BH67F2260 Datasheet, PDF(200/253 Page) Holtek Semiconductor Inc – R-Sensor Blood Pressure Meter Flash MCU with LCD

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

BH67F2260 Datasheet, PDF (200/253 Pages) Holtek Semiconductor Inc – R-Sensor Blood Pressure Meter Flash MCU with LCD

◁

BH67F2260/BH67F2270

R-Sensor Blood Pressure Meter Flash MCU with LCD

Interrupt Operation

When the conditions for an interrupt event occur, such as a TM Comparator P or Comparator A

match or A/D conversion completion etc., the relevant interrupt request flag will be set. Whether

the request flag actually generates a program jump to the relevant interrupt vector is determined by

the condition of the interrupt enable bit. If the enable bit is set high then the program will jump to

its relevant vector; if the enable bit is zero then although the interrupt request flag is set an actual

interrupt will not be generated and the program will not jump to the relevant interrupt vector. The

global interrupt enable bit, if cleared to zero, will disable all interrupts.

When an interrupt is generated, the Program Counter, which stores the address of the next instruction

to be executed, will be transferred onto the stack. The Program Counter will then be loaded with a

new address which will be the value of the corresponding interrupt vector. The microcontroller will

then fetch its next instruction from this interrupt vector. The instruction at this vector will usually

be a âJMPâ which will jump to another section of program which is known as the interrupt service

routine. Here is located the code to control the appropriate interrupt. The interrupt service routine

must be terminated with a âRETIâ, which retrieves the original Program Counter address from

the stack and allows the microcontroller to continue with normal execution at the point where the

interrupt occurred.

The various interrupt enable bits, together with their associated request flags, are shown in the

accompanying diagrams with their order of priority. Some interrupt sources have their own

individual vector while others share the same multi-function interrupt vector. Once an interrupt

subroutine is serviced, all the other interrupts will be blocked, as the global interrupt enable bit,

EMI bit will be cleared automatically. This will prevent any further interrupt nesting from occurring.

However, if other interrupt requests occur during this interval, although the interrupt will not be

immediately serviced, the request flag will still be recorded.

If an interrupt requires immediate servicing while the program is already in another interrupt service

routine, the EMI bit should be set after entering the routine, to allow interrupt nesting. If the stack

is full, the interrupt request will not be acknowledged, even if the related interrupt is enabled, until

the Stack Pointer is decremented. If immediate service is desired, the stack must be prevented from

becoming full. In case of simultaneous requests, the accompanying diagram shows the priority that

is applied. All of the interrupt request flags when set will wake-up these devices if it is in SLEEP

or IDLE Mode, however to prevent a wake-up from occurring the corresponding flag should be set

before these devices are in SLEEP or IDLE Mode.

Rev. 1.00

200

March 15, 2017

▷