Каталог решений

forward

Управление дверями

Описание:
The PIC18F4XK22 Development Board is a demonstration and development platform for Microchip’s new PIC18F4X/2XK22 series high performance 8-bit microcontrollers. The board provides a platform to highlight this family’s eXtreme Low Power benchmark for lower power consumption and high-performance operation. . It includes the development board, programming lessons, and demos.

The board is suitable for prototyping many low power applications including RF, temperature sensors, electronic door locks, LCD , remote controls, security sensors, smart cards. The PICtail™ interface supports Microchip’s extensive line of daughter cards for easy evaluation of your next low power application.
This low cost board is the ideal complement to the MPLAB® PICkit 3 or ICD 3 debugger and programmer realizing a fully-featured, economical, PIC18 architecture development environment.

Newer version development tools are available now. Please consider Explorer 8 Development Board (DM160228) for new designs
Возможности:

  • 128x64 Organic LED Display (SPI)
  • 32.768 kHz External Oscillator (Timer1)
  • Analog input filtering and gain control into RE1
  • PWM output filtering from RC2
  • 4 push buttons for user interfacing
  • 1 MCLR switch
  • 8 LEDs mapped to PORTD
  • Potentiometer
  • 1024 KB Serial EEPROM
  • MCP9700 temperature sensor
  • PICtail™ daughter board header (breaks out all pins)
  • 6-Pin ICSP™ programming capability header
  • 6-Pin PICkit Serial Analyzer interface
  • Current measurement jumper
  • RJ-11 ICSP programming header
    Power analyzer header

Документация:
  • Даташит
  • Схемотехника
  • Тестирование
Описание:
This reference design supplies power for a car opener by using a PWM controller, the TL5001-Q1 . The device has an input from 3V-5V with an output of up to 10V at 2.5A due to the buck/boost controller. The design can handle up to 25W of power.

Возможности:

Complete PWM power control which provides a low cost solution Wide input operating voltage from 3.6V to 40V Variable dea time provides control over total range Internal protection for short-circuit and under-voltage lockout circuitry

Возможность заказа
  • Заказать BOM
Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
This TIDA-00145 reference design features the DRV8801EVM which enables a simple to use platform to demonstrate the capabilities and performance of the DRV8801 motor driver for power folding side mirrors. This TI Design is also intended to allow easy evaluation of the automotive qualified version part, DRV8801-Q1. The DRV8801 is a 2.8A peak Full Bridge Brushed DC motor driver capable of driving the retracting function of vehicle side view mirrors. With the built-in automotive protection features of overcurrent, thermal, shoot-through, UVLO protection, and wide input voltage range, this motor driver provides the necessary features to survive the harsh automotive environment. Also, this TI Design provides test data to allow the designer to quickly evaluate the performance of the DRV8801 for their folding wing mirror modules.This design incorporates the DRV8801EVM board to create the solution.

Возможности:

Single H-Bridge motor driver with integrated protection Wide 8V to 38V input supply range easily supports +12V industry standard supplies EVM includes easy to use GUI Phase/enable control interface provides a simple, 2-pin control interface for motor operation Brake mode support allows the motor to stop quickly AEC-Q100 Device Options for EVM ICs Available

Возможность заказа
  • Заказать BOM
  • Заказать PCB
Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Топология платы
  • Тестирование
Описание:
This automotive door control switch reference design showcases a proof-of-concept solution for an automotive door control switch panel that communicates wirelessly to the door side mirror, window lift and door lock mechanisms. Using TI's automotive qualified BLE + MCU CC2541-Q1 system-on-chip solution, this reference design enables cost, weight, and ultimately fuel savings by replacing expensive and heavy cable harnesses.

Возможности:

Simple proof-of-concept design demonstrating TI Bluetooth® low energy for automotive control applications Enables the replacement of wires and harnesses through a robust and mature Bluetooth ultra-low power SoC solution with full Bluetooth low energy certification Dual-power input includes coin cell battery mode for fully independent portable operation Wide input voltage range 3V to 50V LDO for direct car battery operation with integrated reverse battery protection Functionality in start-stop and cold start environments AEC-Q100 qualified device Automotive-qualified CC2541-Q1 available (Note: There is a slight pinout change from CC2541)

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Тестирование
Описание:
This automotive wireless external mirror control reference design showcases a proof-of-concept solution for an automotive power side view mirror that communicates wirelessly with a control switch. Using TI's automotive-qualified BLE + MCU CC2541-Q1 system-on-chip solution, this reference design enables cost, weight, and fuel savings by replacing expensive and heavy cable harnesses. This SoC also pairs seamlessly with TI's integrated H-bridge motor driver solutions, DRV8801-Q1 and DRV8802-Q1, for fold and mirror position adjustment features. Also, to drive the mirror's heating element, TI's single channel integrated smart FET TPS1H100B-Q1 is used.

Возможности:

AEC-Q100 qualified devices Automotive-qualified CC2541-Q1 available (Note: There is a slight pinout change from CC2541) Allows the replacement of wires through a robust and mature Bluetooth ultra-low power SoC solution with full Bluetooth low energy certification Single H-bridge motor driver and dual H-bridge motor driver solutions with integrated protection features of overcurrent, thermal, and undervoltage lockout for higher system reliability Wide input voltage range 3V to 50V LDO for direct battery connection with integrated reverse battery protection Functionality in start-stop environments

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Тестирование
Описание:

Проект подсчёта количества событий на базе индуктивного детектирования (LDC) с надёжным и бюджетным интерфейсом для приложений с высокоскоростными измерениями и подсчётом количества событий. Данное решение не требует применения магнитов и стабильно работает в присутствии грязи, влаги или масла, что обычно осложняет применение других технологий детектирования.

Данный базовый проект имеет характер аппаратного решения.

Возможности:

  • Высоконадёжный бесконтактный счётчик количества событий с применением технологии LDC
  • Калибровка не требуется
  • Измерение со скоростью более 300 событий в секунду
  • Не требуется применение постоянных магнитов; эффективно работает даже в присутствии магнитных или электрических помех

Возможность заказа
  • Заказать PCB
Документация:
  • Даташит
  • Схемотехника
  • BOM
Описание:
This reference design shows example implementations of how to handle a variety of high-voltage (HV) switch inputs using a multi-switch detection interface (MSDI) device. This user's guide gives real-world examples of a MSDI device handling HV switch inputs for body control module (BCM), faceplate, and top column module (TCM)applications. In addition, the design utilizes a wide-VIN low-dropout (LDO) regulator for creating a fixed 3.3-V microcontroller supply voltage.

Возможности:

This reference design shows example implementations of how to handle a variety of high-voltage (HV) switch inputs using a multi-switch detection interface (MSDI) device. This user's guide gives real-world examples of a MSDI device handling HV switch inputs for body control module (BCM), faceplate, and top column module (TCM)applications. In addition, the design utilizes a wide-VIN low-dropout (LDO) regulator for creating a fixed 3.3-V microcontroller supply voltage.

Документация:
  • Схемотехника
  • BOM
Описание:
The demand to retain memory on the position of the seat, window, sliding door, mirror, lift-gate, and others driven by that motor has increased as small motors within the modern automotive vehicle continue to evolve. Existing solutions utilize multiple magnetic sensors attached to the body of a motor to provide a feedback loop to the motor control module. A sensorless approach provides redundancy for existing solutions and, in some cases, removes the requirement for motors with sensors attached. The sensorless approach has become increasingly popular through the implementation of an in-line, current-sense signal-conditioning circuit. This reference design provides a solution that is easily modifiable for many automotive motor systems that control position measurement.
Возможности:

Configurable for many DC motor solutions -14V to 80V wide common mode input range for in-line motor current sensing Operational for typical 9V to 18V battery supply Simple interfacing with MSP430™ LaunchPad™ Development Kit for digital capture

Документация:
  • Схемотехника
  • BOM

Сравнение позиций

  • ()