ESP32-D0WDQ6 - 2.4 GHz Wi-Fi & Bluetooth Combo Chip

Part Number: GC-ESP32

MPN: ESP32-D0WDQ6

List Price: $2.75
Your Price: $2.75

Availability: In Stock: Ships same or next business day

Quick Overview

ESP32-D0WDQ6 Features

  • Ultra-Low Power Consumption

  • Compliant with Bluetooth v4.2 BR/EDR and BLE specification

  • Bluetooth Class 1, Class 2, and Class 3 transmitter without external power amplifier

  • BT 4.2 controller and host stack

  • 802.11 b/g/n/e/i Wi-Fi

  • Power Amplifier

  • RF Balun

  • Low Noise Receive Amplifier

  • Power Management Modules

  • Built-In Antenna Switches

  • Wi-Fi Antenna diversity and selection

  • Fine Resolution Clock Gating

  • Dynamic Power Scaling


Peripherals and Sensors

  • 12-bit SAR ADC up to 18 channels

  • 2 x 8-bit D/A convertors

  • 10 x touch sensors

  • On-chip temperature sensor

  • On-chip Hall sensor

  • 4 x SPI, 2 x I2S, 2 x I2C, 3 x UART

  • CAN 2.0

  • IR (TX/RX)

  • Motor PWM

  • LED PWM


ESP32 Wi-Fi & Bluetooth Combo Chip Top View

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  • Description
  • Features
  • Specs
  • Documentation
  • Reviews
  • Q&A
  • Minimum Quantity Required: 10 chips.

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    The ESP32 is a single chip solution that combines Bluetooth and 2.4 GHz Wi-Fi capabilities. It is designed to perform extremely efficiently with its TSMC ultra low power 40 nm technology. This chip can be used for a variety of applications due to its durability, versatility, RF performance, wide-set of features, and different power profiles.

    ESP32 contains less than 10 external components, making it an advanced solution for the Internet of Things (IoT) with its multitude of Wi-Fi and Bluetooth applications. The Printed Circuit Board (PCB) area contains the antenna switch, power amplifier, RF balun, filters, low noise receive amplifier, as well as power management modules. For single-chip integration of radio and base-band, the ESP32 utilizes CMOS. The integrated advanced calibration circuits make this chip capable of dynamically adjusting itself to external conditions, as well as being able to remove external circuit imperfections. This means that the mass production of ESP32 solutions will not require the use of expensive Wi-Fi testing equipment.

    This chip is an advanced low power chip that is perfect for wearable electronics, mobile applications, and IoT solutions. Other powerful features include multiple power modes, dynamic power scaling, and fine resolution clock gating. In the situation of a low-power IoT sensor hub, the ESP32 would be woken up whenever a specified condition was detected. The amount of energy that the chip uses is reduced during this process due to the use of the low duty cycle. In addition, the output power of the power amplifier can be adjusted to achieve an optimal trade-off between power consumption, data rate, and communication range.

    Learn more and compare ESP32 SOC chips.

  • ESP32-D0WD Features
    • Built-In Antenna Switches
    • Power Amplifier
    • RF Balun
    • Low Noise Receive Amplifier
    • Power Management Modules
    • Ultra-Low Power Consumption
    • Compliant with Bluetooth v4.2 BR/EDR and BLE specification
    • Bluetooth Class 1, Class 2, and Class 3 transmitter without external power amplifier
    • BT 4.2 controller and host stack
    • 802.11 b/g/n/e/i Wi-Fi
    • Wi-Fi Antenna diversity and selection
    • Fine Resolution Clock Gating
    • Dynamic Power Scaling

    Peripherals and Sensors
    • 12-bit SAR ADC up to 18 channels
    • 2 x 8-bit D/A convertors
    • 10 x touch sensors
    • On-chip temperature sensor
    • On-chip Hall sensor
    • 4 x SPI, 2 x I2S, 2 x I2C, 3 x UART
    • CAN 2.0
    • IR (TX/RX)
    • Motor PWM
    • LED PWM
  • Manufacturers Part Number ESP32-D0WDQ6
    Interface(s)
    • 4 x SPI, 2 x I2S, 2 x I2C, 3 x UART, CAN 2.0, IR (TX/RX)
    • Motor PWM, LED PWM (up to 16 channels)
    • 12-bit SAR ADC up to 18 channels, 2 x 8-bit D/A converters
    • 10 x touch sensors
    Protocols
    • Wi-Fi: 802.11 b/g/n/d/e/i/k/r (802.11n up to 150 Mbps)
    • Wi-Fi: A-MPDU and A-MSDU aggregation and 0.4 guard interval support
    • Bluetooth: Bluetooth v4.2 BR/EDR and BLE specification
    • Network: IPv4, IPv6, SSL, TCP/UDP/HTTP/FTP/MQTT
    CPU Xtensa® Dual-Core 32-bit LX6 microprocessors
    Memory
    • 448 KByte ROM
    • 520 KByte SRAM
    • 16 KByte SRAM in RTC
    • QSPI Flash/SRAM, up to 4 x 16 MBytes
    Dimensions Nominal - 6.0 x 6.0 x 0.75 mm
    Power Power supply: 2.2 V to 3.6 V
    Pins 48 Pin QFN package
    Controller(s)
    • Infrared Remote Controller
    • DMA controllers
    • Bluetooth Link Controller
    • BT 4.2 Controller
    • SD/SDIO/MMC HOst Controller
    • PID Controller
    • Efuse Controller
    • Media Access Controller (MAC)
    • Pulse Width Modulation (PWM) controller
    DMA 2
    Watchdog Timer Yes
    Temperature Range
    • Operating: -40°C to +125°C (-40º to 257ºF)
    • Storage: -40ºC to 150ºC (-40º to 302ºF)
  • The ESP32 is a single chip solution that combines Bluetooth and 2.4 GHz Wi-Fi capabilities. It is designed to perform extremely efficiently with its TSMC ultra low power 40 nm technology. This chip can be used for a variety of applications due to its durability, versatility, RF performance, wide-set of features, and different power profiles.

    ESP32 contains less than 10 external components, making it an advanced solution for the Internet of Things (IoT) with its multitude of Wi-Fi and Bluetooth applications. The Printed Circuit Board (PCB) area contains the antenna switch, power amplifier, RF balun, filters, low noise receive amplifier, as well as power management modules. For single-chip integration of radio and base-band, the ESP32 utilizes CMOS. The integrated advanced calibration circuits make this chip capable of dynamically adjusting itself to external conditions, as well as being able to remove external circuit imperfections. This means that the mass production of ESP32 solutions will not require the use of expensive Wi-Fi testing equipment.

    This chip is an advanced low power chip that is perfect for wearable electronics, mobile applications, and IoT solutions. Other powerful features include multiple power modes, dynamic power scaling, and fine resolution clock gating. In the situation of a low-power IoT sensor hub, the ESP32 would be woken up whenever a specified condition was detected. The amount of energy that the chip uses is reduced during this process due to the use of the low duty cycle. In addition, the output power of the power amplifier can be adjusted to achieve an optimal trade-off between power consumption, data rate, and communication range.

    Learn more and compare ESP32 SOC chips.

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  • The ESP32 is a single chip solution that combines Bluetooth and 2.4 GHz Wi-Fi capabilities. It is designed to perform extremely efficiently with its TSMC ultra low power 40 nm technology. This chip can be used for a variety of applications due to its durability, versatility, RF performance, wide-set of features, and different power profiles.

    ESP32 contains less than 10 external components, making it an advanced solution for the Internet of Things (IoT) with its multitude of Wi-Fi and Bluetooth applications. The Printed Circuit Board (PCB) area contains the antenna switch, power amplifier, RF balun, filters, low noise receive amplifier, as well as power management modules. For single-chip integration of radio and base-band, the ESP32 utilizes CMOS. The integrated advanced calibration circuits make this chip capable of dynamically adjusting itself to external conditions, as well as being able to remove external circuit imperfections. This means that the mass production of ESP32 solutions will not require the use of expensive Wi-Fi testing equipment.

    This chip is an advanced low power chip that is perfect for wearable electronics, mobile applications, and IoT solutions. Other powerful features include multiple power modes, dynamic power scaling, and fine resolution clock gating. In the situation of a low-power IoT sensor hub, the ESP32 would be woken up whenever a specified condition was detected. The amount of energy that the chip uses is reduced during this process due to the use of the low duty cycle. In addition, the output power of the power amplifier can be adjusted to achieve an optimal trade-off between power consumption, data rate, and communication range.

    Learn more and compare ESP32 SOC chips.

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