HY29F040A Datasheet, PDF(13/40 Page) Hynix Semiconductor – 512K x 8-bit CMOS 5.0 volt-only, Sector Erase Flash Memory

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HY29F040A Datasheet, PDF (13/40 Pages) Hynix Semiconductor – 512K x 8-bit CMOS 5.0 volt-only, Sector Erase Flash Memory

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DATA PROTECTION

Power-Up Write Inhibit

The HY29F040A is designed to offer protection

against accidental erasure or programming

caused by spurious system level signals that may

exist during power transitions. During power-up the

device automatically resets the internal state ma-

chine in the Read mode. Also, with its control reg-

ister architecture, alteration of the memory con-

tents only occurs after successful completion of spe-

cific multi-bus cycle command sequences. The

device also incorporates several features to pre-

vent inadvertent write cycles resulting from Vcc

power-up and power-down transitions or

system noise.

Low Vcc Write Inhibit

To avoid initiation of a write cycle during Vcc power-

up and power-down, a write cycle is locked out for

Vcc less than 3.2V (typically 3.7V). If Vcc < VLKO,

the command register is disabled and all internal

programming/erase circuits are disabled. Under

this condition the device will reset to the Read

mode. Subsequent writes will be ignored until the

Vcc level is greater than VLKO. It is the users re-

sponsibility to ensure that the control pins are logi-

cally correct to prevent unintentional writes when

Vcc is above 3.2V.

Write Pulse âGlitchâ Protection

Noise pulses of less than 5 ns (typical) on /OE,

/CE or /WE will not initiate a write cycle.

Logical Inhibit

Writing is inhibited by holding any one of

/OE = VIL, /CE = VIH , or /WE = VIH. To initiate a

write cycle /CE and /WE must be a logical â0â while

/OE is a logical â1â.

Power-up of the device with /WE = /CE = V and

/OE = VIH will not accept commands on the rising

edge of /WE. The internal state machine is

automatically reset to Read mode on power-up.

Sector Protection

Sectors of the HY29F040A may be hardware

protected at the users factory. The protection

circuitry will disable both program and erase

functions for the protected sectors. Requests to

program or erase a protected sector will be

ignored by the device. Sector protection is

accomplished in a PROM programmer.

The HY29F040A features hardware sector protec-

tion that will disable both program and erase

operations to an individual sector or any group of

sectors. To activate this mode, programming

equipment must force V on control pin /OE and

address pin A9. Sector addresses should be set

using higher address lines A18, A17 and A16. The

protection mechanism begins on the falling edge

of the /WE pulse and is terminated with the rising

edge of /WE. See Figures 13 and 14 for details of

implementing Sector Protect.

Sector Unprotect

The HY29F040A also features a sector unprotect

mode, so that a protected sector may be unpro-

tected to incorporate any changes in the code.

Protecting all sectors is necessary before

unprotecting any sector(s). Sector unprotection is

accomplished in a PROM programmer. See Fig-

ures 15 and 16 for details of implementing Sector

Unprotect.

HY29F040A

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