S32K118EVB: S32K118 evaluation board

S32K118EVB is a low-cost evaluation board for the S32K118

18V/400W High Efficiency (98%) Compact Brushless DC Motor Driver Reference Design with Stall Current Limit

TIDA-00772 is an 18A RMS driver for three-phase brushless DC (BLDC) motors in power tools powered by 5-cell Li-ion batteries (up to 21V). The design is a compact 45 x 50 mm actuator that enables sensor-based trapezoidal control. The design uses a discrete compact MOSFET-based three-phase inverter that delivers 18A RMS continuous (60A peak for 1 second) winding current without the need for any external cooling devices or heat sinks. The gate driver's slew rate control and charge pump ensure maximum inverter efficiency (>98% at 18V DC) with optimal EMI performance. Cycle-by-cycle overcurrent protection prevents large stall currents in the power stage, and the board can operate in ambient temperatures up to 55°C. The small form factor allows for flexible plate placement, the high efficiency allows the battery to last longer, and the 60A peak current capacity delivers high instantaneous peak torque in power tools.

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CN0256

Isolated LVDS interface circuit

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2021 College Student Electronic Design Contest Topic H Outstanding Works Collection (Electrical Appliance Analysis and Identification Device)

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CN0227

High performance, 16-bit, 250 MSPS wideband receiver with anti-aliasing filter

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Dual motor control and PFC demonstration board for STM32F103 and STGIPS20C60

Dual motor control and PFC demo board with STM32F103 and STGIPS20C60

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USB Type-C power delivery sink expansion board based on TCPP01-M12, adapted to STM32 Nucleo

The X-NUCLEO-SNK1M1 expansion board allows evaluating the features of TCPP01-M12 and the USB Type-C overvoltage protection for VBUS and CC lines suitable for Sink applications.

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USB Type-C™ to DisplayPort™ Adapter

USB Type-C™ to DisplayPort™ Adapter

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Envelope tracking power supply reference design for audio power amplifiers

This envelope tracking power supply reference design helps extend battery life in portable audio applications such as Bluetooth® or Wi-Fi speakers. The low-power buck converter in this design features envelope tracking for audio power amplifiers, maintaining high efficiency over the output voltage range. By adding an audio envelope signal to the FB pin of TI's TPS61178 device, the output voltage can change according to the envelope of the audio signal, thereby dynamically adapting to the power supply of the TPA3128D2 power amplifier and optimizing its power consumption.

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STMod+ connector expansion board for STM32 Nucleo

STMod+ connector expansion board for STM32 Nucleo

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TESEO-LIV3FL low power module evaluation board

EVB-LIV3FL is a complete standalone evaluation platform for Teseo-LIV3FL low power GNSS module ST solution.

Development Kit for M24SR Series - Dynamic NFC/RFID Tags

M24SR Series Discovery Kit - Dynamic NFC/RFID Tags

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22W MP-A11 Fixed Frequency Transmitter Reference Design

22W MP-A11 single coil wireless charger

CN0169

How to use the 16-bit voltage output DAC AD5542A/AD5541A to achieve high-precision level setting

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CN0143

Building Single-Ended Differential Converters for Voltage Output and Current Output DACs Using the AD8042 Op Amp

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Evaluation board for STM32F303VE MCU

Evaluation board using STM32F303VE MCU

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WVGA Digital Video Serializer/Deserializer Reference Design with OpenLDI Interface for Automotive TFT LCD Displays

The TIDA-00136 reference design is a high-speed serial video interface that allows remote automotive WVGA TFT LCD displays using the OpenLDI (LVDS) interface to be connected to a video processing system. This design uses TI's FPD-Link II SerDes technology to transmit uncompressed video data over shielded twisted pair or coaxial cable. Examples of applications include rear-seat entertainment systems, automotive instrument clusters and head unit displays. This design combines the DS99R421Q1-EVK and DS90UR124-Q1 boards to form the solution.

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High-accuracy ±0.5% current and isolated voltage measurement reference design using 24-bit delta-sigma ADC

This analog front end (AFE) design shows how to connect two or more Σ-Δ ADCs for simultaneous sampling and how to expand the number of input channels to provide maximum flexibility. Precision current measurement is achieved by connecting the AFE to a current transformer (CT) and a Rogowski coil. Likewise, accurate voltage measurements are achieved using resistive voltage dividers without and with isolation amplifiers. The AFE can be configured to measure unipolar or bipolar inputs. The required power is provided onboard. Additionally, diagnostics can be integrated into one design, as shown in TIDA-00810.

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OM7864: BGA3018 Demonstration Board, 5 MHz to 300 MHz 18 dB Gain Inverting Amplifier Application

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Provides +5V and +3.3V power to portable devices from USB port

A portable device using the circuit of Figure 1 derives power from the USB bus. The MAX1811 uses USB power charges a lithium-ion (Li+) battery at, USB compatible, 100mA or 500mA rates. Battery power is then stepped up with the MAX1797 to create the 5V supply rail. The 5V supply rail is then stepped down with the MAX1837 to create the 3.3V supply rail. The circuit includes a low battery shutdown to protect the Li+ battery and offers a convenient charging LED.