ST92150JDV1QAuto STMicroelectronics, ST92150JDV1QAuto Datasheet - Page 117

ST92150JDV1QAuto

Manufacturer Part Number

ST92150JDV1QAuto

Description

8/16-bit single voltage Flash MCU family with RAM, E3 TM(emulated EEPROM), CAN 2.0B and J1850 BLPD

Manufacturer

STMicroelectronics

Datasheet

1.ST92150JDV1QAUTO.pdf (430 pages)

Specifications of ST92150JDV1QAuto

Internal Memory

Single Voltage FLASH up to 256 Kbytes, RAM up to 8Kbytes, 1K byte E3 TM (Emulated EEPROM)

Minimum Instruction Time

83 ns (24 MHz int. clock)

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WAKE-UP / INTERRUPT LINES MANAGEMENT UNIT (Cont’d)

5.12.4 Programming Considerations

The following paragraphs give some guidelines for

designing an application program.

5.12.4.1 Procedure for Entering/Exiting STOP

mode

1. Program the polarity of the trigger event of

2. Check that at least one mask bit (registers

3. Reset at least the unmasked pending bits: this

4. Set the ID1S bit in the WUCTRL register and

5. To generate an interrupt on channel INTD1, bits

6. Reset the STOP bit in register WUCTRL and

7. To enter STOP mode, write the sequence 1, 0,

8. The code to be executed just after the STOP

external wake-up lines by writing registers

WUTRH and WUTRL.

WUMRH, WUMRL) is equal to 1 (so at least

one external wake-up line is not masked).

allows a rising edge to be generated on the

INTD1 channel when the trigger event occurs

(an interrupt on channel INTD1 is recognized

when a rising edge occurs).

set the WKUP-INT bit.

EITR.1 (R242.7, Page 0) and EIMR.1 (R244.7,

Page 0) must be set and bit EIPR.7 must be

reset. Bits 7 and 6 of register R245, Page 0

must be written with the desired priority level for

interrupt channel INTD1.

the EX_STP bit in the CLK_FLAG register

(R242.7, Page 55). Refer to the RCCU chapter.

1 to the STOP bit in the WUCTRL register with

three consecutive write operations.

sequence must check the status of the STOP

and RCCU EX_STP bits to determine if the ST9

entered STOP mode or not (See “Wake-up

Mode Selection” on page 114. for details). If the

ST9 did not enter in STOP mode it is necessary

to reloop the procedure from the beginning, oth-

erwise the procedure continues from next point.

ST92124xxx-Auto/150xxxxx-Auto/250xxxx-Auto

9. Poll the wake-up pending bits to determine

10.Clear the wake-up pending bit that was set.

5.12.4.2 Simultaneous Setting of Pending Bits

It is possible that several simultaneous events set

different pending bits. In order to accept subse-

quent events on external wake-up/interrupt lines, it

is necessary to clear at least one pending bit: this

operation allows a rising edge to be generated on

the INTD1 line (if there is at least one more pend-

ing bit set and not masked) and so to set EIPR.7

bit again. A further interrupt on channel INTD1 will

be serviced depending on the status of bit EIMR.7.

Two possible situations may arise:

1. The user chooses to reset all pending bits: no

2. The user chooses to keep at least one pending

which wake-up line caused the exit from STOP

mode.

further interrupt requests will be generated on

channel INTD1. In this case the user has to:

– Reset EIMR.7 bit (to avoid generating a spuri-

– Reset WUPRH register using a read-modify-

– Clear the EIPR.7 bit

– Reset the WUPRL register using a read-mod-

bit active: at least one additional interrupt

request will be generated on the INTD1 chan-

nel. In this case the user has to reset the

desired pending bits with a read-modify-write

instruction (AND, BRES, BAND). This operation

will generate a rising edge on the INTD1 chan-

nel and the EIPR.7 bit will be set again. An

interrupt on the INTD1 channel will be serviced

depending on the status of EIMR.7 bit.

ous interrupt request during the next reset op-

eration on the WUPRH register)

write instruction (AND, BRES, BAND)

ify-write instruction (AND, BRES, BAND)

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ST92150JDV1QAuto STMicroelectronics, ST92150JDV1QAuto Datasheet - Page 117

ST92150JDV1QAuto

Specifications of ST92150JDV1QAuto

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