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Texas Instruments MSP50C614 User Manual

Page 53

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Interrupt Logic

2-23

MSP50C614 Architecture

the RESET low, assuming there is no interruption in power. For a full
description of the interrupt-trigger events, refer to Section 3.1.5,

Internal and

External Interrupts.

(8-bit wide location)

07

06

05

04

03

02

01

00

INT number

IFR

Interrupt Flag register
address 0x39

D5

D4

PF

D3

D2

T2

T1 DA

low

high

priority

priority

D5 : port D

5

falling-edge

PF : any port F falling-edge

D4 : port D

4

rising-edge

T2 : TIMER2 underflow

D3 : port D

3

falling-edge

T1 : TIMER1 underflow

D2 : port D

2

rising-edge

DA : DAC timer underflow

1 : A bit value 1 indicates pending interrupt waiting to be serviced.

RESET: The IFR is left in the same state it was before RESET low, assuming no interruption in power.

† INT6 and INT7 may be associated instead with the Comparator function, if the Comparator Enable bit has been set. Refer to

Section 3.3,

Comparator, for details.

Individual interrupts are enabled or disabled for service by setting or clearing
the respective bit in the interrupt mask register (IMR, 8 bits). If an interrupt level
has its bit cleared in the IMR, then the interrupt service associated with that
interrupt is disabled. Setting the bit in the IMR allows service to occur (pending
the trigger-event which is registered in the IFR).

The IMR is accessible as part of another (larger) register, namely, the
interrupt/general control register (peripheral port 0x38). After a RESET LOW,
the default value of each bit in the IMR is zero: no interrupt service enabled.
A full description of the bit locations in the interrupt/general control register can
be found in Section 3.4,

Interrupt/General Control Register.

The IMR functions independently of the IFR, in the sense that interrupt-trigger
events can be registered in the IFR, even if the respective IMR bit is clear. Both
the IFR and IMR are readable and writeable as port addressed registers. To
read the register, use the IN instruction in conjunction with the port address
(0x38 or 0x39). Use the OUT instruction to write. (Refer to Section 2.6.2,
Peripheral Communications (Ports), for more information.)