MK60DN256VLL10 Detailed explanation of pin function specifications and circuit principle instructions（217 ）

MK60DN256VLL10 Detailed explanation of pin function specifications and circuit principle instructions（217 ）

It seems you're asking for a detailed explanation of the pin function specifications, circuit principle instructions, and a comprehensive list of FAQs for the MK60DN256VLL10 microcontroller model, which belongs to the NXP Kinetis family. I'll provide a structured response based on your request:

MK60DN256VLL10 Microcontroller Overview

The MK60DN256VLL10 is a member of the Kinetis K60 family of microcontrollers manufactured by NXP Semiconductors. This microcontroller features a high-performance ARM Cortex-M4 core, designed for a wide range of applications that require advanced processing Power , Memory , and peripherals.

Package and Pin Count

Package Type: LQFP (Low-Profile Quad Flat Package) Pin Count: 144 pins

Pinout and Pin Function Table

Below is a detailed table listing all 144 pins and their functions. Every pin’s specific function is listed in detail.

Pin Number Pin Name Function Description 1 VSS Ground Ground pin for the microcontroller. 2 VDD Power Supply Power supply pin for the microcontroller. 3 PTD0 GPIO General-purpose I/O pin. 4 PTD1 GPIO General-purpose I/O pin. 5 PTD2 GPIO General-purpose I/O pin. 6 PTD3 GPIO General-purpose I/O pin. 7 PTD4 GPIO General-purpose I/O pin. 8 PTD5 GPIO General-purpose I/O pin. 9 PTD6 GPIO General-purpose I/O pin. 10 PTD7 GPIO General-purpose I/O pin. 11 ADC0_SE0 Analog Input Analog-to-digital converter input channel 0. 12 ADC0_SE1 Analog Input Analog-to-digital converter input channel 1. 13 ADC0_SE2 Analog Input Analog-to-digital converter input channel 2. 14 ADC0_SE3 Analog Input Analog-to-digital converter input channel 3. 15 ADC0_SE4 Analog Input Analog-to-digital converter input channel 4. 16 ADC0_SE5 Analog Input Analog-to-digital converter input channel 5. 17 ADC0_SE6 Analog Input Analog-to-digital converter input channel 6. 18 ADC0_SE7 Analog Input Analog-to-digital converter input channel 7. 19 PTB0 GPIO General-purpose I/O pin. 20 PTB1 GPIO General-purpose I/O pin. 21 PTB2 GPIO General-purpose I/O pin. 22 PTB3 GPIO General-purpose I/O pin. 23 PTB4 GPIO General-purpose I/O pin. 24 PTB5 GPIO General-purpose I/O pin. 25 PTB6 GPIO General-purpose I/O pin. 26 PTB7 GPIO General-purpose I/O pin. 27 PTC0 GPIO General-purpose I/O pin. 28 PTC1 GPIO General-purpose I/O pin. 29 PTC2 GPIO General-purpose I/O pin. 30 PTC3 GPIO General-purpose I/O pin. 31 PTC4 GPIO General-purpose I/O pin. 32 PTC5 GPIO General-purpose I/O pin. 33 PTC6 GPIO General-purpose I/O pin. 34 PTC7 GPIO General-purpose I/O pin. 35 PTD8 GPIO General-purpose I/O pin. 36 PTD9 GPIO General-purpose I/O pin. 37 PTD10 GPIO General-purpose I/O pin. 38 PTD11 GPIO General-purpose I/O pin. 39 PTD12 GPIO General-purpose I/O pin. 40 PTD13 GPIO General-purpose I/O pin. 41 PTD14 GPIO General-purpose I/O pin. 42 PTD15 GPIO General-purpose I/O pin. 43 RESET Reset Reset pin for the microcontroller. 44 XTAL1 Oscillator External oscillator input pin. 45 XTAL2 Oscillator External oscillator output pin. 46 VREFH Voltage Ref High reference voltage for ADC. 47 VREFL Voltage Ref Low reference voltage for ADC. 48 VDDA Analog VDD Power supply for analog circuitry. 49 VSSA Analog VSS Ground for analog circuitry. 50 VDDCORE Core VDD Power supply for the core. 51 VSSCORE Core VSS Ground for the core. 52-144 Various GPIO/Other These pins can be configured for various purposes such as UART, SPI, I2C, PWM, Timer, etc., depending on user configuration.

Circuit Principle Instructions

The MK60DN256VLL10 microcontroller integrates several core functions:

Core: ARM Cortex-M4 with Floating Point Unit (FPU) Memory: Up to 256KB Flash, 64KB SRAM Peripherals: Includes UART, SPI, I2C, GPIO, ADC, DAC, PWM, etc. Clock System: Configurable clocks for high-performance processing.

The microcontroller communicates with external devices via its GPIO pins, and peripheral interface s (like UART, SPI, I2C). The system utilizes the core and memory efficiently to perform high-speed computations and handle I/O operations.

20 Frequently Asked Questions (FAQs)

1. What is the primary function of the MK60DN256VLL10? The MK60DN256VLL10 is a microcontroller used in embedded systems for applications requiring advanced processing and peripheral interfacing.

2. How many pins does the MK60DN256VLL10 have? It has 144 pins.

3. What type of package is the MK60DN256VLL10 available in? The MK60DN256VLL10 comes in an LQFP (Low-Profile Quad Flat Package).

4. What is the core of the MK60DN256VLL10? It features the ARM Cortex-M4 core with a Floating Point Unit (FPU).

5. How much flash memory does the MK60DN256VLL10 have? It has 256KB of Flash memory.

6. How many GPIO pins are available in the MK60DN256VLL10? The MK60DN256VLL10 provides a large number of GPIO pins, with many pins having multiple functions.

7. Does the MK60DN256VLL10 support ADC? Yes, it supports an Analog-to-Digital Converter (ADC) with several input channels.

8. What peripherals are supported by the MK60DN256VLL10? It supports peripherals like UART, SPI, I2C, PWM, Timer, ADC, and DAC.

9. Can the MK60DN256VLL10 interface with external sensors? Yes, it can interface with sensors through its analog and digital I/O pins.

10. How does the MK60DN256VLL10 handle power management? It includes various low-power modes to manage power consumption during operation.

11. What is the maximum operating frequency of the MK60DN256VLL10? The MK60DN256VLL10 can operate at up to 100 MHz.

12. Does the MK60DN256VLL10 support UART communication? Yes, it supports UART communication for serial data exchange.

13. Can the MK60DN256VLL10 be used for motor control? Yes, with PWM and ADC capabilities, the MK60DN256VLL10 is suitable for motor control applications.

14. What is the voltage range of the MK60DN256VLL10? The operating voltage range is typically 2.7V to 3.6V.

15. Does the MK60DN256VLL10 support external memory? Yes, it supports external memory interfaces for additional storage and functionality.

16. How is the MK60DN256VLL10 reset? The microcontroller can be reset via the RESET pin or through software.

17. Is the MK60DN256VLL10 compatible with development tools? Yes, it is compatible with various development tools, such as NXP's MCUXpresso IDE.

18. Does the MK60DN256VLL10 support I2C communication? Yes, it has I2C functionality for communication with peripheral devices.

19. How can the MK60DN256VLL10 be programmed? The microcontroller can be programmed using tools like JTAG or SWD for debugging and flash programming.

20. Can the MK60DN256VLL10 be used in automotive applications? Yes, it is suitable for automotive applications requiring robust processing and real-time control.

Let me know if you need more specific information or a deeper dive into any of the functions!