50W dual-stage LED driver reference design with adaptive pre-boost control for automotive headlights

The TIDA-01520 two-stage reference design drives two LED strings in automotive headlight applications and automatically adjusts the pre-boost voltage without the need for a microcontroller (MCU), saving space and cost. In addition, the design's adaptive pre-boost control feature reduces switching losses and maximizes system efficiency for automotive headlights.

Schematic PCB

Portable low-power HD display reference design with higher brightness using DLP® technology

This display reference design uses the DLP Pico™ 0.3-inch TRP HD 720p display chipset and is implemented in the DLP LightCrafter™ Display 3010-G2 Evaluation Module (EVM). This reference design enables high resolution in projection display applications such as mobile smart TVs, virtual assistant mobile projectors, digital signage and more. This design includes the DLP3010 chipset, which consists of the DLP3010 720p digital micromirror device (DMD), DLPC3433 display controller, and DLPA3000 PMIC/LED driver.

Schematic PCB

SensorTag TI Design

The new SimpleLink™ multi-standard SensorTag kit helps you realize your Internet of Things (IoT) product ideas. The kit contains 10 low-power MEMS sensors in tiny packages that are expandable using DevPacks, making it easy to add your sensors or actuators. Connect to the cloud via Bluetooth® and get sensor data online in three minutes. SensorTag works right out of the box with iOS and Android apps, so no programming experience is required to get started. The new SensorTag is based on the CC2650 wireless microcontroller (MCU) and consumes 75% less power than previous Bluetooth products. Therefore, the SensorTag kit can be battery powered and a coin cell battery will last for many years. Bluetooth SensorTag contains iBeacon technology. As a result, your phone can launch apps and customize content based on SensorTag data and physical location. Additionally, SensorTag kits are enabled via ZigBee® and 6LoWPAN technologies. For more information, visit www.ti.com/sensortag .

Schematic PCB

AM437x low power suspend mode using LPDDR2

This low-power mode scheme achieves processor power consumption of less than 0.1 mW while maintaining LPDDR2 memory power consumption in the self-refresh state at approximately 1.6 mW. The system solution consists of AM437x Sitara processor, LPDDR2 memory and TPS65218 power management IC, and has been optimized for new low-power modes while supporting traditional low-power modes. Minimize processor power by turning off all processor power except the RTC power. System power state transitions, including power control, can be performed by a single interface signal (PMIC_PWR_EN signal) using PMIC register programming.

Schematic PCB

High-performance MCU reference design for EV/HEV battery management systems

System example of an active cell balancing battery management system. The TMS570LS0432 microcontroller commands the EMB1402 EVM to monitor the battery cells and perform charge/discharge from one battery cell to an external 12V power supply. Users can view battery status and control battery balancing through a GUI running on the host PC.

Schematic PCB

MTRCKTDPS5643L: Dual 3-phase PMSM development kit using NXP MPC5643L microcontroller

The NXP MTRCKTDPS5643L development kit is ideal for applications requiring 2 PMSM motors, such as active suspension or electric powertrain.

MTRCKTSBN5643L: Powered by NXP3-Phase Sensorless BLDC Development Kit for MPC5643L Microcontroller

MTRCKTSBN5643L: Single 3-phase Sensorless BLDC Development Kit with Qorivva MPC5643L MCU.

MTRCKTSBN5604P: 3-Phase Sensorless BLDC Development Kit with NXP MPC5604P MCU

The MTRCKTSBN5604P motor control development kit is ideal for sensorless applications requiring one BLDC motor, such as HVAC or electric pumps.

MTRCKTSPS5643L: 3-phase PMSM development kit using NXP MPC5643L MCU

NXP's MTRCKTSPS5643L development kit is suitable for applications requiring a PMSM motor, such as active suspensions and electric powertrains.

i.MX 8 Series Accessory Board

Schematic PCB

MTRCKTSPS5604P: 3-phase PMSM development kit using NXP MPC5604P MCU

The NXP MTRCKTSPS5604P development kit is ideal for applications requiring one PMSM motor, such as active suspension or electric powertrain.

TRK-MPC5606B: MPC5606B StarterTRAK Development Kit

The TRK-MPC5606B development kit for NXP® MPC560xB/C series 32-bit MCUs is the latest integrated device for automotive body electronics applications.

MPC5606EEVB: NXP MPC5606E evaluation board

^The NXP® MPC5606E MCU is a gateway system built on Power Architecture® ^{technology designed to move data from disparate sources over Ethernet.}

XPC564AEVBKIT: MPC564xA Evaluation Kit: XPC564AKIT176S, XPC564AKIT208S and XPC564AKIT324S

The XPC564A EVB is an evaluation system supporting the NXP® MPC564xA ^{microprocessor} .

MPC560xB_EVB: NXPEvaluation board for MPC560xB

The XPC560B EVB is an NXP-enabledEvaluation system for the MPC560xB microprocessor.

MPC5604EKIT: NXP MPC5604EKIT: Development kit supporting video transmission over Ethernet, equipped with NXPMPC5604E MCU

Based on NXPThe Ethernet Video Development Kit for the MPC5604E MCU is suitable for next-generation automotive and general market camera applications.

XDC564B-C: MPC564xB-C Evaluation System

The XDC564B-C is an evaluation system supporting the NXP MPC564xB-C MPUs.

MPC5777CEVB: MPC5777C motherboard and adapter

Ultra-high reliability MPC5777C MCU development tool for automotive and industrial engine management

DEVKIT-MPC5748G: Development board for MPC5748G

DEVKIT-MPC5748G is a development tool for MPC5748G MCU, based on Arduino™ standard specifications

MTRCKTDBN5643L: Dual 3-phase sensorless BLDC development kit using NXP MPC5643L microcontroller

NXP's MTRCKTDBN5643L motor control development kit is suitable for sensorless applications requiring two BLDC motors, such as HVAC or electric pumps.