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HY29LV800BT-55I

Flash, 512KX16, 55ns, PDSO48, TSOP-48

器件类别:存储    存储   

厂商名称:SK Hynix(海力士)

厂商官网:http://www.hynix.com/eng/

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器件参数
参数名称
属性值
厂商名称
SK Hynix(海力士)
零件包装代码
TSOP
包装说明
TSOP1, TSSOP48,.8,20
针数
48
Reach Compliance Code
compliant
ECCN代码
EAR99
最长访问时间
55 ns
备用内存宽度
8
启动块
BOTTOM
命令用户界面
YES
数据轮询
YES
耐久性
100000 Write/Erase Cycles
JESD-30 代码
R-PDSO-G48
JESD-609代码
e6
长度
18.4 mm
内存密度
8388608 bit
内存集成电路类型
FLASH
内存宽度
16
功能数量
1
部门数/规模
1,2,1,15
端子数量
48
字数
524288 words
字数代码
512000
工作模式
ASYNCHRONOUS
最高工作温度
85 °C
最低工作温度
-40 °C
组织
512KX16
封装主体材料
PLASTIC/EPOXY
封装代码
TSOP1
封装等效代码
TSSOP48,.8,20
封装形状
RECTANGULAR
封装形式
SMALL OUTLINE, THIN PROFILE
并行/串行
PARALLEL
电源
3.3 V
编程电压
3 V
认证状态
Not Qualified
就绪/忙碌
YES
座面最大高度
1.2 mm
部门规模
16K,8K,32K,64K
最大待机电流
0.000005 A
最大压摆率
0.03 mA
最大供电电压 (Vsup)
3.6 V
最小供电电压 (Vsup)
3 V
标称供电电压 (Vsup)
3.3 V
表面贴装
YES
技术
CMOS
温度等级
INDUSTRIAL
端子面层
TIN BISMUTH
端子形式
GULL WING
端子节距
0.5 mm
端子位置
DUAL
切换位
YES
类型
NOR TYPE
宽度
12 mm
文档预览
HY29LV800
8 Mbit (1M x 8/512K x 16) Low Voltage Flash Memory
KEY FEATURES
n
Single Power Supply Operation
– Read, program and erase operations from
2.7 to 3.6 volts
– Ideal for battery-powered applications
High Performance
– 70 and 90 ns access time versions for full
voltage range operation
– 55 ns access time version for operation
from 3.0 to 3.6 volts
Ultra-low Power Consumption (Typical
Values)
– Automatic sleep mode current: 0.2 µA
– Standby mode current: 0.2 µA
– Read current: 7 mA (at 5 Mhz)
– Program/erase current: 15 mA
Flexible Sector Architecture:
– One 16 KB, two 8 KB, one 32 KB and
fifteen 64 KB sectors in byte mode
– One 8 KW, two 4 KW, one 16 KW and
fifteen 32 KW sectors in word mode
– Top or bottom boot block configurations
available
Sector Protection
– Allows locking of a sector or sectors to
prevent program or erase operations
within that sector
– Sectors lockable in-system or via
programming equipment
– Temporary Sector Unprotect allows
changes in locked sectors (requires high
voltage on RESET# pin)
Fast Program and Erase Times
– Sector erase time: 0.5 sec typical for each
sector
– Chip erase time: 10 sec typical
– Byte program time: 9
µs
typical
– Word program time: 11
µs
typical
Unlock Bypass Program Command
– Reduces programming time when issuing
multiple program command sequences
Automatic Erase Algorithm Preprograms
and Erases Any Combination of Sectors
or the Entire Chip
Automatic Program Algorithm Writes and
Verifies Data at Specified Addresses
n
Minimum 100,000 Write Cycles per Sector
n
Compatible With JEDEC standards
– Pinout and software compatible with
single-power supply Flash devices
– Superior inadvertent write protection
Data# Polling and Toggle Bits
– Provide software confirmation of
completion of program and erase
operations
Ready/Busy# Pin
– Provides hardware confirmation of
completion of program and erase
operations
Erase Suspend/Erase Resume
– Suspends an erase operation to allow
reading data from, or programming data
to, a sector that is not being erased
– Erase Resume can then be invoked to
complete suspended erasure
Hardware Reset Pin (RESET#) Resets the
Device to Reading Array Data
Space Efficient Packaging
– 44-pin PSOP, 48-pin TSOP and 48-ball
FBGA packages
n
n
n
n
n
n
n
n
n
LOGIC DIAGRAM
19
A[18:0]
DQ[7:0]
7
CE#
OE#
WE#
RESET#
BYTE#
RY/BY#
DQ[14:8]
DQ[15]/A[-1]
8
n
n
n
n
Preliminary
Revision 1.0, November 2001
HY29LV800
GENERAL DESCRIPTION
The HY29LV800 is an 8 Mbit, 3 volt-only, CMOS
Flash memory organized as 1,048,576 (1M) bytes
or 524,288 (512K) words that is available in 44-
pin PSOP, 48-pin TSOP and 48-ball FBGA pack-
ages. Word-wide data (x16) appears on DQ[15:0]
and byte-wide (x8) data appears on DQ[7:0].
The HY29LV800 can be programmed and erased
in-system with a single 3 volt V
CC
supply. Inter-
nally generated and regulated voltages are pro-
vided for program and erase operations, so that
the device does not require a higher voltage V
PP
power supply to perform those functions. The de-
vice can also be programmed in standard EPROM
programmers. Access times as low as 70 ns over
the full operating voltage range of 2.7 - 3.6 volts
are offered for timing compatibility with the zero
wait state requirements of high speed micropro-
cessors. A 55 ns version operating from 3.0 to
3.6 volts is also available. To eliminate bus con-
tention, the HY29LV800 has separate chip enable
(CE#), write enable (WE#) and output enable
(OE#) controls.
The device is compatible with the JEDEC single-
power-supply Flash command set standard. Com-
mands are written to the command register using
standard microprocessor write timings. They are
then routed to an internal state-machine that con-
trols the erase and programming circuits. Device
programming is performed a byte/word at a time
by executing the four-cycle Program Command
write sequence. This initiates an internal algorithm
that automatically times the program pulse widths
and verifies proper cell margin. Faster program-
ming times can be achieved by placing the
HY29LV800 in the Unlock Bypass mode, which
requires only two write cycles to program data in-
stead of four.
The HY29LV800’s sector erase architecture allows
any number of array sectors to be erased and re-
programmed without affecting the data contents
of other sectors. Device erasure is initiated by
executing the Erase Command sequence. This
initiates an internal algorithm that automatically
preprograms the array (if it is not already pro-
grammed) before executing the erase operation.
As during programming cycles, the device auto-
matically times the erase pulse widths and veri-
fies proper cell margin. Hardware Sector Protec-
tion optionally disables both program and erase
operations in any combination of the sectors of
the memory array, while Temporary Sector Unpro-
tect allows in-system erasure and code changes
in previously protected sectors. Erase Suspend
enables the user to put erase on hold for any pe-
riod of time to read data from, or program data to,
any sector that is not selected for erasure. True
background erase can thus be achieved. The de-
vice is fully erased when shipped from the factory.
Addresses and data needed for the programming
and erase operations are internally latched during
write cycles, and the host system can detect
completion of a program or erase operation by
observing the RY/BY# pin, or by reading the DQ[7]
(Data# Polling) and DQ[6] (toggle) status bits.
Hardware data protection measures include a low
V
CC
detector that automatically inhibits write op-
erations during power transitions.
After a program or erase cycle has been com-
pleted, or after assertion of the RESET# pin (which
terminates any operation in progress), the device
is ready to read data or to accept another com-
mand. Reading data out of the device is similar to
reading from other Flash or EPROM devices.
Two power-saving features are embodied in the
HY29LV800. When addresses have been stable
for a specified amount of time, the device enters
the automatic sleep mode. The host can also place
the device into the standby mode. Power con-
sumption is greatly reduced in both these modes.
2
Rev. 1.0/Nov. 01
HY29LV800
BLOCK DIAGRAM
DQ[15:0]
A[18:0], A[-1]
STATE
CONTROL
DQ[15:0]
WE#
CE#
OE#
BYTE#
RESET#
RY/BY#
PROGRAM
VOLTAGE
GENERATOR
COMMAND
REGISTER
ERASE VOLTAGE
GENERATOR AND
SECTOR SWITCHES
I/O CONTROL
I/O BUFFERS
DATA LATCH
ADDRESS LATCH
Y-DECODER
Y-GATING
V
C C
DETECTOR
TIMER
A[18:0], A[-1]
X-DECODER
8 Mb FLASH
MEMORY
ARRAY
(19 Sectors)
SIGNAL DESCRIPTIONS
Name
A[18:0]
DQ[15]/A[-1],
DQ[14:0]
BYTE#
C E#
Type
Inputs
Description
Address, active High.
These 19 inputs, combined with the DQ[15]/A[-1] input in
Byte mode, select one location within the array for read or write operations.
Data Bus, active High
. These pins provide an 8- or 16-bit data path for read
Inputs/Outputs
and write operations. In Byte mode, DQ[15]/A[-1] is used as the LSB of the 20bit
Tri-state
byte address input. DQ[14:8] are unused and remain tri-stated in Byte mode.
Byte Mode, active Low.
Low selects Byte mode, High selects Word mode.
Input
Input
Chip Enable, active Low.
This input must be asserted to read data from or
wri te data to the HY29LV800. When Hi gh, the data bus i s tri -stated and the
device is placed in the Standby mode.
Output Enable, active Low
. Asserted for read operations and negated for
write operations. BYTE# determines whether a byte or a word is read during the
read operation.
W r ite E n a b le , a c tiv e L o w.
C o ntro ls wri ti ng o f c o m m a nd s o r c o m m a nd
sequences in order to program data or erase sectors of the memory array. A write
operation takes place when WE# is asserted while CE# is Low and OE# is High.
Hardw are Reset, active Low.
Provides a hardware method of resetting the
HY29LV800 to the read array state. When the device is reset, it immediately
terminates any operation in progress. While RESET# is asserted, the device
will be in the Standby mode.
R e a d y /B u s y S ta tu s .
Ind i c a te s whe the r a wri te o r e ra s e c o mma nd i s i n
progress or has been completed. Remai ns Low whi le the devi ce i s acti vely
programming data or erasing, and goes High when it is ready to read array data.
3-volt (nominal) pow er supply.
Pow er and signal ground.
OE#
Input
WE#
Input
RESET#
Input
RY/BY#
V
CC
V
SS
Output
Open Drain
--
--
Rev. 1.0/Nov. 01
3
HY29LV800
PIN CONFIGURATIONS
48-Ball FBGA (6 x 8 mm, Top View, Balls Facing Down)
A6
A[13]
B6
A[12]
C6
A[14]
D6
A[15]
E6
A[16]
F6
BYTE#
G6
DQ[15]/A[-1]
H6
V
SS
A5
A[9]
B5
A[8]
C5
A[10]
D5
A[11]
E5
DQ[7]
F5
DQ[14]
G5
DQ[13]
H5
DQ[6]
A4
WE#
B4
RESET#
C4
NC
D4
NC
E4
DQ[5]
F4
DQ[12]
G4
V
CC
H4
DQ[4]
A3
RY/BY#
B3
NC
C3
A[18]
D3
NC
E3
DQ[2]
F3
DQ[10]
G3
DQ[11]
H3
DQ[3]
A2
A[7]
B2
A[17]
C2
A[6]
D2
A[5]
E2
DQ[0]
F2
DQ[8]
G2
DQ[9]
H2
DQ[1]
A1
A[3]
B1
A[4]
C1
A[2]
D1
A[1]
E1
A[0]
F1
CE#
G1
OE#
H1
V
SS
RY/BY#
A18
A17
A7
A6
A5
A4
A3
A2
A1
A0
CE#
V
SS
OE#
DQ0
DQ8
DQ1
DQ9
DQ2
DQ10
DQ3
DQ11
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
RESET#
WE#
A8
A9
A10
A11
A12
A13
A14
A15
A16
BYTE#
V
SS
DQ15/A-1
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
V
CC
A15
A14
A13
A12
A11
A10
A9
A8
NC
NC
WE#
RESET#
NC
NC
RY/BY#
A18
A17
A7
A6
A5
A4
A3
A2
A1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
Standard
TSOP48
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
A16
BYTE#
V
SS
DQ15/A-1
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
V
CC
DQ11
DQ3
DQ10
DQ2
DQ9
DQ1
DQ8
DQ0
OE#
V
SS
CE#
A0
4
PSOP44
Rev. 1.0/Nov. 01
HY29LV800
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
IH
) causes assertion of the
signal. A ‘#’ symbol following the signal name, e.g.,
RESET#, indicates that the signal is asserted in
the Low state (V
IL
). See DC specifications for V
IH
and V
IL
values.
MEMORY ARRAY ORGANIZATION
The 8 Mbit Flash memory array is organized into
19 blocks called
sectors
(S0, S1, . . . , S18). 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 HY29LV800, 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
register itself does not occupy any addressable
memory location. The contents of the command
register serve as inputs to an internal state ma-
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
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 15
sectors are uniformly sized at 64 Kbytes (32
Kwords). The boot block can be located at the
bottom of the address range (HY29LV800B) or at
the top of the address range (HY29LV800T).
Tables 1 and 2 define the sector addresses and
corresponding address ranges for the top and bot-
tom boot block versions of the HY29LV800.
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.
Data is read from the HY29LV800 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 determines
whether the device outputs array data in words
(DQ[15:0]) or in bytes (DQ[7:0]).
The HY29LV800 is automatically set for reading
array data after device power-up and after a hard-
Rev. 1.0/Nov. 01
5
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