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DSPIC33FJ128GP802-E/SO
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DSPIC33FJ128GP802-E/SO

Product Overview

  • Category: Microcontroller
  • Use: Embedded systems, control applications
  • Characteristics: High-performance, low-power consumption, integrated peripherals
  • Package: SOIC (Small Outline Integrated Circuit)
  • Essence: Digital Signal Controller (DSC) with advanced features
  • Packaging/Quantity: Tape and reel, 250 units per reel

Specifications

  • Architecture: Modified Harvard architecture
  • CPU Speed: Up to 40 MIPS (Million Instructions Per Second)
  • Flash Memory: 128 KB
  • RAM: 8 KB
  • Operating Voltage: 2.5V - 3.6V
  • Digital I/O Pins: 35
  • Analog Inputs: 16
  • UART: 4
  • SPI: 3
  • I2C: 2
  • PWM Channels: 9
  • Timers: 5
  • Comparators: 4
  • ADC Resolution: 10-bit
  • Temperature Range: -40°C to +85°C

Pin Configuration

The DSPIC33FJ128GP802-E/SO microcontroller has a total of 44 pins. The pin configuration is as follows:

  1. VDD
  2. VSS
  3. AN0/RB0
  4. AN1/RB1
  5. AN2/RB2
  6. AN3/RB3
  7. AN4/RB4
  8. AN5/RB5
  9. AN6/RB6
  10. AN7/RB7
  11. AN8/RB8
  12. AN9/RB9
  13. AN10/RB10
  14. AN11/RB11
  15. AN12/RB12
  16. AN13/RB13
  17. AN14/RB14
  18. AN15/RB15
  19. VCAP
  20. VSS
  21. AVDD
  22. AVSS
  23. OSC1/CLKI
  24. OSC2/CLKO
  25. REFO/RF0
  26. RF1
  27. RF2
  28. RF3
  29. RF4
  30. RF5
  31. RF6
  32. RF7
  33. RF8
  34. RF9
  35. RF10
  36. RF11
  37. RF12
  38. RF13
  39. RF14
  40. RF15
  41. VUSB3V3
  42. VBUS
  43. USBID
  44. VUSB3V3

Functional Features

  • High-performance digital signal processing capabilities
  • Integrated peripherals for enhanced functionality
  • Efficient power management for low-power applications
  • Flexible communication interfaces (UART, SPI, I2C)
  • Multiple PWM channels for precise control
  • Rich set of timers and comparators for timing and measurement tasks
  • 10-bit ADC for analog signal acquisition
  • Wide operating temperature range for diverse environments

Advantages and Disadvantages

Advantages: - High-performance processing capabilities - Integrated peripherals reduce external component count - Low-power consumption for energy-efficient designs - Versatile communication interfaces for connectivity options - Ample memory for code and data storage - Robust temperature range for various applications

Disadvantages: - Limited number of I/O pins compared to some other microcontrollers - Higher cost compared to entry-level microcontrollers - Steeper learning curve for beginners due to advanced features

Working Principles

The DSPIC33FJ128GP802-E/SO operates based on a modified Harvard architecture, combining the benefits of both Harvard and Von Neumann architectures. It features a high-performance CPU capable of executing up to 40 million instructions per second. The microcontroller utilizes its integrated peripherals, such as UART, SPI, I2C, PWM channels, timers, comparators, and ADC, to perform various control and communication tasks. It operates within a specified voltage range and can withstand a wide temperature range.

Detailed Application Field Plans

The DSPIC33FJ128GP802-E/SO microcontroller finds applications in various fields, including:

  1. Industrial automation: Control systems for manufacturing processes, motor control, robotics.
  2. Automotive: Engine management, vehicle diagnostics, dashboard displays.
  3. Consumer electronics: Home automation, smart appliances, audio/video systems.
  4. Medical devices: Patient monitoring, diagnostic equipment, medical imaging.
  5. Power electronics: Inverters, power supplies, renewable energy systems.

Alternative Models

  • PIC24FJ128GA802
  • dsPIC33EP128GS802
  • PIC32MX795F512L

These alternative models offer similar capabilities and can be considered as alternatives to

Texniki həllərdə DSPIC33FJ128GP802-E/SO tətbiqi ilə bağlı 10 ümumi sual və cavabı sadalayın

  1. What is the maximum operating frequency of DSPIC33FJ128GP802-E/SO?

    • The maximum operating frequency of DSPIC33FJ128GP802-E/SO is 40 MHz.

  2. What are the key features of DSPIC33FJ128GP802-E/SO?

    • The key features of DSPIC33FJ128GP802-E/SO include 16-bit microcontroller, high-performance DSC core, and integrated peripherals.

  3. Can DSPIC33FJ128GP802-E/SO be used for motor control applications?

    • Yes, DSPIC33FJ128GP802-E/SO is suitable for motor control applications due to its advanced PWM modules and motor control peripherals.

  4. What communication interfaces are supported by DSPIC33FJ128GP802-E/SO?

    • DSPIC33FJ128GP802-E/SO supports SPI, I2C, UART, and CAN communication interfaces.

  5. Is DSPIC33FJ128GP802-E/SO suitable for digital power supply applications?

    • Yes, DSPIC33FJ128GP802-E/SO is well-suited for digital power supply applications with its high-resolution PWM and analog-to-digital converter (ADC) capabilities.

  6. What development tools are available for programming DSPIC33FJ128GP802-E/SO?

    • Development tools such as MPLAB X IDE and MPLAB XC16 Compiler can be used for programming DSPIC33FJ128GP802-E/SO.

  7. Does DSPIC33FJ128GP802-E/SO support real-time control applications?

    • Yes, DSPIC33FJ128GP802-E/SO is designed for real-time control applications with its deterministic and low-latency operation.

  8. What are the recommended operating conditions for DSPIC33FJ128GP802-E/SO?

    • The recommended operating voltage range for DSPIC33FJ128GP802-E/SO is 2.5V to 3.6V, and the temperature range is -40°C to 125°C.

  9. Can DSPIC33FJ128GP802-E/SO be used in automotive electronics applications?

    • Yes, DSPIC33FJ128GP802-E/SO is suitable for automotive electronics applications with its robust design and AEC-Q100 qualification.

  10. Are there any application notes or reference designs available for DSPIC33FJ128GP802-E/SO?

    • Yes, Microchip provides application notes and reference designs for various technical solutions using DSPIC33FJ128GP802-E/SO.