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X28C64K-25 PDF даташит

Спецификация X28C64K-25 изготовлена ​​​​«Xicor» и имеет функцию, называемую «5 Volt/ Byte Alterable E2PROM».

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Номер произв X28C64K-25
Описание 5 Volt/ Byte Alterable E2PROM
Производители Xicor
логотип Xicor логотип 

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X28C64K-25 Даташит, Описание, Даташиты
X28C64
64K
X28C64
8K x 8 Bit
5 Volt, Byte Alterable E2PROM
FEATURES
150ns Access Time
Simple Byte and Page Write
—Single 5V Supply
—No External High Voltages or VPP Control
Circuits
—Self-Timed
—No Erase Before Write
—No Complex Programming Algorithms
—No Overerase Problem
Low Power CMOS
—60mA Active Current Max.
—200µA Standby Current Max.
Fast Write Cycle Times
—64 Byte Page Write Operation
—Byte or Page Write Cycle: 5ms Typical
—Complete Memory Rewrite: 0.625 sec. Typical
—Effective Byte Write Cycle Time: 78µs Typical
Software Data Protection
End of Write Detection
DATA Polling
—Toggle Bit
High Reliability
—Endurance: 100,000 Cycles
—Data Retention: 100 Years
JEDEC Approved Byte-Wide Pinout
PIN CONFIGURATION
DESCRIPTION
The X28C64 is an 8K x 8 E2PROM, fabricated with
Xicor’s proprietary, high performance, floating gate
CMOS technology. Like all Xicor programmable non-
volatile memories the X28C64 is a 5V only device. The
X28C64 features the JEDEC approved pinout for byte-
wide memories, compatible with industry standard RAMs.
The X28C64 supports a 64-byte page write operation,
effectively providing a 78µs/byte write cycle and en-
abling the entire memory to be typically written in 0.625
seconds. The X28C64 also features DATA and Toggle
Bit Polling, a system software support scheme used to
indicate the early completion of a write cycle. In addi-
tion, the X28C64 includes a user-optional software data
protection mode that further enhances Xicor’s hard-
ware write protect capability.
Xicor E2PROMs are designed and tested for applica-
tions requiring extended endurance. Inherent data re-
tention is greater than 100 years.
NC
A12
A7
A6
A5
A4
A3
A2
A1
A0
I/O0
I/O1
I/O2
VSS
PLASTIC DIP
CERDIP
FLAT PACK
SOIC
1 28
2 27
3 26
4 25
5 24
6 23
7 22
X28C64
8 21
9 20
10 19
11 18
12 17
13 16
14 15
VCC
WE
NC
A8
A9
A11
OE
A10
CE
I/O7
I/O6
I/O5
I/04
I/O3
A6
A5
A4
A3
A2
A1
A0
NC
I/O0
3853 FHD F02
LCC
PLCC
4 3 2 1 32 31 30
5 29
6 28
7 27
8 26
9
X28C64
25
10 24
11 23
12 22
13 21
14 15 16 17 18 19 20
A8
A9
A11
NC
OE
A10
CE
I/O7
I/O6
3853 FHD F03
A2
A1
A0
I/O0
I/O1
I/O2
NC
VSS
NC
I/O3
I/O4
I/O5
I/O6
I/O7
CE
A10
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
TSOP
X28C64
32 A3
31 A4
30 A5
29 A6
28 A7
27 A12
26 NC
25 NC
24 VCC
23 NC
22 WE
21 NC
20 A8
19 A9
18 A11
17 OE
3853 ILL F23.1
© Xicor, Inc. 1991, 1995 Patents Pending
3853-2.7 4/2/96 T0/C3/D2 NS
1 Characteristics subject to change without notice









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X28C64K-25 Даташит, Описание, Даташиты
X28C64
PIN DESCRIPTIONS
Addresses (A0–A12)
The Address inputs select an 8-bit memory location
during a read or write operation.
Chip Enable (CE)
The Chip Enable input must be LOW to enable all read/
write operations. When CE is HIGH, power consumption
is reduced.
Output Enable (OE)
The Output Enable input controls the data output buffers
and is used to initiate read operations.
PIN NAMES
Symbol
A0–A12
I/O0–I/O7
WE
CE
OE
VCC
VSS
NC
Description
Address Inputs
Data Input/Output
Write Enable
Chip Enable
Output Enable
+5V
Ground
No Connect
3853 PGM T01
FUNCTIONAL DIAGRAM
Data In/Data Out (I/O0–I/O7)
Data is written to or read from the X28C64 through the
I/O pins.
Write Enable (WE)
The Write Enable input controls the writing of data to the
X28C64.
PIN CONFIGURATION
PGA
I/O1 I/O2 I/O3 I/O5 I/O6
12 13 15 17 18
I/O0 A0
VSS I/O4 I/O7
11 10 14 16 19
A1 A2
98
CE A10
20 21
X28C64
A3 A4
OE A11
76
22 23
A5 A12 VCC A9 A8
5 2 28 24 25
A6 A7 NC WE NC
4 3 1 27 26
BOTTOM VIEW
3853 FHD F04
A0–A12
ADDRESS
INPUTS
X BUFFERS
LATCHES AND
DECODER
Y BUFFERS
LATCHES AND
DECODER
65,536-BIT
E2PROM
ARRAY
I/O BUFFERS
AND LATCHES
CE
OE
WE
VCC
VSS
CONTROL
LOGIC AND
TIMING
I/O0–I/O7
DATA INPUTS/OUTPUTS
3853 FHD F01
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X28C64K-25 Даташит, Описание, Даташиты
X28C64
DEVICE OPERATION
Read
Read operations are initiated by both OE and CE LOW.
The read operation is terminated by either CE or OE
returning HIGH. This two line control architecture elimi-
nates bus contention in a system environment. The data
bus will be in a high impedance state when either OE or
CE is HIGH.
Write
Write operations are initiated when both CE and WE are
LOW and OE is HIGH. The X28C64 supports both a CE
and WE controlled write cycle. That is, the address is
latched by the falling edge of either CE or WE, whichever
occurs last. Similarly, the data is latched internally by the
rising edge of either CE or WE, whichever occurs first.
A byte write operation, once initiated, will automatically
continue to completion, typically within 5ms.
Page Write Operation
The page write feature of the X28C64 allows the entire
memory to be written in 0.625 seconds. Page write
allows two to sixty-four bytes of data to be consecutively
written to the X28C64 prior to the commencement of the
internal programming cycle. The host can fetch data
from another device within the system during a page
write operation (change the source address), but the
page address (A6 through A12) for each subsequent
valid write cycle to the part during this operation must be
the same as the initial page address.
The page write mode can be initiated during any write
operation. Following the initial byte write cycle, the host
can write an additional one to sixty-three bytes in the
same manner as the first byte was written. Each succes-
sive byte load cycle, started by the WE HIGH to LOW
transition, must begin within 100µs of the falling edge of
the preceding WE. If a subsequent WE HIGH to LOW
transition is not detected within 100µs, the internal
automatic programming cycle will commence. There is
no page write window limitation. Effectively the page
write window is infinitely wide, so long as the host
continues to access the device within the byte load cycle
time of 100µs.
Write Operation Status Bits
The X28C64 provides the user two write operation
status bits. These can be used to optimize a system
write cycle time. The status bits are mapped onto the
I/O bus as shown in Figure 1.
Figure 1. Status Bit Assignment
I/O DP TB 5 4 3 2 1 0
RESERVED
TOGGLE BIT
DATA POLLING
3853 FHD F11
DATA Polling (I/O7)
The X28C64 features DATA Polling as a method to
indicate to the host system that the byte write or page
write cycle has completed. DATA Polling allows a simple
bit test operation to determine the status of the X28C64,
eliminating additional interrupt inputs or external hard-
ware. During the internal programming cycle, any at-
tempt to read the last byte written will produce the
complement of that data on I/O7 (i.e. write data = 0xxx
xxxx, read data = 1xxx xxxx). Once the programming
cycle is complete, I/O7 will reflect true data. Note: If the
X28C64 is in the protected state and an illegal write
operation is attempted DATA Polling will not operate.
Toggle Bit (I/O6)
The X28C64 also provides another method for deter-
mining when the internal write cycle is complete. During
the internal programming cycle I/O6 will toggle from
HIGH to LOW and LOW to HIGH on subsequent
attempts to read the device. When the internal cycle is
complete the toggling will cease and the device will be
accessible for additional read or write operations.
3










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