Infineon, 32bit ARM Cortex M4, XMC4700 Microcontroller, 144MHz, 1.536 MB Flash, 100-Pin LFBGA
- N° de stock RS:
- 273-3254
- Référence fabricant:
- XMC4700F100K1536AAXQMA1
- Fabricant:
- Infineon
Offre groupée disponible
Sous-total (1 unité)*
17,64 €
(TVA exclue)
21,34 €
(TVA incluse)
Frais de livraison offerts pour toute commande de plus de 75,00 €
En stock
- 86 unité(s) prête(s) à être expédiée(s) d'un autre centre de distribution
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Unité | Prix par unité |
|---|---|
| 1 - 9 | 17,64 € |
| 10 - 24 | 16,04 € |
| 25 - 49 | 14,70 € |
| 50 - 99 | 14,40 € |
| 100 + | 13,58 € |
*Prix donné à titre indicatif
- N° de stock RS:
- 273-3254
- Référence fabricant:
- XMC4700F100K1536AAXQMA1
- Fabricant:
- Infineon
Spécifications
Documentation technique
Législations et de normes
Détails du produit
Recherchez des produits similaires en sélectionnant un ou plusieurs attributs.
Sélectionner tout | Attribut | Valeur |
|---|---|---|
| Marque | Infineon | |
| Family Name | XMC4700 | |
| Package Type | LFBGA | |
| Mounting Type | Surface Mount | |
| Pin Count | 100 | |
| Device Core | ARM Cortex M4 | |
| Data Bus Width | 32bit | |
| Program Memory Size | 1.536 MB | |
| Maximum Frequency | 144MHz | |
| Program Memory Type | Flash | |
| Sélectionner tout | ||
|---|---|---|
Marque Infineon | ||
Family Name XMC4700 | ||
Package Type LFBGA | ||
Mounting Type Surface Mount | ||
Pin Count 100 | ||
Device Core ARM Cortex M4 | ||
Data Bus Width 32bit | ||
Program Memory Size 1.536 MB | ||
Maximum Frequency 144MHz | ||
Program Memory Type Flash | ||
Infineon Microcontroller, 1.536MB Program Memory size, 100 Pin Count - XMC4700F100K1536AAXQMA1
This microcontroller is designed for high-performance industrial applications. With a compact LFBGA package measuring 14mm, it features an ARM Cortex M4 core offering a maximum frequency of 144MHz. This microcontroller supports a range of functionalities, making it an excellent choice for demanding automation and control tasks.
Features & Benefits
• High processing power with 144 MHz for rapid performance
• Six CAN channels allowing advanced communication capabilities
• Robust RAM options ranging from 276 to 352 KB for efficient data handling
• Wide operating temperature range from -40°C to +125°C ensuring reliability
• Surface mount technology facilitating compact designs
• Six CAN channels allowing advanced communication capabilities
• Robust RAM options ranging from 276 to 352 KB for efficient data handling
• Wide operating temperature range from -40°C to +125°C ensuring reliability
• Surface mount technology facilitating compact designs
Applications
• Utilised in industrial automation systems for precise control tasks
• Effective in electric motor control schemes enhancing efficiency
• Suitable for data acquisition in various sensing
• Implemented in power conversion setups for improved performance
• Deployed in robotics for real-time processing and control
• Effective in electric motor control schemes enhancing efficiency
• Suitable for data acquisition in various sensing
• Implemented in power conversion setups for improved performance
• Deployed in robotics for real-time processing and control
How does this microcontroller handle high temperature conditions in industrial environments?
It operates efficiently within a wide temperature This capability allows reliable operation in demanding applications without the risk of overheating.
What kind of memory structure does it utilise for storing and processing data?
The microcontroller features 1.536 MB Flash memory for code storage alongside RAM options that vary from 276 to 352 KB, balancing memory needs for complex applications.
What advantages does its ARM Cortex M4 architecture provide?
The ARM Cortex M4 architecture offers efficient processing with DSP capabilities, enabling complex algorithms in control applications, enhancing performance and reducing development time for engineers.
How is the surface mount design beneficial for this microcontroller?
The surface mount design allows for compact PCB layouts, which is ideal for space-critical applications in modern electronics, promoting efficient use of space while ensuring reliability and durability.