mc9s12c32mpb16 Freescale Semiconductor, Inc, mc9s12c32mpb16 Datasheet - Page 153

mc9s12c32mpb16

Manufacturer Part Number

mc9s12c32mpb16

Description

Hcs12 Microcontrollers

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MC9S12C32MPB16.pdf (680 pages)

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4.4.3.1.2

In expanded wide modes, Ports A and B are conﬁgured as a 16-bit multiplexed address and data bus and

Port E bit 4 is conﬁgured as the E clock output signal. These signals allow external memory and peripheral

devices to be interfaced to the MCU.

Port E pins other than PE4/ECLK are conﬁgured as general purpose I/O pins (initially high-impedance

inputs with internal pull resistors enabled). Control bits PIPOE, NECLK, LSTRE, and RDWE in the

PEAR register can be used to conﬁgure Port E pins to act as bus control outputs instead of general purpose

I/O pins.

It is possible to enable the pipe status signals on Port E bits 6 and 5 by setting the PIPOE bit in PEAR, but

it would be unusual to do so in this mode. Development systems where pipe status signals are monitored

would typically use the special variation of this mode.

The Port E bit 2 pin can be reconﬁgured as the R/W bus control signal by writing “1” to the RDWE bit in

PEAR. If the expanded system includes external devices that can be written, such as RAM, the RDWE bit

would need to be set before any attempt to write to an external location. If there are no writable resources

in the external system, PE2 can be left as a general purpose I/O pin.

The Port E bit 3 pin can be reconﬁgured as the LSTRB bus control signal by writing “1” to the LSTRE bit

in PEAR. The default condition of this pin is a general purpose input because the LSTRB function is not

needed in all expanded wide applications.

The Port E bit 4 pin is initially conﬁgured as ECLK output with stretch. The E clock output function

depends upon the settings of the NECLK bit in the PEAR register, the IVIS bit in the MODE register and

the ESTR bit in the EBICTL register. The E clock is available for use in external select decode logic or as

a constant speed clock for use in the external application system.

4.4.3.1.3

This mode is used for lower cost production systems that use 8-bit wide external EPROMs or RAMs. Such

systems take extra bus cycles to access 16-bit locations but this may be preferred over the extra cost of

additional external memory devices.

Ports A and B are conﬁgured as a 16-bit address bus and Port A is multiplexed with data. Internal visibility

is not available in this mode because the internal cycles would need to be split into two 8-bit cycles.

Since the PEAR register can only be written one time in this mode, use care to set all bits to the desired

states during the single allowed write.

The PE3/LSTRB pin is always a general purpose I/O pin in normal expanded narrow mode. Although it is

possible to write the LSTRE bit in PEAR to “1” in this mode, the state of LSTRE is overridden and Port

E bit 3 cannot be reconﬁgured as the LSTRB output.

It is possible to enable the pipe status signals on Port E bits 6 and 5 by setting the PIPOE bit in PEAR, but

it would be unusual to do so in this mode. LSTRB would also be needed to fully understand system

activity. Development systems where pipe status signals are monitored would typically use special

expanded wide mode or occasionally special expanded narrow mode.

Freescale Semiconductor

Normal Expanded Wide Mode

Normal Expanded Narrow Mode

MC9S12C-Family / MC9S12GC-Family

Rev 01.23

Chapter 4 Multiplexed External Bus Interface (MEBIV3)

153

mc9s12c32mpb16 Freescale Semiconductor, Inc, mc9s12c32mpb16 Datasheet - Page 153

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