MX29LV002xx Macronix, MX29LV002xx Datasheet - Page 12

MX29LV002xx

Manufacturer Part Number

MX29LV002xx

Description

2M-Bit CMOS Single Voltage 3V Flash Memory

Manufacturer

Macronix

Datasheet

1.MX29LV002XX.pdf (58 pages)

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ERASE SUSPEND

This command only has meaning while the state ma-

chine is executing Automatic Sector Erase operation,

and therefore will only be responded during Automatic

Sector Erase operation. When the Erase Suspend com-

mand is written during a sector erase operation, the de-

vice requires a maximum of 20us to suspend the erase

operations. However, When the Erase Suspend command

is written during the sector erase time-out, the device

immediately terminates the time-out period and suspends

the erase operation. After this command has been ex-

ecuted, the command register will initiate erase suspend

mode. The state machine will return to read mode auto-

matically after suspend is ready. At this time, state ma-

chine only allows the command register to respond to

the Read Memory Array, Erase Resume and program

commands.

The system can determine the status of the program

operation using the Q7 or Q6 status bits, just as in the

standard program operation. After an erase-suspend pro-

gram operation is complete, the system can once again

read array data within non-suspended sectors.

ERASE RESUME

This command will cause the command register to clear

the suspend state and return back to Sector Erase mode

but only if an Erase Suspend command was previously

issued. Erase Resume will not have any effect in all

other conditions. Another Erase Suspend command can

be written after the chip has resumed erasing. However,

a 10ms time delay must be required after the erase re-

sume command, if the system implements an endless

erase suspend/resume loop, or the number of erase sus-

pend/resume is exceeded 1024 times. The erase times

will be expended if the erase behavior always be sus-

pended. (Please refer to MXIC Flash Application Note

for details.)

AUTOMATIC PROGRAM COMMANDS

To initiate Automatic Program mode, A three-cycle com-

mand sequence is required. There are two "unlock" write

cycles. These are followed by writing the Automatic Pro-

gram command A0H.

Once the Automatic Program command is initiated, the

next WE# pulse causes a transition to an active pro-

gramming operation. Addresses are latched on the fall-

P/N:PM1204

MX29LV002C/002NC T/B

ing edge, and data are internally latched on the rising

edge of the WE# or CE#, whichever happens first. The

rising edge of WE# or CE#, whichever happens first,

also begins the programming operation. The system is

not required to provide further controls or timings. The

device will automatically provide an adequate internally

generated program pulse and verify margin.

The device provides Q2, Q3, Q5, Q6, Q7, and RY/BY#

to determine the status of a write operation. If the pro-

gram operation was unsuccessful, the data on Q5 is

"1"(see Table 7), indicating the program operation exceed

internal timing limit. The automatic programming opera-

tion is completed when the data read on Q6 stops tog-

gling for two consecutive read cycles and the data on Q7

and Q6 are equivalent to data written to these two bits,

at which time the device returns to the Read mode(no

program verify command is required).

BYTE PROGRAM COMMAND SEQUENCE

The device programs one byte of data for each program

operation. The command sequence requires four bus

cycles, and is initiated by writing two unlock write cycles,

followed by the program set-up command. The program

address and data are written next, which in turn initiate

the Embedded Program algorithm. The system is

required to provide further controls or timings. The device

automatically generates the program pulses and verifies

the programmed cell margin. Table 1 shows the address

and data requirements for the byte program command

sequence.

When the Embedded Program algorithm is complete,

the device then returns to reading array data and

addresses are no longer latched. The system can

determine the status of the program operation by using

Q7, Q6, or RY/BY#. See "Write Operation Status" for

information on these status bits.

Any commands written to the device during the Em-

bedded Program Algorithm are ignored. Note that a

hardware reset immediately terminates the programming

operation. The Byte Program command sequence should

be reinitiated once the device has reset to reading array

data, to ensure data integrity.

Programming is allowed in any sequence and across

sector boundaries. A bit cannot be programmed from a

"0" back to a "1". Attempting to do so may halt the

operation and set Q5 to "1", or cause the Data# Polling

algorithm to indicate the operation was successful.

However, a succeeding read will show that the data is

REV. 1.0, JUN. 30, 2005

not

MX29LV002xx Macronix, MX29LV002xx Datasheet - Page 12

MX29LV002xx

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