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FDS_6533_6534_004 71M6533/G/H and 71M6534/H Data Sheet

Rev 2 33

External MPU Interrupts

The seven external interrupts are the interrupts external to the 80515 core, i.e. signals that originate in

other parts of the 71M6533/71M6534, for example the CE, DIO, RTC, EEPROM interface.

The external interrupts are connected as shown in Table 30. The polarity of interrupts 2 and 3 is

programmable in the MPU via the I3FR and I2FR bits in T2CON. Interrupts 2 and 3 should be programmed

for falling sensitivity (I3FR = I2FR = 0). The generic 8051 MPU literature states that interrupts 4 through 6

are defined as rising-edge sensitive. Thus, the hardware signals attached to interrupts 5 and 6 are inverted

to achieve the edge polarity shown in Table 30.

Table 30: External MPU Interrupts

External

Interrupt

Connection Polarity Flag Reset

Digital I/O High Priority

see Section 1.5.7

automatic

Digital I/O Low Priority

see Section 1.5.7

automatic

FWCOL0, FWCOL1, SPI

falling

automatic

CE_BUSY

falling

automatic

PLL_OK (rising), PLL_OK (falling)

rising

automatic

EEPROM busy

falling

automatic

XFER_BUSY, RTC_1SEC or WD_NROVF

falling

manual

External interrupt 0 and 1 can be mapped to pins on the device using DIO resource maps. See Section

1.5.7 Digital I/O for more information.

FWCOLx interrupts occur when the CE collides with a flash write attempt. See the flash write description

in the Flash Memory section for more detail.

SFR enable bits must be set to permit any of these interrupts to occur. Likewise, each interrupt has its own

flag bit, which is set by the interrupt hardware, and reset by the MPU interrupt handler. XFER_BUSY,

RTC_1SEC, WD_NROVF, FWCOL0, FWCOL1, SPI, PLLRISE and PLLFALL have their own enable and

flag bits in addition to the interrupt 6, 4 and enable and flag bits (see Table 31).

IE0 through IEX6 are cleared automatically when the hardware vectors to the interrupt handler. The other

flags, IE_XFER through IE_PB, are cleared by writing a zero to them.

Since these bits are in an SFR bit addressable byte, common practice would be to clear them

with a bit operation, but this must be avoided

. The hardware implements bit operations as a

byte wide read-modify-write hardware macro. If an interrupt occurs after the read, but before

the write, its flag will be cleared unintentionally.

The proper way to clear the flag bits is to write a byte mask consisting of all ones except for a

zero in the location of the bit to be cleared. The flag bits are configured in hardware to ignore

ones written to them.

Table 31: Interrupt Enable and Flag Bits

Interrupt Enable Interrupt Flag

Interrupt Description

Name

Location

Name

Location

EX0

SFR A8[0]

IE0

SFR 88[1]

External interrupt 0

EX1

SFR A8[2]

IE1

SFR 88[3]

External interrupt 1

EX2

SFR B8[1]

IEX2

SFR C0[1]

External interrupt 2

EX3

SFR B8[2]

IEX3

SFR C0[2]

External interrupt 3

EX4

SFR B8[3]

IEX4

SFR C0[3]

External interrupt 4

EX5

SFR B8[4]

IEX5

SFR C0[4]

External interrupt 5

EX6

SFR B8[5]

IEX6

SFR C0[5]

External interrupt 6