Introducing an innovative IoT board designed around the ESP32-WROOM-32 chipset, perfect for projects that require both performance and portability. The system is engineered to operate on a stable external 5V power source while also offering the flexibility of a 12V LiPo battery for on-the-go applications. With seamless integration of both analog and digital sensors and comprehensive support for all standard communication interfaces, this board is your gateway to creating sophisticated and reliable IoT solutions. #IoT #ESP32 #Sensors #5V #LiPoBattery #PortableTech #EmbeddedSystems #Innovation

The 2N7002DW, manufactured by iSion, is an N-channel enhancement mode field-effect transistor (FET) designed for high-speed pulse amplifier and drive applications. It is fabricated using the N-channel DMOS process and comes in a compact SOT-363 package. The component offers robust ESD protection compliant with MIL-STD 833, +2.5KV contact discharge. Key features include a drain-source voltage (VDSS) of 60V, a gate-source voltage (VGSS) of +20V, and a continuous drain current (ID) of 300mA, with a pulsed drain current (IDM) of 800mA. The device has a maximum power dissipation (PD) of 350mW and operates within a junction temperature range of -55°C to +150°C. Additionally, it exhibits a low static drain-source on-resistance (RDS(ON)) of 2.0Ω at VGS = 10V and ID = 300mA, making it suitable for efficient switching applications. The thermal resistance from junction to ambient (RθJA) is rated at 500°C/W, ensuring reliable performance in various thermal conditions.

The 2N7002H, manufactured by iSion, is an N-channel enhancement mode field-effect transistor (FET) designed for high-speed pulse amplifier and drive applications. Utilizing the N-Channel DMOS process, this component features robust ESD protection compliant with MIL-STD 833, +2.5KV contact discharge. The 2N7002H is available in a SOT-23 package, ensuring full RoHS compliance and superior solderability as per MIL-STD-202, Method 208. Key specifications include a drain-source voltage (VDSS) of 60V, a gate-source voltage (VGSS) of +20V, and a maximum continuous drain current (ID) of 300mA. The device boasts a low static drain-source on resistance (RDS(ON)) of 2.0Ω at VGS of 10V and ID of 300mA, and dynamic characteristics such as a turn-on delay time (td(on)) of 6ns and a turn-off delay time (td(off)) of 25ns. The component operates within a junction temperature range of -55°C to +150°C and offers thermal resistances of 357°C/W junction-to-ambient and 90°C/W junction-to-case.

This is a Thread to WiFi Gateway Template based on BMD-340-A-R Transceiver Module and ESP32-S2-mini module #smartHome #ESP32S2 #ESP32 #Thread #Zigbee #BMD340 #wifi #gateway #referenceDesign #project #template #hub

The AO3442 is a 100V N-Channel MOSFET manufactured by Alpha & Omega Semiconductor, designed to deliver extremely low RDS(ON) through advanced trench MOSFET technology and a low resistance package. This component is ideal for applications such as boost converters, synchronous rectifiers for consumer electronics, telecom, industrial power supplies, and LED backlighting. The AO3442 features a drain-source voltage (VDS) of 100V, a continuous drain current (ID) of 1A at VGS=10V, and a maximum RDS(ON) of 630mΩ at VGS=10V and 720mΩ at VGS=4.5V. It is housed in a SOT23 package and operates efficiently with a maximum power dissipation of 1.4W at TA=25°C. The device also boasts a gate-source voltage (VGS) of up to +20V and a junction temperature range of -55°C to 150°C, making it robust for various high-performance applications.

This is a BLE to WiFi gateway Reference Design. It employs an ESP32 microcontroller and an STM32WB5MMGH6TR for BLE functionality. The design includes connectors, multiple capacitors, resistors, switches, and LEDs. USB Type-C is used for power and data. This could be used for IoT purposes in home automation or wireless sensor data transmission. #referenceDesign #edge-computing #espressif #stm #template #ble #reference-design

This is a BLE to WiFi gateway Reference Design. It employs an ESP32 microcontroller and an STM32WB5MMGH6TR for BLE functionality. The design includes connectors, multiple capacitors, resistors, switches, and LEDs. USB Type-C is used for power and data. This could be used for IoT purposes in home automation or wireless sensor data transmission. #referenceDesign #edge-computing #espressif #stm #template #ble #reference-design

This is a BLE to WiFi gateway Reference Design. It employs an ESP32 microcontroller and an STM32WB5MMGH6TR for BLE functionality. The design includes connectors, multiple capacitors, resistors, switches, and LEDs. USB Type-C is used for power and data. This could be used for IoT purposes in home automation or wireless sensor data transmission. #referenceDesign #edge-computing #espressif #stm #template #ble #reference-design

This is a BLE to WiFi gateway Reference Design. It employs an ESP32 microcontroller and an STM32WB5MMGH6TR for BLE functionality. The design includes connectors, multiple capacitors, resistors, switches, and LEDs. USB Type-C is used for power and data. This could be used for IoT purposes in home automation or wireless sensor data transmission. #referenceDesign #edge-computing #espressif #stm #template #ble #reference-design

This is a BLE to WiFi gateway Reference Design. It employs an ESP32 microcontroller and an STM32WB5MMGH6TR for BLE functionality. The design includes connectors, multiple capacitors, resistors, switches, and LEDs. USB Type-C is used for power and data. This could be used for IoT purposes in home automation or wireless sensor data transmission. #referenceDesign #edge-computing #espressif #stm #template #ble #reference-design

This is a BLE to WiFi gateway Reference Design. It employs an ESP32 microcontroller and an STM32WB5MMGH6TR for BLE functionality. The design includes connectors, multiple capacitors, resistors, switches, and LEDs. USB Type-C is used for power and data. This could be used for IoT purposes in home automation or wireless sensor data transmission. #referenceDesign #edge-computing #espressif #stm #template #ble #reference-design

3.3V ESP32-S3 Dual 6V Rail MOSFET Board with MCP23017 I2C Expanders, Option C Gate Network, SW2 DPST Rail-Interlock, 2S LiFePO4 Charger/BMS (BQ24618 + BQ29209) with Series Battery Wiring and Charge Integration, and 2×10 RA Headers (#MCP23017_3V3 #OptionC #GateNetwork #RailInterlock #Dual6V #BQ24618 #BQ29209 #2S #LiFePO4 #SeriesBattery #ChargeIntegration #RAHeaders)

The NTS4001N and NVS4001N are single N-Channel, small signal MOSFETs from ON Semiconductor, housed in a compact SC-70/SOT-323 package. These components are designed for applications requiring efficient low-side load switching, such as Li-Ion battery-supplied devices including cell phones, PDAs, and digital still cameras, as well as for use in buck converters and level shifters. Featuring a maximum drain-to-source voltage (VDSS) of 30 V and a continuous drain current (ID) of 270 mA at 25°C, these MOSFETs are optimized for fast switching with low gate charge. The gate-to-source voltage (VGS) can withstand up to ±20 V, and the devices are ESD protected and AEC-Q101 qualified, making them suitable for automotive applications. The NTS4001N and NVS4001N are also Pb-Free and RoHS compliant, ensuring environmental compliance. With a typical RDS(on) of 1.0 Ω at VGS = 4.0 V and 1.5 Ω at VGS = 2.5 V, these MOSFETs offer reliable performance in a small footprint, 30% smaller than the TSOP-6 package.

The ON Semiconductor® FDMC86102LZ is an advanced N-Channel Shielded Gate PowerTrench MOSFET designed for high-efficiency DC-DC switching applications. Featuring Shielded Gate Technology, this MOSFET boasts a maximum drain-to-source voltage (VDS) of 100 V and a continuous drain current (ID) capability of up to 22 A at 25°C. The device exhibits low on-state resistance with a maximum rDS(on) of 24 mΩ at VGS = 10 V and ID = 6.5 A, and 35 mΩ at VGS = 4.5 V and ID = 5.5 A. It includes a gate-to-source zener diode for enhanced ESD protection, with a typical HBM ESD protection level greater than 6 kV. The FDMC86102LZ is RoHS compliant, 100% UIL tested, and offers superior switching performance due to its optimized PowerTrench® process. The component is packaged in a compact MLP 3.3×3.3 format, making it ideal for space-constrained designs. Its thermal characteristics include a junction-to-case thermal resistance (RθJC) of 3°C/W and a junction-to-ambient thermal resistance (RθJA) of 53°C/W when mounted on a 1 in² pad of 2 oz copper.

The FDV301N from ON Semiconductor® is an N-Channel logic level enhancement mode field effect transistor (FET), designed using ON Semiconductor's proprietary, high cell density, DMOS technology. This component is optimized for low voltage applications, offering a compact and efficient alternative to traditional digital transistors. It boasts a drain-source voltage (VDS) of 25V, a continuous drain current of 0.22A, and a peak drain current of 0.5A. The FDV301N features very low gate drive requirements, making it suitable for direct operation in 3V circuits, with a gate threshold voltage (VGS(th)) of less than 1.06V. The device also includes a gate-source Zener diode for enhanced ESD ruggedness, rated at over 6kV Human Body Model. With a maximum RDS(ON) of 5Ω at VGS=2.7V and 4Ω at VGS=4.5V, this FET is ideal for applications requiring minimal on-state resistance. The FDV301N is available in various packages including SOT-23, SuperSOT™-6, and SuperSOT™-8, providing flexibility for different design requirements.

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design

This is a WiFi to Infrared (IR) gateway reference design leveraging an ESP32-S3 microcontroller for WiFi connectivity. It also incorporates a Type-C USB interface for data and power, 3 LEDs (red, green, & IR), and voltage regulation. It facilitates wireless control of IR devices, suitable for home automation projects. #referenceDesign #edge-computing #espressif #template #IR #project #reference-design