AM29F040-120JC AMD (ADVANCED MICRO DEVICES), AM29F040-120JC Datasheet - Page 10

AM29F040-120JC

Manufacturer Part Number

AM29F040-120JC

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.AM29F040-120JC.pdf (33 pages)

Specifications of AM29F040-120JC

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rising edge of CE or WE (whichever happens ﬁrst)

begins programming. Upon executing the Embedded

Program Algorithm command sequence the system is

not required to provide further controls or timings. The

device will automatically provide adequate internally

generated program pulses and verify the programmed

cell margin.

The automatic programming operation is completed

when the data on DQ7 is equivalent to data written to

this bit (see Write Operation Status section) at which

time the device returns to the read mode and ad-

dresses are no longer latched. Therefore, the device

requires that a valid address to the device be supplied

by the system at this particular instance of time. Hence,

Data Polling must be performed at the memory location

which is being programmed.

Any commands written to the chip during this period

will be ignored.

Programming is allowed in any sequence and across

sector boundaries. Beware that a data “0” cannot be

programmed back to a “1”. Attempting to do so may

cause the device to exceed programming time limits

(DQ5 = 1) or result in an apparent success, according

to the data polling algorithm, but a read from reset/read

mode will show that the data is still “0”. Only erase

operations can convert “0”s to “1”s.

Figure 1 illustrates the Embedded Programming Algorithm

using typical command strings and bus operations.

Chip Erase

Chip erase is a six bus cycle operation. There are two

“unlock” write cycles. These are followed by writing the

“setup” command. Two more “unlock” write cycles are

then followed by the chip erase command.

Chip erase does not require the user to program the

device prior to erase. Upon executing the Embedded

Erase Algorithm command sequence the device auto-

matically will program and verify the entire memory for

an all zero data pattern prior to electrical erase. The

chip erase is performed sequentially one sector at a

time. The system is not required to provide any controls

or timings during these operations.

The automatic erase begins on the rising edge of the

last WE pulse in the command sequence and termi-

nates when the data on DQ7 is “1” (see Write Operation

Status section) at which time the device returns to read

the mode.

Figure 2 illustrates the Embedded Erase Algorithm

using typical command strings and bus operations.

Am29F040

Sector Erase

Sector erase is a six bus cycle operation. There are two

“unlock” write cycles. These are followed by writing the

“setup” command. Two more “unlock” write cycles are

then followed by the sector erase command. The sector

address (any address location within the desired sector)

is latched on the falling edge of WE, while the command

(data) is latched on the rising edge of WE. A time-out

of 80 s from the rising edge of the last sector erase

command will initiate the sector erase command(s).

Multiple sectors may be erased concurrently by writing

the six bus cycle operations as described above. This

sequence is followed with writes of the Sector Erase

command to addresses in other sectors desired to be

concurrently erased. The time between writes must be

less than 80 s, otherwise that command will not be ac-

cepted. It is recommended that processor interrupts be

disabled during this time to guarantee this condition.

The interrupts can be re-enabled after the last Sector

Erase command is written. A time-out of 80 s from the

rising edge of the last WE will initiate the execution of

the Sector Erase command(s). If another falling edge of

the WE occurs within the 80 s time-out window the

timer is reset. (Monitor DQ3 to determine if the sector

erase window is still open, see section DQ3, Sector

Erase Timer.) Any command other than Sector Erase

or Erase Suspend during this period resets the device

to read mode, ignoring the previous command string. In

that case, restart the erase on those sectors and allow

them to complete. (Refer to the Write Operation Status

section for Sector Erase Timer operation.) Loading the

sector erase buffer may be done in any sequence and

with any number of sectors (1 to 8).

Sector erase does not require the user to program the

device prior to erase. The device automatically

programs all memory locations in the sector(s) to be

erased prior to electrical erase. When erasing a sector

or sectors the remaining unselected sectors are not

affected. The system is not required to provide any

controls or timings during these operations.

The automatic sector erase begins after the 80 s time

out from the rising edge of the WE pulse for the last

sector erase command pulse and terminates when the

data on DQ7 is “1" (see Write Operation Status section)

at which time the device returns to read mode. During

the execution of the Sector Erase command, only the

Erase Suspend and Erase Resume commands are

allowed. All other commands will be ignored. Data poll-

ing must be performed at an address within any of the

sectors being erased.

Figure 2 illustrates the Embedded Erase Algorithm

using typical command strings and bus operations.

AM29F040-120JC AMD (ADVANCED MICRO DEVICES), AM29F040-120JC Datasheet - Page 10

AM29F040-120JC

Specifications of AM29F040-120JC

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