This is a climate control system reference design with a STM32WB5 microcontroller, power manager IC, USB Type-C, JST connectors, and an LCD driver. #referenceDesign #edge-computing #edgeComputing #stm #template #iot #control #BLE #reference-design

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CT Scanner DAS board design based on DDC232 ADC, iCE40 UltraPlus FPGA, and STM32F745 MCU integration. Designed for efficient data acquisition and processing #scanner #ice40 #computedTomography #STM32F745

CT Scanner DAS board design based on DDC232 ADC, iCE40 UltraPlus FPGA, and STM32F745 MCU integration. Designed for efficient data acquisition and processing #scanner #ice40 #computedTomography #STM32F745

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A circuit for a gps tracker using stm32f103c8t6 and sim 808, that acquires and sends gps coordinates to a separate interfaced application. The circuit will be powered by a 12v dc battery so there a need for power regulation. there is a USB type micro B for code uploading.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Product Type: Wearable AI pendant Primary Function: Records audio, generates transcripts, and organizes information about daily interactions User Interaction: Input: Activation button Output: RGB LED ring, Bluetooth link to phone Key Features: Audio Recording: Activated by button press Transcription: Converts audio to text Sentiment Analysis: Embedded AI evaluates sentiment Information Management: Filters essential information and action items Technical Specifications Form Factor: Wearable pendant Display: RGB LED ring around the edge Sensors: 2 Microphones 1 Button Connectivity: Bluetooth for phone linkage Wi-Fi USB-C for charging Wireless Protocol: Wi-Fi, Bluetooth Battery Type: LiPo 2000 mAh Battery Life: 6 hours of continuous use Charging Method: USB-C Operating Voltage: 3.3V Operating Conditions: Temperature Range: -10°C to 70°C Humidity: 10 to 90% Software: Python for AI and processing Compliance: RoHS, FCC, CE Reliability: 20,000 hrs Life Cycle Expectancy: 10 years AI Capabilities Speech to Text Recognition: Converts audio input to written text Embedded AI Sentiment Analysis: Evaluates the mood or sentiment expressed in the text Essential Information Filtering: Identifies and segregates crucial data and actionable items Power Consumption and Efficiency Power consumption must align with battery capacity to ensure 6 hours of continuous operational use.

Step-down type -40℃~+125℃@(TJ) 1 Step-down Adjustable 0.768V~7V 3A 4.5V~17V 580kHz SOT-23-6 DC-DC Converters ROHS #RegulatorSwitching #commonpartslibrary

Product Type: Wearable AI pendant Primary Function: Records audio, generates transcripts, and organizes information about daily interactions User Interaction: Input: Activation button Output: RGB LED ring, Bluetooth link to phone Key Features: Audio Recording: Activated by button press Transcription: Converts audio to text Sentiment Analysis: Embedded AI evaluates sentiment Information Management: Filters essential information and action items Technical Specifications Form Factor: Wearable pendant Display: RGB LED ring around the edge Sensors: 2 Microphones 1 Button Connectivity: Bluetooth for phone linkage Wi-Fi USB-C for charging Wireless Protocol: Wi-Fi, Bluetooth Battery Type: LiPo 2000 mAh Battery Life: 6 hours of continuous use Charging Method: USB-C Operating Voltage: 3.3V Operating Conditions: Temperature Range: -10°C to 70°C Humidity: 10 to 90% Software: Python for AI and processing Compliance: RoHS, FCC, CE Reliability: 20,000 hrs Life Cycle Expectancy: 10 years AI Capabilities Speech to Text Recognition: Converts audio input to written text Embedded AI Sentiment Analysis: Evaluates the mood or sentiment expressed in the text Essential Information Filtering: Identifies and segregates crucial data and actionable items Power Consumption and Efficiency Power consumption must align with battery capacity to ensure 6 hours of continuous operational use.

555 Type, Timer/Oscillator (Single) IC 1Mhz 8-PDIP

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Also known as sinewave generator and AC source, a type of electronic equipment that generates an oscillating frequency in a sinusoidal pattern.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.