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64K
X25648/49,
8K x 8 Bit
32K
X25328/29,
4K x 8 Bit
16K
X25168/69
2K x 8 Bit
VCC Supervisory Circuit w/Serial E2PROM
FEATURES
DESCRIPTION
• Low Vcc Detection and Reset Assertion
—Reset Signal Valid to Vcc=1V
• Save Critical Data With Block LockTM Protection
—Block LockTM Protect 0, 1/4, 1/2 or all of
Serial E2PROM Memory Array
• In Circuit Programmable ROM Mode
• Long Battery Life With Low Power Consumption
—<1µA Max Standby Current
—<5mA Max Active Current during Write
—<400µA Max Active Current during Read
• 1.8V to 3.6V, 2.7V to 5.5V and 4.5V to 5.5V Power
Supply Operation
• 2MHz Clock Rate
• Minimize Programming Time
—32 Byte Page Write Mode
—Self-Timed Write Cycle
—5ms Write Cycle Time (Typical)
• SPI Modes (0,0 & 1,1)
• Built-in Inadvertent Write Protection
—Power-Up/Power-Down Protection Circuitry
—Write Enable Latch
—Write Protect Pin
• High Reliability
• Available Packages
—14-Lead SOIC (X2564X)
—14-Lead TSSOP (X2532X, X2516X)
—8-Lead SOIC (X2532X, X2516X)
These devices combines two popular functions, Supply
Voltage Supervision and Serial E2PROM Memory in one
package. This combination lowers system cost, reduces
board space requirements, and increases reliability.
The user’s system is protected from low voltage condi-
tions by the devices low Vcc detection circuitry. When
Vcc falls below the minimum Vcc trip point, the system is
reset. RESET/RESET is asserted until Vcc returns to
proper operating levels and stabilizes.
The memory portion of the device is a CMOS Serial
E2PROM array with Xicor’s Block LockTM Protection. The
array is internally organized as x 8. The device features a
Serial Peripheral Interface (SPI) and software protocol
allowing operation on a simple four-wire bus.
The device utilizes Xicor’s proprietary Direct WriteTM cell,
providing a minimum endurance of 100,000 cycles per
sector and a minimum data retention of 100 years.
BLOCK DIAGRAM
SI
SO
SCK
CS
RESET/RESET
DATA
REGISTER
COMMAND
DECODE &
CONTROL
LOGIC
RESET
CONTROL
X - DECODE
LOGIC
STATUS
REGISTER
PAGE DECODE LOGIC
32 8
SERIAL
E2PROM
ARRAY
VCC
LOW
VOLTAGE
SENSE
PROGRAMMING,
WP BLOCK LOCK &
ICP ROM CONTROL
©Xicor, Inc. 1994, 1995, 1996 Patents Pending
7032 -1.1 6/17/97 T1/C0/D0 SH
1
HIGH
VOLTAGE
CONTROL
7036 FRM 01
Characteristics subject to change without notice

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X25648/49, X25328/29, X25168/69
PIN DESCRIPTIONS
Serial Output (SO)
SO is a push/pull serial data output pin. During a read
cycle, data is shifted out on this pin. Data is clocked out by
the falling edge of the serial clock.
Serial Input (SI)
SI is a serial data input pin. All opcodes, byte addresses,
and data to be written to the memory are input on this pin.
Data is latched by the rising edge of the serial clock.
Serial Clock (SCK)
The Serial Clock controls the serial bus timing for data
input and output. Opcodes, addresses, or data present on
the SI pin are latched on the rising edge of the clock input,
while data on the SO pin change after the falling edge of
the clock input.
Chip Select (CS)
When CS is HIGH, the device is deselected and the SO
output pin is at high impedance and unless a nonvolatile
write cycle is underway, the device will be in the standby
power mode. CS LOW enables the device, placing it in
the active power mode. It should be noted that after
power-up, a HIGH to LOW transition on CS is required
prior to the start of any operation.
Write Protect (WP)
When WP is low and the nonvolatile bit WPEN is “1”,
nonvolatile writes to the device Status Register are
disabled, but the part otherwise functions normally. When
WP is held high, all functions, including nonvolatile writes
to the Status Register operate normally. If an internal
Status Register Write Cycle has already been initiated,
WP going low while WPEN is a “1” will have no effect on
this write. Subsequent write attempts to the Status
Register under these conditions will be disabled.
The WP pin function is blocked when the WPEN bit in the
Status Register is “0”. This allows the user to install the
device in a system with WP pin grounded and still be able
to program the Status Register. The WP pin functions will
be enabled when the WPEN bit is set to a “1”.
Reset (RESET/RESET)
RESET/RESET is an active LOW/HIGH, open drain out-
put which goes active whenever Vcc falls below the mini-
mum Vcc sense level. It will remain active until Vcc rises
above the minimum Vcc sense level for 200ms.
PIN CONFIGURATION
NC
CS
CS
SO
WP
VSS
NC
14-LEAD SOIC
1 14
2 13
3 12
X25648/49
4 11
5 10
69
78
NC
V CC
V CC
RESET/RESET
SCK
SI
NC
CS
SO
WP
VSS
8-LEAD SOIC
18
2 X25328/29 7
X25168/69
36
45
V CC
RESET/RESET
SCK
SI
14-LEAD TSSOP
CS
SO
NC
NC
NC
WP
VSS
1 14
2 13
3 X25328/29 12
4 X25168/69 11
5 10
69
78
V CC
RESET/RESET
NC
NC
NC
SCK
SI
7036 FRM 02
PIN NAMES
Symbol
Description
CS Chip Select Input
SO Serial Output
SI Serial Input
SCK
WP
Serial Clock Input
Program Protect Input
VSS
VCC
RESET/RESET
Ground
Supply Voltage
Reset Output
7036 FRM T01
2

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PRINCIPLES OF OPERATION
The device is designed to interface directly with the syn-
chronous Serial Peripheral Interface (SPI) of many popu-
lar microcontroller families.
The device monitors VCC and asserts RESET/RESET
output if the supply voltage falls below a preset minimum
Vtrip. The device contains an 8-bit instruction register. It is
accessed via the SI input, with data being clocked in on
the rising edge of SCK. CS must be LOW during the
entire operation.
All instructions (Table 1), addresses and data are trans-
ferred MSB first. Data input on the SI line is latched on the
first rising edge of SCK after CS goes LOW. Data is out-
put on the SO line by the falling edge of SCK. SCK is
static, allowing the user to stop the clock and then start it
again to resume operations where left off.
Write Enable Latch
The device contains a Write Enable Latch. This latch must
be SET before a Write Operation is initiated. The WREN
instruction will set the latch and the WRDI instruction will
reset the latch (Figure 3). This latch is automatically reset
upon a power-up condition and after the completion of a
valid Write Cycle.
Status Register
The RDSR instruction provides access to the Status Reg-
ister. The Status Register may be read at any time, even
during a Write Cycle. The Status Register is formatted as
follows:
76
WPEN FLB
5
1
43210
1 BL1 BL0 WEL WIP
7036 FRM T02
The Write-In-Progress (WIP) bit is a volatile, read only bit
and indicates whether the device is busy with an internal
nonvolatile write operation. The WIP bit is read using the
RDSR instruction. When set to a “1”, a nonvolatile write
operation is in progress. When set to a “0”, no write is in
progress.
The Write Enable Latch (WEL) bit indicates the Status of
the Write Enable Latch. When WEL=1, the latch is set
HIGH and when WEL=0 the latch is reset LOW. The WEL
bit is a volatile, read only bit. It can be set by the WREN
instruction and can be reset by the WRDS instruction.
The Block Lock bits, BL0 and BL1, set the level of Block
LockTM Protection. These nonvolatile bits are pro-
grammed using the WRSR instruction and allow the user
to protect one quarter, one half, all or none of the
E2PROM array. Any portion of the array that is Block Lock
Protected can be read but not written. It will remain pro-
tected until the BL bits are altered to disable Block Lock
Protection of that portion of memory.
Status
Register
Bits
Array Addresses Protected
BL1 BL0 X2564X
X2532X
X2516X
00
None
None
None
0 1 $1800–$1FFF $0C00–$0FFF $0600–$07FF
1 0 $1000–$1FFF $0800–$0FFF $0400–$07FF
1 1 $0000–$1FFF $0000–$0FFF $0000–$07FF
7036 FRM T03
Bits 4 and 5 of the Status Register will be read as “1’s”
and must be written as “1’s” on all Status Register writes.
Table 1. Instruction Set
Instruction Name Instruction Format*
Operation
WREN
0000 0110
Set the Write Enable Latch (Enable Write Operations)
SFLB
WRDI/RFLB
RSDR
0000 0000
0000 0100
0000 0101
Set Flag Bit
Reset the Write Enable Latch/Reset Flag Bit
Read Status Register
WRSR
READ
WRITE
0000 0001
0000 0011
0000 0010
Write Status Register (BlockLock,WPEN & Flag Bits)
Read Data from Memory Array Beginning at Selected Address
Write Data to Memory Array Beginning at Selected Address
*Instructions are shown MSB in leftmost position. Instructions are transferred MSB first.
7036 FRM T04
3

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X25648/49, X25328/29, X25168/69
The read only FLAG bit shows the status of a volatile latch
that can be set and reset by the system using the SFLB
and RFLB instructions. The Flag bit is automatically reset
upon power up.
The nonvolatile WPEN bit is programmed using the
WRSR instruction. This bit works in conjunction with the
WP pin to provide Programmable Hardware Write Protec-
tion (Table 2). When WP is LOW and the WPEN bit is pro-
grammed HIGH, all Status Register Write Operations are
disabled.
In Circuit Programmable ROM Mode
This mechanism protects the Block Lock and Watchdog
bits from inadvertant corruption. It may be used to per-
form an In Circuit Programmable ROM function by hard-
wiring the WP pin to ground, writing and Block Locking
the desired portion of the array to be ROM, and then pro-
gramming the WPEN bit HIGH.
Read Sequence
When reading from the E2PROM memory array, CS is
first pulled low to select the device. The 8-bit READ
instruction is transmitted to the device, followed by the 16-
bit address. After the READ opcode and address are
sent, the data stored in the memory at the selected
address is shifted out on the SO line. The data stored in
memory at the next address can be read sequentially by
continuing to provide clock pulses. The address is auto-
matically incremented to the next higher address after
each byte of data is shifted out. When the highest address
is reached, the address counter rolls over to address
$0000 allowing the read cycle to be continued indefinitely.
The read operation is terminated by taking CS high. Refer
to the Read E2PROM Array Sequence (Figure 1).
To read the Status Register, the CS line is first pulled low
to select the device followed by the 8-bit RDSR instruc-
tion. After the RDSR opcode is sent, the contents of the
Status Register are shifted out on the SO line. Refer to
the Read Status Register Sequence (Figure 2).
Write Sequence
Prior to any attempt to write data into the device, the
“Write Enable” Latch (WEL) must first be set by issuing
the WREN instruction (Figure 3). CS is first taken LOW,
then the WREN instruction is clocked into the device.
After all eight bits of the instruction are transmitted, CS
must then be taken HIGH. If the user continues the Write
Operation without taking CS HIGH after issuing the
WREN instruction, the Write Operation will be ignored.
To write data to the E2PROM memory array, the user then
issues the WRITE instruction followed by the 16 bit
address and then the data to be written. Any unused bits
are specified to be “0’s”. The WRITE operation minimally
takes 32 clocks. CS must go low and remain low for the
duration of the operation. If the address counter reaches
the end of a page and the clock continues, the counter will
roll back to the first address of the page and overwrite any
data that may have been previously written.
For the Page Write Operation (byte or page write) to be
completed, CS can only be brought HIGH after bit 0 of the
last data byte to be written is clocked in. If it is brought
HIGH at any other time, the write operation will not be
completed (Figure 4).
To write to the Status Register, the WRSR instruction is
followed by the data to be written (Figure 5). Data bits 0
and 1 must be “0”. Data bits 4 and 5 must be “1”.
Table 2.
STATUS
REGISTER
STATUS
REGISTER
WEL
0
1
1
1
WPEN
X
1
0
X
DEVICE
PIN
WP#
X
0
X
1
BLOCK
PROTECTED
BLOCK
Protected
Protected
Protected
Protected
BLOCK
UNPROTECTED
BLOCK
Protected
Writable
Writable
Writable
STATUS
REGISTER
WPEN, BL0,
BL1 BITS
Protected
Protected
Writable
Writable
7036 FRM T06
4

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X25648/49, X25328/29, X25168/69
While the write is in progress following a Status Register
or E2PROM Sequence, the Status Register may be read
to check the WIP bit. During this time the WIP bit will be
high.
RESET/RESET Operation
The RESET (X25XX3) output is designed to go LOW
whenever VCC has dropped below the minimum trip point,
Vtrip.
The RESET (X25XX5) output is designed to go HIGH
whenever VCC has dropped below the minimum trip point,
Vtrip.
The RESET/RESET output is an open drain output and
requires a pull up resistor.
Operational Notes
The device powers-up in the following state:
• The device is in the low power standby state.
• A HIGH to LOW transition on CS is required to enter an
active state and receive an instruction.
• SO pin is high impedance.
• The Write Enable Latch is reset.
• The Flag Bit is reset.
• Reset Signal is active for tPURST.
Data Protection
The following circuitry has been included to prevent inad-
vertent writes:
• A WREN instruction must be issued to set the Write
Enable Latch.
• CS must come HIGH at the proper clock count in order
to start a nonvolatile write cycle.
Figure 1. Read E2PROM Array Sequence
CS
SCK
0 1 2 3 4 5 6 7 8 9 10
20 21 22 23 24 25 26 27 28 29 30
INSTRUCTION
SI
HIGH IMPEDANCE
SO
16 BIT ADDRESS
15 14 13
3210
DATA OUT
7 654321 0
MSB
7036 FRM 03
5