RF calibration
ESP32-C3 supports three RF calibration methods during RF initialization:
Partial calibration
Full calibration
No calibration
Partial calibration
During RF initialization, the partial calibration method is used by default for RF calibration.
It is done based on the full calibration data which is stored in the NVS.
To use this method, please go to menuconfig
and enable CONFIG_ESP_PHY_CALIBRATION_AND_DATA_STORAGE.
Full calibration
Full calibration is triggered in the follwing conditions:
NVS does not exist.
The NVS partition to store calibration data is erased.
Hardware MAC address is changed.
PHY library version is changed.
The RF calibration data loaded from the NVS partition is broken.
It takes about 100ms more than partial calibration.
If boot duration is not critical, it is suggested to use the full calibration method.
To switch to the full calibration method, go to menuconfig
and disable CONFIG_ESP_PHY_CALIBRATION_AND_DATA_STORAGE.
If you use the default method of RF calibration, there are two ways to add the function of triggering full calibration as a last-resort remedy.
Erase the NVS partition if you don’t mind all of the data stored in the NVS partition is erased. That is indeed the easiest way.
Call API
esp_phy_erase_cal_data_in_nvs()
before initializing WiFi and BT/BLE based on some conditions (e.g. an option provided in some diagnostic mode). In this case, only phy namespace of the NVS partition is erased.
No calibration
No calibration method is only used when the device wakes up from deep sleep.
PHY initialization data
The PHY initialization data is used for RF calibration. There are two ways to get the PHY initialization data.
One is the default initialization data which is located in the header file components/esp_phy/esp32c3/include/phy_init_data.h.
It is embedded into the application binary after compiling and then stored into read-only memory (DROM).
To use the default initialization data, please go to menuconfig
and disable CONFIG_ESP_PHY_INIT_DATA_IN_PARTITION.
Another is the initialization data which is stored in a partition.
When using a custom partition table, make sure that PHY data partition is included (type: data, subtype: phy).
With default partition table, this is done automatically.
If initialization data is stored in a partition, it has to be flashed there, otherwise runtime error will occur.
To switch to the initialization data stored in a partition, go to menuconfig
and enable CONFIG_ESP_PHY_INIT_DATA_IN_PARTITION.
API Reference
Header File
Functions
-
const esp_phy_init_data_t *esp_phy_get_init_data(void)
Get PHY init data.
If “Use a partition to store PHY init data” option is set in menuconfig, This function will load PHY init data from a partition. Otherwise, PHY init data will be compiled into the application itself, and this function will return a pointer to PHY init data located in read-only memory (DROM).
If “Use a partition to store PHY init data” option is enabled, this function may return NULL if the data loaded from flash is not valid.
备注
Call esp_phy_release_init_data to release the pointer obtained using this function after the call to esp_wifi_init.
- 返回
pointer to PHY init data structure
-
void esp_phy_release_init_data(const esp_phy_init_data_t *data)
Release PHY init data.
- 参数
data – pointer to PHY init data structure obtained from esp_phy_get_init_data function
-
esp_err_t esp_phy_load_cal_data_from_nvs(esp_phy_calibration_data_t *out_cal_data)
Function called by esp_phy_load_cal_and_init to load PHY calibration data.
This is a convenience function which can be used to load PHY calibration data from NVS. Data can be stored to NVS using esp_phy_store_cal_data_to_nvs function.
If calibration data is not present in the NVS, or data is not valid (was obtained for a chip with a different MAC address, or obtained for a different version of software), this function will return an error.
- 参数
out_cal_data – pointer to calibration data structure to be filled with loaded data.
- 返回
ESP_OK on success
-
esp_err_t esp_phy_store_cal_data_to_nvs(const esp_phy_calibration_data_t *cal_data)
Function called by esp_phy_load_cal_and_init to store PHY calibration data.
This is a convenience function which can be used to store PHY calibration data to the NVS. Calibration data is returned by esp_phy_load_cal_and_init function. Data saved using this function to the NVS can later be loaded using esp_phy_store_cal_data_to_nvs function.
- 参数
cal_data – pointer to calibration data which has to be saved.
- 返回
ESP_OK on success
-
esp_err_t esp_phy_erase_cal_data_in_nvs(void)
Erase PHY calibration data which is stored in the NVS.
This is a function which can be used to trigger full calibration as a last-resort remedy if partial calibration is used. It can be called in the application based on some conditions (e.g. an option provided in some diagnostic mode).
- 返回
ESP_OK on success
- 返回
others on fail. Please refer to NVS API return value error number.
-
void esp_phy_enable(void)
Enable PHY and RF module.
PHY and RF module should be enabled in order to use WiFi or BT. Now PHY and RF enabling job is done automatically when start WiFi or BT. Users should not call this API in their application.
-
void esp_phy_disable(void)
Disable PHY and RF module.
PHY module should be disabled in order to shutdown WiFi or BT. Now PHY and RF disabling job is done automatically when stop WiFi or BT. Users should not call this API in their application.
-
void esp_btbb_enable(void)
Enable BTBB module.
BTBB module should be enabled in order to use IEEE802154 or BT. Now BTBB enabling job is done automatically when start IEEE802154 or BT. Users should not call this API in their application.
-
void esp_btbb_disable(void)
Disable BTBB module.
Dsiable BTBB module, used by IEEE802154 or Bluetooth. Users should not call this API in their application.
-
void esp_phy_load_cal_and_init(void)
Load calibration data from NVS and initialize PHY and RF module.
-
void esp_phy_modem_init(void)
Initialize backup memory for Phy power up/down.
-
void esp_phy_modem_deinit(void)
Deinitialize backup memory for Phy power up/down Set phy_init_flag if all modems deinit on ESP32C3.
-
void esp_phy_common_clock_enable(void)
Enable WiFi/BT common clock.
-
void esp_phy_common_clock_disable(void)
Disable WiFi/BT common clock.
-
int64_t esp_phy_rf_get_on_ts(void)
Get the time stamp when PHY/RF was switched on.
- 返回
return 0 if PHY/RF is never switched on. Otherwise return time in microsecond since boot when phy/rf was last switched on
-
esp_err_t esp_phy_update_country_info(const char *country)
Update the corresponding PHY init type according to the country code of Wi-Fi.
- 参数
country – country code
- 返回
ESP_OK on success.
- 返回
esp_err_t code describing the error on fail
-
char *get_phy_version_str(void)
Get PHY lib version.
- 返回
PHY lib version.
-
void phy_track_pll_init(void)
Enable phy track pll.
-
void phy_track_pll_deinit(void)
Disable phy track pll.
Structures
-
struct esp_phy_init_data_t
Structure holding PHY init parameters.
Public Members
-
uint8_t params[128]
opaque PHY initialization parameters
-
uint8_t params[128]
-
struct esp_phy_calibration_data_t
Opaque PHY calibration data.
Enumerations
-
enum esp_phy_calibration_mode_t
PHY calibration mode.
Values:
-
enumerator PHY_RF_CAL_PARTIAL
Do part of RF calibration. This should be used after power-on reset.
-
enumerator PHY_RF_CAL_NONE
Don’t do any RF calibration. This mode is only suggested to be used after deep sleep reset.
-
enumerator PHY_RF_CAL_FULL
Do full RF calibration. Produces best results, but also consumes a lot of time and current. Suggested to be used once.
-
enumerator PHY_RF_CAL_PARTIAL
Header File
Functions
-
void esp_wifi_power_domain_on(void)
Wifi power domain power on.
-
void esp_wifi_power_domain_off(void)
Wifi power domain power off.
-
void esp_phy_rftest_config(uint8_t conf)
Environment variable configuration.
- 参数
conf – Set to 1 to enter RF test mode.
-
void esp_phy_rftest_init(void)
RF initialization configuration.
-
void esp_phy_tx_contin_en(bool contin_en)
TX Continuous mode.
- 参数
contin_en – Set to true for continuous packet sending, which can be used for certification testing; Set to false to cancel continuous mode, which is the default mode and can be used for WLAN tester.
-
void esp_phy_cbw40m_en(bool en)
HT40/HT20 mode selection.
- 参数
en – Set to false to enter 11n HT20 mode; Set to true to enter 11n HT40 mode;
-
void esp_phy_wifi_tx(uint32_t chan, esp_phy_wifi_rate_t rate, int8_t backoff, uint32_t length_byte, uint32_t packet_delay, uint32_t packet_num)
Wi-Fi TX command.
- 参数
chan – channel setting, 1~14;
rate – rate setting;
backoff – Transmit power attenuation, unit is 0.25dB. For example, 4 means that the power is attenuated by 1dB;
length_byte – TX packet length configuration, indicating PSDU Length, unit is byte;
packet_delay – TX packet interval configuration, unit is us;
packet_num – The number of packets sent, 0 means sending packets continuously, other values represent the number of packets to send.
-
void esp_phy_test_start_stop(uint8_t value)
Test start/stop command, used to stop transmitting or reciving state.
- 参数
value – Value should be set to 3 before TX/RX. Set value to 0 to end TX/RX state.
-
void esp_phy_wifi_rx(uint32_t chan, esp_phy_wifi_rate_t rate)
Wi-Fi RX command.
- 参数
chan – channel setting, 1~14;
rate – rate setting;
-
void esp_phy_wifi_tx_tone(uint32_t start, uint32_t chan, uint32_t backoff)
Wi-Fi Carrier Wave(CW) TX command.
- 参数
start – enable CW, 1 means transmit, 0 means stop transmitting;
chan – CW channel setting, 1~14;
backoff – CW power attenuation parameter, unit is 0.25dB. 4 indicates the power is attenuated by 1dB.
-
void esp_phy_ble_tx(uint32_t txpwr, uint32_t chan, uint32_t len, esp_phy_ble_type_t data_type, uint32_t syncw, esp_phy_ble_rate_t rate, uint32_t tx_num_in)
BLE TX command.
- 参数
txpwr – Transmit power level. Tx power is about (level-8)*3 dBm, step is 3dB. Level 8 is around 0 dBm;
chan – channel setting, range is 0~39, corresponding frequency = 2402+chan*2;
len – Payload length setting, range is 0-255, unit is byte, 37 bytes is employed generally;
data_type – Data type setting;
syncw – Packet identification (need to be provided by the packet generator or instrument manufacturer), 0x71764129 is employed generally;
rate – rate setting;
tx_num_in – The number of packets sent, 0 means sending packets continuously, other values represent the number of packets to send.
-
void esp_phy_ble_rx(uint32_t chan, uint32_t syncw, esp_phy_ble_rate_t rate)
BLE RX command.
- 参数
chan – channel selection, range is 0-39; Channels 0, 1, 2~10 correspond to 2404MHz, 2406MHz, 2408MHz~2424MHz respectively; Channels 11, 12, 13~36 correspond to 2428MHz, 2430MHz, 2432MHz~2478MHz respectively; Channel 37: 2402MHz, Channel 38: 2426MHz, Channel 39: 2480MHz;
syncw – Packet identification (need to be provided by the packet generator or instrument manufacturer), 0x71764129 is employed generally;
rate – rate setting;
-
void esp_phy_bt_tx_tone(uint32_t start, uint32_t chan, uint32_t power)
BLE Carrier Wave(CW) TX command.
- 参数
start – enable CW, 1 means transmit, 0 means stop transmitting;
chan – Single carrier transmission channel selection, range is 0~39, corresponding frequency freq = 2402+chan*2;
power – CW power attenuation parameter, unit is 0.25dB. 4 indicates the power is attenuated by 1dB.
-
void esp_phy_get_rx_result(esp_phy_rx_result_t *rx_result)
Get some RX information.
- 参数
rx_result – This struct for storing RX information;
Structures
-
struct esp_phy_rx_result_t
Structure holding PHY RX result.
Public Members
-
uint32_t phy_rx_correct_count
The number of desired packets received
-
int phy_rx_rssi
Average RSSI of desired packets
-
uint32_t phy_rx_total_count
The number of total packets received
-
uint32_t phy_rx_result_flag
0 means no RX info; 1 means the lastest Wi-Fi RX info; 2 means the lastest BLE RX info.
-
uint32_t phy_rx_correct_count
Enumerations
-
enum esp_phy_wifi_rate_t
Values:
-
enumerator PHY_RATE_1M
-
enumerator PHY_RATE_2M
-
enumerator PHY_RATE_5M5
-
enumerator PHY_RATE_11M
-
enumerator PHY_RATE_6M
-
enumerator PHY_RATE_9M
-
enumerator PHY_RATE_12M
-
enumerator PHY_RATE_18M
-
enumerator PHY_RATE_24M
-
enumerator PHY_RATE_36M
-
enumerator PHY_RATE_48M
-
enumerator PHY_RATE_54M
-
enumerator PHY_RATE_MCS0
-
enumerator PHY_RATE_MCS1
-
enumerator PHY_RATE_MCS2
-
enumerator PHY_RATE_MCS3
-
enumerator PHY_RATE_MCS4
-
enumerator PHY_RATE_MCS5
-
enumerator PHY_RATE_MCS6
-
enumerator PHY_RATE_MCS7
-
enumerator PHY_WIFI_RATE_MAX
-
enumerator PHY_RATE_1M