Allicdata Part #: | S912ZVML32F3MKH-ND |
Manufacturer Part#: |
S912ZVML32F3MKH |
Price: | $ 4.03 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | NXP USA Inc |
Short Description: | MAGNIV 16-BIT MCU S12Z CORE 32 |
More Detail: | S12Z S12 MagniV Microcontroller IC 16-Bit 50MHz 32... |
DataSheet: | S912ZVML32F3MKH Datasheet/PDF |
Quantity: | 1000 |
160 +: | $ 3.66700 |
Program Memory Size: | 32KB (32K x 8) |
Supplier Device Package: | 64-LQFP-EP (10x10) |
Package / Case: | 64-LQFP Exposed Pad |
Operating Temperature: | -40°C ~ 125°C (TA) |
Oscillator Type: | Internal |
Data Converters: | A/D 9x12b |
Voltage - Supply (Vcc/Vdd): | 3.5 V ~ 40 V |
RAM Size: | 4K x 8 |
EEPROM Size: | 512 x 8 |
Program Memory Type: | FLASH |
Series: | S12 MagniV |
Number of I/O: | 31 |
Peripherals: | DMA, POR, PWM, WDT |
Connectivity: | CANbus, LINbus, SCI, SPI |
Speed: | 50MHz |
Core Size: | 16-Bit |
Core Processor: | S12Z |
Part Status: | Active |
Packaging: | Tray |
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Embedded microcontroller technology is one of the most popular methods of controlling and processing data in many different applications. A specific type of microcontroller, S912ZVML32F3MKH has been designed to provide superior performance in embedded applications, offering a wide range of design possibilities beyond the scope of traditional applications. It is used in a variety of industries in different roles, and this article will discuss the application field and working principle of S912ZVML32F3MKH.
S912ZVML32F3MKH Application Field
S912ZVML32F3MKH can be used in many types of embedded applications, including those employed in the industrial, automotive, and medical industries. It has been designed to provide superior performance and capabilities in these areas, offering enhanced performance, low power consumption, and high program memory capacity, making it ideal for controlling multiple devices and systems simultaneously. Some examples of applications in which this type of microcontroller is used include medical imaging, military and aerospace applications, as well as robotics.
In the medical industry, S912ZVML32F3MKH microcontrollers are used to enable fast and reliable medical imaging applications. These microcontrollers are designed to provide superior performance and accuracy in medical imaging, providing the means to capture clearer and more accurate images, while reducing the risk of serious medical errors. Additionally, the combination of its high program memory capacity and low power consumption makes it an ideal choice for medical imaging applications.
In the automotive industry, S912ZVML32F3MKH is used in a variety of ways. It is used as a vehicle control unit (ECU) for controlling various vehicle functions, and for providing additional security for vehicles, ensuring that theft and other crimes are minimized. In addition, it can be used in automotive data acquisition systems, providing a wide range of readings, such as temperature, speed, and engine performance metrics. As a result, this type of microcontroller provides enhanced safety, reliability, and performance when used in the automotive industry.
In the military and aerospace industries, microcontrollers such as S912ZVML32F3MKH are used to control and manage various systems, including those employed in the control of missiles, rockets, and other dangerous weapons. Additionally, these microcontrollers are used for data acquisition and analysis, providing the means to gather and analyze real-time data from various sources, making them useful for designing and testing various vehicle and weapon systems.
Robotics is another area where this type of microcontroller is employed. It can be used in controlling the various components of robots, enabling highly coordinated robotic movements with greater accuracy and precision, while providing enhanced reliability and safety. Additionally, these microcontrollers are often used in artificial intelligence applications, providing a platform to test and develop intelligence algorithms, as well as the ability to recognize patterns, enabling a robot to take decisions and act accordingly.
S912ZVML32F3MKH Working Principle
The S912ZVML32F3MKH microcontroller is based on a 32-bit RISC processor, offering high levels of performance, while remaining relatively inexpensive. Its small size and low power consumption make it well suited for embedded applications, while its large program memory capacity provides the necessary flexibility for managing complex systems. Additionally, its modular architecture ensures that it can be expanded to fit a variety of applications, allowing it to be tailored to meet the specific needs of a given application case.
At the core of the S912ZVML32F3MKH microcontroller is its powerful RISC processor, which is capable of executing instructions in two clock cycles. This processor is also heavily optimized for low power consumption, providing enhanced battery life for applications that utilize this type of microcontroller. Additionally, integrated memory controllers, serial ports, and advanced hardware acceleration technology, allows the processor to run at a much higher speed than traditional RISC processors, while consuming less power.
The S912ZVML32F3MKH microcontroller also features a wide range of advanced peripherals, including GPIO ports, UARTs, SPI and I2C ports, and multiple timers, enabling it to be employed in a range of applications, from simple digital input-output devices, to complex data acquisition systems. Furthermore, it offers a great degree of flexibility, allowing users to easily integrate new peripherals, or tailor existing peripherals to suit the needs of a particular application.
In addition, the S912ZVML32F3MKH microcontroller offers advanced development tools, such as flash memory programming, boot loader, debugging, and programming interfaces, enabling quick and easy programming. This makes it easy to develop and deploy applications, allowing for faster product development cycles, and reducing the time to market for new products.
Overall, the S912ZVML32F3MKH microcontroller offers a wide range of features, making it an ideal choice for embedded applications. Its powerful processor, low power consumption, large program memory capacity, and advanced peripherals, make it well-suited for a variety of embedded applications, while its advanced development tools ensure faster product development cycles.
The specific data is subject to PDF, and the above content is for reference
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