Infineon, 32 bit ARM Cortex M4, XMC4000 Microcontroller, 120 MHz, 1024kB FLASH, 144-Pin LFBGA
- RS Stock No.:
- 258-1760P
- Mfr. Part No.:
- XMC4500E144F1024ACXQSA1
- Manufacturer:
- Infineon
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Units | Per Unit |
|---|---|
| 10 - 19 | PHP803.92 |
| 20 - 39 | PHP770.65 |
| 40 - 59 | PHP679.15 |
| 60 + | PHP645.88 |
*price indicative
- RS Stock No.:
- 258-1760P
- Mfr. Part No.:
- XMC4500E144F1024ACXQSA1
- Manufacturer:
- Infineon
Specifications
Technical data sheets
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Infineon | |
| Series | XMC4000 | |
| Product Type | Microcontroller | |
| Package Type | LFBGA | |
| Mount Type | Surface | |
| Pin Count | 144 | |
| Device Core | ARM Cortex M4 | |
| Data Bus Width | 32bit | |
| Program Memory Size | 1024kB | |
| Interface Type | LIN, SPI, UART, USART, USB, USIC, CAN, IIC, IIS | |
| Maximum Clock Frequency | 120MHz | |
| RAM Size | 160kB | |
| Maximum Supply Voltage | 3.63V | |
| Minimum Operating Temperature | -40°C | |
| Maximum Operating Temperature | 85°C | |
| Width | 14mm | |
| Standards/Approvals | RoHS | |
| Number of Programmable I/Os | 91 | |
| Height | 1mm | |
| Length | 14mm | |
| Minimum Supply Voltage | 3.13V | |
| Instruction Set Architecture | Thumb-2 | |
| ADCs | 12 bit | |
| Program Memory Type | FLASH | |
| Automotive Standard | No | |
| Select all | ||
|---|---|---|
Brand Infineon | ||
Series XMC4000 | ||
Product Type Microcontroller | ||
Package Type LFBGA | ||
Mount Type Surface | ||
Pin Count 144 | ||
Device Core ARM Cortex M4 | ||
Data Bus Width 32bit | ||
Program Memory Size 1024kB | ||
Interface Type LIN, SPI, UART, USART, USB, USIC, CAN, IIC, IIS | ||
Maximum Clock Frequency 120MHz | ||
RAM Size 160kB | ||
Maximum Supply Voltage 3.63V | ||
Minimum Operating Temperature -40°C | ||
Maximum Operating Temperature 85°C | ||
Width 14mm | ||
Standards/Approvals RoHS | ||
Number of Programmable I/Os 91 | ||
Height 1mm | ||
Length 14mm | ||
Minimum Supply Voltage 3.13V | ||
Instruction Set Architecture Thumb-2 | ||
ADCs 12 bit | ||
Program Memory Type FLASH | ||
Automotive Standard No | ||
Infineon Microcontroller, 120MHz Maximum Frequency, 1024kByte Program Memory - XMC4500E144F1024ACXQSA1
This microcontroller operates on the ARM Cortex-M4 architecture. Designed for high-performance applications, it features a compact 10mm x 10mm LFBGA package with 144 pins. The microcontroller is capable of operating at a maximum frequency of 120MHz, ensuring efficient processing power for demanding tasks.
Features & Benefits
• Integrated ARM Cortex-M4 processor providing excellent computational performance
• 1024kByte of Flash programme memory enabling large code storage
• Operating temperature limits ranging from -40°C to +85°C, suitable for harsh environments
• Multiple analogue features including four 12-bit ADCs for precise data conversion
• Surface mount design enhances reliability and simplifies PCB assembly
Applications
• Utilised in industrial control systems for effective automation solutions
• Suitable for power conversion requiring high precision
• Ideal for use in automated machinery for optimal connectivity
• Used in automotive systems for reliable data communication
What are the key specifications that enhance performance in complex applications?
The microcontroller is equipped with a 120MHz ARM Cortex-M4 core and has a generous 1024kByte Flash memory, which supports extensive programme storage and execution. Combined with three CAN channels, it allows for efficient multitasking and data handling in industrial environments.
How does the microcontroller manage temperature variations in operational settings?
Its design incorporates a wide operating temperature This ensures reliability in demanding environments typical of industrial applications.
What advantages does the 12-bit ADC offer for data acquisition processes?
The four 12-bit ADCs enable high-resolution analogue-to-digital conversion, allowing precise measurements in control applications, enhancing the performance of systems that require accurate sensor data interpretation.
In what scenarios would the multi-CAN channels provide a significant benefit?
The microcontroller's three CAN channels are particularly beneficial in applications that require multiple communication nodes across a dispersed network, such as in industrial controllers or automotive diagnostics, facilitating reliable and efficient information exchange.