Allicdata Part #: | MKE02Z32VLD2R-ND |
Manufacturer Part#: |
MKE02Z32VLD2R |
Price: | $ 1.04 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | NXP USA Inc |
Short Description: | IC MCU 32BIT 32KB FLASH 44LQFP |
More Detail: | ARM® Cortex®-M0+ Kinetis KE02 Microcontroller IC 3... |
DataSheet: | MKE02Z32VLD2R Datasheet/PDF |
Quantity: | 1000 |
1500 +: | $ 0.94374 |
Program Memory Size: | 32KB (32K x 8) |
Supplier Device Package: | 44-LQFP (10x10) |
Package / Case: | 44-LQFP |
Operating Temperature: | -40°C ~ 105°C (TA) |
Oscillator Type: | Internal |
Data Converters: | A/D 16x12b, D/A 2x6b |
Voltage - Supply (Vcc/Vdd): | 2.7 V ~ 5.5 V |
RAM Size: | 4K x 8 |
EEPROM Size: | 256 x 8 |
Program Memory Type: | FLASH |
Series: | Kinetis KE02 |
Number of I/O: | 37 |
Peripherals: | LVD, PWM, WDT |
Connectivity: | I²C, SPI, UART/USART |
Speed: | 20MHz |
Core Size: | 32-Bit |
Core Processor: | ARM® Cortex®-M0+ |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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Embedded - Microcontrollers
Microcontrollers are small and integrated devices that are used to control and maintain the operations of a variety of electronic systems. The MKZ32VLD2R microcontroller is a powerful integrated device, specifically designed for low power applications. The device is widely used in a wide variety of fields, from automotive and consumer electronics to medical and industrial applications, as it combines a comprehensive suite of integrated peripherals with a wide variety of peripherals and a highly advanced, high performance processor core.
Application in Automotive, Consumer Electronics and Medical
The MKZ32VLD2R microcontroller is designed for use in a range of automotive applications, including vehicle management systems, engine management systems and braking and steering systems. The device is also used for a range of consumer electronics, including home entertainment and home automation systems. The device can be used for medical applications, including medical device control, patient monitoring and life support systems.
The device is highly robust and durable, making it ideal for use in conditions where reliability is critical. The device also boasts low power consumption, enabling it to be operated over extended periods of time without the need for frequent recharging or power-intensive maintenance.
Peripherals and Processor Core
The MKZ32VLD2R microcontroller is equipped with a wide array of integrated peripherals, including a Serial Peripheral Interface (SPI), I2C, Pulse Width Modulation (PWM) and Enhanced Direct Memory Access (EDMA). The device is also equipped with a variety of other peripheral support options, including a USB controller, CAN controller, temperature sensors and a range of GPIOs (General Purpose Input Output).
The device is powered by a highly advanced, high performance processor core. The core combines a 32-bit ARM Cortex-M processor, with a single cycle multiplication and division module and a 16-bit RISC (Reduced Instruction Set Computing) processor. The device is capable of executing instructions at a maximum clock speed of 72 MHz, providing high levels of performance for embedded applications.
Working Principle
In order to understand how a microcontroller works, it is important to understand the basic components and principles of operation. The basic components of a microcontroller can be roughly divided into two key sections; the processor core and the peripherals. The processor core is responsible for executing instructions from a program written in a machine language, while the peripherals are responsible for providing the microcontroller with the data that it needs to carry out its operations.
At the heart of the microcontroller is the processor core. The core is responsible for interpreting the commands of the program and transforming them into set of instructions that the microcontroller can execute. These instructions are used to control a number of operations including input and output, as well as data manipulation. Peripherals are connected to the processor core providing the necessary data and information, as well as providing the microcontroller with the ability to interact with the outside world.
The core of the microcontroller is programmed using an assembly language or a high-level language. The program written in these languages is run on the microcontroller by the processor core. The processor core is connected to the peripherals, enabling the instructions to be executed and the data to be retrieved from the peripherals.
Once the program is loaded and executed, the processor core is responsible for running the instructions provided by the program. These instructions can be used to control the various operations of the microcontroller, from reading from a sensor to sending commands to an actuator. Once the program has completed execution, the microcontroller is then ready to carry out the next instruction provided by the program.
Conclusion
The MKZ32VLD2R microcontroller is a powerful and highly integrated device designed for low power applications. The device is widely used in a wide variety of fields, from automotive and consumer electronics to medical and industrial applications. The device is equipped with a wide array of integrated peripherals, including a Serial Peripheral Interface (SPI), I2C, Pulse Width Modulation (PWM) and Enhanced Direct Memory Access (EDMA). The device is powered by a highly advanced, high performance processor core. The core combines a 32-bit ARM Cortex-M processor, with a single cycle multiplication and division module and a 16-bit RISC (Reduced Instruction Set Computing) processor.
The device is capable of executing instructions at a maximum clock speed of 72 MHz, providing high levels of performance for embedded applications. The basic operations of the microcontroller are based on instructions given by programs, which are executed by the processor core. The instructions are used to control a number of operations, including data manipulation and input and output. The processor core is connected to the peripherals, enabling the instructions to be executed and the data to be retrieved from the peripherals.
The specific data is subject to PDF, and the above content is for reference
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