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MC9S12XA256CAA - 

Mikrocontroller, HCS12, 16bit, 80 MHz, 256 KB, 16 KB, 80 Pin(s)

NXP MC9S12XA256CAA

Abbildung ggf. ähnlich. Alle Angaben ohne Gewähr. Ausschlaggebend sind die Produktinformationen des Herstellers.

Hersteller:
NXP NXP
Herstellerteilenummer:
MC9S12XA256CAA
Bestellnummer:
1165802
Produktsortiment
HCS12 Microcontrollers
Technisches Datenblatt:
(EN)
Technische Dokumentation anzeigen

Produktspezifikationen

:
80Pin(s)
:
16KB
:
2.35V
:
2.75V
:
31I/O(s)
:
HCS12 Microcontrollers
:
Stückweise
:
80MHz
:
16bit
:
I2C, SCI, SPI, CAN
:
HCS12
:
QFP
:
256KB
:
MSL 3 - 168 Stunden
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Produktbeschreibung

The MC9S12XA256CAA is a 16-bit Microcontroller based on enhanced HCS12X CPU (40MHz bus) with CISC architecture operates at a maximum frequency of 80MHz. The device incorporates an enhanced XGATE co-processor, 256kB internal flash, 16kB internal RAM, 4kB EEPROM, 8-channel 10-bit A/D converter and 59 general-purpose I/O pins. This device also features peripherals like one inter-integrated circuit (IIC) bus module, three multi-scalable controller area networks (MSCAN) CAN 2.0 A/B software compatible modules, two serial communications interface (SCI) and two serial peripheral interface modules (SPI). Single-wire background debug mode (BDM) for debugging both S12X CPU and XGATE simultaneously while running at full speed.
  • C-optimized CISC architecture produces extremely compact code
  • Excellent 32-bit calculations and semaphore handling
  • Access to large data segments independent of PPAGE
  • Opcode compatible with the 68HC11, 68HC12 and HCS12
  • Non-multiplexed external bus
  • Windowed COP watchdog and clock monitor
  • Seven levels of nested interrupt
  • Real-time interrupt
  • Enhanced capture timer
  • Clock generation module - > PLL clock frequency multiplier/divider
  • Periodic interrupt timer
  • Programmable pull-ups/pull-downs
  • Dual drive capability for EMC-optimized design
  • Single-wire background debug mode (BDM)
  • On-chip hardware breakpoints with no limitation on memory address
  • Read/write memory and registers while running at full speed

Anwendungen

Motorantrieb & -steuerung, Medizinelektronik, Automatisierung & Prozesssteuerung, Sicherheitstechnik, Gebäudeautomatisierung, HLK, Industrie

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