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DRV8703DQRHBRQ1
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DRV8703DQRHBRQ1

Product Overview

Category: Integrated Circuit (IC)

Use: Motor Driver

Characteristics: - High-performance motor driver - Designed for automotive applications - Supports brushed DC motors and stepper motors - Provides efficient and precise motor control

Package: QFN (Quad Flat No-Lead)

Essence: The DRV8703DQRHBRQ1 is a highly reliable and versatile motor driver IC specifically designed for automotive applications. It offers efficient and precise control over brushed DC motors and stepper motors.

Packaging/Quantity: The DRV8703DQRHBRQ1 is available in a QFN package, which stands for Quad Flat No-Lead. This package type ensures easy integration into various electronic systems. The quantity of the product per package may vary depending on the supplier.

Specifications

The DRV8703DQRHBRQ1 motor driver IC has the following specifications:

  • Operating Voltage Range: 6V to 45V
  • Output Current: Up to 3A
  • Number of Outputs: 1
  • Control Interface: PWM (Pulse Width Modulation)
  • Fault Protection Features: Overcurrent, Overtemperature, Undervoltage, and Short-Circuit Protection

Pin Configuration

The pin configuration of the DRV8703DQRHBRQ1 motor driver IC is as follows:

  1. VCP - Charge Pump Capacitor Connection
  2. VCP - Charge Pump Capacitor Connection
  3. GND - Ground
  4. VCP - Charge Pump Capacitor Connection
  5. VCP - Charge Pump Capacitor Connection
  6. VCP - Charge Pump Capacitor Connection
  7. VCP - Charge Pump Capacitor Connection
  8. VCP - Charge Pump Capacitor Connection
  9. VCP - Charge Pump Capacitor Connection
  10. VCP - Charge Pump Capacitor Connection
  11. VCP - Charge Pump Capacitor Connection
  12. VCP - Charge Pump Capacitor Connection
  13. VCP - Charge Pump Capacitor Connection
  14. VCP - Charge Pump Capacitor Connection
  15. VCP - Charge Pump Capacitor Connection
  16. VCP - Charge Pump Capacitor Connection
  17. VCP - Charge Pump Capacitor Connection
  18. VCP - Charge Pump Capacitor Connection
  19. VCP - Charge Pump Capacitor Connection
  20. VCP - Charge Pump Capacitor Connection
  21. VCP - Charge Pump Capacitor Connection
  22. VCP - Charge Pump Capacitor Connection
  23. VCP - Charge Pump Capacitor Connection
  24. VCP - Charge Pump Capacitor Connection
  25. VCP - Charge Pump Capacitor Connection
  26. VCP - Charge Pump Capacitor Connection
  27. VCP - Charge Pump Capacitor Connection
  28. VCP - Charge Pump Capacitor Connection
  29. VCP - Charge Pump Capacitor Connection
  30. VCP - Charge Pump Capacitor Connection
  31. VCP - Charge Pump Capacitor Connection
  32. VCP - Charge Pump Capacitor Connection
  33. VCP - Charge Pump Capacitor Connection
  34. VCP - Charge Pump Capacitor Connection
  35. VCP - Charge Pump Capacitor Connection
  36. VCP - Charge Pump Capacitor Connection
  37. VCP - Charge Pump Capacitor Connection
  38. VCP - Charge Pump Capacitor Connection
  39. VCP - Charge Pump Capacitor Connection
  40. VCP - Charge Pump Capacitor Connection
  41. VCP - Charge Pump Capacitor Connection
  42. VCP - Charge Pump Capacitor Connection
  43. VCP - Charge Pump Capacitor Connection
  44. VCP - Charge Pump Capacitor Connection
  45. VCP - Charge Pump Capacitor Connection
  46. VCP - Charge Pump Capacitor Connection
  47. VCP - Charge Pump Capacitor Connection
  48. VCP - Charge Pump Capacitor Connection
  49. VCP - Charge Pump Capacitor Connection
  50. VCP - Charge Pump Capacitor Connection
  51. VCP - Charge Pump Capacitor Connection
  52. VCP - Charge Pump Capacitor Connection
  53. VCP - Charge Pump Capacitor Connection
  54. VCP - Charge Pump Capacitor Connection
  55. VCP - Charge Pump Capacitor Connection
  56. VCP - Charge Pump Capacitor Connection
  57. VCP - Charge Pump Capacitor Connection
  58. VCP - Charge Pump Capacitor Connection
  59. VCP - Charge Pump Capacitor Connection
  60. VCP - Charge Pump Capacitor Connection
  61. VCP - Charge Pump Capacitor Connection
  62. VCP - Charge Pump Capacitor Connection
  63. VCP - Charge Pump Capacitor Connection
  64. VCP - Charge Pump Capacitor Connection

Functional Features

The DRV8703DQRHBRQ1

Énumérez 10 questions et réponses courantes liées à l'application de DRV8703DQRHBRQ1 dans les solutions techniques

Sure! Here are 10 common questions and answers related to the application of DRV8703DQRHBRQ1 in technical solutions:

1. What is the DRV8703DQRHBRQ1? The DRV8703DQRHBRQ1 is a motor driver IC designed for driving brushed DC motors or solenoids in automotive applications.

2. What is the maximum voltage rating of the DRV8703DQRHBRQ1? The DRV8703DQRHBRQ1 has a maximum voltage rating of 45V, making it suitable for a wide range of automotive applications.

3. How much current can the DRV8703DQRHBRQ1 handle? The DRV8703DQRHBRQ1 can handle a continuous output current of up to 3A, making it suitable for driving small to medium-sized motors.

4. Does the DRV8703DQRHBRQ1 support bidirectional control? Yes, the DRV8703DQRHBRQ1 supports bidirectional control, allowing you to drive the motor in both forward and reverse directions.

5. Can the DRV8703DQRHBRQ1 handle PWM signals for speed control? Yes, the DRV8703DQRHBRQ1 supports PWM (Pulse Width Modulation) signals for speed control, allowing you to vary the motor speed based on the duty cycle of the PWM signal.

6. Is the DRV8703DQRHBRQ1 compatible with microcontrollers? Yes, the DRV8703DQRHBRQ1 is compatible with microcontrollers and can be easily controlled using digital signals from a microcontroller.

7. Does the DRV8703DQRHBRQ1 have built-in protection features? Yes, the DRV8703DQRHBRQ1 includes various built-in protection features such as overcurrent protection, undervoltage lockout, and thermal shutdown to ensure safe operation.

8. Can the DRV8703DQRHBRQ1 be used in automotive applications? Yes, the DRV8703DQRHBRQ1 is specifically designed for automotive applications and meets the necessary automotive standards.

9. What is the operating temperature range of the DRV8703DQRHBRQ1? The DRV8703DQRHBRQ1 has an operating temperature range of -40°C to 150°C, allowing it to withstand harsh automotive environments.

10. Does the DRV8703DQRHBRQ1 require any external components for operation? Yes, the DRV8703DQRHBRQ1 requires a few external components such as power supply capacitors, bootstrap capacitors, and current sense resistors for proper operation.

Please note that these answers are general and may vary depending on the specific application and requirements. It is always recommended to refer to the datasheet and application notes provided by the manufacturer for detailed information.