HY29LV160 Hynix Semiconductor, HY29LV160 Datasheet - Page 5

HY29LV160

Manufacturer Part Number

HY29LV160

Description

16 Mbit (2M x 8/1M x 16) Low Voltage Flash Memory

Manufacturer

Hynix Semiconductor

Datasheet

1.HY29LV160.pdf (48 pages)

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CONVENTIONS

Unless otherwise noted, a positive logic (active

High) convention is assumed throughout this docu-

ment, whereby the presence at a pin of a higher,

more positive voltage (V

signal. A ‘#’ symbol following the signal name, e.g.,

RESET#, indicates that the signal is asserted in

the Low state (V

and V

MEMORY ARRAY ORGANIZATION

The 16 Mbit Flash memory array is organized into

35 blocks called sectors (S0, S1, . . . , S34). A

sector is the smallest unit that can be erased and

that can be protected to prevent accidental or un-

authorized erasure. See the ‘Bus Operations’ and

‘Command Definitions’ sections of this document

for additional information on these functions.

In the HY29LV160, four of the sectors, which com-

prise the boot block, vary in size from 8 to 32

BUS OPERATIONS

Device bus operations are initiated through the

internal command register, which consists of sets

of latches that store the commands, along with

the address and data information, if any, needed

to execute the specific command. The command

memory location. The contents of the command

chine whose outputs control the operation of the

device. Table 3 lists the normal bus operations,

the inputs and control levels they require, and the

resulting outputs. Certain bus operations require

a high voltage on one or more device pins. Those

are described in Table 4.

Read Operation

Data is read from the HY29LV160 by using stan-

dard microprocessor read cycles while placing the

byte or word address on the device’s address in-

puts. The host system must drive the CE# and

OE# pins LOW and drive WE# high for a valid

read operation to take place. The BYTE# pin de-

termines whether the device outputs array data in

words (DQ[15:0]) or in bytes (DQ[7:0]).

The HY29LV160 is automatically set for reading

array data after device power-up and after a hard-

Rev. 1.2/May 01

values.

). See DC specifications for V

) causes assertion of the

Whenever a signal is separated into numbered

bits, e.g., DQ[7], DQ[6], ..., DQ[0], the family of

bits may also be shown collectively, e.g., as

DQ[7:0].

The designation 0xNNNN (N = 0, 1, 2, . . . , 9, A, .

. . , E, F) indicates a number expressed in hexadeci-

mal notation. The designation 0bXXXX indicates a

number expressed in binary notation (X = 0, 1).

Kbytes (4 to 16 Kwords), while the remaining 31

sectors are uniformly sized at 64 Kbytes (32

Kwords). The boot block can be located at the

bottom of the address range (HY29LV160B) or at

the top of the address range (HY29LV160T).

Tables 1 and 2 define the sector addresses and

corresponding address ranges for the top and bot-

tom boot block versions of the HY29LV160.

ware reset to ensure that no spurious alteration of

the memory content occurs during the power tran-

sition. No command is necessary in this mode to

obtain array data, and the device remains enabled

for read accesses until the command register con-

tents are altered.

This device features an Erase Suspend mode.

While in this mode, the host may read the array

data from any sector of memory that is not marked

for erasure. If the host reads from an address

within an erase-suspended (or erasing) sector, or

while the device is performing a byte or word pro-

gram operation, the device outputs status data

instead of array data. After completing an Auto-

matic Program or Automatic Erase algorithm within

a sector, that sector automatically returns to the

read array data mode. After completing a program-

ming operation in the Erase Suspend mode, the

system may once again read array data with the

same exception noted above.

The host must issue a hardware reset or the soft-

ware reset command to return a sector to the read

array data mode if DQ[5] goes high during a pro-

gram or erase cycle, or to return the device to the

read array data mode while it is in the Electronic

ID mode.

HY29LV160

HY29LV160 Hynix Semiconductor, HY29LV160 Datasheet - Page 5

HY29LV160

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