MC9S08DZ60 Datasheet, PDF(36/396 Page) Freescale Semiconductor, Inc – Microcontrollers

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MC9S08DZ60 Datasheet, PDF (36/396 Pages) Freescale Semiconductor, Inc – Microcontrollers

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Chapter 3 Modes of Operation

3.6.1.2 Active BDM Enabled in Stop3 Mode

Entry into the active background mode from run mode is enabled if ENBDM in BDCSCR is set. This

register is described in Chapter 17, âDevelopment Support.â If ENBDM is set when the CPU executes a

STOP instruction, the system clocks to the background debug logic remain active when the MCU enters

stop mode. Because of this, background debug communication remains possible. In addition, the voltage

regulator does not enter its low-power standby state but maintains full internal regulation.

Most background commands are not available in stop mode. The memory-access-with-status commands

do not allow memory access, but they report an error indicating that the MCU is in either stop or wait

mode. The BACKGROUND command can be used to wake the MCU from stop and enter active

background mode if the ENBDM bit is set. After entering background debug mode, all background

commands are available.

3.6.2 Stop2 Mode

Stop2 mode is entered by executing a STOP instruction under the conditions as shown in Table 3-1. Most

of the internal circuitry of the MCU is powered off in stop2 with the exception of the RAM. Upon entering

stop2, all I/O pin control signals are latched so that the pins retain their states during stop2.

Exit from stop2 is performed by asserting RESET or PTA7/ADP7/IRQ.

NOTE

PTA7/ADP7/IRQ is an active low wake-up and must be conï¬gured as an

input prior to executing a STOP instruction to avoid an immediate exit from

stop2. PTA7/ADP7/IRQ can be disabled as a wake-up if it is conï¬gured as

a high driven output. For lowest power consumption in stop2, this pin should

not be left open if conï¬gured as input (enable the internal pullup; or tie an

external pullup/down device; or set pin as output).

In addition, the real-time counter (RTC) can wake the MCU from stop2, if enabled.

Upon wake-up from stop2 mode, the MCU starts up as from a power-on reset (POR):

â¢ All module control and status registers are reset

â¢ The LVD reset function is enabled and the MCU remains in the reset state if VDD is below the LVD

trip point (low trip point selected due to POR)

â¢ The CPU takes the reset vector

In addition to the above, upon waking up from stop2, the PPDF bit in SPMSC2 is set. This ï¬ag is used to

direct user code to go to a stop2 recovery routine. PPDF remains set and the I/O pin states remain latched

until a 1 is written to PPDACK in SPMSC2.

To maintain I/O states for pins that were conï¬gured as general-purpose I/O before entering stop2, the user

must restore the contents of the I/O port registers, which have been saved in RAM, to the port registers

before writing to the PPDACK bit. If the port registers are not restored from RAM before writing to

PPDACK, then the pins will switch to their reset states when PPDACK is written.

For pins that were conï¬gured as peripheral I/O, the user must reconï¬gure the peripheral module that

interfaces to the pin before writing to the PPDACK bit. If the peripheral module is not enabled before

MC9S08DZ60 Series Data Sheet, Rev. 1 Draft E

36

PRELIMINARY

Freescale Semiconductor

Subject to Change

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