AM29LV320DT90EI AMD (ADVANCED MICRO DEVICES), AM29LV320DT90EI Datasheet - Page 34

AM29LV320DT90EI

Manufacturer Part Number

AM29LV320DT90EI

Description

Flash Memory IC

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheets

1.AM29LV320DT90EI.pdf (55 pages)

2.AM29LV320DT90EI.pdf (55 pages)

3.AM29LV320DT90EI.pdf (57 pages)

Specifications of AM29LV320DT90EI

Memory Configuration

4M X 8 / 2M X 16 Bit

Package/case

48-TSOP

Supply Voltage Max

3.6V

Leaded Process Compatible

Peak Reflow Compatible (260 C)

Access Time, Tacc

90nS

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Current page: 34 of 57
Download datasheet (2Mb)

or whether that sector is erase-suspended. Toggle Bit

II is valid after the rising edge of the final WE# pulse in

the command sequence.

DQ2 toggles when the system reads at addresses

within those sectors that were selected for erasure.

(The system may use either OE# or CE# to control the

read cycles.) But DQ2 cannot distinguish whether the

sector is actively erasing or is erase-suspended. DQ6,

by comparison, indicates whether the device is ac-

tively erasing, or is in Erase Suspend, but cannot dis-

tinguish which sectors are selected for erasure. Thus,

both status bits are required for sector and mode infor-

mation. Refer to Table 15 on page 33 to compare out-

puts for DQ2 and DQ6.

Figure 7, on page 31

flowchart form, and the section “DQ2: Toggle Bit II” on

page 31 explains the algorithm. See also the

Toggle Bit I

the toggle bit timing diagram.

shows the differences between DQ2 and DQ6 in

graphical form.

Reading Toggle Bits DQ6/DQ2

Refer to

sion. Whenever the system initially begins reading tog-

gle bit status, it must read DQ7–DQ0 at least twice in a

row to determine whether a toggle bit is toggling. Typi-

cally, the system would note and store the value of the

toggle bit after the first read. After the second read, the

system would compare the new value of the toggle bit

with the first. If the toggle bit is not toggling, the device

completed the program or erase operation. The sys-

tem can read array data on DQ7–DQ0 on the following

read cycle.

However, if after the initial two read cycles, the system

determines that the toggle bit is still toggling, the sys-

tem also should note whether the value of DQ5 is high

(see the section on DQ5). If it is, the system should

then determine again whether the toggle bit is tog-

gling, since the toggle bit may have stopped toggling

just as DQ5 went high. If the toggle bit is no longer

toggling, the device successfully completed the pro-

gram or erase operation. If it is still toggling, the device

did not completed the operation successfully, and the

system must write the reset command to return to

reading array data.

The remaining scenario is that the system initially de-

termines that the toggle bit is toggling and DQ5 has

not gone high. The system may continue to monitor

the toggle bit and DQ5 through successive read cy-

cles, determining the status as described in the previ-

ous paragraph. Alternatively, it may choose to perform

other system tasks. In this case, the system must start

at the beginning of the algorithm when it returns to de-

termine the status of the operation (top of

page

31).

Figure 7, on page 31

subsection.

shows the toggle bit algorithm in

Figure 21, on page 45

for the following discus-

Figure 22, on page 45

Figure 7, on

D A T A S H E E T

shows

DQ6:

Am29LV320D

DQ5: Exceeded Timing Limits

DQ5 indicates whether the program or erase time ex-

ceeded a specified internal pulse count limit. Under

these conditions DQ5 produces a “1,” indicating that

the program or erase cycle was not successfully

completed.

The device may output a “1” on DQ5 if the system tries

to program a “1” to a location that was previously pro-

grammed to “0.” Only an erase operation can

change a “0” back to a “1.” Under this condition, the

device halts the operation, and when the timing limit is

exceeded, DQ5 produces a “1.”

Under both these conditions, the system must write

the reset command to return to the read mode (or to

the erase-suspend-read mode if the device was previ-

ously in the erase-suspend-program mode).

DQ3: Sector Erase Timer

After writing a sector erase command sequence, the

system may read DQ3 to determine whether or not

erasure started. (The sector erase timer does not

apply to the chip erase command.) If additional

sectors are selected for erasure, the entire time-out

also applies after each additional sector erase com-

mand. When the time-out period is complete, DQ3

switches from a “0” to a “1.” If the time between addi-

tional sector erase commands from the system can be

assumed to be less than 50 µs, the system need not

monitor DQ3. See also the

Sequence

After the sector erase command is written, the system

should read the status of DQ7 (Data# Polling) or DQ6

(Toggle Bit I) to ensure that the device accepted the

command sequence, and then read DQ3. If DQ3 is “1,”

the Embedded Erase algorithm started; all further

commands (except Erase Suspend) are ignored until

the erase operation is complete. If DQ3 is “0,” the de-

vice accepts additional sector erase commands. To

ensure the command is accepted, the system software

should check the status of DQ3 prior to and following

each subsequent sector erase command. If DQ3 is

high on the second status check, the last command

might not have been accepted.

Table 15 on page 33 shows the status of DQ3 relative

to the other status bits.

section.

Sector Erase Command

December 14, 2005

AM29LV320DT90EI AMD (ADVANCED MICRO DEVICES), AM29LV320DT90EI Datasheet - Page 34

AM29LV320DT90EI

Specifications of AM29LV320DT90EI

Related parts for AM29LV320DT90EI