2 as an extra interrupt, but right now Meshtastic does not benefit from having another interrupt pin available.
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// Adding two 0-ohm links on your PCB design so that you can choose between the two modes for controlling the E22's TXEN would
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// enable future software to make the most of an extra available interrupt pin
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// Possible improvement: can add extremely low resistance MOSFET to physically toggle power to E22 module when in full sleep (not
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// waiting for interrupt)?
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// PA stands for Power Amplifier, used when transmitting to increase output power
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// LNA stands for Low Noise Amplifier, used when \ listening for / receiving \ data to increase sensitivity
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//////////////////////////////////////////////////////////////////////////////////
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// //
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// Have custom connections or functionality? Configure them in this section //
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// //
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//////////////////////////////////////////////////////////////////////////////////
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#define SX126X_CS 14 // EBYTE module's NSS pin // FIXME: rename to SX126X_SS
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#define LORA_SCK 21 // EBYTE module's SCK pin
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#define LORA_MOSI 38 // EBYTE module's MOSI pin
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#define LORA_MISO 39 // EBYTE module's MISO pin
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#define SX126X_RESET 40 // EBYTE module's NRST pin
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#define SX126X_BUSY 41 // EBYTE module's BUSY pin
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#define SX126X_DIO1 42 // EBYTE module's DIO1 pin
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// We don't define a pin for SX126X_DIO2 as Meshtastic doesn't use it as an interrupt output, so it is never connected to an MCU
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// pin! Also E22 module datasheets say not to connect it to an MCU pin.
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// We don't define a pin for SX126X_DIO3 as Meshtastic doesn't use it as an interrupt output, so it is never connected to an MCU
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// pin! Also E22 module datasheets say to use it as the TCXO's reference voltage.
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// E32 module (which uses SX1276) may not have ability to set TCXO voltage using a DIO pin.
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// The radio module needs to be told whether to enable RX mode or TX mode. Each radio module takes different actions based on
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// these values, but generally the path from the antenna to SX1262 is changed from signal output to signal input. Also, if there
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// are LNAs (Low-Noise Amplifiers) or PAs (Power Amplifiers) in the output or input paths, their power is also controlled by
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// these pins. You should never have both TXEN and RXEN set high, this can cause problems for some radio modules, and is
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// commonly referred to as 'undefined behaviour' in datasheets. For the SX1262, you shouldn't connect DIO2 to the MCU. DIO2 is
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// an output only, and can be controlled via SPI instructions, the use for this is to save an MCU pin by using the DIO2 pin to
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// control the RF switching mode.
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// Choose ONLY ONE option from below, comment in/out the '/*'s and '*/'s
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// SX126X_TXEN is the E22's [SX1262's] TXEN pin, SX126X_RXEN is the E22's [SX1262's] RXEN pin
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// Option 1: E22's TXEN pin connected to E22's DIO2 pin, E22's RXEN pin connected to NEGATED output of E22's DIO2 pin (more
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// expensive option hardware-wise, is the 'most proper' way, removes need for routing one/two traces from MCU to RF switching
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// pins), however you can't have E22 in low-power 'sleep' mode (TXEN and RXEN both low cannot be achieved this this option).
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/*
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#define SX126X_DIO2_AS_RF_SWITCH
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#define SX126X_TXEN RADIOLIB_NC
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#define SX126X_RXEN RADIOLIB_NC
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*/
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// Option 2: E22's TXEN pin connected to E22's DIO2 pin, E22's RXEN pin connected to MCU pin (cheaper option hardware-wise,
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// removes need for routing another trace from MCU to an RF switching pin).
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// /*
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#define SX126X_DIO2_AS_RF_SWITCH
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#define SX126X_TXEN RADIOLIB_NC
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#define SX126X_RXEN 10
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// */
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// Option 3: E22's TXEN pin connected to MCU pin, E22's RXEN pin connected to MCU pin (cheaper option hardware-wise, allows for
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// ramping up PA before transmission (add/expand on feature yourself in RadioLib) if PA takes a while to stabilise)
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// Don't define DIO2_AS_RF_SWITCH because we only use DIO2 or an MCU pin mutually exclusively to connect to E22's TXEN (to prevent
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// a short if they are both connected at the same time (suboptimal PCB design) and there's a slight non-neglibible delay and/or
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// voltage difference between DIO2 and TXEN). Can use DIO2 as an IRQ (but not in Meshtastic at the moment).
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/*
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#define SX126X_TXEN 9
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#define SX126X_RXEN 10
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*/
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// (NOT RECOMMENDED, if need to ramp up PA before transmission, better to use option 3)
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// Option 4: E22's TXEN pin connected to MCU pin, E22's RXEN pin connected to NEGATED output of E22's DIO2 pin (more expensive
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// option hardware-wise, allows for ramping up PA before transmission (add/expand on feature yourself in RadioLib) if PA takes
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// a while to stabilise, removes need for routing another trace from MCU to an RF switching pin, however may mean if in
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// RadioLib you don't tell DIO2 to go high to indicate transmission (so the negated output goes to RXEN to turn the LNA off)
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// then you may end up enabling E22's TXEN and RXEN pins at the same time whilst you ramp up the PA which is not ideal,
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// changing DIO2's switching advance in RadioLib may not even be possible, may be baked into the SX126x).
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/*
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#define SX126X_DIO2_AS_RF_SWITCH
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#define SX126X_TXEN 9
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#define SX126X_RXEN RADIOLIB_NC
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*/
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// Status
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#define LED_PIN 1
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#define LED_STATE_ON 1 // State when LED is lit
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// External notification
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// FIXME: Check if EXT_NOTIFY_OUT actualy has any effect and removes the need for setting the external notication pin in the
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// app/preferences
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#define EXT_NOTIFY_OUT 2 // The GPIO pin that acts as the external notification output (here we connect an LED to it)
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// Buzzer
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#define PIN_BUZZER 11
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// Buttons
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#define BUTTON_PIN 0 // Use the BOOT button as the user button
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// I2C
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#define I2C_SCL 18
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#define I2C_SDA 8
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// UART
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#define UART_TX 43
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#define UART_RX 44
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// Power
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// Outputting 22dBm from SX1262 results in ~30dBm E22-900M30S output (module only uses last stage of the YP2233W PA)
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// Respect local regulations! If your E22-900M30S outputs the advertised 30 dBm and you use a 6 dBi antenna, you are at the
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// equivalent of 36 EIRP (Effective Isotropic Radiated Power), which in this case is the limit for non-HAM users in the US (4W
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// EIRP, at SPECIFIC frequencies).
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// In the EU (and UK), as of now, you are allowed 27 dBm ERP which is 29.15 EIRP.
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// https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:32022D0180
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// https://www.legislation.gov.uk/uksi/1999/930/schedule/6/made
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// To respect the 29.15 dBm EIRP (at SPECIFIC frequencies, others are lower) EU limit with a 2.5 dBi gain antenna, consulting
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// https://github.com/S5NC/EBYTE_ESP32-S3/blob/main/power%20testing.txt, assuming 0.1 dBm insertion loss, output 20 dBm from the
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// E22-900M30S's SX1262. It is worth noting that if you are in this situation and don't have a HAM license, you may be better off
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// with a lower gain antenna, and output the difference as a higher total power input into the antenna, as your EIRP would be the
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// same, but you would get a wider angle of coverage. Also take insertion loss and possibly VSWR into account
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// (https://www.everythingrf.com/tech-resources/vswr). Please check regulations yourself and check airtime, usage (for example
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// whether you are airborne), frequency, and power laws.
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#define SX126X_MAX_POWER 22 // SX126xInterface.cpp defaults to 22 if not defined, but here we define it for good practice
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// Display
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// FIXME: change behavior in src to default to not having screen if is undefined
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// FIXME: remove 0/1 option for HAS_SCREEN in src, change to being defined or not
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// FIXME: check if it actually causes a crash when not specifiying that a display isn't present
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#define HAS_SCREEN 0 // Assume no screen present by default to prevent crash...
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// GPS
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// FIXME: unsure what to define HAS_GPS as if GPS isn't always present
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#define HAS_GPS 1 // Don't need to set this to 0 to prevent a crash as it doesn't crash if GPS not found, will probe by default
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#define PIN_GPS_EN 15
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#define GPS_EN_ACTIVE 1
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#define GPS_TX_PIN 16
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#define GPS_RX_PIN 17
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/////////////////////////////////////////////////////////////////////////////////
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// //
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// You should have no need to modify the code below, nor in pins_arduino.h //
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// //
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/////////////////////////////////////////////////////////////////////////////////
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#define USE_SX1262 // E22-900M30S, E22-900M22S, and E22-900MM22S (not E220!) use SX1262
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#define USE_SX1268 // E22-400M30S, E22-400M33S, E22-400M22S, and E22-400MM22S use SX1268
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// The below isn't needed as we directly define SX126X_TXEN and SX126X_RXEN instead of using proxies E22_TXEN and E22_RXEN
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/*
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// FALLBACK: If somehow E22_TXEN isn't defined or clearly isn't a valid pin number, set it to RADIOLIB_NC to avoid SX126X_TXEN
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being defined but having no value #if (!defined(E22_TXEN) || !(0 <= E22_TXEN && E22_TXEN <= 48)) #define E22_TXEN RADIOLIB_NC
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#endif
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// FALLBACK: If somehow E22_RXEN isn't defined or clearly isn't a valid pin number, set it to RADIOLIB_NC to avoid SX126X_RXEN
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being defined but having no value #if (!defined(E22_RXEN) || !(0 <= E22_RXEN && E22_RXEN <= 48)) #define E22_RXEN RADIOLIB_NC
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#endif
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#define SX126X_TXEN E22_TXEN
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#define SX126X_RXEN E22_RXEN
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*/
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// E22 series TCXO voltage is 1.8V per https://www.ebyte.com/en/pdf-down.aspx?id=781 (source
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// https://github.com/jgromes/RadioLib/issues/12#issuecomment-520695575), so set it as such
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#define SX126X_DIO3_TCXO_VOLTAGE 1.8
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#define LORA_CS SX126X_CS // FIXME: for some reason both are used in /src
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// Many of the below values would only be used if USE_RF95 was defined, but it's not as we aren't actually using an RF95, just
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// that the 4 pins above are named like it If they aren't used they don't need to be defined and doing so cause confusion to those
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// adapting this file LORA_RESET value is never used in src (as we are not using RF95), so no need to define LORA_DIO0 is not used
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// in src (as we are not using RF95) as SX1262 does not have it per SX1262 datasheet, so no need to define
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// FIXME: confirm that the linked lines below are actually only called when using the SX126x or SX128x and no other modules
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// then use SX126X_DIO1 and SX128X_DIO1 respectively for that purpose, removing the need for RF95-style LORA_* definitions when
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// the RF95 isn't used
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#define LORA_DIO1 \
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SX126X_DIO1 // The old name is used in
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// https://github.com/meshtastic/firmware/blob/7eff5e7bcb2084499b723c5e3846c15ee089e36d/src/sleep.cpp#L298, so
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// must also define the old name
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// LORA_DIO2 value is never used in src (as we are not using RF95), so no need to define, and if DIO2_AS_RF_SWITCH is set then it
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// cannot serve any extra function even if requested to LORA_DIO3 value is never used in src (as we are not using RF95), so no
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// need to define, and DIO3_AS_TCXO_AT_1V8 is set so it cannot serve any extra function even if requested to (from 13.3.2.1
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// DioxMask in SX1262 datasheet: Note that if DIO2 or DIO3 are used to control the RF Switch or the TCXO, the IRQ will not be
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// generated even if it is mapped to the pins.)
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