MB86831 Datasheet, PDF(14/82 Page) Fujitsu Component Limited.

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MB86831 Datasheet, PDF (14/82 Pages) Fujitsu Component Limited. – 32-bit Embedded Controller

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MB86830 Series

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Symbol

ERROR#

ASI<3:0>

LOCK#

RDYOUT#

IDLEEN

BMODE8#

BMODE16#

Pin name

I/O

Function

ERROR SIGNAL

Error signal.

This pin outputs an error signal indicating that the CPU has stopped in

the error state resulting from a trap occurring with traps disabled. The

CPU can exit the error state only by a reset.

ADDRESS

SPACE

IDENTIFIERS

ASI pin (address space identification signal) or ADR pin.

Setting the ASISEL pin to âHâ selects the ASI pin; setting it to âLâ selects

the ADR<28:31> pin on the MB86832/834 or ADR<24:27> pin on the

MB86833/835/836. When the ASISEL pin is set to âLâ, the âLâ input to

the AS# pin is prohibited. A choice of these pins is supported by the

I/O

MB8682/833/834/835/836 but not by the MB86831-66/80 (only

ASI<3:0> is available).

Like the ADR<27:2> pin (ADR<23:2> pin on the MB86833/835/836),

this pin remains enabled for output during the bus cycle. The ASI pin

serves as an input in the bus grant state, used for CS generation and

internal resource address decoding. When ASI<3:0> is input from an

external device, ASI<7:4> is handled as â0â in the CPU.

BUS LOCK

Bus lock signal.

During execution of the Atomic Load Store instruction, the CPU asserts

the LOCK# signal to indicate that the current bus transaction requires

multiple transfers which cannot be divided. At a bus request (BREQ#)

during execution of an atomic instruction, the CPU releases the bus (by

asserting the BGRNT# signal) upon completion of the instruction exe-

cution. For normal use (where bus access permission is controlled by

BREQ#/BGRNT#), the LOCK# signal need not be used.

Ready signal output.

This pin outputs the composite signal consisting of the ready signal

generated by the internal wait state generator circuit and the external

READY OUTPUT O ready signal (READY#). While the delay of the internally generated

ready signal is regulated based on the clock input, the input from the

pin is output delayed as it is at the timing of generation of the external

ready signal.

IDLE ENABLE

Idle insertion enable pin.

If the cycle that follows access to the CS0# area is load or store oper-

ation when this pin is at the âHâ level, the CPU starts the next bus cycle

after inserting two idle clock cycles. This is efficient when EPROM

I which takes long data bus output off time is connected directly to the

CPU.When this pin is at the âLâ level, the CPU inserts only one idle cy-

cle before a write cycle immediately after a read cycle (this control is

compatible with conventional SPARClite processors).

Fix this pin at the âHâ or âLâ level.

BOOT MODE 8

BOOT MODE 16

CS0# area bus width setting signals.

These pins input signals at a reset to determine the bus width of the

CS0# area. Setting the BMODE8# pin to âLâ selects the 8-bit bus

mode; setting the BMODE16# pin to âLâ selects the 16-bit bus mode.

(The bus width for the CS1#-CS5# area is specified by the Bus Width/

Cacheable Control Register (BWCR).)

Fix these pins to âLâ or âHâ. However, it is not allowed to set both of

them to âLâ.

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