參數(shù)資料
型號: M38037M6H-XXXFP
元件分類: 微控制器/微處理器
英文描述: 8-BIT, MROM, 8.4 MHz, MICROCONTROLLER, PQFP64
封裝: 14 X 14 MM, 0.80 MM PITCH, PLASTIC, QFP-64
文件頁數(shù): 18/119頁
文件大?。?/td> 1818K
代理商: M38037M6H-XXXFP
Rev.3.11
Apr 5, 2006
Page 112 of 113
REJ03B0017-0311
3803 Group (Spec.H)
Notes on Restarting Oscillation
Restarting oscillation
Usually, when the MCU stops the clock oscillation by STP
instruction and the STP instruction has been released by an
external interrupt source, the fixed values of Timer 1 and
Prescaler 12 (Timer 1 = “0116”, Prescaler 12 = “FF16”) are
automatically reloaded in order for the oscillation to stabilize.
The user can inhibit the automatic setting by writing “1” to bit 0
of MISRG (address 001016).
However, by setting this bit to “1”, the previous values, set just
before the STP instruction was executed, will remain in Timer 1
and Prescaler 12. Therefore, you will need to set an appropriate
value to each register, in accordance with the oscillation
stabilizing time, before executing the STP instruction.
<Reason>
Oscillation will restart when an external interrupt is received.
However, internal clock
φ is supplied to the CPU only when
Timer 1 starts to underflow. This ensures time for the clock
oscillation using the ceramic resonators to be stabilized.
Notes on Using Stop Mode
Register setting
Since values of the prescaler 12 and Timer 1 are automatically
reloaded when returning from the stop mode, set them again,
respectively. (When the oscillation stabilizing time set after STP
instruction released bit is “0”)
Clock restoration
After restoration from the stop mode to the normal mode by an
interrupt request, the contents of the CPU mode register previous
to the STP instruction execution are retained. Accordingly, if
both main clock and sub clock were oscillating before execution
of the STP instruction, the oscillation of both clocks is resumed
at restoration.
In the above case, when the main clock side is set as a system
clock, the oscillation stabilizing time for approximately 8,000
cycles of the XIN input is reserved at restoration from the stop
mode. At this time, note that the oscillation on the sub clock side
may not be stabilized even after the lapse of the oscillation
stabilizing time of the main clock side.
Notes on Wait Mode
Clock restoration
If the wait mode is released by a reset when XCIN is set as the
system clock and XIN oscillation is stopped during execution of
the WIT instruction, XCIN oscillation stops, XIN oscillations
starts, and XIN is set as the system clock.
In the above case, the RESET pin should be held at “L” until the
oscillation is stabilized.
Notes on CPU rewrite mode of flash memory version
1. Operation speed
During CPU rewrite mode, set the system clock
φ 4.0 MHz or
less using the main clock division ratio selection bits (bits 6 and
7 of address 003B16).
2. Instructions inhibited against use
The instructions which refer to the internal data of the flash
memory cannot be used during the CPU rewrite mode.
3. Interrupts inhibited against use
The interrupts cannot be used during the CPU rewrite mode
because they refer to the internal data of the flash memory.
4. Watchdog timer
In case of the watchdog timer has been running already, the
internal reset generated by watchdog timer underflow does not
happen, because of watchdog timer is always clearing during
program or erase operation.
5. Reset
Reset is always valid. In case of CNVSS = “H” when reset is
released, boot mode is active. So the program starts from the
address contained in address FFFC16 and FFFD16 in boot ROM
area.
Notes on flash memory version
The CNVSS pin determines the flash memory mode.
Connect the CNVSS/VPP pin the shortest possible to the GND
pattern which is supplied to the VSS pin of the microcomputer.
In addition connecting an approximately 1 k to 5 k
. resistor in
series to the GND could improve noise immunity. In this case as
well as the above mention, connect the pin the shortest possible
to the GND pattern which is supplied to the VSS pin of the
microcomputer.
Note. When the boot mode or the standard serial I/O mode is used, a
switch of the input level to the CNVSS pin is required.
Fig 92. Wiring for the CNVSS
Notes on electric characteristic differences between
mask ROM and flash nemory version MCUs
There are differences in electric characteristics, operation
margin, noise immunity, and noise radiation between Mask ROM
and Flash Memory version MCUs due to the difference in the
manufacturing processes, built-in ROM, and layout pattern etc.
When manufacturing an application system with the Flash
Memory version and then switching to use of the Mask ROM
version, please conduct evaluations equivalent to the system
evaluations conducted for the flash memory version.
DATA REQUIRED FOR MASK ORDERS
The following are necessary when ordering a mask ROM
production:
1. Mask ROM Confirmation Form*
2. Mark Specification Form*
3. Data to be written to ROM, in EPROM form (three identical
copies)
* For the mask ROM confirmation and the mark specifications,
refer to the “Renesas Technology Corp.” Homepage
(http://www.renesas.com/en/rom).
The shortest
CNVSS
VSS
Approx. 5k
The shortest
(1)
Note 1: Shows the microcomputer’s pin.
相關(guān)PDF資料
PDF描述
M38039FFHFP 8-BIT, FLASH, 8.4 MHz, MICROCONTROLLER, PQFP64
M38039MFH-XXXFP 8-BIT, MROM, 8.4 MHz, MICROCONTROLLER, PQFP64
M38034M4H-XXXHP 8-BIT, MROM, 8.4 MHz, MICROCONTROLLER, PQFP64
M38039MFH-XXXWG 8-BIT, MROM, 8.4 MHz, MICROCONTROLLER, PBGA64
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