Motorola 68HC12BC32, 68HC12B32, CME-12B/BC manual Memory MAP, Config Switch, Off

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MEMORY MAP

Following is the default memory map for this development board. Consult the HC12 technical reference manual on the support disk for details of the internal memory map for the processor.

FFFF FFFE

8000

7FFF

1000 FFF

D00

CFF

C00

BFF

800

7FF

400

3FF

200

1FF

000

RESET Vector Address

- - - - - - - - - - - - - - - - - - - - -

CONFIG SWITCH 1

2

3

4

 

ON

ON

ON

ON

External EPROM U6/7 (Debug12)

ON

ON

ON

OFF

External SRAM U4/5

OFF OFF OFF OFF Internal Flash EEPROM

External RAM in U4/5 with CONFIG 1 - 4 ON

HC12 Internal EEPROM

External RAM in U4/5 with CONFIG 1 - 4 ON

Internal RAM

External RAM in U4/5 with CONFIG 1 - 4 ON

 

Peripheral Area

 

Unused = 280-3FF

CS5 = 250-25F

CS2 = 220-22F

LCD / CS7 = 270-27F

CS4 =

240-24F

CS1 = 210-21F

CS6 = 260-26F

CS3 =

230-23F

CS0 = 200-20F

68HC12 Internal Registers

See 68HC12 Technical Reference Manual

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Contents CME-12B/BC Contents Installing the Software Getting StartedBoard Startup Software Development Support SoftwareCreating source code TutorialAS12 HELLO.ASM -LHELLO Assembling source codeRunning your application ORG $1000 to ORG $8000 Programming Flash EepromConfig Switch Memory MAPOFF MEM-SEL Jumpers Config SwitchLcdport Ports and ConnectorsKeypad GNDMcuport CanportGND CAN-H CAN-L Busport COM1 Serial PortBDM-IN ResetEVU Compatibility Jumpers Bgnd GNDTroubleshooting Utilities Tips and SuggestionsLCD Command Codes TablesLCD Character Codes Bulk Bug12 Monitor Commands

68HC12B32, CME-12B/BC, 68HC12BC32 specifications

The Motorola 68HC12BC32, CME-12B/BC, and 68HC12B32 are microcontroller units (MCUs) that are part of the renowned HC12 series, which gained popularity in embedded system designs due to their versatility, robust performance, and comprehensive feature set. These MCUs are widely used in automotive applications, industrial control systems, and various consumer electronics due to their advanced capabilities.

One of the main features of the 68HC12BC32 is its 16-bit architecture, which allows for efficient processing and greater precision in calculations compared to 8-bit counterparts. This feature is crucial for applications requiring high-performance processing, such as real-time control systems. The processor operates at clock speeds of up to 25 MHz, providing the computational power necessary for complex operations.

The 68HC12MCUs include various on-chip memory options, such as ROM, RAM, and EEPROM. For instance, the 68HC12BC32 comes with up to 32 KB of ROM and 1 KB of RAM, along with 512 bytes of EEPROM, making it suitable for applications that require data retention even when the power is turned off. The presence of on-chip memory significantly reduces the need for external components, simplifying system design and enhancing reliability.

Moreover, these microcontrollers feature a rich set of input/output (I/O) capabilities, including multiple general-purpose I/O lines, timer/counter modules, and analog-to-digital converters (ADCs). The integration of these components allows for flexible interfacing with a multitude of sensors and actuators, enabling designers to create sophisticated applications without needing extensive external circuitry.

The embedded communication interfaces, such as SPI (Serial Peripheral Interface), I2C (Inter-Integrated Circuit), and CAN (Controller Area Network), are vital for enabling communication between devices in multiprocessor systems. This capability is particularly beneficial in automotive applications, where seamless data exchange is critical for tasks such as engine control and diagnostics.

Power management features in the 68HC12 series enhance its suitability for battery-powered applications. The ability to enter low-power modes helps extend battery life, making these microcontrollers ideal for portable devices.

In summary, the Motorola 68HC12BC32, CME-12B/BC, and 68HC12B32 microcontrollers are robust and flexible MCUs that offer a combination of advanced processing capabilities, extensive memory options, versatile I/O functionality, and efficient communication interfaces. These characteristics make them well-suited for various applications, from automotive and industrial systems to consumer electronics, ensuring they remain relevant in the evolving landscape of embedded technology.