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S9KEAZN64AMLHR
Product Overview
Category
The S9KEAZN64AMLHR belongs to the category of microcontrollers.
Use
This microcontroller is designed for various embedded applications, including consumer electronics, industrial automation, and automotive systems.
Characteristics
- 32-bit ARM Cortex-M0+ core
- Operating frequency up to 48 MHz
- Flash memory size of 64 KB
- RAM size of 4 KB
- Low power consumption
- Integrated peripherals for enhanced functionality
- Wide operating voltage range
- Small package size for space-constrained designs
Package
The S9KEAZN64AMLHR is available in a compact LQFP package, which facilitates easy integration into circuit boards.
Essence
The essence of this microcontroller lies in its powerful processing capabilities, low power consumption, and versatile features that make it suitable for a wide range of applications.
Packaging/Quantity
The S9KEAZN64AMLHR is typically sold in reels or trays, with a quantity of 250 units per reel/tray.
Specifications
- Core: ARM Cortex-M0+
- Operating Frequency: Up to 48 MHz
- Flash Memory Size: 64 KB
- RAM Size: 4 KB
- Operating Voltage Range: 1.8V - 3.6V
- Package Type: LQFP
- Package Dimensions: 7mm x 7mm
- Temperature Range: -40°C to +85°C
- Integrated Peripherals: UART, SPI, I2C, ADC, PWM, GPIO
Detailed Pin Configuration
The S9KEAZN64AMLHR microcontroller has a total of 64 pins, each serving a specific purpose. The pin configuration is as follows:
(Pin Number) (Pin Name) (Function) 1. VDD - Power supply voltage 2. VSS - Ground 3. PTA0 - General-purpose I/O 4. PTA1 - General-purpose I/O 5. PTA2 - General-purpose I/O 6. PTA3 - General-purpose I/O 7. PTA4 - General-purpose I/O 8. PTA5 - General-purpose I/O 9. PTA6 - General-purpose I/O 10. PTA7 - General-purpose I/O 11. PTB0 - General-purpose I/O 12. PTB1 - General-purpose I/O 13. PTB2 - General-purpose I/O 14. PTB3 - General-purpose I/O 15. PTB4 - General-purpose I/O 16. PTB5 - General-purpose I/O 17. PTB6 - General-purpose I/O 18. PTB7 - General-purpose I/O 19. ...
Functional Features
- High-performance ARM Cortex-M0+ core for efficient processing
- Integrated peripherals such as UART, SPI, I2C, ADC, PWM, and GPIO for enhanced functionality
- Low power consumption for energy-efficient designs
- Wide operating voltage range allows flexibility in power supply options
- Flash memory for program storage and RAM for data storage
- Support for various communication protocols
- Built-in analog-to-digital converter (ADC) for sensor interfacing
- Flexible clocking options for precise timing requirements
Advantages and Disadvantages
Advantages
- Powerful processing capabilities
- Versatile integrated peripherals
- Low power consumption
- Compact package size
- Wide operating voltage range
Disadvantages
- Limited flash memory size (64 KB)
- Limited RAM size (4 KB)
- May require additional external components for certain applications
Working Principles
The S9KEAZN64AMLHR microcontroller operates based on the ARM Cortex-M0+ architecture. It executes instructions stored in its flash memory and processes data using its integrated peripherals. The microcontroller communicates with external devices through various communication protocols, enabling it to interact with the surrounding environment.
Detailed Application Field Plans
The S9KEAZN64AMLHR microcontroller finds applications in a wide range of fields, including: - Consumer electronics (e.g., smart home devices, wearable technology) - Industrial automation (e.g., control systems, monitoring equipment) - Automotive systems (e.g., engine management, infotainment systems) - Internet of Things (IoT) devices - Medical devices - Robotics
Detailed and Complete Alternative Models
- S9KEAZN32AMLHR: Similar to S9KEAZN64AMLHR but with 32 KB flash memory and 2 KB RAM.
- S9KEAZN128AMLHR: Similar to S9KEAZN64AMLHR but with 128 KB flash memory and 8 KB RAM.
- S9KEAZN256AMLHR: Similar to S9KEAZN64
Seznam 10 běžných otázek a odpovědí souvisejících s aplikací S9KEAZN64AMLHR v technických řešeních
Sure! Here are 10 common questions and answers related to the application of S9KEAZN64AMLHR in technical solutions:
Q: What is the S9KEAZN64AMLHR microcontroller used for? A: The S9KEAZN64AMLHR microcontroller is commonly used in various technical solutions, including industrial automation, consumer electronics, and automotive applications.
Q: What is the maximum clock frequency supported by the S9KEAZN64AMLHR? A: The S9KEAZN64AMLHR supports a maximum clock frequency of 48 MHz.
Q: How much flash memory does the S9KEAZN64AMLHR have? A: The S9KEAZN64AMLHR has 64 KB of flash memory for program storage.
Q: Can I expand the memory of the S9KEAZN64AMLHR? A: No, the S9KEAZN64AMLHR does not support external memory expansion. However, it does have 4 KB of RAM for data storage.
Q: What communication interfaces are available on the S9KEAZN64AMLHR? A: The S9KEAZN64AMLHR features several communication interfaces, including UART, SPI, I2C, and CAN.
Q: Does the S9KEAZN64AMLHR support analog-to-digital conversion (ADC)? A: Yes, the S9KEAZN64AMLHR has an integrated 12-bit ADC module with multiple channels for analog signal measurement.
Q: Can I use the S9KEAZN64AMLHR for motor control applications? A: Yes, the S9KEAZN64AMLHR includes dedicated PWM modules that can be used for motor control and other pulse-width modulation applications.
Q: What development tools are available for programming the S9KEAZN64AMLHR? A: NXP provides a comprehensive software development kit (SDK) and an integrated development environment (IDE) called MCUXpresso, which supports programming and debugging of the S9KEAZN64AMLHR.
Q: Is the S9KEAZN64AMLHR suitable for low-power applications? A: Yes, the S9KEAZN64AMLHR features multiple low-power modes, including stop and standby modes, making it suitable for battery-powered or energy-efficient applications.
Q: Can I use the S9KEAZN64AMLHR in safety-critical applications? A: Yes, the S9KEAZN64AMLHR is designed to meet certain safety standards, such as ISO 26262, making it suitable for safety-critical applications like automotive systems.
Please note that these answers are general and may vary depending on specific application requirements and configurations.