ISSI IS25LP256-JGLE1 3v serial flash memory with 166mhz multi i/o spi Datasheet

ADVANCED INFORMATION
IS25LP256
256MBIT
3V SERIAL FLASH MEMORY WITH 166MHZ MULTI I/O SPI
& DTR INTERFACE
ADVANCED DATA SHEET
ADVANCED INFORMATION
IS25LP256
256MBIT
3V SERIAL FLASH MEMORY WITH 166MHZ MULTI I/O SPI &
DTR INTERFACE
ADVANCED INFORMATION
FEATURES
 Industry Standard Serial Interface
- IS25LP256: 256Mbit/32Mbyte
- 3 or 4 Byte Addressing Mode
- Supports Standard SPI, Fast, Dual, Dual
I/O, Quad, Quad I/O, SPI DTR, Dual I/O
DTR, Quad I/O DTR, and QPI
- Software & Hardware Reset
- Supports Serial Flash Discoverable
Parameters (SFDP)
 Low Power with Wide Temp. Ranges
- Single 2.30V to 3.60V Voltage Supply
- 10 mA Active Read Current
- 8 µA Standby Current
- 1 µA Deep Power Down
- Temp Grades:
Extended: -40°C to +105°C
Extended+: -40°C to +125°C
Auto Grade: up to +125°C
Note: Extended+ should not be used for Automotive
 High Performance Serial Flash (SPI)
- 80MHz Normal Read
- Up to166Mhz Fast Read
- Up to 80MHz DTR (Dual Transfer Rate)
- Equivalent Throughput of 664 Mb/s
- Selectable Dummy Cycles
- Configurable Drive Strength
- Supports SPI Modes 0 and 3
- More than 100,000 Erase/Program Cycles
- More than 20-year Data Retention
 Flexible & Efficient Memory Architecture
- Chip Erase with Uniform: Sector/Block
Erase (4/32/64 Kbyte)
- Program 1 to 256 Byte per Page
- Program/Erase Suspend & Resume
 Efficient Read and Program modes
- Low Instruction Overhead Operations
- Continuous Read 8/16/32/64 Byte Burst
- Selectable Burst Length
- QPI for Reduced Instruction Overhead
- AutoBoot operation
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
 Advanced Security Protection
- Software and Hardware Write Protection
- Advanced Sector Protection
- Top/Bottom Block protection and
Complement
- Individual Block/Sector unlock
- Power Supply Lock Protection
- 4x256 Byte Dedicated Security Area
with User-lockable Bits, (OTP) One
Time Programmable Memory
- 128 bit Unique ID for Each Device (call
factory)
 Industry Standard Pin-out & Packages
- M =16-pin SOIC 300mil
- L = 8-contact WSON 8x6mm
- G = 24-ball TFBGA 6x8mm (4x6 ball array)
- KGD (Call Factory)
2
ADVANCED INFORMATION
IS25LP256
GENERAL DESCRIPTION
The IS25LP256 Serial Flash memory offers a versatile storage solution with high flexibility and performance in a
simplified pin count package. ISSI’s “Industry Standard Serial Interface” Flash is for systems that require limited
space, a low pin count, and low power consumption. The device is accessed through a 4-wire SPI Interface
consisting of a Serial Data Input (SI), Serial Data Output (SO), Serial Clock (SCK), and Chip Enable (CE#) pins,
which can also be configured to serve as multi-I/O (see pin descriptions).
The device supports Dual and Quad I/O as well as standard, Dual Output, and Quad Output SPI. Clock
frequencies of up to 166MHz allow for equivalent clock rates of up to 664MHz (166MHz x 4) which equates to
over 80Mbytes/data throughput. The IS25xP series of Flash adds support for DTR (Double Transfer Rate)
commands that transfer addresses and read data on both edges of the clock. These transfer rates can
outperform 16-bit Parallel Flash memories allowing for efficient memory access to support XIP (execute in
place) operation.
The memory array is organized into programmable pages of 256 bytes. This family supports page program
mode where 1 to 256 bytes of data are programmed in a single command. QPI (Quad Peripheral Interface)
supports 2-cycle instruction further reducing instruction times. Pages can be erased in groups of 4Kbyte
sectors, 32Kbyte blocks, 64Kbyte blocks, and/or the entire chip. The uniform sector and block architecture
allows for a high degree of flexibility so that the device can be utilized for a broad variety of applications
requiring solid data retention.
GLOSSARY
Standard SPI
In this operation, a 4-wire SPI Interface is utilized, consisting of Serial Data Input (SI), Serial Data Output (SO),
Serial Clock (SCK), and Chip Enable (CE#) pins. Instructions are sent via the SI pin to encode instructions,
addresses, or input data to the device. The SO pin is used to read data or to check the status of the device.
This device supports SPI bus operation modes (0,0) and (1,1).
Mutil I/O SPI
Multi-I/O operation utilizes an enhanced SPI protocol to allow the device to function with Dual Output, Dual Input
and Output, Quad Output, and Quad Input and Output capability. Executing these instructions through SPI
mode will achieve double or quadruple the transfer bandwidth for READ and PROGRAM operations.
Quad I/O QPI
The device enables QPI protocol by issuing an “Enter QPI mode (35h)” command. The QPI mode uses four IO
pins for input and output to decrease SPI instruction overhead and increase output bandwidth. SI and SO pins
become bidirectional IO0 and IO1, and WP# and HOLD# pins become IO2 and IO3 respectively during QPI
mode. Issuing an “Exit QPI (F5h) command will cause the device to exit QPI mode. Power Reset or
Hardware/Software Reset can also return the device into the standard SPI mode.
DTR
In addition to SPI and QPI features, the device also supports SPI DTR READ. SPI DTR allows high data
throughput while running at lower clock frequencies. SPI DTR READ mode uses both rising and falling edges of
the clock to drive output, resulting in reducing the input and output cycles by half.
Programmable drive strength and Selectable burst setting.
The IS25LP256 offers programmable output drive strength and selectable burst (wrap) length features to
increase the efficiency and performance of READ operation. The driver strength and burst setting features are
controlled by setting the Read Registers. A total of six different drive strengths and four different burst sizes
(8/16/32/64 Byte) are available for selection.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
3
ADVANCED INFORMATION
IS25LP256
PIN CONFIGURATION
(2)
HOLD# (IO3)
HOLD# or RESET# (IO3)
1
16
SCK
Vcc
2
15
SI (IO0)
RESET#/NC
3
14
NC
NC
4
13
NC
NC
5
12
NC
NC
6
11
NC
CE#
7
10
GND
SO (IO1)
8
9
(3)
(1)
(1)
WP# (IO2)
16-pin SOIC 300mil
Notes:
1. According to the P7 bit setting in Read Register, either HOLD# (P7=0) or RESET# (P7=1) pin can be selected.
2. For the dedicated parts that don’t have the additional RESET# pin on pin3, either HOLD# or RESET# pin can be
selected on pin1 by the P7 bit setting in Read Register when QE=0. For the dedicated parts with additional
RESET# pin on pin3, only HOLD# pin is selected for pin1 regardless of the P7 bit of Read Register when QE=0.
3. The dedicated parts have additional RESET# pin (pin3) on 16-pin SOIC 300mil package. For the parts, Function
Register Bit0 (RESET# Enable/Disable) will be set to “0”. The RESET# pin is independent of the P7 bit of Read
Register and QE bit of Status Register. The RESET# pin has an internal pull-up resistor and may be left floating if
not used. Call Factory for the RESET# pin option.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
4
ADVANCED INFORMATION
IS25LP256
Top View, Balls Facing Down
A1
A2
A3
NC
NC
RESET#
Top View, Balls Facing Down
A4
(2)
NC
B1
B2
B3
B4
NC
SCK
GND
VCC
C1
C2
C3
C4
NC
CE#
NC
WP#(IO2)
A2
A3
A4
NC
NC
RESET#
A5
(2)
D1
D2
D3
D4
NC
SO(IO1)
SI(IO0)
HOLD# or
RESET# (IO3)
E1
E2
E3
E4
NC
NC
NC
NC
NC
B1
B2
B3
B4
B5
NC
SCK
GND
VCC
NC
C1
C2
C3
C4
C5
NC
CE#
NC
WP#(IO2)
NC
(1)
F1
F2
F3
F4
NC
NC
NC
NC
4x6 Ball Array
D1
D2
D3
D4
NC
SO(IO1)
SI(IO0)
HOLD# or
RESET# (IO3)
D5
(1)
NC
E1
E2
E3
E4
E5
NC
NC
NC
NC
NC
5x5 Ball Array
24-ball TFBGA 6x8mm
Notes:
1. For the dedicated parts that don’t have the additional RESET# pin on ball A3, either HOLD# (P7=0) or RESET#
(P7=1) pin can be selected on ball D4 by the P7 bit setting in Read Register when QE=0. For the dedicated parts
with additional RESET# pin on ball A3, only HOLD# pin is selected for ball D4 regardless of the P7 bit of Read
Register when QE=0.
2. The dedicated parts have additional RESET# pin (ball A3) on 24-ball TFBGA 6x8mm package. For the parts,
Function Register Bit0 (RESET# Enable/Disable) will be set to “0”. The RESET# pin is independent of the P7 bit
of Read Register and QE bit of Status Register. The RESET# pin has an internal pull-up resistor and may be left
floating if not used. Call Factory for the RESET# pin option.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
5
ADVANCED INFORMATION
IS25LP256
PIN DESCRIPTIONS
For all other packages except 16-pin SOIC 300mil with additional RESET# pin option
SYMBOL
TYPE
DESCRIPTION
Chip Enable: The Chip Enable (CE#) pin enables and disables the devices
operation. When CE# is high the device is deselected and output pins are in a high
impedance state. When deselected the devices non-critical internal circuitry power
down to allow minimal levels of power consumption while in a standby state.
CE#
INPUT
When CE# is pulled low the device will be selected and brought out of standby
mode. The device is considered active and instructions can be written to, data read,
and written to the device. After power-up, CE# must transition from high to low
before a new instruction will be accepted.
Keeping CE# in a high state deselects the device and switches it into its low power
state. Data will not be accepted when CE# is high.
SI (IO0),
SO (IO1)
INPUT/OUTPUT
Serial Data Input, Serial Output, and IOs (SI, SO, IO0, and IO1):
This device supports standard SPI, Dual SPI, and Quad SPI operation. Standard SPI
instructions use the unidirectional SI (Serial Input) pin to write instructions,
addresses, or data to the device on the rising edge of the Serial Clock (SCK).
Standard SPI also uses the unidirectional SO (Serial Output) to read data or status
from the device on the falling edge of the serial clock (SCK).
In Dual and Quad SPI mode, SI and SO become bidirectional IO pins to write
instructions, addresses or data to the device on the rising edge of the Serial Clock
(SCK) and read data or status from the device on the falling edge of SCK. Quad SPI
instructions use the WP# and HOLD# pins as IO2 and IO3 respectively.
WP# (IO2)
INPUT/OUTPUT
Write Protect/Serial Data IO (IO2): The WP# pin protects the Status Register from
being written in conjunction with the SRWD bit. When the SRWD is set to “1” and the
WP# is pulled low, the Status Register bits (SRWD, QE, BP3, BP2, BP1, BP0) are
write-protected and vice-versa for WP# high. When the SRWD is set to “0”, the
Status Register is not write-protected regardless of WP# state.
When the QE bit is set to “1”, the WP# pin (Write Protect) function is not available
since this pin is used for IO2.
HOLD# or RESET#/Serial Data IO (IO3): When the QE bit of Status Register is set
to “1”, HOLD# pin or RESET# is not available since it becomes IO3. When QE=0,
the pin acts as HOLD# or RESET# and either one can be selected by the P7 bit
setting in Read Register. HOLD# will be selected if P7=0 (Default) and RESET# will
be selected if P7=1.
HOLD# or
RESET# (IO3)
INPUT/OUTPUT
The HOLD# pin allows the device to be paused while it is selected. It pauses serial
communication by the master device without resetting the serial sequence. The
HOLD# pin is active low. When HOLD# is in a low state and CE# is low, the SO pin
will be at high impedance. Device operation can resume when HOLD# pin is brought
to a high state.
RESET# pin is a hardware RESET signal. When RESET# is driven HIGH, the
memory is in the normal operating mode. When RESET# is driven LOW, the memory
enters reset mode and output is High-Z. If RESET# is driven LOW while an internal
WRITE, PROGRAM, or ERASE operation is in progress, data may be lost.
SCK
INPUT
Vcc
POWER
GND
GROUND
NC
Unused
Serial Data Clock: Synchronized Clock for input and output timing operations.
Power: Device Core Power Supply
Ground: Connect to ground when referenced to Vcc
NC: Pins labeled “NC” stand for “No Connect” and should be left unconnected.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
6
ADVANCED INFORMATION
IS25LP256
For 16-pin SOIC 300mil package with additional RESET# pin option
- RESET# pin will be added to another pin without sharing with HOLD# pin (Call Factory for the parts)
SYMBOL
TYPE
DESCRIPTION
CE#
INPUT
Same as the description in previous page
SI (IO0),
SO (IO1)
INPUT/OUTPUT
Same as the description in previous page
WP# (IO2)
INPUT/OUTPUT
Same as the description in previous page
HOLD#/Serial Data IO (IO3): When the QE bit of Status Register is set to “1”,
HOLD# pin is not available since it becomes IO3. When QE=0 the pin acts as
HOLD# regardless of the P7 bit of Read Register.
HOLD# (IO3)
INPUT/OUTPUT
The HOLD# pin allows the device to be paused while it is selected. It pauses serial
communication by the master device without resetting the serial sequence. The
HOLD# pin is active low. When HOLD# is in a low state and CE# is low, the SO pin
will be at high impedance. Device operation can resume when HOLD# pin is brought
to a high state.
RESET: This pin is available only for dedicated parts (Call Factory).
The RESET# pin is a hardware RESET signal. When RESET# is driven HIGH, the
memory is in the normal operating mode. When RESET# is driven LOW, the
memory enters reset mode and output is High-Z. If RESET# is driven LOW while an
internal WRITE, PROGRAM, or ERASE operation is in progress, data may be lost.
RESET#
INPUT/OUTPUT
SCK
INPUT
Same as the description in previous page
Vcc
POWER
Same as the description in previous page
GND
GROUND
Same as the description in previous page
NC
Unused
Same as the description in previous page
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
7
ADVANCED INFORMATION
IS25LP256
BLOCK DIAGRAM
Control Logic
High Voltage Generator
Status
Register
I/O Buffers and
Data Latches
256 Bytes
Page Buffer
Serial Peripheral Interface
CE#
SCK
WP#
(IO2)
SI
(IO0)
SO
(IO1)
Y-Decoder
(1)
X-Decoder
HOLD# or RESET#
(IO3)
Memory Array
Address Latch &
Counter
Note1: In case of 16-pin SOIC package, RESET# pin will be added to another pin without sharing with HOLD# pin for
the dedicated parts. Call Factory for the additional RESET# pin option.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
8
ADVANCED INFORMATION
IS25LP256
SPI MODES DESCRIPTION
Multiple IS25LP256 devices can be connected on the SPI serial bus and controlled by a SPI Master, i.e.
microcontroller, as shown in Figure 4.1. The devices support either of two SPI modes:
Mode 0 (0, 0)
Mode 3 (1, 1)
The difference between these two modes is the clock polarity. When the SPI master is in stand-by mode, the
serial clock remains at “0” (SCK = 0) for Mode 0 and the clock remains at “1” (SCK = 1) for Mode 3. Please refer
to Figure 4.2 and Figure 4.3 for SPI and QPI mode. In both modes, the input data is latched on the rising edge
of Serial Clock (SCK), and the output data is available from the falling edge of SCK.
Figure 4.1 Connection Diagram among SPI Master and SPI Slaves (Memory Devices)
SDO
SPI interface with
(0,0) or (1,1)
SDI
SCK
SCK SO
SI
SCK SO
SI
SCK SO
SI
SPI Master
(i.e. Microcontroller)
CS3
CS2
SPI
Memory
Device
CS1
SPI
Memory
Device
CE#
SPI
Memory
Device
CE#
WP# HOLD# or
RESET
(1)
CE#
WP# HOLD# or
RESET#
(1)
WP# HOLD# or
RESET#
(1)
Notes:
1. In case of 16-pin SOIC package, RESET# pin will be added to another pin without sharing with HOLD# pin for the
dedicated parts. Call Factory for the additional RESET# pin option.
2. SI and SO pins become bidirectional IO0 and IO1, and WP# and HOLD# pins become IO2 and IO3 respectively
during QPI mode.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
9
ADVANCED INFORMATION
IS25LP256
BLOCK/SECTOR ADDRESSES
Table Block/Sector Addresses of IS25LP256
Memory
Density
Block No.
(64Kbyte)
Block No.
(32Kbyte)
Block 0
Block 0
Block 1
Block 2
Block 1
Block 3
Block 4
Block 2
Block 5
:
:
Block 508
256 Mbit
Block 254
Block 509
Block 510
Block 255
Block 511
:
:
Block 1020
Block 510
Block 1021
Block 1022
Block 511
Block 1023
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
Sector 0
:
:
Sector 15
Sector Size
(Kbyte)
4
:
:
4
000000h - 000FFFh
:
:
00F000h - 00FFFFh
Sector 16
:
:
Sector 31
Sector 32
:
:
Sector 47
:
Sector 4064
:
:
4
:
:
4
4
:
:
4
:
4
:
:
010000h - 010FFFh
:
:
01F000h - 01FFFFh
020000h - 020FFFh
:
:
02F000h - 02FFFFh
:
FE0000h – FE0FFFh
:
:
Sector 4079
Sector 4080
:
:
Sector 4095
:
Sector 8160
:
:
Sector 8175
Sector 8176
:
4
4
:
:
4
:
4
:
:
4
4
:
FEF000h – FEFFFFh
FF0000h – FF0FFFh
:
:
FFF000h – FFFFFFh
:
1FE0000h – 1FE0FFFh
:
:
1FEF000h – 1FEFFFFh
1FF0000h – 1FF0FFFh
:
:
Sector 8191
:
4
:
1FFF000h – 1FFFFFFh
Sector No.
Address Range
10
ADVANCED INFORMATION
IS25LP256
PACKAGE TYPE INFORMATION
8-CONTACT ULTRA-THIN SMALL OUTLINE NO-LEAD (WSON) PACKAGE 8X6MM (JL)
.
DIMENSION IN MM
SYMBOL
MIN.
NOM
MAX
A
0.70
0.75
0.80
A1
0.00
0.02
0.05
A2
---
0.20
---
D
7.90
8.00
8.10
E
5.90
6.00
6.10
D1
4.65
4.70
4.75
E1
4.55
4.60
4.65
e
---
1.27
---
b
0.35
0.40
0.48
L
0.4
0.50
0.60
Note: All dimensions are in millimeters.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
11
ADVANCED INFORMATION
IS25LP256
16-LEAD PLASTIC SMALL OUTLINE PACKAGE (300 MILS BODY WIDTH) (JM)
Millimeters
10.65
7.6
10.0
9
7.4
16
10.1
10.5
0.23
0.32
Detail A
1
8
2.25
2.4
2.35
2.65
Detail A
1.27
0.1
0.33
0.51
0.1
0.3
0.4
1.27
00
80
Note: All dimensions are in millimeters.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
12
ADVANCED INFORMATION
IS25LP256
24-BALL THIN PROFILE FINE PITCH BGA 6X8MM 4X6 BALL ARRAY (JG)
D
4
3
2
1
A1 Corner
Index Area
A
B
E1
E
C
e
D
E
F
(TOP VIEW)
A1 Corner
Index Area
nX Øb
e
D1
(BOTTOM VIEW)
A3
A
A2
A1
SYMBOL
A
A1
A2
A3
D
E
D1
E1
e
b
DIMENSIONS (MM)
MIN
NOM
MAX
1.20
0.27
0.37
0.21 REF
0.54 REF
6 BSC
8 BSC
3.00
5.00
1.00
0.40
-
Note: All dimensions are in millimeters.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
13
ADVANCED INFORMATION
IS25LP256
ORDERING INFORMATION- Valid Part Numbers
IS25LP256
-
J
M
L
E
TEMPERATURE RANGE
E = Extended (-40°C to +105°C)
E1 = Extended+ (-40°C to +125°C)
A1 = Automotive Grade (-40°C to +85°C)
A2 = Automotive Grade (-40°C to +105°C)
A3 = Automotive Grade (-40°C to +125°C)
PACKAGING CONTENT
L = RoHS compliant
(1)
PACKAGE Type
L = 8-contact WSON (8x6mm)
M = 16-pin SOIC 300mil
G = 24-ball TFBGA (6x8mm) 4x6 ball array
W = KGD (Call Factory)
Options
J = Standard
R = additional RESET# pin option for 16-pin SOIC 300mil
Die Revision
Blank = First Revision
Density
256 = 256 Megabit
BASE PART NUMBER
IC = Integrated Silicon Solution Inc.
25LP = FLASH, 2.30V ~ 3.60V, QPI
Note:
1. For the additional RESET# pin option, call Factory
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
14
ADVANCED INFORMATION
IS25LP256
Density
256Mb
Frequency (MHz)
166
Order Part Number(1)
Package
IS25LP256-JLLE
IS25LP256-JLLE1
8-contact WSON (8x6mm)
IS25LP256-JMLE
IS25LP256-JMLE1
16-pin SOIC 300mil
IS25LP256-JGLE
IS25LP256-JGLE1
24-ball TFBGA (6x8mm) 4x6 ball array
IS25LP256-RMLE
IS25LP256-RMLE1
16-pin SOIC 300mil(2)
IS25LP256-JLLA*
8-contact WSON (8x6mm) (Call Factory)
IS25LP256-JMLA*
16-pin SOIC 300mil (Call Factory)
IS25LP256-JGLA*
24-ball TFBGA (6x8mm) 4x6 ball array (Call Factory)
IS25LP256-RMLA*
16-pin SOIC 300mil(2) (Call Factory)
IS25LP256-JWLE
KGD (Call Factory)
Notes:
1. A*= A1, A2, A3: Meets AEC-Q100 requirements with PPAP, E1= Extended+ non-Auto qualified
Temp Grades: E= -40 to 105°C, E1= -40 to 125°C, A1= -40 to 85°C, A2= -40 to 105°C, A3= -40 to 125°C
2. The dedicated parts have additional RESET# pin on pin3.
Integrated Silicon Solution, Inc.- www.issi.com
Rev.00A
1/16/2014
15
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