8.4 KiB
@defgroup cpu_esp32_esp32h2 ESP32-H2 family @ingroup cpu_esp32 @brief Specific properties of ESP32-H2 variant (family) @author Gunar Schorcht gunar@schorcht.net
\section esp32_riot_esp32h2 Specific properties of ESP32-H2 variant (family)
GPIO pins
ESP32-H2 has 19 broken-out GPIO pins, where a subset can be used as ADC channel and as low-power digital inputs/outputs in deep-sleep mode, the so-called LP GPIOs. Some of them are used by special SoC components. The following table gives a short overview.
| Pin | Type | ADC / LP | PU / PD | Special function | Remarks |
|---|---|---|---|---|---|
| GPIO0 | In/Out | - | yes | FSPIQ | |
| GPIO1 | In/Out | ADC | yes | FSPICS0 | |
| GPIO2 | In/Out | ADC | yes | MTMS | FSPIWP, Bootstrapping |
| GPIO3 | In/Out | ADC | yes | MTDO | FSPIHD, Bootstrapping |
| GPIO4 | In/Out | ADC | yes | MTCK | FSPICLK |
| GPIO5 | In/Out | ADC | yes | MTDI | FSPID |
| GPIO8 | In/Out | LP | yes | Bootstrapping | |
| GPIO9 | In/Out | LP | yes | Bootstrapping, pulled up | |
| GPIO10 | In/Out | LP | yes | - | |
| GPIO11 | In/Out | LP | yes | - | |
| GPIO12 | In/Out | LP | yes | - | |
| GPIO13 | In/Out | LP | yes | XTAL_32K_P | - |
| GPIO14 | In/Out | LP | yes | XTAL_32K_N | - |
| GPIO22 | In/Out | LP | yes | - | |
| GPIO23 | In/Out | - | yes | UART0 RX | - |
| GPIO24 | In/Out | - | yes | UART0 TX | - |
| GPIO25 | In/Out | - | yes | Bootstrapping | |
| GPIO26 | In/Out | - | yes | USB D- | USB Serial / JTAG interface |
| GPIO27 | In/Out | - | yes | USB D+ | USB Serial / JTAG interface |
ADC: these pins can be used as ADC inputs
LP: these pins are LP GPIOs and can be used in deep-sleep mode
PU/PD: these pins have software configurable pull-up/pull-down functionality.
GPIO2, GPIO3, GPIO8 and GPIO9 are bootstrapping pins which are used to boot ESP32-H2 in different modes:
| GPIO9 | GPIO8 | GPIO2 | GPIO3 | Mode |
|---|---|---|---|---|
| 1 | X | x | x | SPI Boot mode to boot the firmware from flash (default mode) |
| 0 | 1 | x | x | Joint Download Boot mode for flashing the firmware (standard) |
| 0 | 0 | 1 | 0 | SPI Download Boot mode |
Other combinations are invalid.
ADC Channels
ESP32-H2 integrates one 12-bit ADC with 5 channels in total: GPIO1, GPIO2, GPIO3, GPIO4 and GPIO5
The maximum number of ADC channels #ADC_NUMOF_MAX is 5.
I2C Interfaces
ESP32-H2 has two built-in I2C interfaces.
The following table shows the default configuration of I2C interfaces used for ESP32-H2 boards. It can be overridden by application-specific configurations.
| Device | Signal | Pin | Symbol | Remarks |
|---|---|---|---|---|
| I2C_DEV(0) | I2C0_SPEED |
default is I2C_SPEED_FAST |
||
| I2C_DEV(0) | SCL | GPIO10 | I2C0_SCL |
- |
| I2C_DEV(0) | SDA | GPIO11 | I2C0_SDA |
- |
PWM Channels
The ESP32-H2 LEDC module has 1 channel groups with 6 channels. Each of these channels can be clocked by one of the 4 timers.
SPI Interfaces
ESP32-H2 has three SPI controllers where SPI0 and SPI1 share the same bus. They are used as interface for external memory and can only operate in memory mode:
- Controller SPI0 is reserved for caching external memory like Flash
- Controller SPI1 is reserved for external memory like PSRAM
- Controller SPI2 can be used as general purpose SPI (also called FSPI)
Thus, only SPI2 (FSPI) can be used as general purpose SPI in RIOT as SPI_DEV(0).
The following table shows the pin configuration used for most boards, even though it can vary from board to board.
| Device | Signal | Pin | Symbol | Remarks |
|---|---|---|---|---|
| SPI_DEV(0) | SCK | GPIO4 | SPI0_SCK |
SPI2_HOST (FSPI) |
| SPI_DEV(0) | MOSI | GPIO0 | SPI0_MOSI |
SPI2_HOST (FSPI) |
| SPI_DEV(0) | MISO | GPIO5 | SPI0_MISO |
SPI2_HOST (FSPI) |
| SPI_DEV(0) | CS0 | GPIO1 | SPI0_CS0 |
SPI2_HOST (FSPI) |
Timers
ESP32-H2 has two timer groups with one timer each, resulting in a total of two timers. Thus one timer with one channel can be used in RIOT as timer device TIMER_DEV(0), because one timer is used as system timer.
ESP32-H2 do not have CCOMPARE registers. The counter implementation can not be used.
UART Interfaces
ESP32-H2 integrates two UART interfaces. The following default pin configuration of UART interfaces as used by a most boards can be overridden by the application, see section [Application-Specific Configurations] (#esp32_application_specific_configurations).
| Device | Signal | Pin | Symbol | Remarks |
|---|---|---|---|---|
| UART_DEV(0) | TxD | GPIO24 | UART0_TXD |
cannot be changed |
| UART_DEV(0) | RxD | GPIO23 | UART0_RXD |
cannot be changed |
| UART_DEV(1) | TxD | UART1_TXD |
optional, can be configured | |
| UART_DEV(1) | RxD | UART1_RXD |
optional, can be configured |
JTAG Interface
There are two options on how to use the JTAG interface on ESP32-H2:
-
Using the built-in USB-to-JTAG bridge connected to an USB cable as follows:
USB Signal | ESP32-H2 Pin :--------------|:----------- D- (white) | GPIO26 D+ (green) | GPIO27 V_Bus (red) | 5V Ground (black) | GND -
Using an external JTAG adapter connected to the JTAG interface exposed to GPIOs as follows:
JTAG Signal | ESP32-H2 Pin :-----------|:----------- TRST_N | CHIP_PU TDO | GPIO3 (MTDO) TDI | GPIO5 (MTDI) TCK | GPIO4 (MTCK) TMS | GPIO2 (MTMS) GND | GND
@note This option requires that the USB D- and USB D+ signals are connected to the ESP32-H2 USB interface at GPIO18 and GPIO19.
Using the built-in USB-to-JTAG bridge is the default option, i.e. the JTAG interface of the ESP32-H2 is connected to the built-in USB-to-JTAG bridge. To use an external JTAG adapter, the JTAG interface of the ESP32-H2 has to be connected to the GPIOs as shown above. For this purpose eFuses have to be burned with the following command: ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ espefuse.py burn_efuse JTAG_SEL_ENABLE --port /dev/ttyUSB0 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Once the eFuses are burned with this command and option JTAG_SEL_ENABLE,
GPIO25 is used as a bootstrapping pin to choose between the two options.
If GPIO25 is HIGH when ESP32-H2 is reset, the JTAG interface is connected
to the built-in USB to JTAG bridge and the USB cable can be used for on-chip
debugging. Otherwise, the JTAG interface is exposed to GPIO2 ... GPIO5
and an external JTAG adapter has to be used.
Alternatively, the integrated USB-to-JTAG bridge can be permanently disabled with the following command:
espefuse.py burn_efuse DIS_USB_JTAG --port /dev/ttyUSB0
Once the eFuses are burned with this command and option DIS_USB_JTAG,
the JTAG interface is always exposed to GPIO2 ... GPIO5 and an external
JTAG adapter has to be used.
@note Burning eFuses is an irreversible operation.
For more information about JTAG configuration for ESP32-H2, refer to the section [Configure Other JTAG Interface] (https://docs.espressif.com/projects/esp-idf/en/latest/esp32h2/api-guides/jtag-debugging/configure-other-jtag.html) in the ESP-IDF documentation.