English
Language : 

908E621_07 Datasheet, PDF (25/62 Pages) Freescale Semiconductor, Inc – Integrated Quad Half-Bridge and Triple High-Side with Embedded MCU and LIN for High End Mirror
FUNCTIONAL DEVICE OPERATION
OPERATIONAL MODES
Stop mode has a higher current consumption than Sleep
mode, but allows a quicker wake-up. Additionally the wake-
up sources can be selected (maskable) which is not possible
in Sleep mode.
Figure 12 show the procedure to enter the Stop mode and
how the system is waking up.
MCU
Power Die
From Reset
initialize
behaves like a power on reset. The wake-up / reset source
can be evaluated by the L0WF and/or LINWF bits in the
Reset Status Register.
Sleep mode has a lower current consumption than Stop
mode, but requires a longer time to wake-up. The wake-up
sources can not be selected (not maskable).
Figure 13 show the procedure to enter the Sleep mode
and how a wake-up is performed.
MCU
Power Die
From Reset
operate
Enable/disable
LIN/L0 wakeup
SPI:
STOP =1
Switch to VREG
low current mode
initialize
operate
MCU STOP
IRQ
interrupt
?
SPI: reason for
interrupt
Wake Up on
LIN or L0 ?
Assert IRQ
Switch to VREG
high current mode
SPI:
SLEEP =1
Switch off VREG
Vdd low, RST low
Wake Up on
LIN or L0 ?
Store Wake Up
Event
Figure 12. STOP mode Wake-up Procedure
Sleep Mode
In Sleep mode the voltage regulator is turned off and the
MCU is not supplied (VDD = 0 V) also the RST_A terminal is
pulled low.
To enter the Sleep mode the Sleep bit in the System
Control Register has to be set.
Wake-up from this mode is possible by LIN bus activity or
the wake-up input L0 and is not maskable. The wake-up
Start VREG
Vdd high, RST
high
Figure 13. SLEEP mode Wake-up Procedure
Table 6 summarized the Operating modes.
Analog Integrated Circuit Device Data
Freescale Semiconductor
908E621
25