1 Module Overview 1.1 Features 1.2 Series Comparison 1.3 Applications 2 Block Diagram 3 Pin Definitions 3.1 Pin Layout 3.2 Pin Description 4 Boot Configurations 4.1 Chip Boot Mode Control 4.2 ROM Messages Printing Control 5 Peripherals 5.1 Peripheral Overview 5.2 Peripheral Description 5.2.1 Connectivity Interface 5.2.1.1 UART Controller 5.2.1.2 SPI Controller 5.2.1.3 I2C Controller 5.2.1.4 LED PWM Controller 5.2.2 Analog Signal Processing 5.2.2.1 SAR ADC 5.2.2.2 Temperature Sensor 6 Electrical Characteristics 6.1 Absolute Maximum Ratings 6.2 Recommended Operating Conditions 6.3 DC Characteristics (3.3 V, 25 °C) 6.4 Current Consumption Characteristics 6.4.1 RF Current Consumption in Active Mode 6.4.2 Current Consumption in Other Modes 7 RF Characteristics 7.1 Wi-Fi Radio 7.1.1 Wi-Fi RF Standards 7.1.2 Wi-Fi RF Transmitter (TX) Specifications 7.1.3 Wi-Fi RF Receiver (RX) Specifications 7.2 Bluetooth LE Radio 7.2.1 Bluetooth LE RF Transmitter (TX) Specifications 7.2.2 Bluetooth LE RF Receiver (RX) Specifications 8 Module Schematics 9 Peripheral Schematics 9.1 Module Dimensions 10 PCB Layout Recommendations 10.1 PCB Land Pattern 10.2 Module Placement for PCB Design 11 Product Handling 11.1 Storage Conditions 11.2 Electrostatic Discharge (ESD) 11.3 Wave Profile 11.4 Ultrasonic Vibration Related Documentation and Resources Revision History ESP8684-WROOM-07 Datasheet Version 1.0 Small-sized 2.4 GHz Wi-Fi (802.11 b/g/n) and Bluetooth ® 5 module Built around ESP8684 series of SoCs, RISC-V single-core microprocessor 2 MB/4 MB flash in chip package 3 GPIOs Monopole antenna ESP8684-WROOM-07 www.espressif.com 1 Module Overview 1 Module Overview Note: Check the link or the QR code to make sure that you use the latest version of this document: https://www.espressif.com/documentation/esp8684-wroom-07_datasheet_en.pdf 1.1 Features CPU and On-Chip Memory • ESP8684H2X or ESP8684H4X embedded, 32-bit RISC-V single-core processor, up to 120 MHz • 576 KB ROM • 272 KB SRAM (16 KB for cache) • In-Package flash (see details in Table 1 Series Comparison) • Access to flash accelerated by cache • Supports flash in-Circuit Programming (ICP) Wi-Fi • 802.11 b/g/n • Center frequency range of operating channel: 2412 ~ 2484 MHz • Supports 20 MHz bandwidth in 2.4 GHz band • 1T1R mode with data rate up to 72.2 Mbps • Wi-Fi Multimedia (WMM) • TX/RX A-MPDU, TX/RX A-MSDU • Immediate Block ACK • Fragmentation and defragmentation • Transmit opportunity (TXOP) • Automatic Beacon monitoring (hardware TSF) • 3 × virtual Wi-Fi interfaces • Simultaneous support for Infrastructure BSS in Station mode, SoftAP mode, Station + SoftAP mode, and promiscuous mode Note that when ESP8684 series scans in Station mode, the SoftAP channel will change along with the Station channel Bluetooth ® • Bluetooth LE: Bluetooth 5.3 certified • High power mode (20 dBm) • Speed: 125 kbps, 500 kbps, 1 Mbps, 2 Mbps • Advertising extensions • Multiple advertisement sets • Channel selection algorithm #2 • Internal co-existence mechanism between Wi-Fi and Bluetooth to share the same antenna Peripherals • 3 GPIOs • GPIO, SPI, UART, I2C, LED PWM controller, general DMA controller, temperature sensor, SAR ADC, timers and watchdog Note: * Please refer to ESP8684 Series Datasheet for de- tailed information about the module peripherals. Integrated Components on Module • 26 MHz crystal oscillator Antenna Options • Monopole antenna Espressif Systems 2 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 1 Module Overview Operating Conditions • Operating voltage/Power supply: 3.0 ~ 3.6 V • Operating ambient temperature: –40 ~ 105°C Certification • RF certification: See certificates • Green certification: RoHS/REACH Test • HTOL/HTSL/uHAST/TCT/ESD/Latch-up 1.2 Series Comparison ESP8684-WROOM-07 is a general-purpose Wi-Fi and Bluetooth LE module. The rich set of peripherals and high performance make this module an ideal choice for smart homes, industrial automation, health care, consumer electronics, etc. ESP8684-WROOM-07 can be vertically soldered to a PCB board via wave soldering and the module has 3 available GPIOs. ESP8684-WROOM-07 can be connected to an external monopole antenna. The series comparison for ESP8684-WROOM-07 is as follows: Table 1: ESP8684-WROOM-07 Series Comparison Ambient Temp. 4 Size 5 Ordering Code In-Package flash 1,2 Chip Revision 3 (°C) (mm) ESP8684-WROOM-07-H2X 2 MB v2.0 –40 ~105 8.5 × 12.7 × 2.6 ESP8684-WROOM-07-H4X 4 MB 1 The in-package flash supports: - More than 100,000 program/erase cycles - More than 20 years data retention time 2 By default, the SPI flash on the module operates at a maximum clock frequency of 60 MHz and does not support the auto suspend feature. If you need the flash auto suspend feature, please contact us. 3 Compared to previous chip versions, chip version v2.0 provides an additional 20 KB of SRAM and approximately 100 KB of flash memory (subject to actual application). 4 Ambient temperature specifies the recommended temperature range of the environment immediately outside the Espressif module. 5 For details, refer to Section 9.1 Module Dimensions. The ESP8684H2X chip and the ESP8684H4X chip fall into the same category, namely ESP8684 chip series. ESP8684 integrates a rich set of peripherals including GPIO, SPI, UART, I2C, LED PWM controller, general DMA controller, SAR ADC, temperature sensor, general-purpose timers, system timers, and watchdog timers. Note: For more information on ESP8684 chip, please refer to ESP8684 Series Datasheet. Espressif Systems 3 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 1 Module Overview 1.3 Applications • Smart Home • Industrial Automation • Health Care • Consumer Electronics • Smart Agriculture • POS Machines • Service Robot • Generic Low-power IoT Sensor Hubs • Generic Low-power IoT Data Loggers Espressif Systems 4 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 Contents Contents 1 Module Overview 2 1.1 Features 2 1.2 Series Comparison 3 1.3 Applications 4 2 Block Diagram 9 3 Pin Definitions 10 3.1 Pin Layout 10 3.2 Pin Description 10 4 Boot Configurations 12 4.1 Chip Boot Mode Control 13 4.2 ROM Messages Printing Control 13 5 Peripherals 15 5.1 Peripheral Overview 15 5.2 Peripheral Description 15 5.2.1 Connectivity Interface 15 5.2.1.1 UART Controller 15 5.2.1.2 SPI Controller 16 5.2.1.3 I2C Controller 17 5.2.1.4 LED PWM Controller 17 5.2.2 Analog Signal Processing 17 5.2.2.1 SAR ADC 18 5.2.2.2 Temperature Sensor 18 6 Electrical Characteristics 19 6.1 Absolute Maximum Ratings 19 6.2 Recommended Operating Conditions 19 6.3 DC Characteristics (3.3 V, 25 °C) 19 6.4 Current Consumption Characteristics 20 6.4.1 RF Current Consumption in Active Mode 20 6.4.2 Current Consumption in Other Modes 20 7 RF Characteristics 21 7.1 Wi-Fi Radio 21 7.1.1 Wi-Fi RF Standards 21 7.1.2 Wi-Fi RF Transmitter (TX) Specifications 21 7.1.3 Wi-Fi RF Receiver (RX) Specifications 22 7.2 Bluetooth LE Radio 23 7.2.1 Bluetooth LE RF Transmitter (TX) Specifications 23 7.2.2 Bluetooth LE RF Receiver (RX) Specifications 25 Espressif Systems 5 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 Contents 8 Module Schematics 27 9 Peripheral Schematics 28 9.1 Module Dimensions 29 10 PCB Layout Recommendations 30 10.1 PCB Land Pattern 30 10.2 Module Placement for PCB Design 30 11 Product Handling 31 11.1 Storage Conditions 31 11.2 Electrostatic Discharge (ESD) 31 11.3 Wave Profile 31 11.4 Ultrasonic Vibration 32 Related Documentation and Resources 33 Revision History 34 Espressif Systems 6 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 List of Tables List of Tables 1 ESP8684-WROOM-07 Series Comparison 3 2 Pin Definitions 10 3 Test Point Definitions 10 4 Default Configuration of Strapping Pins 12 5 Description of Timing Parameters for the Strapping Pins 12 6 Chip Boot Mode Control 13 7 UART0 ROM Message Printing Control 14 8 Absolute Maximum Ratings 19 9 Recommended Operating Conditions 19 10 DC Characteristics (3.3 V, 25 °C) 19 11 Current Consumption for Wi-Fi (2.4 GHz) in Active Mode 20 12 Current Consumption in Low-Power Modes 20 13 Current Consumption in Modem-sleep Mode 20 14 Wi-Fi RF Characteristics 21 15 TX Power with Spectral Mask and EVM Meeting 802.11 Standards 21 16 TX EVM Test 1 21 17 RX Sensitivity 22 18 Maximum RX Level 22 19 RX Adjacent Channel Rejection 23 20 Bluetooth LE RF Characteristics 23 21 Bluetooth LE - Transmitter Characteristics - 1 Mbps 23 22 Bluetooth LE - Transmitter Characteristics - 2 Mbps 24 23 Bluetooth LE - Transmitter Characteristics - 125 kbps 24 24 Bluetooth LE - Transmitter Characteristics - 500 kbps 24 25 Bluetooth LE - Receiver Characteristics - 1 Mbps 25 26 Bluetooth LE - Receiver Characteristics - 2 Mbps 25 27 Bluetooth LE - Receiver Characteristics - 125 kbps 26 28 Bluetooth LE - Receiver Characteristics - 500 kbps 26 Espressif Systems 7 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 List of Figures List of Figures 1 ESP8684-WROOM-07 Block Diagram 9 2 Pin Layout (Top View and Bottom View) 10 3 Visualization of Timing Parameters for the Strapping Pins 13 4 ESP8684-WROOM-07 Schematics 27 5 Peripheral Schematics 28 6 Physical Dimensions 29 7 Recommended PCB Land Pattern 30 8 Wave Soldering Profile 31 Espressif Systems 8 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 2 Block Diagram 2 Block Diagram SPI Flash ESP8684 RF Matching 26 MHz Crystal 3V3 GPIOs Antenna GND Figure 1: ESP8684-WROOM-07 Block Diagram Espressif Systems 9 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 3 Pin Definitions 3 Pin Definitions 3.1 Pin Layout The pin diagram below shows the approximate location of pins on the module. For the actual diagram drawn to scale, please refer to Figure 9.1 Module Dimensions. Pin Layout (Top View) 1 ANT 3 5 IO5 IO10 Pin Layout (Bottom View) 6 4 2 3V3 IO4 GND 7 8 9 10 IO9 EN RX TX Figure 2: Pin Layout (Top View and Bottom View) 3.2 Pin Description The module has 6 pins. See pin definitions in Table 2 Pin Description. For peripheral pin configurations, please refer to ESP8684 Series Datasheet. Table 2: Pin Definitions Name No. Type 1 Function ANT 1 - Antenna GND 2 P Ground IO5 3 I/O/T MTDI, GPIO5, FSPIWP, LED PWM IO4 4 I/O/T MTMS, GPIO4, ADC1_CH4, FSPIHD, LED PWM IO10 5 I/O/T GPIO10, FSPICS0, LED PWM 3V3 6 P Power supply Table 3: Test Point Definitions Name No. Type 1 Function IO9 7 I/O/T GPIO9 EN 8 I High: on, enables the chip. Low: off, the chip powers off. Default: internally pulled-up. RX 9 I/O/T U0RXD, GPIO19 TX 10 I/O/T U0TXD, GPIO20 1 P: power supply; I: input; O: output; T: high impedance. Espressif Systems 10 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 3 Pin Definitions Note: IO0, IO1, IO3, IO5/MTDI pins have low-level glitches during chip power up. See details in section General Purpose Input / Output Interface (GPIO) of ESP8684 Series Datasheet. Espressif Systems 11 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 4 Boot Configurations 4 Boot Configurations Note: The content below is excerpted from ESP8684 Series Datasheet > Section Boot Configurations. For the strapping pin mapping between the chip and modules, please refer to Chapter 8 Module Schematics. The module allows for configuring the following boot parameters through strapping pins and eFuse parameters at power-up or a hardware reset, without microcontroller interaction. • Chip boot mode – Strapping pin: GPIO8 and GPIO9 • ROM message printing – Strapping pin: GPIO8 – eFuse parameter: EFUSE_UART_PRINT_CONTROL The default values of all the above eFuse parameters are 0, which means that they are not burnt. Given that eFuse is one-time programmable, once programmed to 1, it can never be reverted to 0. For how to program eFuse parameters, please refer to ESP8684 Technical Reference Manual > Chapter eFuse Controller. The default values of the strapping pins, namely the logic levels, are determined by pins’ internal weak pull-up/pull-down resistors at reset if the pins are not connected to any circuit, or connected to an external high-impedance circuit. Table 4: Default Configuration of Strapping Pins Strapping Pin Default Configuration Bit Value GPIO8 N/A - GPIO9 Internal weak pull-up 1 To change the bit values, the strapping pins should be connected to external pull-down/pull-up resistances. If the ESP8684 is used as a device by a host MCU, the strapping pin voltage levels can also be controlled by the host MCU. All strapping pins have latches. At system reset, the latches sample the bit values of their respective strapping pins and store them until the chip is powered down or shut down. The states of latches cannot be changed in any other way. It makes the strapping pin values available during the entire chip operation, and the pins are freed up to be used as regular IO pins after reset. The timing of signals connected to the strapping pins should adhere to the setup time and hold time specifications in Table 5 and Figure 3. Table 5: Description of Timing Parameters for the Strapping Pins Parameter Description Min (ms) t 0 Setup time before CHIP_EN goes from low to high 0 t 1 Hold time after CHIP_EN goes high 3 Espressif Systems 12 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 4 Boot Configurations CHIP_EN t 1 t 0 Strapping pin V IL_nRST V IH Figure 3: Visualization of Timing Parameters for the Strapping Pins 4.1 Chip Boot Mode Control GPIO8 and GPIO9 control the boot mode after the reset is released. See Table 6 Chip Boot Mode Control. Table 6: Chip Boot Mode Control Boot Mode GPIO9 GPIO8 SPI boot mode 1 x 2 Joint download boot mode 3 0 1 1 Bold marks the default value and configuration. 2 Values that have no effect on the result and can therefore be ignored. 3 Joint Download Boot mode supports UART Download Boot. In addition to SPI Boot and Joint Download Boot modes, ESP8684 also supports SPI Download Boot mode. For details, please see ESP8684 Technical Reference Manual > Chapter Chip Boot Control. 4.2 ROM Messages Printing Control EFUSE_UART_PRINT_CONTROL and GPIO8 control ROM messages printing to UART0 as shown in Table 7 UART0 ROM Message Printing Control. Espressif Systems 13 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 4 Boot Configurations Table 7: UART0 ROM Message Printing Control UART0 ROM Code Printing eFuse 1 GPIO8 Enabled 0 Ignored 1 0 2 1 Disabled 1 1 2 0 3 Ignored 1 EFUSE_UART_PRINT_CONTROL Espressif Systems 14 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 5 Peripherals 5 Peripherals 5.1 Peripheral Overview ESP8684 integrates a rich set of peripherals including GPIO, SPI, UART, I2C, LED PWM controller, general DMA controller, SAR ADC, temperature sensor, general-purpose timers, system timers, and watchdog timers. To learn more about on-chip components, please refer to ESP8684 Series Datasheet > Section Functional Description. Note: The content below is sourced from ESP8684 Series Datasheet > Section Peripherals. Some information may not be ap- plicable to ESP8684-WROOM-07 as not all the IO signals are exposed on the module. To learn more about peripheral signals, please refer to ESP8684 Technical Reference Manual > Section Peripheral Signal List. 5.2 Peripheral Description This section describes the chip’s peripheral capabilities, covering connectivity interfaces and on-chip sensors that extend its functionality. 5.2.1 Connectivity Interface This subsection describes the connectivity interfaces on the chip that enable communication and interaction with external devices and networks. 5.2.1.1 UART Controller The UART Controller in the ESP8684 chip facilitates the transmission and reception of asynchronous serial data between the chip and external UART devices. It supports two UART interfaces. Feature List • Full-duplex asynchronous communication • Configurable baud rate, up to 2.5 Mbaud • Automatic baud rate detection of input signals • Data frame format: – a START bit – data bits, ranging from 5 ~ 8 – a parity bit – stop bits, whose length can be 1, 1.5, or 2 bits • Special character AT_CMD detection • Supported protocols: RS485, IrDA Espressif Systems 15 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 5 Peripherals • UART as wake-up source • Software and hardware flow control • Three clock sources that can be divided: – 40 MHz PLL_F40M_CLK – internal fast RC oscillator RC_FAST_CLK – external crystal clock XTAL_CLK • 512 x 8-bit RAM shared by TX FIFOs and RX FIFOs of the two UART controllers Pin Assignment For UART, the pins used can be chosen from any GPIOs via the GPIO Matrix. For more information about the pin assignment, see ESP8684 Series Datasheet > Section IO Pins and ESP8684 Technical Reference Manual > Chapter IO MUX and GPIO Matrix. 5.2.1.2 SPI Controller ESP8684 series features three SPI interfaces (SPI0, SPI1, and SPI2). SPI0 and SPI1 can be configured to operate in SPI memory mode and SPI2 can be configured to operate in general-purpose SPI mode. SPI0 and SPI1 are reserved for system use, and only SPI2 is available for users. Features of SPI0 and SPI1 • Data is transferred in bytes • Up to four-line STR reads and writes are supported • The clock frequency is configurable to a maximum of 60 MHz in STR mode Features of SPI2 General-purpose SPI (GP-SPI) • It can operate in master and slave modes • It supports two-line full-duplex communication and single-/two-/four-line half-duplex communication in both master and slave modes • The host’s clock frequency of SPI2 is configurable. The clock frequency is 40 MHz at most • Data is transferred in bytes • The clock polarity (CPOL) and phase (CPHA) are also configurable • The SPI2 interface can connect to GDMA Pin Assignment For SPI2, the pins used can be chosen from any GPIOs via the GPIO Matrix. For more information about the pin assignment, see ESP8684 Series Datasheet > Section IO Pins and ESP8684 Technical Reference Manual > Chapter IO MUX and GPIO Matrix. Espressif Systems 16 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 5 Peripherals 5.2.1.3 I2C Controller The I2C Controller supports communication between the master and slave devices using the I2C bus. Feature List • one I2C controller operating in master mode • Standard mode (100 Kbit/s) and fast mode (400 Kbit/s) • Up to 800 Kbit/s (constrained by SCL and SDA pull-up strength) • Support for 7-bit and 10-bit addressing, as well as dual address mode • 7-bit broadcast address Pin Assignment For I2C, the pins used can be chosen from any GPIOs via the GPIO Matrix. For more information about the pin assignment, see ESP8684 Series Datasheet > Section IO Pins and ESP8684 Technical Reference Manual > Chapter IO MUX and GPIO Matrix. 5.2.1.4 LED PWM Controller The LED PWM Controller (LEDC) is designed to generate PWM signals for LED control. Feature List • Six independent PWM generators • Maximum PWM duty cycle resolution of 14 bits • Four independent timers with 14-bit counters, configurable fractional clock dividers and counter overflow values • Adjustable phase of PWM signal output • PWM duty cycle dithering • Automatic duty cycle fading • PWM signal output in low-power mode (Light-sleep mode) Pin Assignment The pins for the LED PWM Controller can be chosen from any GPIOs via the GPIO Matrix. For more information about the pin assignment, see ESP8684 Series Datasheet > Section IO Pins and ESP8684 Technical Reference Manual > Chapter IO MUX and GPIO Matrix. 5.2.2 Analog Signal Processing This subsection describes components on the chip that sense and process real-world data. Espressif Systems 17 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 5 Peripherals 5.2.2.1 SAR ADC ESP8684 integrates a Successive Approximation Analog-to-Digital Converter (SAR ADC) to convert analog signals into digital representations. Feature List • 12-bit sampling resolution • Analog voltage sampling from up to five pins • One DIG ADC controller – Provides separate control modules for one-time sampling and multi-channel scanning – Supports one-time sampling and multi-channel scanning working simultaneously – User-defined scanning sequence in multi-channel scanning mode – Provides two filters with configurable filter coefficient – Supports threshold monitoring Pin Assignment The pins for the SAR ADC are multiplexed with GPIO0 ~ GPIO4, JTAG. For more information about the pin assignment, see ESP8684 Series Datasheet > Section IO Pins and ESP8684 Technical Reference Manual > Chapter IO MUX and GPIO Matrix. 5.2.2.2 Temperature Sensor The Temperature Sensor in the ESP8684 chip allows for real-time monitoring of temperature changes inside the chip. Feature List • Measurement range: –40 °C ~ 125 °C • Software triggering, wherein the data can be read continuously once triggered • Configurable temperature offset based on the environment to improve the accuracy • Adjustable measurement range Espressif Systems 18 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 6 Electrical Characteristics 6 Electrical Characteristics The values presented in this section are preliminary and may change with the final release of this datasheet. 6.1 Absolute Maximum Ratings Stresses above those listed in Table 8 Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under Table 9 Recommended Operating Conditions is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability. Table 8: Absolute Maximum Ratings Symbol Parameter Min Max Unit VDD33 Power supply voltage –0.3 3.6 V T ST OR E Storage temperature –40 105 °C 6.2 Recommended Operating Conditions Table 9: Recommended Operating Conditions Symbol Parameter Min Typ Max Unit VDD33 Power supply voltage 3.0 3.3 3.6 V I V DD Current delivered by external power supply 0.5 — — A T A Operating ambient temperature –40 — 105 °C 6.3 DC Characteristics (3.3 V, 25 °C) Table 10: DC Characteristics (3.3 V, 25 °C) Symbol Parameter Min Typ Max Unit C IN Pin capacitance — 2 — pF V IH High-level input voltage 0.75 × VDD 1 — VDD 1 + 0.3 V V IL Low-level input voltage –0.3 — 0.25 × VDD 1 V I IH High-level input current — — 50 nA I IL Low-level input current — — 50 nA V OH 2 High-level output voltage 0.8 × VDD 1 — — V V OL 2 Low-level output voltage — — 0.1 × VDD 1 V I OH High-level source current (VDD 1 = 3.3 V, V OH >= 2.64 V, PAD_DRIVER = 3) — 40 — mA I OL Low-level sink current (VDD 1 = 3.3 V, V OL = 0.495 V, PAD_DRIVER = 3) — 28 — mA R P U Pull-up resistor — 45 — kΩ R P D Pull-down resistor — 45 — kΩ Espressif Systems 19 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 6 Electrical Characteristics V IH_nRST Chip reset release voltage 0.75 × VDD 1 — VDD 1 + 0.3 V V IL_nRST Chip reset voltage –0.3 — 0.25 × VDD 1 V 1 VDD is the I/O voltage for a particular power domain of pins. 2 V OH and V OL are measured using high-impedance load. 6.4 Current Consumption Characteristics 6.4.1 RF Current Consumption in Active Mode The current consumption measurements are taken with a 3.3 V supply at 25 °C ambient temperature. TX current consumption is rated at a 100% duty cycle. RX current consumption is rated when the peripherals are disabled and the CPU idle. Table 11: Current Consumption for Wi-Fi (2.4 GHz) in Active Mode Work Mode RF Condition Description Peak (mA) Active (RF working) TX 802.11b, 1 Mbps, DSSS @ dBm 345 802.11g, 54 Mbps, OFDM @ dBm 285 802.11n, HT20, MCS7 @ dBm 275 RX 802.11b/g/n, HT20 63 6.4.2 Current Consumption in Other Modes Table 12: Current Consumption in Low-Power Modes Work mode Description Typ(µA) Light-sleep — 140 Deep-sleep Only RTC timer is powered on 5 Power off CHIP_EN is set to low level, and the chip is powered off 1 Table 13: Current Consumption in Modem-sleep Mode Typ Mode CPU Frequency (MHz) Description All Peripherals Clocks Disabled (mA) All Peripherals Clocks Enabled (mA) 1 Modem-sleep 3 80 WFI (Wait-for-Interrupt) 9.4 10.3 CPU run at full speed 12.1 13.0 120 WFI (Wait-for-Interrupt) 10.7 11.5 CPU run at full speed 14.7 15.6 1 In practice, the current consumption might be different depending on which peripherals are enabled. 2 In Modem-sleep mode, Wi-Fi is clock gated. 3 In Modem-sleep mode, the consumption might be higher when accessing flash. For a flash rated at 80 Mbit/s, in SPI 2-line mode the consumption is 10 mA. Espressif Systems 20 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 7 RF Characteristics 7 RF Characteristics This section contains tables with RF characteristics of the Espressif product. The RF data is measured at the antenna port, where RF cable is connected, including the front-end loss. The external antennas used for the tests on the modules with external antenna connectors have an impedance of 50 Ω. Devices should operate in the center frequency range allocated by regional regulatory authorities. The target center frequency range and the target transmit power are configurable by software. See ESP RF Test Tool and Test Guide for instructions. Unless otherwise stated, the RF tests are conducted with a 3.3 V (±5%) supply at 25 ºC ambient temperature. 7.1 Wi-Fi Radio 7.1.1 Wi-Fi RF Standards Table 14: Wi-Fi RF Characteristics Name Description Center frequency range of operating channel 2412 ~ 2484 MHz Wi-Fi wireless standard IEEE 802.11b/g/n 7.1.2 Wi-Fi RF Transmitter (TX) Specifications Target TX power is configurable based on device or certification requirements. The default characteristics are provided in Table 15. Table 15: TX Power with Spectral Mask and EVM Meeting 802.11 Standards Min Typ Max Rate (dBm) (dBm) (dBm) 802.11b, 1 Mbps, DSSS — 20.0 — 802.11b, 11 Mbps, CCK — 20.0 — 802.11g, 6 Mbps, OFDM — 20.0 — 802.11g, 54 Mbps, OFDM — 18.0 — 802.11n, HT20, MCS0 — 18.0 — 802.11n, HT20, MCS7 — 17.0 — Table 16: TX EVM Test 1 Min Typ Limit Rate (dB) (dB) (dB) 802.11b, 1 Mbps, DSSS — –25.0 –10.0 802.11b, 11 Mbps, CCK — –25.0 –10.0 802.11g, 6 Mbps, OFDM — –26.0 –5.0 Cont’d on next page Espressif Systems 21 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 7 RF Characteristics Table 16 – cont’d from previous page Min Typ Limit Rate (dB) (dB) (dB) 802.11g, 54 Mbps, OFDM — –31.0 –25.0 802.11n, HT20, MCS0 — –30.0 –5.0 802.11n, HT20, MCS7 — –32.0 –27.0 1 EVM is measured at the corresponding typical TX power provided in Table 15 Wi-Fi RF Transmitter (TX) Specifications above. 7.1.3 Wi-Fi RF Receiver (RX) Specifications Table 17: RX Sensitivity Min Typ Max Rate (dBm) (dBm) (dBm) 802.11b, 1 Mbps, DSSS — –98.0 — 802.11b, 2 Mbps, DSSS — –96.6 — 802.11b, 5.5 Mbps, CCK — –94.2 — 802.11b, 11 Mbps, CCK — –89.4 — 802.11g, 6 Mbps, OFDM — –94.2 — 802.11g, 9 Mbps, OFDM — –92.4 — 802.11g, 12 Mbps, OFDM — –91.4 — 802.11g, 18 Mbps, OFDM — –88.6 — 802.11g, 24 Mbps, OFDM — –86.0 — 802.11g, 36 Mbps, OFDM — –82.2 — 802.11g, 48 Mbps, OFDM — –78.0 — 802.11g, 54 Mbps, OFDM — –76.6 — 802.11n, HT20, MCS0 — –94.0 — 802.11n, HT20, MCS1 — –90.8 — 802.11n, HT20, MCS2 — –88.0 — 802.11n, HT20, MCS3 — –85.0 — 802.11n, HT20, MCS4 — –81.0 — 802.11n, HT20, MCS5 — –77.4 — 802.11n, HT20, MCS6 — –75.4 — 802.11n, HT20, MCS7 — –74.2 — Table 18: Maximum RX Level Min Typ Max Rate (dBm) (dBm) (dBm) 802.11b, 1 Mbps, DSSS — 5 — 802.11b, 11 Mbps, CCK — 5 — 802.11g, 6 Mbps, OFDM — 5 — 802.11g, 54 Mbps, OFDM — 0 — Cont’d on next page Espressif Systems 22 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 7 RF Characteristics Table 18 – cont’d from previous page Min Typ Max Rate (dBm) (dBm) (dBm) 802.11n, HT20, MCS0 — 5 — 802.11n, HT20, MCS7 — –1 — Table 19: RX Adjacent Channel Rejection Min Typ Max Rate (dB) (dB) (dB) 802.11b, 1 Mbps, DSSS — 35 — 802.11b, 11 Mbps, CCK — 35 — 802.11g, 6 Mbps, OFDM — 31 — 802.11g, 54 Mbps, OFDM — 20 — 802.11n, HT20, MCS0 — 31 — 802.11n, HT20, MCS7 — 16 — 7.2 Bluetooth LE Radio 7.2.1 Bluetooth LE RF Transmitter (TX) Specifications Table 20: Bluetooth LE RF Characteristics Name Description Center frequency range of operating channel 2402 ~ 2480 MHz RF transmit power range –24.0 ~ 20.0 dBm Table 21: Bluetooth LE - Transmitter Characteristics - 1 Mbps Parameter Description Min Typ Max Unit Carrier frequency offset and drift Max. |f n | n=0, 1, 2, 3, ...k — 1.0 — kHz Max. |f 0 − f n | n=2, 3, 4, ...k — 2.3 — kHz Max. |f n − f n−5 | n=6, 7, 8, ...k — 1.4 — kHz |f 1 − f 0 | — 1.5 — kHz Modulation characteristics ∆ F 1 avg — 250.2 — kHz Min. ∆ F 2 max (for at least 99.9% of all ∆ F 2 max ) — 234.4 — kHz ∆ F 2 avg /∆ F 1 avg — 1.00 — — In-band spurious emissions ± 2 MHz offset — –32 — dBm ± 3 MHz offset — –38 — dBm > ± 3 MHz offset — –41 — dBm Espressif Systems 23 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 7 RF Characteristics Table 22: Bluetooth LE - Transmitter Characteristics - 2 Mbps Parameter Description Min Typ Max Unit Carrier frequency offset and drift Max. |f n | n=0, 1, 2, 3, ...k — 3.7 — kHz Max. |f 0 − f n | n=2, 3, 4, ...k — 1.8 — kHz Max. |f n − f n−5 | n=6, 7, 8, ...k — 1.5 — kHz |f 1 − f 0 | — 1.1 — kHz Modulation characteristics ∆ F 1 avg — 500.0 — kHz Min. ∆ F 2 max (for at least 99.9% of all ∆ F 2 max ) — 460.7 — kHz ∆ F 2 avg /∆ F 1 avg — 1.00 — — In-band spurious emissions ± 4 MHz offset — –40 — dBm ± 5 MHz offset — –43 — dBm > ± 5 MHz offset — –44 — dBm Table 23: Bluetooth LE - Transmitter Characteristics - 125 kbps Parameter Description Min Typ Max Unit Carrier frequency offset and drift Max. |f n | n=0, 1, 2, 3, ...k — 0.6 — kHz Max. |f 0 − f n | n=1, 2, 3, ...k — 0.7 — kHz |f 0 − f 3 | — 0.4 — kHz Max. |f n − f n−3 | n=7, 8, 9, ...k — 0.7 — kHz Modulation characteristics ∆ F 1 avg — 250.0 — kHz Min. ∆ F 1 max (for at least 99.9% of all ∆ F 1 max ) — 241.0 — kHz In-band spurious emissions ± 2 MHz offset — –32 — dBm ± 3 MHz offset — –38 — dBm > ± 3 MHz offset — –41 — dBm Table 24: Bluetooth LE - Transmitter Characteristics - 500 kbps Parameter Description Min Typ Max Unit Carrier frequency offset and drift Max. |f n | n=0, 1, 2, 3, ...k — 0.5 — kHz Max. |f 0 − f n | n=1, 2, 3, ...k — 0.6 — kHz |f 0 − f 3 | — 0.2 — kHz Max. |f n − f n−3 | n=7, 8, 9, ...k — 0.8 — kHz Modulation characteristics ∆ F 2 avg — 251.3 — kHz Min. ∆ F 2 max (for at least 99.9% of all ∆ F 2 max ) — 234.5 — kHz In-band spurious emissions ± 2 MHz offset — –32 — dBm ± 3 MHz offset — –38 — dBm > ± 3 MHz offset — –41 — dBm Espressif Systems 24 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 7 RF Characteristics 7.2.2 Bluetooth LE RF Receiver (RX) Specifications Table 25: Bluetooth LE - Receiver Characteristics - 1 Mbps Parameter Description Min Typ Max Unit Sensitivity @30.8% PER — — –98.0 — dBm Maximum received signal @30.8% PER — — 8 — dBm C/I and receiver selectivity performance Co-channel F = F0 MHz — 8 — dB Adjacent channel F = F0 + 1 MHz — –1 — dB F = F0 – 1 MHz — –3 — dB F = F0 + 2 MHz — –26 — dB F = F0 – 2 MHz — –28 — dB F = F0 + 3 MHz — –34 — dB F = F0 – 3 MHz — –33 — dB F ≥ F0 + 4 MHz — –33 — dB F ≤ F0 – 4 MHz — –31 — dB Image frequency — — –33 — dB Adjacent channel to image frequency F = F image + 1 MHz — –32 — dB F = F image – 1 MHz — –34 — dB 30 MHz ~ 2000 MHz — –23 — dBm Out-of-band blocking performance 2003 MHz ~ 2399 MHz — –30 — dBm 2484 MHz ~ 2997 MHz — –10 — dBm 3000 MHz ~ 12.75 GHz — –17 — dBm Intermodulation — — –31 — dBm Table 26: Bluetooth LE - Receiver Characteristics - 2 Mbps Parameter Description Min Typ Max Unit Sensitivity @30.8% PER — — –95.0 — dBm Maximum received signal @30.8% PER — — 8 — dBm C/I and receiver selectivity performance Co-channel F = F0 MHz — 9 — dB Adjacent channel F = F0 + 2 MHz — –11 — dB F = F0 – 2 MHz — –7 — dB F = F0 + 4 MHz — –35 — dB F = F0 – 4 MHz — –30 — dB F = F0 + 6 MHz — –35 — dB F = F0 – 6 MHz — –29 — dB F ≥ F0 + 8 MHz — –39 — dB F ≤ F0 – 8 MHz — –33 — dB Image frequency — — –35 — dB Adjacent channel to image frequency F = F image + 2 MHz — –35 — dB F = F image – 2 MHz — –11 — dB 30 MHz ~ 2000 MHz — –30 — dBm Out-of-band blocking performance 2003 MHz ~ 2399 MHz — –34 — dBm 2484 MHz ~ 2997 MHz — –19 — dBm Cont’d on next page Espressif Systems 25 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 7 RF Characteristics Table 26 – cont’d from previous page Parameter Description Min Typ Max Unit 3000 MHz ~ 12.75 GHz — –28 — dBm Intermodulation — — –33 — dBm Table 27: Bluetooth LE - Receiver Characteristics - 125 kbps Parameter Description Min Typ Max Unit Sensitivity @30.8% PER — — –106.0 — dBm Maximum received signal @30.8% PER — — 8 — dBm C/I and receiver selectivity performance Co-channel F = F0 MHz — 3 — dB Adjacent channel F = F0 + 1 MHz — –7 — dB F = F0 – 1 MHz — –5 — dB F = F0 + 2 MHz — –35 — dB F = F0 – 2 MHz — –34 — dB F = F0 + 3 MHz — –38 — dB F = F0 – 3 MHz — –37 — dB F ≥ F0 + 4 MHz — –41 — dB F ≤ F0 – 4 MHz — –45 — dB Image frequency — — –41 — dB Adjacent channel to image frequency F = F image + 1 MHz — –43 — dB F = F image – 1 MHz — –38 — dB Table 28: Bluetooth LE - Receiver Characteristics - 500 kbps Parameter Description Min Typ Max Unit Sensitivity @30.8% PER — — –102.0 — dBm Maximum received signal @30.8% PER — — 8 — dBm C/I and receiver selectivity performance Co-channel F = F0 MHz — 4 — dB Adjacent channel F = F0 + 1 MHz — –6 — dB F = F0 – 1 MHz — –5 — dB F = F0 + 2 MHz — –29 — dB F = F0 – 2 MHz — –32 — dB F = F0 + 3 MHz — –31 — dB F = F0 – 3 MHz — –36 — dB F ≥ F0 + 4 MHz — –34 — dB F ≤ F0 – 4 MHz — –33 — dB Image frequency — — –34 — dB Adjacent channel to image frequency F = F image + 1 MHz — –37 — dB F = F image – 1 MHz — –31 — dB Espressif Systems 26 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 8 Module Schematics 8 Module Schematics This is the reference design of the module. EN IO9 TXD0 RXD0 IO8 WIFI_ANT TXD0 RXD0 TXD0_A EN IO4 IO5 IO10 IO9 EN IO4 GND WIFI_ANT IO10 IO5 VDD33 GND GND GND VDD33 GNDGND GND GND GND GND GNDGND VDD33 VDD33 VDD33 GND GND GND GND GND GND VDD33 GND GNDGNDGND GND Debug Port The values of C1 and C2 vary with the selection of the crystal. The value of R4 varies with the actual PCB board. The values of C5, L1, C4, C20 and L3 vary with the actual PCB board. NC: No component. ESP8684 Core PORT R1 10K C9 1uF(NC) C8 1uF D2 ESD(NC) C10 1uF L2 2.0nH(0.1nH) U2 ESP8684 ANT 1 VDDA3P3 2 VDDA3P3 3 GPIO0 4 GPIO1 5 GPIO2 6 CHIP_EN 7 MTMS 9 MTDI 10 VDD3P3_RTC 11 MTCK 12 MTDO 13 GPIO8 14 GPIO9 15 GPIO10 16 VDD3P3_CPU 17 U0RXD 19 U0TXD 20 XTAL_N 22 XTAL_P 23 GND 25 GPIO3 8 VDDA 24 VDDA 21 GPIO18 18 TP2 CON1 1 D1 ESD C1 TBD L3 TBD J1 PORT_6P ANT 1 GND 2 PWM 5 PWM 3 3V3 6 PWM 4 C14 1uF C4 TBD TP3 CON1 1 C18 0.1uF TP1 CON1 1 TP4 CON1 1 R10 10K(NC) C19 0.1uF C7 0.1uF R2 499 C13 10nF R11 10K(NC) R12 10K(NC) C2 TBD U1 26MHz(±10ppm) XIN 1 GND 2 XOUT 3 GND 4 R4 TBD L1 TBD C5 TBD C20 TBD R6 10K C3 0.1uF Figure 4: ESP8684-WROOM-07 Schematics Espressif Systems 27 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 9 Peripheral Schematics 9 Peripheral Schematics This is the typical application circuit of the module connected with peripheral components (for example, power supply, antenna, reset button, JTAG interface, and UART interface). Figure 5: Peripheral Schematics • To ensure that the power supply to the ESP8684 chip is stable during power-up, it is advised to add an RC delay circuit at the EN pin. The recommended setting for the RC delay circuit is usually R = 10 kΩ and C = 1 µ F (such RC delay circuit has already been built into the module). However, specific parameters should be adjusted based on the power-up timing of the module and the power-up and reset sequence timing of the chip. For ESP8684’s power-up and reset sequence timing diagram, please refer to Section Power Scheme in ESP8684 Series Datasheet. Espressif Systems 28 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 9 Peripheral Schematics 9.1 Module Dimensions Top View Side View Unit: mm Bottom View 8.50±0.2 12.70±0.2 3x1.00 3x2.00 1.12 2.40 1.26 3.26 4.00 6.50 7.70 7.13 3xR0.50 3x1.00 3x2.00 1.26 3.26 2.77 5.78 6.57 7.18 7.13 4.15 1.12 3.18 6.44 8.24 4xØ1.00 1.00 0.90 2.60±0.2 Figure 6: Physical Dimensions Note: For information about tape, reel, and product marking, please refer to Espressif Module Packaging Information. Espressif Systems 29 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 10 PCB Layout Recommendations 10 PCB Layout Recommendations 10.1 PCB Land Pattern This section provides the following resources for your reference: • Figure for the recommended PCB land pattern with all the dimensions needed for PCB design. See Figure 7 Recommended PCB Land Pattern. • Source file of the recommended PCB land pattern to measure dimensions not covered in Figure 7. You can view the source files for ESP8684-WROOM-07 with Autodesk Viewer. Figure 7: Recommended PCB Land Pattern 10.2 Module Placement for PCB Design If module-on-board design is adopted, attention should be paid while positioning the module on the base board. The interference of the base board on the module’s antenna performance should be minimized. For details about module placement for PCB design, please refer to ESP8684 Hardware Design Guidelines > Section Positioning a Module on a Base Board. Espressif Systems 30 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 11 Product Handling 11 Product Handling 11.1 Storage Conditions The products sealed in moisture barrier bags (MBB) should be stored in a non-condensing atmospheric environment of < 40 °C and 90%RH. The module is rated at the moisture sensitivity level (MSL) of 3. After unpacking, the module must be soldered within 168 hours with the factory conditions 25±5 °C and 60%RH. If the above conditions are not met, the module needs to be baked. 11.2 Electrostatic Discharge (ESD) • Human body model (HBM): ±2000 V • Charged-device model (CDM): ±500 V 11.3 Wave Profile 50 100 0 200150 250 Temperature (°C) Time (s) 80 Peak temperature: 230 – 260 °C Component Temperature Preheating Component temperature: 90 – 120 °C PCB soak time: 2 – 5 s PCB ramp-up rate: ≤ 5 °C/s Soldering Solder point temperature: 245 ± 10 °C Cooling Exit temperature: ＜ 100 °C Solder Point Temperature 150 200 250 120 50 160 260 90 230 100 Figure 8: Wave Soldering Profile Espressif Systems 31 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 11 Product Handling 11.4 Ultrasonic Vibration Avoid exposing Espressif modules to vibration from ultrasonic equipment, such as ultrasonic welders or ultrasonic cleaners. This vibration may induce resonance in the in-module crystal and lead to its malfunction or even failure. As a consequence, the module may stop working or its performance may deteriorate. Espressif Systems 32 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 Related Documentation and Resources Related Documentation and Resources Related Documentation • ESP8684 Series Datasheet – Specifications of the ESP8684 hardware. • ESP8684 Technical Reference Manual – Detailed information on how to use the ESP8684 memory and peripherals. • ESP8684 Hardware Design Guidelines – Guidelines on how to integrate the ESP8684 into your hardware product. • ESP8684 Series SoC Errata – Descriptions of known errors in ESP8684 series of SoCs. • Certificates https://espressif.com/en/support/documents/certificates • ESP8684 Product/Process Change Notifications (PCN) https://espressif.com/en/support/documents/pcns?keys=ESP8684 • Documentation Updates and Update Notification Subscription https://espressif.com/en/support/download/documents Developer Zone • ESP-IDF Programming Guide for ESP8684 – Extensive documentation for the ESP-IDF development framework. • ESP-IDF and other development frameworks on GitHub. https://github.com/espressif • ESP32 BBS Forum – Engineer-to-Engineer (E2E) Community for Espressif products where you can post questions, share knowledge, explore ideas, and help solve problems with fellow engineers. https://esp32.com/ • The ESP Journal – Best Practices, Articles, and Notes from Espressif folks. https://blog.espressif.com/ • See the tabs SDKs and Demos, Apps, Tools, AT Firmware. https://espressif.com/en/support/download/sdks-demos Products • ESP8684 Series SoCs – Browse through all ESP8684 SoCs. https://espressif.com/en/products/socs?id=ESP8684 • ESP8684 Series Modules – Browse through all ESP8684-based modules. https://espressif.com/en/products/modules?id=ESP8684 • ESP8684 Series DevKits – Browse through all ESP8684-based devkits. https://espressif.com/en/products/devkits?id=ESP8684 • ESP Product Selector – Find an Espressif hardware product suitable for your needs by comparing or applying filters. https://products.espressif.com/#/product-selector?language=en Contact Us • See the tabs Sales Questions, Technical Enquiries, Circuit Schematic & PCB Design Review, Get Samples (Online stores), Become Our Supplier, Comments & Suggestions. https://espressif.com/en/contact-us/sales-questions Espressif Systems 33 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 Revision History Revision History Date Version Release notes 2025-03-10 v1.0 Added Certification and Test related information in Section 1 Module Overview 2025-01-20 v0.9 • Table 1 Series Comparison: – Update the Ordering Code from ESP8684-WROOM-07-H2 to ESP8684-WROOM-07-H2X – Update the Ordering Code from ESP8684-WROOM-07-H4 to ESP8684-WROOM-07-H4X 2024-12-23 v0.8 • In Chapter 1 Module Overview, renamed 1.2 Description to 1.2 Series Com- parison • In Chapter 3.1 Pin Layout, Add annotations to the antenna keepout zone • Improved the structure, formatting, and wording in: – Chapter 4 Boot Configurations (use to be Section 3.3 Strapping Pins) – Chapter 6 Electrical Characteristics and 7 RF Characteristics (used to be Chapter 4 Electrical Characteristics) – Chapter 9.1 Module Dimensions and 10 PCB Layout Recommenda- tions (used to be Chapter 7 Physical Dimensions and PCB Land Pat- tern) • Added Chapter 5 Peripherals • Added Chapter 10.2 Module Placement for PCB Design 2024-01-09 v0.7 Added an item about Bluetooth 5.3 certification in Section 1.1 Features. 2023-06-27 v0.6 • Updated Section 1.1 Features • Updated 1 ESP8684-WROOM-07 Block Diagram • Updated Section 8 Module Schematics • Updated Section 9.1 Module Dimensions 2022-01-10 v0.5 Preliminary release 2022-12-27 v0.2 Added a note to table 2 Pin Description 2022-04-15 v0.1 Draft Espressif Systems 34 Submit Documentation Feedback ESP8684-WROOM-07 Datasheet v 1.0 Disclaimer and Copyright Notice Information in this document, including URL references, is subject to change without notice. ALL THIRD PARTY’S INFORMATION IN THIS DOCUMENT IS PROVIDED AS IS WITH NO WARRANTIES TO ITS AUTHENTICITY AND ACCURACY. NO WARRANTY IS PROVIDED TO THIS DOCUMENT FOR ITS MERCHANTABILITY, NON-INFRINGEMENT, FITNESS FOR ANY PARTICULAR PURPOSE, NOR DOES ANY WARRANTY OTHERWISE ARISING OUT OF ANY PROPOSAL, SPECIFICATION OR SAMPLE. All liability, including liability for infringement of any proprietary rights, relating to use of information in this document is disclaimed. No licenses express or implied, by estoppel or otherwise, to any intellectual property rights are granted herein. The Wi-Fi Alliance Member logo is a trademark of the Wi-Fi Alliance. The Bluetooth logo is a registered trademark of Bluetooth SIG. All trade names, trademarks and registered trademarks mentioned in this document are property of their respective owners, and are hereby acknowledged. Copyright © 2025 Espressif Systems (Shanghai) Co., Ltd. All rights reserved. www.espressif.com