IS42S16160-7TLI [ISSI]
Synchronous DRAM, 16MX16, 5.4ns, CMOS, PDSO54, LEAD FREE, TSOP2-54;型号: | IS42S16160-7TLI |
厂家: | INTEGRATED SILICON SOLUTION, INC |
描述: | Synchronous DRAM, 16MX16, 5.4ns, CMOS, PDSO54, LEAD FREE, TSOP2-54 时钟 动态存储器 光电二极管 内存集成电路 |
文件: | 总60页 (文件大小:919K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
IS42S16160
16Meg x16
256-MBIT SYNCHRONOUS DRAM
MAY 2008
FEATURES
•ꢀ Clockꢀfrequency:ꢀ166,ꢀ143ꢀꢀMHz
OVERVIEW
•ꢀ Fullyꢀsynchronous;ꢀallꢀsignalsꢀreferencedꢀtoꢀaꢀ
ISSI'sꢀ256MbꢀSynchronousꢀDRAMꢀꢀachievesꢀhigh-speedꢀ
data transfer using pipeline architecture. All inputs and
outputs signals refer to the rising edge of the clock input.
Theꢀ256MbꢀSDRAMꢀisꢀorganizedꢀasꢀfollows.ꢀ
positive clock edge
•ꢀ Internalꢀbankꢀforꢀhidingꢀrowꢀaccess/precharge
•ꢀ Powerꢀsupply
Vd d
Vd d q
IS42S16160ꢀ
ꢀ3.3Vꢀ 3.3Vꢀꢀ
•ꢀ LVTTLꢀinterface
ꢀ
ꢀ
ꢀ
ꢀ
IS42S16160ꢀ
4Mꢀx16x4ꢀBanksꢀ
54-pinꢀTSOPII
•ꢀ Programmableꢀburstꢀlengthꢀ
–ꢀ(1,ꢀ2,ꢀ4,ꢀ8,ꢀfullꢀpage)
•ꢀ Programmableꢀburstꢀsequence:ꢀ
Sequential/Interleaveꢀ
54-ballꢀBGAꢀ
ꢀ
•ꢀ AutoꢀRefreshꢀ(CBR)
•ꢀ SelfꢀRefresh
•ꢀ 8Kꢀrefreshꢀcyclesꢀeveryꢀ64ꢀms
•ꢀ Randomꢀcolumnꢀaddressꢀeveryꢀclockꢀcycle
•ꢀ ProgrammableꢀCASꢀlatencyꢀ(2,ꢀ3ꢀclocks)
KEY TIMING PARAMETERS
Parameter
-6
-7
Unit
•ꢀ Burstꢀread/writeꢀandꢀburstꢀread/singleꢀwriteꢀ
ClkꢀCycleꢀTimeꢀ
CASꢀLatencyꢀ=ꢀ3ꢀ
CASꢀLatencyꢀ=ꢀ2ꢀ
ꢀꢀ
6ꢀ
10ꢀ
ꢀ
7ꢀ
10ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
operations capability
nsꢀ
ns
•ꢀ Burstꢀterminationꢀbyꢀburstꢀstopꢀandꢀprechargeꢀ
command
ClkꢀFrequencyꢀ
CASꢀLatencyꢀ=ꢀ3ꢀ
CASꢀLatencyꢀ=ꢀ2ꢀ
ꢀꢀ
166ꢀ
100ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
143ꢀ
100ꢀ
Mhzꢀ
Mhz
•ꢀ AvailableꢀinꢀIndustrialꢀꢀTemperature
•ꢀ Availableꢀinꢀ54-pinꢀTSOP-IIꢀandꢀ54-ballꢀBGA
•ꢀ AvailableꢀinꢀLead-free
AccessꢀTimeꢀꢀfromꢀClockꢀ
CASꢀLatencyꢀ=ꢀ3ꢀ
CASꢀLatencyꢀ=ꢀ2ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
5.4ꢀ
8ꢀ
5.4ꢀ
8ꢀ
nsꢀ
ns
Copyright © 2006 Integrated Silicon Solution, Inc. All rights reserved. ISSI reserves the right to make changes to this specification and its products at any time with-
out notice. ISSI assumes no liability arising out of the application or use of any information, products or services described herein. Customers are advised to obtain
the latest version of this device specification before relying on any published information and before placing orders for products.
Integrated Silicon Solution, Inc. — www.issi.com
1
Rev. A
05/09/08
IS42S16160
DEVICE OVERVIEW
sequenceꢀisꢀavailableꢀwithꢀtheꢀAUTOꢀPRECHARGEꢀfunctionꢀ
enabled. Precharge one bank while accessing one of the
otherthreebankswillhidetheprechargecyclesandprovide
seamless, high-speed, random-access operation.
Theꢀ 256Mbꢀ SDRAMꢀ isꢀ aꢀ highꢀ speedꢀ CMOS,ꢀ dynamicꢀ
random-accessꢀmemoryꢀdesignedꢀtoꢀoperateꢀinꢀ3.3VꢀVd d
andꢀ3.3VꢀVd d q memoryꢀsystemsꢀcontainingꢀ268,435,456ꢀ
bits.ꢀꢀInternallyꢀconfiguredꢀasꢀaꢀquad-bankꢀDRAMꢀwithꢀaꢀ
synchronousꢀinterface.ꢀꢀEachꢀ67,108,864-bitꢀbankꢀisꢀorga-
nizedꢀasꢀ8,192ꢀrowsꢀbyꢀ512ꢀcolumnsꢀbyꢀ16ꢀbits.
SDRAM readandwriteaccessesareburstorientedstarting
at a selected location and continuing for a programmed
numberꢀ ofꢀ locationsꢀ inꢀ aꢀ programmedꢀ sequence.ꢀ ꢀTheꢀ
registrationꢀ ofꢀ anꢀ ACTIVEꢀ commandꢀ beginsꢀ accesses,ꢀ
followedꢀbyꢀaꢀREADꢀorꢀWRITEꢀcommand.ꢀTheꢀACTIVEꢀ
command in conjunction with address bits registered are
usedꢀtoꢀselectꢀtheꢀbankꢀandꢀrowꢀtoꢀbeꢀaccessedꢀ(BA0,ꢀ
BA1ꢀselectꢀtheꢀbank;ꢀA0-A12ꢀselectꢀtheꢀrow).ꢀꢀTheꢀREADꢀ
orꢀWRITEꢀ commandsꢀ inꢀ conjunctionꢀ withꢀ addressꢀ bitsꢀ
registered are used to select the starting column location
for the burst access.
Theꢀ256MbꢀSDRAMꢀincludesꢀanꢀAUTOꢀREFRESHꢀMODE,ꢀ
and a power-saving, power-down mode. All signals are
registeredꢀonꢀtheꢀpositiveꢀedgeꢀofꢀtheꢀclockꢀsignal,ꢀCLK.ꢀ
AllꢀinputsꢀandꢀoutputsꢀareꢀLVTTLꢀcompatible.
Theꢀ256MbꢀSDRAMꢀhasꢀtheꢀabilityꢀtoꢀsynchronouslyꢀburstꢀ
data at a high data rate with automatic column-address
generation, theabilitytointerleavebetweeninternalbanks
to hide precharge time and the capability to randomly
change column addresses on each clock cycle during
burst access.
ProgrammableꢀREADꢀorꢀWRITEꢀburstꢀlengthsꢀconsistꢀofꢀ
1,ꢀ2,ꢀ4ꢀandꢀ8ꢀlocationsꢀorꢀfullꢀpage,ꢀwithꢀaꢀburstꢀterminateꢀ
option.
A self-timed row precharge initiated at the end of the burst
FUNCTIONAL BLOCK DIAGRAM (FOR 4MX16X4 BANKS SHOWN)
CLK
CKE
CS
RAS
CAS
WE
DQMLꢀ
DQMH
DATA ꢀIN
BUFFER
COMMAND
DECODER
&
CLOCK
GENERATOR
16
16
2
REFRESH
CONTROLLER
MODE
REGISTER
DQꢀ0-15
13
V
DD/VDDQ
ss/Vss
ꢀSELF
DATA ꢀOUT
BUFFER
REFRESH
A10
A12
A11
A9
V
Q
CONTROLLER
16
16
A8
A7
REFRESH
COUNTER
A6
A5
8192
A4
A3
A2
A1
A0
BA0
BA1
8192
MEMORYꢀCELL
8192
8192
ARRAY
13ꢀ
BANK 0
ROW
ADDRESS
LATCH
ROW
ADDRESS
BUFFER
13
13
SENSEꢀAMPꢀI/OꢀGATE
512
(xꢀ16)
COLUMN
ADDRESSꢀLATCH
BANKꢀCONTROLꢀLOGIC
9
BURSTꢀCOUNTER
COLUMNꢀDECODER
COLUMN
ADDRESSꢀBUFFER
9
2
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
PIN CONFIGURATIONS
54 pin TSOP - Type II for x16
V
DD
1
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
VSS
DQ0
2
DQ15
V
DD
Q
3
VSSQ
DQ1
DQ2
4
DQ14
DQ13
5
V
SS
Q
6
VDDQ
DQ3
DQ4
7
DQ12
DQ11
8
V
DD
Q
9
VSSQ
DQ5
DQ6
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
DQ10
DQ9
V
SS
Q
VDDQ
DQ7
DQ8
VDD
VSS
DQML
WE
CAS
RAS
CS
NC
DQMH
CLK
CKE
A12
A11
A9
BA0
BA1
A10
A0
A8
A7
A1
A6
A2
A5
A3
A4
V
DD
V
SS
PIN DESCRIPTIONS
A0-A12ꢀ ꢀ
RowꢀAddressꢀInput
WEꢀ
WriteꢀEnable
A0-A8
Column Address Input
BankꢀSelectꢀAddress
DataꢀI/O
DQMLꢀ x16ꢀLowerꢀByte,ꢀInput/OutputꢀMask
DQMHꢀ x16ꢀUpperꢀByte,ꢀInput/OutputꢀMask
BA0,ꢀBA1ꢀ
DQ0ꢀtoꢀDQ15ꢀ
Vd d ꢀ
Vssꢀ
Vd d q ꢀ
Vssqꢀ
NCꢀ
Power
CLKꢀ
CKEꢀ
CS
ꢀ
ꢀ
SystemꢀClockꢀInput
ClockꢀEnable
Ground
PowerꢀSupplyꢀforꢀI/OꢀPin
GroundꢀforꢀI/OꢀPin
NoꢀConnection
Chip Select
RASꢀ
CAS
ꢀ
RowꢀAddressꢀStrobeꢀCommand
Column Address Strobe Command
Integrated Silicon Solution, Inc. — www.issi.comꢀ
3
Rev. A
05/09/08
IS42S16160
PIN CONFIGURATION
54-ball fBGA for x16 (TopꢀView)ꢀ(8.00ꢀmmꢀxꢀ13.00ꢀmmꢀBody,ꢀ0.8ꢀmmꢀBallꢀPitch)
packageꢀcode:ꢀBꢀꢀ
1 2 3ꢀ 4ꢀ 5 6 7ꢀ 8 9
A
VSS DQ15 VSSQ
DQ14 DQ13 VDDQ
DQ12 DQ11 VSSQ
DQ10 DQ9 VDDQ
VDDQ DQ0 VDD
VSSQ DQ2 DQ1
VDDQ DQ4 DQ3
VSSQ DQ6 DQ5
VDD DQML DQ7
CAS RAS WE
BA0 BA1 CS
B
C
D
E
F
DQ8 NC
VSS
DQMH CLK CKE
G
H
J
A12 A11
A9
A6
A4
A8
A7
A0
A1
A10
VSS
A5
A3
A2 VDD
PIN DESCRIPTIONS
A0-A12ꢀ
A0-A8
ꢀꢀꢀRowꢀAddressꢀInput
Column Address Input
WEꢀ ꢀꢀWriteꢀEnable
DQMLꢀꢀꢀx16ꢀLowerꢀByteꢀInput/OutputꢀMask
DQMHꢀꢀx16ꢀUpperꢀByteꢀInput/OutputꢀMask
Vd d ꢀ ꢀꢀPower
BA0,ꢀBA1ꢀ ꢀꢀꢀBankꢀSelectꢀAddress
DQ0ꢀtoꢀDQ15ꢀꢀꢀDataꢀI/O
CLKꢀ ꢀ
CKEꢀ ꢀ
CS
RASꢀ ꢀ
CAS
ꢀꢀꢀSystemꢀClockꢀInput
ꢀꢀꢀClockꢀEnable
Chip Select
Vssꢀ ꢀꢀGround
Vd d q ꢀ ꢀꢀPowerꢀSupplyꢀforꢀI/OꢀPin
Vs s q ꢀ ꢀꢀGroundꢀforꢀI/OꢀPin
NCꢀ ꢀꢀNoꢀConnection
ꢀꢀꢀRowꢀAddressꢀStrobeꢀCommand
Column Address Strobe Command
4ꢀ
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
Vs s q
Vs s
Vs s is the device internal ground.
Vd d q
Vd d
PowerꢀSupplyꢀPin
PowerꢀSupplyꢀPin
PowerꢀSupplyꢀPin
PowerꢀSupplyꢀPin
Vd d q is the output buffer power supply.
Vd d is the device internal power supply.
Vs s q is the output buffer ground.
IS42S16160
PIN FUNCTIONS
Symbol
Type
Function (In Detail)
A0-A12
ꢀ
InputꢀPin
ꢀ
AddressꢀInputs:ꢀA0-A12ꢀareꢀsampledꢀduringꢀtheꢀACTIVEꢀcommandꢀ(row-addressꢀ
A0-A12)ꢀandꢀREAD/WRITEꢀcommandꢀ(columnꢀaddressꢀA0-A8ꢀ(x16);ꢀwithꢀA10ꢀdefin-
ingꢀautoꢀprecharge)ꢀtoꢀselectꢀoneꢀlocationꢀoutꢀofꢀtheꢀmemoryꢀarrayꢀinꢀtheꢀrespectiveꢀ
bank.ꢀA10ꢀisꢀsampledꢀduringꢀaꢀPRECHARGEꢀcommandꢀtoꢀdetermineꢀifꢀallꢀbanksꢀareꢀ
toꢀbeꢀprechargedꢀ(A10ꢀHIGH)ꢀorꢀbankꢀselectedꢀbyꢀBA0,ꢀBA1ꢀ(LOW).ꢀTheꢀaddressꢀ
inputsꢀalsoꢀprovideꢀtheꢀop-codeꢀduringꢀaꢀLOADꢀMODEꢀREGISTERꢀcommand.
BA0,ꢀBA1
ꢀ
InputꢀPin
ꢀ
ꢀ
BankꢀSelectꢀAddress:ꢀBA0ꢀandꢀBA1ꢀdefinesꢀwhichꢀbankꢀtheꢀACTIVE,ꢀREAD,ꢀWRITEꢀ
orꢀPRECHARGEꢀcommandꢀisꢀbeingꢀapplied.
CAS
ꢀ
ꢀ
InputꢀPin
InputꢀPin
CAS, in conjunction with the RAS and WE, forms the device command. See the
"CommandꢀTruthꢀTable"ꢀforꢀdetailsꢀonꢀdeviceꢀcommands.ꢀ
ꢀ
ꢀ
CKEꢀ
TheꢀCKEꢀinputꢀdeterminesꢀwhetherꢀtheꢀCLKꢀinputꢀisꢀenabled.ꢀTheꢀnextꢀrisingꢀedgeꢀ
ofꢀtheꢀCLKꢀsignalꢀwillꢀbeꢀvalidꢀwhenꢀisꢀCKEꢀHIGHꢀandꢀinvalidꢀwhenꢀLOW.ꢀWhenꢀCKEꢀ
isꢀLOW,ꢀtheꢀdeviceꢀwillꢀbeꢀinꢀeitherꢀpower-downꢀmode,ꢀclockꢀsuspendꢀmode,ꢀorꢀselfꢀ
refresh mode. CKEꢀisꢀan asynchronous input.
CLKꢀ
ꢀ
ꢀ
InputꢀPin
InputꢀPin
ꢀ
ꢀ
CLKꢀisꢀtheꢀmasterꢀclockꢀinputꢀforꢀthisꢀdevice.ꢀExceptꢀforꢀCKE,ꢀallꢀinputsꢀtoꢀthisꢀdeviceꢀ
areꢀacquiredꢀinꢀsynchronizationꢀwithꢀtheꢀrisingꢀedgeꢀofꢀthisꢀpin.
CS
TheꢀCS input determines whether command input is enabled within the device.
Command input is enabled when CSꢀisꢀLOW,ꢀandꢀdisabledꢀwithꢀCSꢀisꢀHIGH.ꢀTheꢀ
device remains in the previous state when CSꢀisꢀHIGH.
ꢀ
ꢀ
DQML,ꢀ
DQMHꢀ
ꢀ
ꢀ
InputꢀPin
ꢀ
ꢀ
DQMLꢀandꢀDQMHꢀcontrolꢀtheꢀlowerꢀandꢀupperꢀbytesꢀofꢀtheꢀI/Oꢀbuffers.ꢀInꢀread
mode,DQMLꢀandꢀDQMHꢀcontrolꢀtheꢀoutputꢀbuffer.ꢀWhenDQMLꢀorDQMHꢀisꢀLOW,ꢀtheꢀ
correspondingꢀbufferꢀbyteꢀisꢀenabled,ꢀandꢀwhenꢀHIGH,ꢀdisabled.ꢀTheꢀoutputsꢀgoꢀtoꢀ
theꢀHIGHꢀimpedanceꢀstateꢀwhenDQML/DQMHꢀisꢀHIGH.ꢀThisꢀfunctionꢀcorrespondsꢀtoꢀ
OEꢀinꢀconventionalꢀDRAMs.ꢀInꢀwriteꢀmode,DQMLꢀandꢀDQMHꢀcontrolꢀtheꢀinputꢀbuffer.ꢀ
WhenꢀDQMLꢀorꢀDQMHꢀisꢀLOW,ꢀtheꢀcorrespondingꢀbufferꢀbyteꢀisꢀenabled,ꢀandꢀdataꢀ
canꢀbeꢀwrittenꢀtoꢀtheꢀdevice.ꢀWhenDQMLꢀorꢀDQMHꢀisꢀHIGH,ꢀinputꢀdataꢀisꢀmaskedꢀ
and cannot be written to the device.
ꢀ DQ0-DQ15
ꢀ
ꢀ Input/Outputꢀ
DataꢀonꢀtheꢀDataꢀBusꢀisꢀlatchedꢀonꢀDQꢀpinsꢀduringꢀWriteꢀcommands,ꢀandꢀbufferedꢀfor
outputꢀafterꢀReadꢀcommands.
RAS
WE
ꢀ
ꢀ
InputꢀPin
ꢀInputꢀPin
RAS, in conjunction with CAS and WE, forms the device command. See the "Com-
mandꢀTruthꢀTable"ꢀitemꢀforꢀdetailsꢀonꢀdeviceꢀcommands.
WE, in conjunction with RAS and CAS, forms the device command. See the "Com-
mandꢀTruthꢀTable"ꢀitemꢀforꢀdetailsꢀonꢀdeviceꢀcommands.ꢀ
Integrated Silicon Solution, Inc. — www.issi.com
5
Rev. A
05/09/08
IS42S16160
GENERAL DESCRIPTION
READ
TheꢀREADꢀcommandꢀselectsꢀtheꢀbankꢀfromꢀBA0,ꢀBA1ꢀ
inputs and starts a burst read access to an active row.
InputsꢀA0-A8ꢀ(x16)ꢀprovidesꢀtheꢀstartingꢀcolumnꢀlocation.ꢀ
WhenꢀA10ꢀisꢀHIGH,ꢀthisꢀcommandꢀfunctionsꢀasꢀanꢀAUTOꢀ
PRECHARGEꢀcommand.ꢀꢀWhenꢀtheꢀautoꢀprechargeꢀisꢀ
selected, the row being accessed will be precharged at
theꢀendꢀofꢀtheꢀREADꢀburst.ꢀTheꢀrowꢀwillꢀremainꢀopenꢀforꢀ
subsequentꢀaccessesꢀwhenꢀAUTOꢀPRECHARGEꢀisꢀnotꢀ
selected.ꢀꢀDQ’sꢀreadꢀdataꢀisꢀsubjectꢀtoꢀtheꢀlogicꢀlevelꢀonꢀ
theꢀDQMꢀinputsꢀtwoꢀclocksꢀearlier.ꢀWhenꢀaꢀgivenꢀDQMꢀ
signalꢀwasꢀregisteredꢀHIGH,ꢀtheꢀcorrespondingꢀDQ’sꢀwillꢀ
beꢀHigh-Zꢀtwoꢀclocksꢀlater.ꢀDQ’sꢀwillꢀprovideꢀvalidꢀdataꢀ
whenꢀtheꢀDQMꢀsignalꢀwasꢀregisteredꢀLOW.
PRECHARGEꢀfunctionꢀinꢀconjunctionꢀwithꢀaꢀspecificꢀREADꢀ
orꢀWRITEꢀcommand.ꢀꢀForꢀeachꢀindividualꢀREADꢀorꢀWRITEꢀ
command, auto precharge is either enabled or disabled.
AUTOꢀPRECHARGEꢀdoesꢀnotꢀapplyꢀexceptꢀinꢀfull-pageꢀ
burstꢀ mode.ꢀ Uponꢀ completionꢀ ofꢀ theꢀ READꢀ orꢀWRITEꢀ
burst, a precharge of the bank/row that is addressed is
automatically performed.
AUTO REFRESH COMMAND
ThisꢀcommandꢀexecutesꢀtheꢀAUTOꢀREFRESHꢀoperation.ꢀ
Theꢀrowꢀaddressꢀandꢀbankꢀtoꢀbeꢀrefreshedꢀareꢀautomaticallyꢀ
generatedꢀduringꢀthisꢀoperation.ꢀ Theꢀstipulatedꢀperiodꢀ(tr c )ꢀisꢀ
requiredꢀforꢀaꢀsingleꢀrefreshꢀoperation,ꢀandꢀnoꢀotherꢀcom-
mandsꢀcanꢀbeꢀexecutedꢀduringꢀthisꢀperiod.ꢀ Thisꢀcommandꢀ
isꢀexecutedꢀatꢀleastꢀ8192ꢀtimesꢀforꢀeveryꢀ64ms.ꢀDuringꢀanꢀ
AUTOꢀREFRESHꢀcommand,ꢀaddressꢀbitsꢀareꢀ“Don’tꢀCare”.ꢀ
ThisꢀcommandꢀcorrespondsꢀtoꢀCBRꢀAuto-refresh.
WRITE
A burst write access to an active row is initiated with the
WRITEꢀcommand.ꢀꢀBA0,ꢀBA1ꢀinputsꢀselectsꢀtheꢀbank,ꢀandꢀ
the starting column location is provided by inputs A0-A8
(x16).ꢀ Whetherꢀ orꢀ notꢀ AUTO-PRECHARGEꢀ isꢀ usedꢀ isꢀ
determined by A10.
BURST TERMINATE
TheꢀBURSTꢀTERMINATEꢀcommandꢀforciblyꢀterminatesꢀ
the burst read and write operations by truncating either
fixed-lengthꢀ orꢀ full-pageꢀ burstsꢀ andꢀ theꢀ mostꢀ recentlyꢀ
registeredꢀREADꢀorꢀWRITEꢀcommandꢀpriorꢀtoꢀtheꢀBURSTꢀ
TERMINATE.
Theꢀrowꢀbeingꢀaccessedꢀwillꢀbeꢀprechargedꢀatꢀtheꢀendꢀofꢀ
theꢀWRITEꢀburst,ꢀifꢀAUTOꢀPRECHARGEꢀisꢀselected.ꢀIfꢀ
AUTOꢀPRECHARGEꢀisꢀnotꢀselected,ꢀtheꢀrowꢀwillꢀremainꢀ
openꢀforꢀsubsequentꢀaccesses.
A memory array is written with corresponding input data
onꢀDQ’sꢀandꢀDQMꢀinputꢀlogicꢀlevelꢀappearingꢀatꢀtheꢀsameꢀ
time.ꢀꢀDataꢀwillꢀbeꢀwrittenꢀtoꢀmemoryꢀwhenꢀDQMꢀsignalꢀisꢀ
LOW.ꢀꢀWhenꢀDQMꢀisꢀHIGH,ꢀtheꢀcorrespondingꢀdataꢀinputsꢀ
willꢀbeꢀignored,ꢀandꢀaꢀWRITEꢀwillꢀnotꢀbeꢀexecutedꢀtoꢀthatꢀ
byte/column location.
COMMAND INHIBIT
COMMANDꢀINHIBITꢀpreventsꢀnewꢀcommandsꢀfromꢀbeingꢀ
executed.ꢀOperationsꢀinꢀprogressꢀareꢀnotꢀaffected,ꢀapartꢀ
fromꢀwhetherꢀtheꢀCLKꢀsignalꢀisꢀenabled
NO OPERATION
WhenꢀCSꢀisꢀlow,ꢀtheꢀNOPꢀcommandꢀpreventsꢀunwantedꢀ
commands from being registered during idle or wait
states.
PRECHARGE
TheꢀPRECHARGEꢀcommandꢀisꢀusedꢀtoꢀdeactivateꢀtheꢀ
open row in a particular bank or the open row in all banks.
BA0,ꢀBA1ꢀcanꢀbeꢀusedꢀtoꢀselectꢀwhichꢀbankꢀisꢀprechargedꢀ
orꢀ theyꢀ areꢀ treatedꢀ asꢀ “Don’tꢀ Care”.ꢀ ꢀ A10ꢀ determinedꢀ
whetherꢀoneꢀorꢀallꢀbanksꢀareꢀprecharged.ꢀAfterꢀexecut-
ingꢀ thisꢀ command,ꢀ theꢀ nextꢀ commandꢀ forꢀ theꢀ selectedꢀ
bank(s)ꢀisꢀexecutedꢀafterꢀpassageꢀofꢀtheꢀperiodꢀtRP, which
isꢀtheꢀperiodꢀrequiredꢀforꢀbankꢀprecharging.ꢀꢀꢀOnceꢀaꢀbankꢀ
has been precharged, it is in the idle state and must be
activatedꢀpriorꢀtoꢀanyꢀREADꢀorꢀWRITEꢀcommandsꢀbeingꢀ
issued to that bank.
LOAD MODE REGISTER
DuringꢀtheꢀLOADꢀMODEꢀREGISTERꢀcommandꢀtheꢀmodeꢀ
registerꢀisꢀloadedꢀfromꢀA0-A12.ꢀꢀThisꢀcommandꢀcanꢀonlyꢀ
be issued when all banks are idle.
ACTIVE COMMAND
Whenꢀ theꢀ ACTIVEꢀ COMMANDꢀ isꢀ activated,ꢀ BA0,ꢀ BA1ꢀ
inputs selects a bank to be accessed, and the address
inputsꢀonꢀA0-A12ꢀselectsꢀtheꢀrow.ꢀꢀꢀUntilꢀaꢀPRECHARGEꢀ
command is issued to the bank, the row remains open
for accesses.
AUTO PRECHARGE
TheꢀAUTOꢀPRECHARGEꢀfunctionꢀensuresꢀthatꢀtheꢀpre-
charge is initiated at the earliest valid stage within a burst.
Thisꢀfunctionꢀallowsꢀforꢀindividual-bankꢀprechargeꢀwithoutꢀ
requiringꢀanꢀexplicitꢀcommand.ꢀA10ꢀtoꢀenableꢀtheꢀAUTOꢀ
6
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
COMMAND TRUTH TABLE
CKE
A12, A11
Function
n – 1
Hꢀꢀ
ꢀ
n
CS
Hꢀꢀ
×ꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
RAS
×ꢀꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
CAS
×ꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
WE
×ꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
BA1
×ꢀꢀ
Hꢀ
BA0
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
Vꢀꢀ
Vꢀꢀ
Vꢀ
A10 A9 - A0
Deviceꢀdeselectꢀ(DESL)ꢀꢀ
×ꢀꢀ
Hꢀꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀ
×ꢀꢀ
×ꢀ
×
Noꢀoperationꢀꢀ
ꢀ(NOP)ꢀ
×ꢀ
×
×
Burstꢀstopꢀ(BST)ꢀꢀ
ꢀ
ꢀ
Hꢀꢀ
Hꢀꢀ
×ꢀꢀ
Vꢀꢀ
Vꢀꢀ
Vꢀꢀ
Vꢀꢀ
Vꢀ
×ꢀꢀ
Lꢀꢀ
Hꢀ
Lꢀ
Readꢀꢀ
ꢀ
Vꢀ
Vꢀ
V
V
V
×
Readꢀwithꢀautoꢀprechargeꢀꢀ Hꢀꢀ
Writeꢀꢀ ꢀꢀ Hꢀꢀ
Writeꢀwithꢀautoꢀprechargeꢀꢀ Hꢀ
Bankꢀactivateꢀ(ACT)ꢀꢀꢀ Hꢀꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀ
ꢀ
Lꢀꢀ
Lꢀ
Hꢀ
Vꢀ
Hꢀꢀ
Vꢀꢀ
Lꢀꢀ
Hꢀ
×ꢀ
×ꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Hꢀ
ꢀVꢀꢀ
Vꢀ
Prechargeꢀselectꢀbankꢀ(PRE)ꢀ Hꢀꢀ
Prechargeꢀallꢀbanksꢀ(PALL)ꢀ Hꢀꢀ
×ꢀꢀ
×ꢀꢀ
Hꢀꢀ
Lꢀꢀ
ꢀ×ꢀꢀ
Lꢀ
Hꢀꢀ
Hꢀ
Vꢀꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
Lꢀꢀ
Lꢀ
×ꢀ
×
CBRꢀAuto-Refreshꢀ(REF)ꢀ
Self-Refreshꢀ(SELF)ꢀ ꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ
Hꢀ
×ꢀ
×
Lꢀ
Lꢀ
Lꢀ
Hꢀ
×ꢀ
×ꢀ
×
Modeꢀregisterꢀsetꢀ(MRS)ꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Vꢀ
Note:ꢀꢀH=Vih,ꢀL=Vilꢀx=ꢀVih or Vil,ꢀVꢀ=ꢀValidꢀData.
DQM TRUTH TABLE
CKE
Function
n-1
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
n
DQMH
Lꢀꢀ
DQML
Dataꢀwriteꢀ/ꢀoutputꢀenableꢀꢀꢀ
Dataꢀmaskꢀ/ꢀoutputꢀdisableꢀꢀꢀꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
L
Hꢀꢀ
Lꢀꢀ
H
×
L
Upperꢀbyteꢀwriteꢀenableꢀ/ꢀoutputꢀenableꢀꢀꢀꢀ ꢀ
Lowerꢀbyteꢀwriteꢀenableꢀ/ꢀoutputꢀenableꢀꢀꢀꢀ ꢀ
Upperꢀbyteꢀwriteꢀinhibitꢀ/ꢀoutputꢀdisableꢀꢀꢀꢀ ꢀ
×ꢀꢀ
Hꢀꢀ
ꢀ×ꢀꢀ
×
H
Lowerꢀbyteꢀwriteꢀinhibitꢀ/ꢀoutputꢀdisableꢀꢀꢀꢀ ꢀ
Note:ꢀꢀH=Vih,ꢀL=Vilꢀx=ꢀVih or Vil,ꢀVꢀ=ꢀValidꢀData.
Integrated Silicon Solution, Inc. — www.issi.comꢀ
7
Rev. A
05/09/08
IS42S16160
CKE TRUTH TABLE
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
CKE
CurrentꢀStateꢀ/Functionꢀꢀ
ActivatingꢀClockꢀsuspendꢀmodeꢀentryꢀꢀ
AnyꢀClockꢀsuspendꢀmodeꢀꢀ
Clockꢀsuspendꢀmodeꢀexitꢀꢀ
AutoꢀrefreshꢀcommandꢀIdleꢀ(REF)ꢀꢀ
SelfꢀrefreshꢀentryꢀIdleꢀ(SELF)ꢀꢀ
PowerꢀdownꢀentryꢀIdleꢀꢀ
nꢀ–ꢀ1ꢀꢀ nꢀꢀ
CS
×ꢀ
RAS
×ꢀꢀ
×ꢀꢀ
×ꢀ
CAS WE
Address
Hꢀꢀ
Lꢀꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀ
×ꢀꢀ
×ꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀꢀ
Hꢀ
×
×
×
×
×
×ꢀꢀ
×ꢀꢀ
Lꢀ
Hꢀꢀ
Hꢀ
Lꢀ
×ꢀꢀ
Lꢀꢀ
Lꢀꢀ
×ꢀꢀ
Lꢀ
Lꢀꢀ
×ꢀꢀ
Lꢀꢀ
×ꢀꢀ
Hꢀꢀ
×ꢀꢀ
Lꢀꢀ
×ꢀ
ꢀ
Selfꢀrefreshꢀexitꢀꢀ
ꢀ
ꢀ
ꢀ
Lꢀꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀꢀ
×ꢀꢀ
Hꢀꢀ
×ꢀꢀ
Hꢀꢀ
×ꢀꢀ
×ꢀ
×
ꢀ
ꢀ
Powerꢀdownꢀexitꢀ
ꢀ
Lꢀꢀ
Hꢀꢀ
×ꢀꢀ
×ꢀ
×ꢀꢀ
×ꢀꢀ
×ꢀ
ꢀ
Note:ꢀꢀH=Vih,ꢀL=Vilꢀx=ꢀVih or Vil,ꢀVꢀ=ꢀValidꢀData.
8
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
FUNCTIONAL TRUTH TABLE
Current State
CS
RAS CAS WE
Address
Command
DESLꢀꢀ
Action
Idleꢀ
Hꢀꢀ Xꢀ
Xꢀ
Xꢀ
Xꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
NopꢀorꢀPowerꢀDown(2)
NopꢀorꢀPowerꢀDown(2)
NopꢀorꢀPowerꢀDown
ILLEGALꢀ(3)
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Xꢀ
Xꢀ
NOPꢀꢀ
Hꢀꢀ
Hꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Xꢀ
BSTꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
A,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
Xꢀ
READ/READAꢀꢀ
WRIT/ꢀWRITAꢀꢀ
ACTꢀꢀ
ILLEGAL(3)
Rowꢀactivating
Nop
AutoꢀrefreshꢀorꢀSelf-refresh(4)
Modeꢀregisterꢀset
Nop
Lꢀꢀ
Lꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ꢀ
Lꢀ
Lꢀ
Lꢀ
OC,ꢀBA1=Lꢀꢀ
Xꢀ
RowꢀActiveꢀ
Hꢀꢀ Xꢀ
Xꢀ
DESLꢀꢀ
ꢀꢀ
ꢀꢀ
ꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Hꢀꢀ
Hꢀ
Hꢀ
Lꢀꢀ
Lꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
Xꢀ
NOPꢀꢀ
Nop
Hꢀꢀ
Hꢀ
Xꢀ
BSTꢀ
Nop
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
READ/READAꢀꢀ
WRIT/ꢀWRITAꢀꢀ
ACTꢀꢀ
Beginꢀreadꢀ(5)
Beginꢀwriteꢀ(5)
ILLEGALꢀ(3)
ꢀ
Hꢀꢀ
Lꢀ
ꢀ
Lꢀ
Hꢀꢀ
Hꢀ
ꢀ
Lꢀ
Lꢀꢀ
Lꢀꢀ
ꢀ
BA,ꢀA10ꢀꢀ
ꢀ
PRE/PALLꢀꢀ
ꢀ
ꢀ
ꢀ
Precharge
Prechargeꢀallꢀbanks(6)ꢀ
ꢀ
ꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Xꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ꢀ
ꢀ
ILLEGAL
ILLEGAL
OC,ꢀBAꢀꢀ
Readꢀ
ꢀ
Hꢀꢀ Xꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
DESLꢀꢀ
ꢀ
ꢀ
ꢀ
Continueꢀburstꢀtoꢀendꢀtoꢀꢀ
Rowꢀactive
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Lꢀ
ꢀ
Hꢀꢀ
ꢀ
Hꢀ
ꢀ
Hꢀꢀ
ꢀ
Xꢀ
ꢀ
NOPꢀꢀ
ꢀ
ꢀ
ꢀ
ContinueꢀburstꢀtoꢀendꢀꢀRowꢀꢀ
Rowꢀꢀactive
ꢀ
ꢀ
Lꢀ
Lꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
Lꢀ
Lꢀꢀ
Xꢀ
BSTꢀꢀ
ꢀ
ꢀ
Burstꢀstop,ꢀꢀRowꢀactive
Hꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
READ/READAꢀꢀ
Terminateꢀburst,ꢀꢀ ꢀ
ꢀ
ꢀ
begin new read (7)
ꢀ
ꢀ
Lꢀ
Lꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀ
Lꢀꢀ
Hꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
WRIT/WRITAꢀꢀ
ACTꢀꢀ
ꢀ
ꢀ
Terminateꢀꢀburst,ꢀꢀꢀ
begin write (7,8)
Hꢀꢀ
ILLEGALꢀ(3)
ꢀ
ꢀ
Lꢀ
ꢀ
Lꢀ
ꢀ
Hꢀ
ꢀ
Lꢀꢀ
ꢀ
BA,ꢀA10ꢀꢀ
ꢀ
PRE/PALLꢀꢀ
ꢀ
ꢀ
ꢀ
Terminateꢀburstꢀꢀꢀ ꢀ
Precharging
ꢀ
ꢀ
ꢀ
Lꢀ
Lꢀ
Lꢀꢀ
Lꢀ
Lꢀꢀ
Lꢀ
Hꢀꢀ
Lꢀꢀ
Xꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ꢀ
ꢀ
ILLEGAL
ILLEGAL
OC,ꢀBAꢀꢀ
Writeꢀ
ꢀ
Hꢀ
ꢀꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
DESLꢀꢀ
ꢀ
ꢀ
ꢀ
Continueꢀburstꢀtoꢀendꢀꢀꢀ
Writeꢀrecovering
ꢀ
ꢀ
ꢀ
ꢀ
Lꢀꢀ
ꢀ
Hꢀꢀ
ꢀ
Hꢀ
ꢀ
Hꢀꢀ
ꢀ
Xꢀ
ꢀ
NOPꢀꢀ
ꢀ
ꢀ
ꢀ
Continueꢀburstꢀtoꢀendꢀꢀꢀ
Writeꢀrecovering
ꢀ
Lꢀ
Hꢀꢀ
Hꢀ
Lꢀꢀ
Xꢀ
BSTꢀꢀ
ꢀ
Burstꢀstop,ꢀꢀRowꢀactive
ꢀ
ꢀ
Lꢀ
ꢀ
Hꢀꢀ
ꢀ
Lꢀ
ꢀ
Hꢀꢀ
ꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
ꢀ
READ/READAꢀꢀ
ꢀ
ꢀ
ꢀ
Terminateꢀburst,ꢀstartꢀreadꢀ:ꢀꢀ
DetermineꢀAPꢀ(7,8)
ꢀ
ꢀ
Lꢀ
ꢀ
Hꢀꢀ
ꢀ
Lꢀ
ꢀ
Lꢀꢀ
ꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
ꢀ
WRIT/WRITAꢀꢀ
ꢀ
ꢀ
ꢀ
Terminateꢀburst,ꢀnewꢀwriteꢀ:ꢀꢀ
DetermineꢀAPꢀ(7)
ꢀ
ꢀ
ꢀ
ꢀ
Lꢀꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀ
Lꢀꢀ
Lꢀ
Hꢀ
BA,ꢀRAꢀ
BA,ꢀA10ꢀꢀ
Xꢀ
RAꢀACTꢀꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ILLEGALꢀ(3)
TerminateꢀburstꢀPrechargingꢀ(9)
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
ILLEGAL
OC,ꢀBAꢀꢀ
ILLEGAL
Note:ꢀH=Vih,ꢀL=Vilꢀx=ꢀVih or Vil,ꢀVꢀ=ꢀValidꢀData,ꢀBA=ꢀBankꢀAddress,ꢀCA+ColumnꢀAddress,ꢀRA=RowꢀAddress,ꢀOC=ꢀOp-Code
Integrated Silicon Solution, Inc. — www.issi.com
9
Rev. A
05/09/08
IS42S16160
FUNCTIONAL TRUTH TABLE Continued:
Current State
CS
RAS CAS
WE
Address
Command
Action
Readꢀwithꢀautoꢀ
Precharging
Hꢀ
ꢀ×ꢀꢀ
×ꢀꢀ
×ꢀꢀꢀ
×ꢀꢀ
DESLꢀ
Continueꢀburstꢀtoꢀend,ꢀPrechargeꢀꢀ
ꢀ
ꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Hꢀ
Hꢀ
Hꢀ
Lꢀꢀ
Lꢀ
Hꢀ
xꢀ
NOPꢀꢀ
BSTꢀꢀ
Continueꢀburstꢀtoꢀend,ꢀPrecharge
ILLEGAL
Hꢀꢀ
Hꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
×ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
×ꢀꢀ
READ/READAꢀꢀ ILLEGALꢀ(11)
ꢀ
ꢀ
ꢀ
ꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
WRIT/ꢀWRITAꢀꢀ
ACTꢀꢀ
ILLEGALꢀ(11)
ILLEGALꢀ(3)
ILLEGALꢀ(11)
ILLEGAL
Hꢀꢀ
Hꢀ
Lꢀꢀ
Lꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
OC,ꢀBAꢀꢀ
ILLEGAL
WriteꢀwithꢀAutoꢀ
Prechargeꢀ
Hꢀ
ꢀ
×ꢀ
ꢀ
ꢀ×ꢀꢀ
ꢀ
×ꢀꢀ
ꢀ
×ꢀꢀ
ꢀ
DESLꢀꢀ
ꢀ
Continueꢀburstꢀtoꢀend,ꢀWriteꢀꢀ ꢀ
recoveringꢀwithꢀautoꢀprecharge
ꢀ
Lꢀ
Hꢀꢀ
Hꢀ
Hꢀꢀ
×ꢀꢀ
NOPꢀꢀ
Continueꢀburstꢀtoꢀend,ꢀWriteꢀꢀ ꢀ
recovering with auto precharge
ꢀ
Lꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀ
Hꢀ
Lꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
×
BSTꢀꢀ
ILLEGAL
ꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
×ꢀꢀ
READ/READAꢀꢀ ILLEGAL(11)
ꢀ
Lꢀ
WRIT/ꢀWRITAꢀꢀ
ACTꢀ
ILLEGALꢀ(11)
ILLEGALꢀ(3,11)
ILLEGALꢀ(3,11)
ꢀ
Hꢀꢀ
Hꢀ
Lꢀ
ꢀ
Lꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
×ꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ꢀ
Lꢀ
ILLEGAL
ꢀ
Lꢀꢀ
Lꢀꢀ
×ꢀ
OC,ꢀBAꢀꢀ
×ꢀꢀ
ILLEGAL
Prechargingꢀ
Hꢀꢀ ×ꢀꢀ
DESLꢀꢀ
Nop,ꢀEnterꢀidleꢀafterꢀtRP
Nop,ꢀEnterꢀidleꢀafterꢀtRP
Nop,ꢀEnterꢀidleꢀafterꢀtRP
ꢀ
ꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀ
Hꢀ
Hꢀ
Lꢀ
×ꢀꢀ
NOPꢀꢀ
×ꢀꢀ
BSTꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
×ꢀꢀ
READ/READAꢀꢀ ILLEGALꢀ(3)
ꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀꢀ
Lꢀ
WRIT/WRITAꢀꢀ
ACTꢀꢀ
ILLEGALꢀ(3)
ILLEGAL(3)
ꢀ
Lꢀ
Lꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
×
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
NopꢀꢀEnterꢀidleꢀafterꢀtRP
ILLEGAL
ꢀ
Lꢀ
Lꢀꢀ
Lꢀꢀ
ꢀ×ꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
ꢀ
Lꢀ
Lꢀ
OC,ꢀBAꢀꢀ
×ꢀꢀ
ILLEGAL
RowꢀActivatingꢀ
Hꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
×ꢀꢀ
Hꢀ
Hꢀ
Lꢀ
DESLꢀꢀ
Nop,ꢀEnterꢀbankꢀactiveꢀafterꢀtRCD
Nop,ꢀEnterꢀbankꢀactiveꢀafterꢀtRCD
Nop,ꢀEnterꢀbankꢀactiveꢀafterꢀtRCD
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
×ꢀꢀ
NOPꢀꢀ
×ꢀꢀ
BSTꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
×ꢀꢀ
READ/READAꢀꢀ ILLEGALꢀ(3)
Lꢀ
Hꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀ
Lꢀꢀ
Lꢀꢀ
WRIT/WRITAꢀꢀ
ACTꢀꢀ
ILLEGALꢀ(3)
ILLEGALꢀ(3,9)
ILLEGALꢀ(3)
ILLEGAL
Lꢀ
Lꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
Lꢀ
Lꢀ
OC,ꢀBAꢀꢀ
ILLEGAL
Note:ꢀH=Vih,ꢀL=Vilꢀx=ꢀVih or Vil,ꢀVꢀ=ꢀValidꢀData,ꢀBA=ꢀBankꢀAddress,ꢀCA+ColumnꢀAddress,ꢀRA=RowꢀAddress,ꢀOC=ꢀOp-Code
10
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
FUNCTIONAL TRUTH TABLE Continued:
Current State
CS
Hꢀ
Lꢀꢀ
Lꢀ
RAS CAS
WE
×ꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
Address
×ꢀꢀ
Command
DESLꢀꢀ
NOPꢀꢀ
Action
WriteꢀRecoveringꢀ
ꢀ×ꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
Hꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
ꢀ×ꢀꢀ
Hꢀ
Hꢀ
Lꢀ
Nop,ꢀEnterꢀrowꢀactiveꢀafterꢀtDPL
Nop,ꢀEnterꢀrowꢀactiveꢀafterꢀtDPL
Nop,ꢀEnterꢀrowꢀactiveꢀafterꢀtDPL
ꢀ
×ꢀꢀ
ꢀ
×ꢀꢀ
BSTꢀꢀ
ꢀ
Lꢀ
BA,ꢀCA,ꢀA10ꢀ
BA,ꢀCA,ꢀA10ꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
×ꢀꢀ
READ/READAꢀꢀ Beginꢀreadꢀ(8)
ꢀ
Lꢀꢀ
Lꢀ
Lꢀ
WRIT/ꢀWRITAꢀꢀ
ACTꢀꢀ
Beginꢀnewꢀwrite
ILLEGALꢀ(3)
ILLEGALꢀ(3)
ꢀ
Hꢀꢀ
Hꢀ
Lꢀꢀ
Lꢀ
ꢀ
Lꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
×ꢀꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ꢀ
Lꢀ
ILLEGAL
ꢀ
Lꢀ
Lꢀꢀ
×ꢀꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
Hꢀꢀ
Lꢀ
OC,ꢀBAꢀꢀ
×ꢀꢀ
ILLEGAL
WriteꢀRecoveringꢀ
Hꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀꢀ
×ꢀꢀ
Hꢀ
Hꢀ
Lꢀꢀ
Lꢀꢀ
Hꢀꢀ
Hꢀ
Lꢀꢀ
Lꢀ
DESLꢀꢀ
Nop,ꢀEnterꢀprechargeꢀafterꢀtDPL
Nop,ꢀEnterꢀprechargeꢀafterꢀtDPL
Nop,ꢀEnterꢀrowꢀactiveꢀafterꢀtDPL
withꢀAutoꢀ
×ꢀꢀ
NOPꢀꢀ
Prechargeꢀ
×ꢀꢀ
BSTꢀꢀ
ꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
ꢀ×ꢀꢀ
READ/READAꢀꢀ ILLEGAL(3,8,11)
ꢀ
Lꢀꢀ
Hꢀ
WRIT/WRITAꢀꢀ
ACTꢀꢀ
ILLEGALꢀ(3,11)
ILLEGALꢀ(3,11)
ILLEGALꢀ(3,11)
ꢀ
ꢀ
Lꢀ
Lꢀꢀ
Hꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ꢀ
Lꢀ
ILLEGAL
ꢀ
Lꢀ
Lꢀꢀ
ꢀ×ꢀꢀ
ꢀ×ꢀ
Hꢀꢀ
Lꢀꢀ
Hꢀ
OC,ꢀBAꢀꢀ
×ꢀꢀ
ILLEGAL
Refreshꢀ
Hꢀꢀ ×ꢀꢀ
×ꢀ
DESLꢀꢀꢀꢀ
Nop,ꢀEnterꢀidleꢀafterꢀtRC
Nop,ꢀEnterꢀidleꢀafterꢀtRC
ꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
Hꢀ
Lꢀ
ꢀ×ꢀꢀ
NOP/BSTꢀ
ꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
BA,ꢀRAꢀꢀ
BA,ꢀA10ꢀꢀ
×ꢀꢀ
READ/READAꢀꢀ ILLEGAL
ꢀ
Lꢀ
WRIT/WRITAꢀꢀ
ACTꢀꢀ
ILLEGAL
ꢀ
Lꢀꢀ
Lꢀꢀ
Lꢀ
Lꢀꢀ
Lꢀ
Hꢀꢀ
Hꢀ
Lꢀꢀ
Lꢀ
ILLEGAL
ꢀ
Lꢀꢀ
Hꢀꢀ
Lꢀꢀ
×ꢀ
PRE/PALLꢀꢀ
REF/SELFꢀꢀ
MRSꢀꢀ
ILLEGAL
ꢀ
Lꢀ
ILLEGAL
ꢀ
Lꢀ
Lꢀꢀ
ꢀ×ꢀ
Hꢀꢀ
Hꢀꢀ
Hꢀ
OC,ꢀBAꢀꢀ
ꢀ×ꢀꢀ
ILLEGAL
ModeꢀRegisterꢀ
Accessingꢀ
Hꢀ
Lꢀ
ꢀ×ꢀꢀ
Hꢀ
Hꢀ
Lꢀꢀ
DESLꢀꢀ
Nop,ꢀEnterꢀidleꢀafterꢀ2ꢀclocks
Nop,ꢀEnterꢀidleꢀafterꢀ2ꢀclocks
ILLEGAL
Hꢀꢀ
Lꢀꢀ
×ꢀꢀꢀ
×ꢀꢀ
NOPꢀ
Lꢀ
×ꢀꢀ
BSTꢀꢀ
ꢀ
Lꢀꢀ
BA,ꢀCA,ꢀA10ꢀꢀ
READ/WRITEꢀꢀ ILLEGAL
ꢀ
ꢀ
Lꢀ
ꢀ
Lꢀ
ꢀ
×ꢀꢀꢀ
ꢀ
×ꢀꢀ
ꢀ
BA,ꢀRAꢀꢀ
ꢀ
ACT/PRE/PALLꢀꢀ ILLEGALꢀ
REF/MRSꢀ
ꢀ
ꢀ
ꢀ
Note:ꢀH=Vih,ꢀL=Vilꢀx=ꢀVih or Vil,ꢀVꢀ=ꢀValidꢀData,ꢀBA=ꢀBankꢀAddress,ꢀCA+ColumnꢀAddress,ꢀRA=RowꢀAddress,ꢀOC=ꢀOp-Code
Notes:ꢀ
1.ꢀAllꢀentriesꢀassumeꢀthatꢀCKEꢀisꢀactiveꢀ(CKEn-1=CKEn=H).
2.ꢀIfꢀbothꢀbanksꢀareꢀidle,ꢀandꢀCKEꢀisꢀinactiveꢀ(Low),ꢀtheꢀdeviceꢀwillꢀenterꢀPowerꢀDownꢀmode.ꢀAllꢀinputꢀbuffersꢀexceptꢀCKEꢀwillꢀbeꢀ
disabled.
3.ꢀIllegalꢀtoꢀbankꢀinꢀspecifiedꢀstates;ꢀFunctionꢀmayꢀbeꢀlegalꢀinꢀtheꢀbankꢀindicatedꢀbyꢀBankꢀAddressꢀ(BA),ꢀdependingꢀonꢀtheꢀstateꢀofꢀ
that bank.
4.ꢀIfꢀbothꢀbanksꢀareꢀidle,ꢀandꢀCKEꢀisꢀinactiveꢀ(Low),ꢀtheꢀdeviceꢀwillꢀenterꢀSelf-Refreshꢀmode.ꢀAllꢀinputꢀbuffersꢀexceptꢀCKEꢀwillꢀbeꢀ
disabled.
5.ꢀIllegalꢀifꢀtRCDꢀisꢀnotꢀsatisfied.
6.ꢀIllegalꢀifꢀtRASꢀisꢀnotꢀsatisfied.
7.ꢀMustꢀsatisfyꢀburstꢀinterruptꢀcondition.
8.ꢀMustꢀsatisfyꢀbusꢀcontention,ꢀbusꢀturnꢀaround,ꢀand/orꢀwriteꢀrecoveryꢀrequirements.
9.ꢀMustꢀmaskꢀprecedingꢀdataꢀwhichꢀdon’tꢀsatisfyꢀtDPL.
10.ꢀIllegalꢀifꢀtRRDꢀisꢀnotꢀsatisfied.
11. Illegal for single bank, but legal for other banks.
Integrated Silicon Solution, Inc. — www.issi.com
11
Rev. A
05/09/08
ꢀ
ꢀ
ꢀ
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ Opꢀ-ꢀCode
ꢀ
Xꢀ
Hꢀ
Lꢀ
Xꢀ
Xꢀ
Hꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Hꢀ
—
—
—
X
ꢀ
Lꢀ
ꢀ
Lꢀ
ꢀ
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
Power-Down(3)ꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ Opꢀ-ꢀCode
Anyꢀstateꢀ
otherꢀthanꢀ
listedꢀaboveꢀ
ꢀ
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
Hꢀ
AllꢀBanksꢀIdleꢀ
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
ReferꢀtoꢀoperationsꢀinꢀOperativeꢀCommandꢀTable
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Lꢀ
IS42S16160
CKE RELATED COMMAND TRUTH TABLE(1)
CKE
Current State
Operation
n-1
n
CS
Xꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ
Xꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Hꢀ
Lꢀ
Lꢀ
Lꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
RAS
Xꢀ
Xꢀ
Hꢀ
Hꢀ
Lꢀ
CAS
Xꢀ
Xꢀ
Hꢀ
Lꢀ
WE Address
Self-Refreshꢀ(S.R.)ꢀ
INVALID,ꢀCLKꢀ(nꢀ-ꢀ1)ꢀwouldꢀexitꢀS.R.ꢀ
Self-RefreshꢀRecovery(2)ꢀ
Self-RefreshꢀRecovery(2)ꢀ
Illegalꢀ
Hꢀ
Lꢀ
Xꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Hꢀ
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
—
X
X
—
—
—
X
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Lꢀ
Lꢀ
Illegalꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Hꢀ
Lꢀ
MaintainꢀS.R.ꢀ
Lꢀ
Xꢀ
Xꢀ
Hꢀ
Hꢀ
Lꢀ
Self-RefreshꢀRecoveryꢀIdleꢀAfterꢀꢀtr c
ꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Lꢀ
Hꢀ
Hꢀ
Hꢀ
Hꢀ
Lꢀ
Idle After tr c
ꢀ
ꢀ
Illegalꢀ
Illegalꢀ
ꢀ
Xꢀ
Xꢀ
Hꢀ
Lꢀ
ꢀ
Beginꢀclockꢀsuspendꢀnextꢀcycle(5)ꢀ
Beginꢀclockꢀsuspendꢀnextꢀcycle(5)ꢀ
Illegalꢀ
Xꢀ
Hꢀ
Hꢀ
Lꢀ
ꢀ
Lꢀ
ꢀ
Lꢀ
ꢀ
Illegalꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Hꢀ
Lꢀ
ꢀ
Exitꢀclockꢀsuspendꢀnextꢀcycle(2)ꢀ
Maintainꢀclockꢀsuspendꢀ
INVALID,ꢀCLKꢀ(nꢀ-ꢀ1)ꢀwouldꢀexitꢀP.D.ꢀ
EXITꢀP.D.ꢀ-->ꢀIdle(2)ꢀ
Hꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Hꢀ
Lꢀ
ꢀ
Lꢀ
Power-Downꢀ(P.D.)ꢀ
Hꢀ
Lꢀ
Xꢀ
Hꢀ
Lꢀ
ꢀ
ꢀ
Maintainꢀpowerꢀdownꢀmodeꢀ
Lꢀ
ꢀ
Auto-Refreshꢀ
Hꢀ
Lꢀ
ꢀ
Self-Refresh(3)ꢀ
Hꢀ
Lꢀ
Lꢀ
ꢀ
Xꢀ
Hꢀ
Lꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
Xꢀ
X
X
X
X
X
Beginꢀclockꢀsuspendꢀnextꢀcycle(4)ꢀ
Exitꢀclockꢀsuspendꢀnextꢀcycleꢀ
Maintainꢀclockꢀsuspendꢀ
Hꢀ
Lꢀ
Lꢀ
Hꢀ
Lꢀ
Notes:
1.ꢀHꢀ:ꢀHighꢀlevel,ꢀLꢀ:ꢀlowꢀlevel,ꢀXꢀ:ꢀHighꢀorꢀlowꢀlevelꢀ(Don’tꢀcare).
2.ꢀCKEꢀLowꢀtoꢀHighꢀtransitionꢀwillꢀre-enableꢀCLKꢀandꢀotherꢀinputsꢀasynchronously.ꢀAꢀminimumꢀsetupꢀ
timeꢀmustꢀbeꢀsatisfiedꢀbeforeꢀanyꢀcommandꢀotherꢀthanꢀEXIT.
3.ꢀPowerꢀdownꢀandꢀSelfꢀrefreshꢀcanꢀbeꢀenteredꢀonlyꢀfromꢀtheꢀbothꢀbanksꢀidleꢀstate.
4.ꢀMustꢀbeꢀlegalꢀcommandꢀasꢀdefinedꢀinꢀOperativeꢀCommandꢀTable.
5. Illegal if tx s r is not satisfied.
12
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
STATE DIAGRAM
Self
Refresh
SELF
SELFꢀexit
REF
Mode
Register
Set
MRS
CBRꢀ(Auto)
Refresh
IDLE
CKE
CKE
ACT
Power
Down
CKE
Active
Power
Down
Row
Active
CKE
BST
Write
BST
Read
AutoꢀPrech
Write
Read
arge
Read
CKE
CKE
CKE
WRITE
SUSPEND
READ
SUSPEND
READ
WRITE
Write
CKE
CKE
CKE
READA
SUSPEND
WRITEA
SUSPEND
WRITEA
READA
CKE
CKE
Precharge
POWER
ONꢀ
Precharge
Automaticꢀsequence
ManualꢀInput
Integrated Silicon Solution, Inc. — www.issi.comꢀ
13
Rev. A
05/09/08
IS42S16160
ABSOLUTE MAXIMUM RATINGS(1)
Symbol
Vd d m a x ꢀ
Vd d q m a x
Vin
Parameters
Rating
–0.5ꢀtoꢀ+4.6ꢀ
–0.5ꢀtoꢀ+4.6ꢀ
–0.5 to Vd d ꢀ+ꢀ0.5ꢀ
–1.0ꢀtoꢀVd d q ꢀ+ꢀ0.5ꢀ
1ꢀ
Unit
V
V
V
V
W
mA
°C
MaximumꢀSupplyꢀVoltageꢀ
MaximumꢀSupplyꢀVoltageꢀforꢀOutputꢀBufferꢀ
Input Voltage
OutputꢀVoltageꢀ
AllowableꢀPowerꢀDissipationꢀ
output Shorted Current
operatingꢀTemperatureꢀ
ꢀ
Vo u t ꢀ
ꢀ
ꢀ
ꢀ
Pd m a x
Ic s
50
0ꢀtoꢀ+70ꢀ
ꢀ
ꢀ
To p r
Com.ꢀ
ꢀ
ꢀ
Ind.ꢀ
–40ꢀtoꢀ+85
ꢀ
Ts t g ꢀ
StorageꢀTemperatureꢀ
ꢀ
–65ꢀtoꢀ+150ꢀ
°C
Notes:
1.ꢀ StressꢀgreaterꢀthanꢀthoseꢀlistedꢀunderꢀABSOLUTEꢀMAXIMUMꢀRATINGSꢀmayꢀcauseꢀpermanentꢀdamageꢀtoꢀ
theꢀdevice.ꢀThisꢀisꢀaꢀstressꢀratingꢀonlyꢀandꢀfunctionalꢀoperationꢀofꢀtheꢀdeviceꢀatꢀtheseꢀorꢀanyꢀotherꢀconditionsꢀ
aboveꢀthoseꢀindicatedꢀinꢀtheꢀoperationalꢀsectionsꢀofꢀthisꢀspecificationꢀisꢀnotꢀimplied.ꢀExposureꢀtoꢀabsoluteꢀ
maximumꢀratingꢀconditionsꢀforꢀextendedꢀperiodsꢀmayꢀaffectꢀreliability.
2. All voltages are referenced to Vss.
DC RECOMMENDED OPERATING CONDITIONS
Symbol
Vd d ꢀ
Parameter
Min.
3.0ꢀ
3.0ꢀ
2.0ꢀ
-0.3ꢀ
Typ.
3.3ꢀ
3.3ꢀ
—ꢀ
Max.
3.6ꢀ
3.6ꢀ
Unit
V
V
V
V
SupplyꢀVoltageꢀ
I/OꢀSupplyꢀVoltageꢀ
InputꢀHighꢀVoltageꢀ
InputꢀLowꢀVoltageꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Vd d q ꢀ
(1)
Vih ꢀ
Vd d q +ꢀ0.3ꢀ
+0.8ꢀ
(2)
Vil ꢀ
—ꢀ
Note:
1. Vih (overshoot): Vih (max)ꢀ=ꢀVd d q +2V (p u l s e w id t h < 3ns).
2. Vil (undershoot): Vih (min)ꢀ=ꢀ-2V (p u l s e w id t h < 3ns).
3.ꢀ AllꢀvoltagesꢀareꢀreferencedꢀtoꢀVss.
CAPACITANCE CHARACTERISTICS (AtꢀTaꢀ=ꢀ0ꢀtoꢀ+25°C,ꢀVd d ꢀ=ꢀVd d q =ꢀ3.3ꢀ±ꢀ0.3V)
Symbol
Cin1ꢀ
Parameter
Min.
2.5ꢀ
2.5ꢀ
4.0ꢀ
Max.
Unit
pF
pF
InputꢀCapacitance:ꢀCLKꢀ
InputꢀCapacitance:Allꢀotherꢀinputꢀpinsꢀ
DataꢀInput/OutputꢀCapacitance:ꢀDQSꢀ
3.5ꢀ ꢀ
3.8ꢀ ꢀ
6.0ꢀ ꢀ
ꢀ
ꢀ
ꢀ
Cin2ꢀ
ꢀ
CI/Oꢀ
pF
14
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
DC ELECTRICAL CHARACTERISTICS 1 (RecommendedꢀOperationꢀConditionsꢀunlessꢀotherwiseꢀnoted.)
Symbol Parameter
Test Condition
-6
140ꢀ
ꢀ
-7
120ꢀ
ꢀ
Unit
i
d d 1 (1)
ꢀ
OperatingꢀCurrentꢀ
Oneꢀbankꢀactive,ꢀCLꢀ=ꢀ3,ꢀBLꢀ=ꢀ1,ꢀꢀꢀꢀꢀꢀꢀꢀꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
mA
tc l k ꢀ=ꢀtc l k ꢀ(min),ꢀtr c ꢀ=ꢀtr c ꢀ(min)ꢀ
i
i
i
d d 2p
ꢀ
PrechargeꢀStandbyꢀCurrentꢀ CKEꢀ≤ Vil
(InꢀPower-DownꢀMode)
(m a x ),ꢀtc k ꢀ=ꢀ15nsꢀ
ꢀ
3ꢀ
3ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
mA
mA
mA
d d 2p s
ꢀ
PrechargeꢀStandbyꢀCurrentꢀ CKEꢀ≤ Vil
(InꢀPower-DownꢀMode)
(m a x ),ꢀCLKꢀ≤ Vil
(
m a x )ꢀ
ꢀ
ꢀ
3ꢀ
3ꢀ
(2)
d d 2n
ꢀ
PrechargeꢀStandbyꢀCurrentꢀ CS ≥ Vccꢀ-ꢀ0.2V,ꢀCKEꢀ≥ Vih
(InꢀNonꢀPower-DownꢀMode) c k ꢀ=ꢀ15ns
PrechargeꢀStandbyꢀCurrentꢀ CS ≥ Vccꢀ-ꢀ0.2V,ꢀCKEꢀ≥ Vih
(
m in )ꢀ
35ꢀ
35ꢀ
t
I
d d 2n s
ꢀ
(m in )ꢀorꢀ
ꢀ
20ꢀ
20ꢀ
ꢀ
ꢀ
mA
(InꢀNonꢀPower-DownꢀMode) CKEꢀ≤ Vil
(m a x ),ꢀAllꢀinputsꢀstable
I
ꢀꢀ
d d 3p
ActiveꢀStandbyꢀCurrentꢀ
(Power-DownꢀMode)
CKEꢀ≤ Vil
(
m a x ),ꢀtc k ꢀ=ꢀ15nsꢀ
ꢀ
ꢀ
ꢀ
ꢀ
4ꢀ
3ꢀ
4ꢀ
3ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
mAꢀ
mAꢀ
mA
Id d 3p s
ActiveꢀStandbyꢀCurrentꢀ
(Power-DownꢀMode)
CKEꢀ≤ Vil
(m a x ),ꢀCLKꢀ≤ Vil
(
m a x )ꢀ
ꢀꢀ
(2)
i
I
i
d d 3n
Active Standby Current
(InꢀNonꢀPower-DownꢀMode)
Active Standby Current
CS ≥ Vccꢀ-ꢀ0.2V,ꢀCKEꢀ≥ Vih
c k ꢀ=ꢀ15ns
CS ≥ Vccꢀ-ꢀ0.2V,ꢀCKEꢀ≥ Vih
(m in )ꢀ
55ꢀ
55ꢀ
t
d d 3n s
(m in )ꢀorꢀ
ꢀ
30ꢀ
30ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
mA
mA
(InꢀNonꢀPower-DownꢀMode) CKEꢀ≤ Vil
(m a x ),ꢀAllꢀinputsꢀstable
d d 4
ꢀ
OperatingꢀCurrentꢀ
Allꢀꢀbanksꢀactive,ꢀBLꢀ=ꢀ4,ꢀCLꢀ=ꢀ3,ꢀꢀꢀꢀꢀꢀꢀꢀꢀ
ꢀ
ꢀ
ꢀ
ꢀ
180ꢀ
ꢀ
130ꢀ
ꢀ
tc k ꢀ=ꢀtc k ꢀ(min)ꢀ
ꢀ
id d 5
ꢀ
ꢀ
Auto-RefreshꢀCurrentꢀ
Self-RefreshꢀCurrentꢀ
tr c ꢀ=ꢀtr c ꢀ(min),ꢀtc l k ꢀ=ꢀtc l k ꢀ(min)ꢀꢀꢀꢀꢀꢀꢀꢀ
180ꢀ
3ꢀ
160ꢀ
3ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
mA
mA
id d 6
CKEꢀ≤ 0.2Vꢀꢀꢀꢀꢀꢀꢀ
ꢀ
Notes:
1. Id d (m a x )ꢀisꢀspecifiedꢀatꢀtheꢀoutputꢀopenꢀcondition.
2.ꢀ Inputꢀsignalsꢀareꢀchangedꢀoneꢀtimeꢀduringꢀ30ns.
DC ELECTRICAL CHARACTERISTICS 2 (RecommendedꢀOperationꢀConditionsꢀunlessꢀotherwiseꢀnoted.)
Symbol Parameter
Test Condition
Min
Max
Unit
iilꢀ
InputꢀLeakageꢀCurrentꢀ
0Vꢀꢀ≤ Vin ≤ Vcc, with pins other than
the tested pin at 0V
-5
5
µA
i
o l
ꢀ
OutputꢀLeakageꢀCurrentꢀ
OutputꢀHighꢀVoltageꢀLevelꢀ
OutputꢀLowꢀVoltageꢀLevelꢀ
Outputꢀisꢀdisabled,ꢀ0Vꢀꢀ≤ Vout ≤ Vcc,
-5
2.4ꢀ
—
5
µA
V
V
o h
ꢀ
Io h ꢀꢀ=ꢀꢀ-2mAꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀ
o l ꢀꢀ=ꢀꢀ2mAꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
—
V
o l
ꢀ
I
0.4
V
Integrated Silicon Solution, Inc. — www.issi.com
15
Rev. A
05/09/08
IS42S16160
AC ELECTRICAL CHARACTERISTICS (1,2,3)
-6
-7
Symbol Parameter
Min.
Max.
Min.
Max.
Units
tc k 3ꢀ
tc k 2
ClockꢀCycleꢀTimeꢀ
CASꢀLatencyꢀ=ꢀ3ꢀ
CASꢀLatencyꢀ=ꢀ2ꢀ
6ꢀ
10ꢀ
—ꢀ
—ꢀ
7ꢀ
10ꢀ
—ꢀ
—ꢀ
ꢀ
ꢀ
ns
ns
ta c 3ꢀ
ta c 2
AccessꢀTimeꢀFromꢀCLKꢀ
CASꢀLatencyꢀ=ꢀ3ꢀ
CASꢀLatencyꢀ=ꢀ2ꢀ
—ꢀ
—ꢀ
5.4ꢀ
8ꢀ
—ꢀ
—ꢀ
5.4ꢀ
8ꢀ
ꢀ
ꢀ
ns
ns
tc h iꢀ
tc l ꢀ
CLKꢀHIGHꢀLevelꢀWidthꢀ
CLKꢀLOWꢀLevelꢀWidthꢀ
OutputꢀDataꢀHoldꢀTimeꢀ
ꢀ
ꢀ
2.5ꢀ
2.5ꢀ
—ꢀ
—ꢀ
2.5ꢀ
2.5ꢀ
—ꢀ
—ꢀ
ꢀ
ꢀ
ns
ns
to h 3ꢀ
to h 2
CASꢀLatencyꢀ=ꢀ3ꢀ
CAS Latencyꢀ=ꢀ2ꢀ
2.7ꢀ
2.7ꢀ
—ꢀ
—ꢀ
2.7ꢀ
3ꢀ
—ꢀ
—ꢀ
ꢀ
ꢀ
ns
ns
tl z ꢀ
OutputꢀLOWꢀImpedanceꢀTimeꢀ
OutputꢀHIGHꢀImpedanceꢀTimeꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
0ꢀ
—ꢀ
5.4ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
0ꢀ
—ꢀ
5.4ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
—ꢀ
120K
—ꢀ
—ꢀ
—ꢀ
—ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
th z ꢀ
2.7ꢀ
1.5ꢀ
1.0ꢀ
1.5ꢀ
1.0ꢀ
1.5ꢀ
1.0ꢀ
1.5ꢀ
1.0ꢀ
60ꢀ
2.7ꢀ
1.5ꢀ
1.0ꢀ
1.5ꢀ
1.0ꢀ
1.5ꢀ
1.0ꢀ
1.5ꢀ
1.0ꢀ
70ꢀ
td s ꢀ
InputꢀDataꢀSetupꢀTime(2)
InputꢀDataꢀHoldꢀTime(2)
AddressꢀSetupꢀTime(2)
AddressꢀHoldꢀTime(2)
CKEꢀSetupꢀTime(2)
CKEꢀHoldꢀTime(2)
ꢀ
td h ꢀ
ta s ꢀ
ꢀ
ꢀ
ta h ꢀ
ꢀ
tc k s ꢀ
tc k h ꢀ
tc s ꢀ
ꢀ
ꢀ
CommandꢀSetupꢀTimeꢀ(CS, RAS, CAS, WE,ꢀDQM)(2)
CommandꢀHoldꢀTimeꢀ(CS, RAS, CAS, WE,ꢀDQM)(2)
ꢀ
tc h ꢀ
tr c ꢀ
tr a s ꢀ
tr p ꢀ
ꢀ
CommandꢀPeriodꢀ(REFꢀtoꢀREFꢀ/ꢀACTꢀtoꢀACT)ꢀ
CommandꢀPeriodꢀ(ACTꢀtoꢀPRE)ꢀ
ꢀ
ꢀ
ꢀ
42ꢀ
120K
—ꢀ
ꢀ
45ꢀ
CommandꢀPeriodꢀ(PREꢀtoꢀACT)ꢀ
18ꢀ
20ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
tr c d ꢀ
tr r d ꢀ
td p l ꢀ
ActiveꢀCommandꢀToꢀReadꢀ/ꢀWriteꢀCommandꢀDelayꢀTimeꢀ
18ꢀ
—ꢀ
20ꢀ
CommandꢀPeriodꢀ(ACTꢀ[0]ꢀtoꢀACT[1])ꢀ
ꢀ
ꢀ
12ꢀ
—ꢀ
14ꢀ
InputꢀDataꢀToꢀPrechargeꢀ
CommandꢀDelayꢀtime
12ꢀ
—ꢀ
14ꢀ
ꢀ ꢀ ꢀ
td a l ꢀ
InputꢀDataꢀToꢀActiveꢀ/ꢀRefreshꢀ
ꢀ
30
—ꢀ
35
—ꢀ
ꢀ
ns
ꢀ ꢀ ꢀ
CommandꢀDelayꢀtimeꢀ(DuringꢀAuto-Precharge)
tm r d
td d e
tx s r
ttꢀ
ModeꢀRegisterꢀProgramꢀTimeꢀ
PowerꢀDownꢀExitꢀSetupꢀTimeꢀ
Self-RefreshꢀExitꢀTimeꢀ
TransitionꢀTimeꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
12ꢀ
6ꢀ
—ꢀ
—ꢀ
—ꢀ
5ꢀ
15ꢀ
7ꢀ
—ꢀ
—ꢀ
—ꢀ
5ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ns
ns
ns
ns
ms
66ꢀ
0.5ꢀ
—ꢀ
70ꢀ
0.5ꢀ
—ꢀ
tr e f ꢀ
RefreshꢀCycleꢀTimeꢀ(8192)ꢀ
64ꢀ
64ꢀ
Notes:
1.ꢀ Theꢀpower-onꢀsequenceꢀmustꢀbeꢀexecutedꢀbeforeꢀstartingꢀmemoryꢀoperation.
2. measured with tt =ꢀ1ꢀns.ꢀIfꢀclockꢀrisingꢀtimeꢀisꢀlongerꢀthanꢀ1ns,ꢀ(trꢀ/2ꢀ-ꢀ0.5)ꢀnsꢀshouldꢀbeꢀaddedꢀtoꢀtheꢀparameter.
3.ꢀꢀTheꢀreferenceꢀlevelꢀisꢀ1.4Vꢀwhenꢀmeasuringꢀinputꢀsignalꢀtiming.ꢀRiseꢀandꢀfallꢀtimesꢀareꢀmeasuredꢀbetweenꢀVih(min.)ꢀandꢀVil
(max).ꢀ
16
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
td a l ꢀ
ꢀꢀ
InputꢀDataꢀToꢀActive/RefreshꢀCommandꢀDelayꢀTime
(DuringꢀAuto-Precharge)
5ꢀ
IS42S16160
OPERATING FREQUENCY / LATENCY RELATIONSHIPS
SYMBOL PARAMETER
UNITS
ns
—ꢀ
ClockꢀCycleꢀTimeꢀ
ꢀ
ꢀ
6ꢀ
7ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ—ꢀ
OperatingꢀFrequencyꢀ(CASꢀꢀLatencyꢀ=ꢀ3)ꢀ
166ꢀ
143ꢀ
MHz
tc a c
tr c d ꢀ
tr a c
CASꢀꢀLatencyꢀ
ꢀ
3ꢀ
3ꢀ
3ꢀ
3ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
cycle
cycle
cycleꢀ
ActiveꢀCommandꢀToꢀRead/WriteꢀCommandꢀDelayꢀTimeꢀ
RASꢀLatencyꢀ(tr c d ꢀ+ꢀtc a c )ꢀ
CASꢀꢀLatencyꢀ=ꢀ3ꢀ
CASꢀꢀLatencyꢀ=ꢀ2ꢀ
6ꢀ
5ꢀ
6ꢀ
5ꢀ
ꢀ
ꢀ
tr c
CommandꢀPeriodꢀ(REFꢀtoꢀREFꢀ/ꢀACTꢀtoꢀACT)ꢀ
CommandꢀPeriodꢀ(ACTꢀtoꢀPRE)ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
10ꢀ
7ꢀ
10ꢀ
7ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
cycle
cycle
cycle
cycle
cycle
tr a s ꢀ
tr p ꢀ
CommandꢀPeriodꢀ(PREꢀtoꢀACT)ꢀ
3ꢀ
3ꢀ
tr r d ꢀ
CommandꢀPeriodꢀ(ACT[0]ꢀtoꢀACTꢀ[1])ꢀ
2ꢀ
2ꢀ
tc c d ꢀ
ꢀꢀ
ColumnꢀCommandꢀDelayꢀTimeꢀ
(READ,ꢀREADA,ꢀWRIT,ꢀWRITA)
1ꢀ
1ꢀ
td p l ꢀ
InputꢀDataꢀToꢀPrechargeꢀCommandꢀDelayꢀTimeꢀ
ꢀ
2ꢀ
5ꢀ
2ꢀ
5ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
cycle
cycle
tr b d
ꢀꢀ
BurstꢀStopꢀCommandꢀToꢀOutputꢀinꢀHIGH-ZꢀDelayꢀTime CASꢀꢀLatencyꢀ=ꢀ3ꢀ
(Read)ꢀ CASꢀꢀLatencyꢀ=ꢀ2ꢀ
3ꢀ
2ꢀ
3ꢀ
2ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
cycle
cycle
cycle
cycle
cycleꢀ
tw b d ꢀ
ꢀꢀ
BurstꢀStopꢀCommandꢀToꢀInputꢀinꢀInvalidꢀDelayꢀTimeꢀ0ꢀ
(Write)ꢀ
0ꢀ
0ꢀ
ꢀ
tr q l
ꢀꢀ
PrechargeꢀCommandꢀToꢀOutputꢀinꢀHIGH-ZꢀDelayꢀTime CASꢀꢀLatencyꢀ=ꢀ3ꢀ
3ꢀ
2ꢀ
3ꢀ
2ꢀ
ꢀ
ꢀ
(Read)
CASꢀꢀLatencyꢀ=ꢀ2ꢀ
tw d l ꢀ
ꢀꢀ
PrechargeꢀCommandꢀToꢀInputꢀinꢀInvalidꢀDelayꢀTimeꢀ0ꢀ
(Write)
0ꢀ
0ꢀ
ꢀ
tp q l
LastꢀOutputꢀToꢀAuto-PrechargeꢀStartꢀTimeꢀ(Read) CASꢀꢀLatencyꢀ=ꢀ3ꢀ
CASꢀꢀLatencyꢀ=ꢀ2ꢀ
-2ꢀ
-1ꢀ
-2ꢀ
-1ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
tq m d ꢀ
td m d ꢀ
tm r d ꢀ
DQMꢀToꢀOutputꢀDelayꢀTimeꢀ(Read)ꢀ
DQMꢀToꢀInputꢀDelayꢀTimeꢀ(Write)ꢀ
ꢀ
ꢀ
ꢀ
2ꢀ
0ꢀ
2ꢀ
2ꢀ
0ꢀ
2ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
cycle
cycle
cycle
ModeꢀRegisterꢀSetꢀToꢀCommandꢀDelayꢀTimeꢀ
Integrated Silicon Solution, Inc. — www.issi.comꢀ
17
Rev. A
05/09/08
IS42S16160
AC TEST CONDITIONS
Input Load
Output Load
t
CK
t
CHI
t
CL
3.0V
1.4V
1.4V
CLK
50Ω
0V
Z = 50Ω
tCS
tCH
Output
3.0V
1.4V
50 pF
INPUT
0V
t
AC
tOH
OUTPUT
1.4V
1.4V
AC TEST CONDITIONS
Parameter
Rating
ACꢀInputꢀLevelsꢀꢀ
0Vꢀtoꢀ3.0V
1ꢀns
ꢀ
ꢀ
ꢀ
InputꢀRiseꢀandꢀFallꢀTimesꢀ
InputꢀTimingꢀReferenceꢀLevelꢀ
OutputꢀTimingꢀMeasurementꢀReferenceꢀLevelꢀ
1.4V
1.4V
18
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
TIVEꢀcommandꢀwhichꢀisꢀthenꢀfollowedꢀbyꢀaꢀREADꢀorWRITEꢀ
IS42S16160
Initialization
FUNCTIONAL DESCRIPTION
SDRAMsꢀ mustꢀ beꢀ poweredꢀ upꢀ andꢀ initializedꢀ inꢀ aꢀ
predefined manner.
Theꢀ256MbꢀSDRAMsꢀareꢀquad-bankꢀDRAMsꢀwhichꢀoperateꢀ
atꢀ3.3Vꢀandꢀincludeꢀaꢀsynchronousꢀinterfaceꢀ(allꢀsignalsꢀareꢀ
registeredꢀonꢀtheꢀpositiveꢀedgeꢀofꢀtheꢀclockꢀsignal,ꢀCLK).ꢀ
Eachꢀofꢀtheꢀ67,108,864-bitꢀbanksꢀisꢀorganizedꢀasꢀ8,192ꢀ
rows by 512 columns by 16 bits.
Theꢀ256MbꢀSDRAMꢀisꢀinitializedꢀafterꢀtheꢀpowerꢀisꢀappliedꢀ
to Vd d and Vd d q ꢀ(simultaneously)ꢀandꢀtheꢀclockꢀisꢀstableꢀ
withꢀDQMꢀHighꢀandꢀCKEꢀHigh.ꢀ
ReadꢀandꢀwriteꢀaccessesꢀtoꢀtheꢀSDRAMꢀareꢀburstꢀoriented;ꢀ
accesses start at a selected location and continue for
a programmed number of locations in a programmed
sequence.ꢀAccessesꢀbeginꢀwithꢀtheꢀregistrationꢀofꢀanꢀAC-
Aꢀ200µsꢀdelayꢀisꢀrequiredꢀpriorꢀtoꢀissuingꢀanyꢀcommandꢀ
other than a COMMANDꢀINHIBIT or a NOP.ꢀTheꢀCOMMANDꢀ
INHIBITꢀorꢀNOPꢀmayꢀbeꢀappliedꢀduringꢀtheꢀ200usꢀperiodꢀandꢀ
should continue at least through the end of the period.
WithꢀatꢀleastꢀoneꢀCOMMANDꢀINHIBITꢀorꢀNOPꢀcommandꢀ
havingꢀbeenꢀapplied,ꢀaꢀPRECHARGEꢀcommandꢀshouldꢀ
be applied once the 200µs delay has been satisfied. All
banksꢀmustꢀbeꢀprecharged.ꢀꢀThisꢀwillꢀleaveꢀallꢀbanksꢀinꢀanꢀ
idle state after which at least eight AUTOꢀREFRESH cycles
must be performed. After the AUTOꢀREFRESH cycles are
complete,ꢀ theꢀ SDRAMꢀ isꢀ thenꢀ readyꢀ forꢀ modeꢀ registerꢀ
programming.
command.ꢀTheꢀaddressꢀbitsꢀregisteredꢀcoincidentꢀwithꢀtheꢀ
ACTIVEꢀcommandꢀareꢀusedꢀtoꢀselectꢀtheꢀbankꢀandꢀrowꢀ
to be accessed (BA0ꢀandꢀBA1ꢀselectꢀtheꢀbank,ꢀA0-A12ꢀselectꢀ
theꢀrow).ꢀTheꢀaddressꢀbitsꢀA0-A8ꢀ(x16) registered coincident
withꢀtheꢀREADꢀorꢀWRITEꢀcommandꢀareꢀusedꢀtoꢀselectꢀtheꢀ
starting column location for the burst access.
Priorꢀ toꢀ normalꢀ operation,ꢀ theꢀ SDRAMꢀ mustꢀ beꢀ initial-
ized.ꢀTheꢀfollowingꢀsectionsꢀprovideꢀdetailedꢀinformationꢀ
coveringꢀdeviceꢀinitialization,ꢀregisterꢀdefinition,ꢀcommandꢀ
descriptions and device operation.
Theꢀ modeꢀ registerꢀ shouldꢀ beꢀ loadedꢀ priorꢀ toꢀ applyingꢀ
any operational command because it will power up in an
unknown state.
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19
Rev. A
05/09/08
IS42S16160
INITIALIꢀE AND LOAD MODE REGISTER(1)
T0
T1
Tn+1
To+1
t
CL
Tp+1
Tp+2
Tp+3
tCK
t
CH
CLK
CKE
tCKS t
CKH
tCMH
tCMS
t
CMH
tCMS
tCMH tCMS
AUTO
REFRESH
AUTO
Load MODE
REGISTER
COMMAND
NOP
PRECHARGE
NOP
NOP
NOP
ACTIVE
REFRESH
DQM/
DQML, DQMH
t
t
AS
tAH
A0-A9, A11, A12
A10
ROW
ROW
BANK
CODE
AS
tAH
ALL BANKS
CODE
SINGLE BANK
ALL BANKS
t
AS
tAH
BA0, BA1
DQ
CODE
t
RP
t
RC
t
RC
tMRD
T
Power-up: VCC
Precharge AUTO REFRESH
AUTO REFRESH
Program MODE REGISTER(2, 3, 4)
and CLK stable all banks
At least 8 Auto-Refresh Commands
DON'T CARE
T = 200µs Min.
Notes:
1. If CSꢀisꢀHighꢀatꢀclockꢀHighꢀtime,ꢀallꢀcommandsꢀappliedꢀareꢀNOP.
2.ꢀꢀTheꢀModeꢀregisterꢀmayꢀbeꢀloadedꢀpriorꢀtoꢀtheꢀAuto-Refreshꢀcyclesꢀifꢀdesired.
3.ꢀꢀJEDECꢀandꢀPC100ꢀspecifyꢀthreeꢀclocks.
4.ꢀꢀOutputsꢀareꢀguaranteedꢀHigh-Zꢀafterꢀtheꢀcommandꢀisꢀissued.
20
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
AUTO-REFRESH CYCLE
T0
T1
T2
Tn+1
To+1
t
CK
t
CL
t
CH
CLK
t
CKS CKH
t
CKE
t
CMS
tCMH
Auto
Refresh
Auto
COMMAND
PRECHARGE
NOP
NOP
NOP
ACTIVE
Refresh
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
ROW
ROW
BANK
ALL BANKS
SINGLE BANK
BANK(s)
BA0, BA1
DQ
t
AS
tAH
High-Z
t
RP
t
RC
t
RC
DON'T CARE
Notes:
1. CASꢀꢀlatencyꢀ=ꢀ2,ꢀ3
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21
Rev. A
05/09/08
IS42S16160
SELF-REFRESH CYCLE
T0
T1
T2
Tn+1
To+1
To+2
t
CK
t
CH
t
CL
CLK
CKE
t
CKS
t
CKH
t
CKS
≥ tRAS
t
CKS
t
CMS
tCMH
Auto
Auto
COMMAND
PRECHARGE
NOP
NOP
NOP
Refresh
Refresh
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
ALL BANKS
SINGLE BANK
tAS
tAH
BA0, BA1
DQ
BANK
High-Z
tRP
t
XSR
Precharge all
active banks
Enter self
refresh mode
CLK stable prior to exiting
Exit self refresh mode
(Restart refresh time base)
DON'T CARE
22
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Rev. A
05/09/08
initiatingꢀtheꢀsubsequentꢀoperation.
Violatingꢀeitherꢀofꢀtheseꢀ
IS42S16160
REGISTER DEFINITION
Mode Register
Theꢀmodeꢀregisterꢀisꢀusedꢀtoꢀdefineꢀtheꢀspecificꢀmodeꢀ
ofꢀoperationꢀofꢀtheꢀSDRAM.ꢀThisꢀdefinitionꢀincludesꢀtheꢀ
selection of a burst length, a burst type, a CAS latency,
an operating mode and a write burst mode, as shown in
MODEꢀREGISTERꢀDEFINITION.ꢀ
ModeꢀregisterꢀbitsꢀM0-M2ꢀspecifyꢀtheꢀburstꢀlength,ꢀM3ꢀ
specifiesthetypeofburst(sequentialꢀorꢀinterleaved),ꢀM4-ꢀM6ꢀ
specifyꢀtheꢀCASꢀlatency,ꢀM7ꢀandꢀM8ꢀspecifyꢀtheꢀoperatingꢀ
mode,ꢀM9ꢀspecifiesꢀtheWRITEꢀburstꢀmode,ꢀandꢀM10,ꢀM11,ꢀ
andꢀM12ꢀareꢀreservedꢀforꢀfutureꢀuse.
TheꢀmodeꢀregisterꢀisꢀprogrammedꢀviaꢀtheꢀLOADꢀMODEꢀ
REGISTERꢀcommandꢀandꢀwillꢀretainꢀtheꢀstoredꢀinformationꢀ
until it is programmed again or the device loses power.
Theꢀmodeꢀregisterꢀmustꢀbeꢀloadedꢀwhenꢀallꢀbanksꢀareꢀ
idle, and the controller must wait the specified time before
requirementsꢀwillꢀresultꢀinꢀunspecifiedꢀoperation.
MODE REGISTER DEFINITION
Address Bus (Ax)
BA1 BA0 A12 A11 A10 A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
Mode Register (Mx)
Reserved(1)
Burst Length
M2 M1 M0
M3=0
M3=1
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
1
2
4
8
1
2
4
8
Reserved Reserved
Reserved Reserved
Reserved Reserved
Full Page Reserved
Burst Type
M3
Type
0
1
Sequential
Interleaved
Latency Mode
M6 M5 M4
CAS Latency
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
Reserved
Reserved
2
3
Reserved
Reserved
Reserved
Reserved
Operating Mode
M8 M7 M6-M0 Mode
0
—
0
—
Defined Standard Operation
All Other States Reserved
—
Write Burst Mode
M9
0
Mode
Programmed Burst Length
Single Location Access
1. To ensure compatibility with future devices,
should program BA1, BA0, A12, A11, A10 = "0"
1
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23
Rev. A
05/09/08
IS42S16160
BURST LENGTH
ing that the burst will wrap within the block if a boundary
isꢀreached.ꢀTheꢀblockꢀisꢀuniquelyꢀselectedꢀbyꢀA1-A8ꢀ(x16)ꢀ
whenꢀtheꢀburstꢀlengthꢀisꢀsetꢀtoꢀtwo;ꢀbyꢀA2-A8ꢀ(x16)ꢀwhenꢀ
theꢀburstꢀlengthꢀisꢀsetꢀtoꢀfour;ꢀandꢀbyꢀA3-A8ꢀ(x16)ꢀwhenꢀtheꢀ
burstꢀlengthꢀisꢀsetꢀtoꢀeight.ꢀTheꢀremainingꢀ(leastꢀsignificant)ꢀ
addressꢀbit(s)ꢀisꢀ(are)ꢀusedꢀtoꢀselectꢀtheꢀstartingꢀlocationꢀ
withinꢀtheꢀblock.ꢀFull-pageꢀburstsꢀwrapꢀwithinꢀtheꢀpageꢀifꢀ
the boundary is reached.
ReadꢀandꢀwriteꢀaccessesꢀtoꢀtheꢀSDRAMꢀareꢀburstꢀoriented,ꢀ
with the burst length being programmable, as shown in
MODEꢀREGISTERꢀDEFINITION.ꢀTheꢀburstꢀlengthꢀdeter-
minesꢀtheꢀmaximumꢀnumberꢀofꢀcolumnꢀlocationsꢀthatꢀcanꢀ
beꢀaccessedꢀforꢀaꢀgivenꢀREADꢀorꢀWRITEꢀcommand.ꢀBurstꢀ
lengthsꢀofꢀ1,ꢀ2,ꢀ4ꢀorꢀ8ꢀlocationsꢀareꢀavailableꢀforꢀbothꢀtheꢀ
sequentialꢀandꢀtheꢀinterleavedꢀburstꢀtypes,ꢀandꢀaꢀfull-pageꢀ
burstꢀisꢀavailableꢀforꢀtheꢀsequentialꢀtype.ꢀTheꢀfull-pageꢀ
burstꢀisꢀusedꢀinꢀconjunctionꢀwithꢀtheꢀBURSTꢀTERMINATEꢀ
command to generate arbitrary burst lengths.
BurstꢀType
Accesses within a given burst may be programmed to be
eitherꢀsequentialꢀorꢀinterleaved;ꢀthisꢀisꢀreferredꢀtoꢀasꢀtheꢀ
burstꢀtypeꢀandꢀisꢀselectedꢀviaꢀbitꢀM3.
Reservedꢀstatesꢀshouldꢀnotꢀbeꢀused,ꢀasꢀunknownꢀoperationꢀ
or incompatibility with future versions may result.
WhenꢀaꢀREADꢀorꢀWRITEꢀcommandꢀisꢀissued,ꢀaꢀblockꢀofꢀ
columnsꢀequalꢀtoꢀtheꢀburstꢀlengthꢀisꢀeffectivelyꢀselected.ꢀAllꢀ
accesses for that burst take place within this block, mean-
Theꢀorderingꢀofꢀaccessesꢀwithinꢀaꢀburstꢀisꢀdeterminedꢀbyꢀ
the burst length, the burst type and the starting column
address,ꢀasꢀshownꢀinꢀBURSTꢀDEFINITIONꢀtable.
BURST DEFINITION
Burst
Starting Column
Address
Order of Accesses Within a Burst
Length
Type = Sequential
Type = Interleaved
A 0
2
0
1
0-1
1-0
0-1
1-0
A 1
0ꢀ
A 0
0ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
4ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
0-1-2-3ꢀ
1-2-3-0ꢀ
2-3-0-1ꢀ
3-0-1-2ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
0-1-2-3
1-0-3-2
2-3-0-1
3-2-1-0
0ꢀ
1ꢀ
ꢀ
1ꢀ
0ꢀ
ꢀ
ꢀ
1ꢀ
1ꢀ
A 2
0ꢀ
0ꢀ
0ꢀ
0ꢀ
1ꢀ
1ꢀ
1ꢀ
1ꢀ
A 1
0ꢀ
A 0
0ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
0-1-2-3-4-5-6-7ꢀ
1-2-3-4-5-6-7-0ꢀ
ꢀ2-3-4-5-6-7-0-1ꢀ
ꢀ3-4-5-6-7-0-1-2ꢀ
4-5-6-7-0-1-2-3ꢀ
5-6-7-0-1-2-3-4ꢀ
6-7-0-1-2-3-4-5ꢀ
7-0-1-2-3-4-5-6ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
0-1-2-3-4-5-6-7
ꢀ1-0-3-2-5-4-7-6
2-3-0-1-6-7-4-5
3-2-1-0-7-6-5-4
4-5-6-7-0-1-2-3
5-4-7-6-1-0-3-2
6-7-4-5-2-3-0-1
7-6-5-4-3-2-1-0
NotꢀSupportedꢀ
0ꢀ
1ꢀ
ꢀ
1ꢀ
ꢀ0ꢀ
1ꢀ
8ꢀ
ꢀ
ꢀ1ꢀ
0ꢀ
0ꢀ
ꢀ
0ꢀ
1ꢀ
ꢀ
1ꢀ
0ꢀ
ꢀ
1ꢀ
1ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Fullꢀ nꢀ=ꢀA0-A8ꢀ(x16)ꢀ ꢀ
Pageꢀ (locationꢀ0-y)ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Cn,ꢀCnꢀ+ꢀ1,ꢀCnꢀ+ꢀ2ꢀ
Cnꢀ+ꢀ3,ꢀCnꢀ+ꢀ4...
…Cnꢀ-ꢀ1,
ꢀ
ꢀ
ꢀ
(y)ꢀ
ꢀ
ꢀ
ꢀ
Cn…
24
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Rev. A
05/09/08
IS42S16160
CAS Latency
Operating Mode
TheꢀCASꢀlatencyꢀisꢀtheꢀdelay,ꢀinꢀclockꢀcycles,ꢀbetweenꢀ
the registrationꢀofꢀaꢀREADꢀcommandꢀandꢀtheꢀavailabilityꢀofꢀ
theꢀfirstꢀpieceꢀofꢀoutputꢀdata.ꢀTheꢀlatencyꢀcanꢀbeꢀsetꢀtoꢀtwoꢀorꢀ
three clocks.
TheꢀnormalꢀoperatingꢀmodeꢀisꢀselectedꢀbyꢀsettingꢀM7ꢀandꢀM8ꢀ
toꢀzero;ꢀtheꢀotherꢀcombinationsꢀofꢀvaluesꢀforꢀM7ꢀandꢀM8ꢀareꢀ
reservedꢀforꢀfutureꢀuseꢀand/orꢀtestꢀmodes.ꢀTheꢀprogrammedꢀ
burstꢀlengthꢀappliesꢀtoꢀbothꢀREADꢀandꢀWRITEꢀbursts.
IfꢀaꢀREADꢀcommandꢀisꢀregisteredꢀatꢀclockꢀedgeꢀn,ꢀandꢀ
the latency is m clocks, the data will be available by clock
edge n + m.ꢀTheꢀDQsꢀwillꢀstartꢀdrivingꢀasꢀaꢀresultꢀofꢀtheꢀ
clock edge one cycle earlier (n + m -ꢀ1),ꢀandꢀprovidedꢀthatꢀ
the relevant access times are met, the data will be valid by
clock edge n + m.ꢀForꢀexample,ꢀassumingꢀthatꢀtheꢀclockꢀ
cycle time is such that all relevant access times are met,
ifꢀaꢀREADꢀcommandꢀisꢀregisteredꢀatꢀT0ꢀandꢀtheꢀlatencyꢀ
isꢀprogrammedꢀtoꢀtwoꢀclocks,ꢀtheꢀDQsꢀwillꢀstartꢀdrivingꢀ
afterꢀT1ꢀandꢀtheꢀdataꢀwillꢀbeꢀvalidꢀbyꢀT2,ꢀasꢀshownꢀinꢀCASꢀ
Latencyꢀdiagrams.ꢀTheꢀAllowableꢀOperatingꢀFrequencyꢀ
tableꢀindicatesꢀtheꢀoperatingꢀfrequenciesꢀatꢀwhichꢀeachꢀ
CAS latency setting can be used.
Testꢀmodesꢀandꢀreservedꢀstatesꢀshouldꢀnotꢀbeꢀusedꢀbe-
cause unknown operation or incompatibility with future
versions may result.
Write Burst Mode
WhenꢀM9ꢀ=ꢀ0,ꢀtheꢀburstꢀlengthꢀprogrammedꢀviaꢀM0-M2ꢀ
appliesꢀtoꢀbothꢀREADꢀandꢀWRITEꢀbursts;ꢀwhenꢀM9ꢀ=ꢀ1,ꢀ
theꢀprogrammedꢀburstꢀlengthꢀappliesꢀtoꢀREADꢀbursts,ꢀbutꢀ
writeꢀaccessesꢀareꢀsingle-locationꢀ(nonburst)ꢀaccesses.
CAS Latency
Allowable Operating Frequency (MHz)
Speed
CAS Latency = 2
CAS Latency = 3
Reservedꢀstatesꢀshouldꢀnotꢀbeꢀusedꢀasꢀunknownꢀoperationꢀ
or incompatibility with future versions may result.
-6
100
100
166
143
-7
CAS LATENCY
T0
T1
T2
T3
CLK
READ
NOP
NOP
COMMAND
DQ
t
AC
D
OUT
OH
t
LZ
t
CAS Latency - 2
T0
T1
T2
T3
T4
CLK
READ
NOP
NOP
NOP
COMMAND
DQ
tAC
D
OUT
OH
t
LZ
t
CAS Latency - 3
DON'T CARE
UNDEFINED
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25
Rev. A
05/09/08
IS42S16160
ACTIVATING SPECIFIC ROW WITHIN SPE-
CIFIC BANK
CHIP OPERATION
BANK/ROW ACTIVATION
BeforeꢀanyꢀREADꢀorꢀWRITEꢀcommandsꢀcanꢀbeꢀissuedꢀ
toꢀaꢀbankꢀwithinꢀtheꢀSDRAM,ꢀaꢀrowꢀinꢀthatꢀbankꢀmustꢀbeꢀ
“opened.”ꢀThisꢀisꢀaccomplishedꢀviaꢀtheꢀACTIVEꢀcommand,ꢀ
which selects both the bank and the row to be activated
(see ActivatingꢀSpecificꢀRowꢀWithinꢀSpecificꢀBank).
CLK
HIGH
CKE
CS
After opening a row (issuingꢀanꢀACTIVEꢀcommand),ꢀaꢀREADꢀ
orꢀWRITEꢀcommandꢀmayꢀbeꢀissuedꢀtoꢀthatꢀrow,ꢀsubjectꢀtoꢀ
the tr c d ꢀspecification.ꢀMinimumꢀtr c d should be divided by
theꢀclockꢀperiodꢀandꢀroundedꢀupꢀtoꢀtheꢀnextꢀwholeꢀnumberꢀ
toꢀ determineꢀ theꢀ earliestꢀ clockꢀ edgeꢀ afterꢀ theꢀ ACTIVEꢀ
commandꢀonꢀwhichꢀaꢀREADꢀorꢀWRITEꢀcommandꢀcanꢀbeꢀ
entered.ꢀForꢀexample,ꢀaꢀtr c d specification of 15ns with a
143ꢀMHzꢀclockꢀ(7nsꢀperiod)ꢀresultsꢀinꢀ2.14ꢀclocks,ꢀroundedꢀ
toꢀ3.ꢀThisꢀisꢀreflectedꢀinꢀtheꢀfollowingꢀexample,ꢀwhichꢀcov-
ersꢀanyꢀcaseꢀwhereꢀ2ꢀ<ꢀ[tr c d ꢀ(MIN)/tc k ] ≤ꢀ3.ꢀ(Theꢀsameꢀ
procedure is used to convert other specification limits from
timeꢀunitsꢀtoꢀclockꢀcycles).
RAS
CAS
WE
A0-A12
BA0, BA1
ROW ADDRESS
BANK ADDRESS
AꢀsubsequentꢀACTIVEꢀcommandꢀtoꢀaꢀdifferentꢀrowꢀinꢀtheꢀ
same bank can only be issued after the previous active
rowꢀhasꢀbeenꢀ“closed”ꢀ(precharged).ꢀTheꢀminimumꢀtimeꢀ
intervalꢀbetweenꢀsuccessiveꢀACTIVEꢀcommandsꢀtoꢀtheꢀ
same bank is defined by tr c .
AꢀsubsequentꢀACTIVEꢀcommandꢀtoꢀanotherꢀbankꢀcanꢀbeꢀ
issuedwhilethefirstbankisbeingaccessed, whichresults
inꢀaꢀreductionꢀofꢀtotalꢀrow-accessꢀoverhead.ꢀTheꢀminimumꢀ
timeꢀintervalꢀbetweenꢀsuccessiveꢀACTIVEꢀcommandsꢀtoꢀ
different banks is defined by tr r d .
EXAMPLE: MEETING TRCD (MIN) WHEN 2 < [TRCD (MIN)/TCK] ≤ 3
T0
T1
T2
T3
T4
CLK
READ or
WRITE
ACTIVE
NOP
NOP
COMMAND
t
RCD
DON'T CARE
26
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Rev. A
05/09/08
sameꢀbank.TheꢀPRECHARGEꢀcommandꢀshouldꢀbeꢀissuedꢀ
burstꢀofꢀfourꢀorꢀtheꢀlastꢀdesiredꢀofꢀaꢀlongerꢀburst.Theꢀ256Mbꢀ
IS42S16160
READS
READ COMMAND
READꢀ burstsꢀ areꢀ initiatedꢀ withꢀ aꢀ READꢀ command,ꢀ asꢀ
shownꢀinꢀtheꢀREADꢀCOMMANDꢀdiagram.
CLK
Theꢀstartingꢀcolumnꢀandꢀbankꢀaddressesꢀareꢀprovidedꢀwithꢀ
theꢀREADꢀcommand,ꢀandꢀautoꢀprechargeꢀisꢀeitherꢀenabledꢀorꢀ
disabled for that burst access. If auto precharge is enabled,
the row being accessed is precharged at the completion of
theꢀburst.ꢀForꢀtheꢀgenericꢀREADꢀcommandsꢀusedꢀinꢀtheꢀfol-
lowing illustrations, auto precharge is disabled.
HIGH
CKE
CS
RAS
DuringꢀREADꢀbursts,ꢀtheꢀvalidꢀdata-outꢀelementꢀfromꢀtheꢀ
starting column address will be available following the
CASꢀlatencyꢀafterꢀtheꢀREADꢀcommand.ꢀEachꢀsubsequentꢀ
data-outꢀelementꢀwillꢀbeꢀvalidꢀbyꢀtheꢀnextꢀpositiveꢀclockꢀ
edge.ꢀTheꢀCASꢀLatencyꢀdiagramꢀshowsꢀgeneralꢀtiming
for each possible CAS latency setting.
CAS
WE
Uponꢀcompletionꢀofꢀaꢀburst,ꢀassumingꢀnoꢀotherꢀcommandsꢀ
haveꢀbeenꢀinitiated,ꢀtheꢀDQsꢀwillꢀgoꢀHigh-Z.ꢀAꢀfull-pageꢀburstꢀ
will continue until terminated. (At the end of the page, it will
wrapꢀtoꢀcolumnꢀ0ꢀandꢀcontinue.)
COLUMN ADDRESS
AUTO PRECHARGE
A0-A9
A11, A12
A10
DataꢀfromꢀanyꢀREADꢀburstꢀmayꢀbeꢀtruncatedꢀwithꢀaꢀsub-
sequentꢀREADꢀcommand,ꢀandꢀdataꢀfromꢀaꢀfixed-lengthꢀ
READꢀburstꢀmayꢀbeꢀimmediatelyꢀfollowedꢀbyꢀdataꢀfromꢀaꢀ
READꢀcommand.ꢀInꢀeitherꢀcase,ꢀaꢀcontinuousꢀflowꢀofꢀdataꢀ
canꢀbeꢀmaintained.ꢀTheꢀfirstꢀdataꢀelementꢀfromꢀtheꢀnewꢀ
burst follows either the last element of a completed burst
or the last desired data element of a longer burst which
is being truncated.
NO PRECHARGE
BANK ADDRESS
BA0, BA1
Note:ꢀA9ꢀisꢀ"Don'tꢀCare"ꢀforꢀx16.
TheꢀDQMꢀinputꢀisꢀusedꢀtoꢀavoidꢀI/Oꢀcontention,ꢀasꢀshownꢀ
inꢀFiguresꢀRW1ꢀandꢀRW2.ꢀTheꢀDQMꢀsignalꢀmustꢀbeꢀas-
sertedꢀ(HIGH)ꢀatꢀleastꢀthreeꢀclocksꢀpriorꢀtoꢀtheꢀWRITEꢀ
commandꢀ(DQMꢀlatencyꢀisꢀtwoꢀclocksꢀforꢀoutputꢀbuffers)ꢀ
toꢀsuppressꢀdata-outꢀfromꢀtheꢀREAD.ꢀOnceꢀtheꢀWRITEꢀ
commandꢀisꢀregistered,ꢀtheꢀDQsꢀwillꢀgoꢀHigh-Zꢀ(orꢀremainꢀ
High-Z),ꢀregardlessꢀofꢀtheꢀstateꢀofꢀtheꢀDQMꢀsignal,ꢀprovidedꢀ
theꢀDQMꢀwasꢀactiveꢀonꢀtheꢀclockꢀjustꢀpriorꢀtoꢀtheꢀWRITEꢀ
commandꢀthatꢀtruncatedꢀtheꢀREADꢀcommand.ꢀIfꢀnot,ꢀtheꢀ
secondꢀWRITEꢀwillꢀbeꢀanꢀinvalidꢀWRITE.ꢀForꢀexample,ꢀifꢀ
DQMꢀwasꢀLOWꢀduringꢀT4ꢀinꢀFigureꢀRW2,ꢀthenꢀtheꢀWRITEsꢀ
atꢀT5ꢀandꢀT7ꢀwouldꢀbeꢀvalid,ꢀwhileꢀtheꢀWRITEꢀatꢀT6ꢀwouldꢀ
be invalid.
TheꢀnewꢀREADꢀcommandꢀshouldꢀbeꢀissuedꢀxcyclesbefore
the clock edge at which the last desired data element is
valid, where x equalsꢀtheꢀCASꢀlatencyꢀminusꢀone.ꢀThisꢀisꢀ
shownꢀinꢀConsecutiveꢀREADꢀBurstsꢀforꢀCASꢀlatenciesꢀofꢀ
twoꢀandꢀthree;ꢀdataꢀelementꢀn +ꢀ3ꢀisꢀeitherꢀtheꢀlastꢀofꢀaꢀ
SDRAMꢀusesꢀaꢀpipelinedꢀarchitectureꢀandꢀthereforeꢀdoesꢀ
notꢀrequireꢀtheꢀ2n rule associated with a prefetch architec-
ture.ꢀAꢀREADꢀcommandꢀcanꢀbeꢀinitiatedꢀonꢀanyꢀclockꢀcycleꢀ
followingꢀaꢀpreviousꢀREADꢀcommand.ꢀFull-speedꢀrandomꢀ
read accesses can be performed to the same bank, as
shownꢀinꢀRandomꢀREADꢀAccesses,ꢀorꢀeachꢀsubsequentꢀ
READꢀmayꢀbeꢀperformedꢀtoꢀaꢀdifferentꢀbank.
TheꢀDQMꢀsignalꢀmustꢀbeꢀde-assertedꢀpriorꢀtoꢀtheꢀWRITEꢀ
commandꢀ(DQMꢀlatencyꢀisꢀzeroꢀclocksꢀforꢀinputꢀbuffers)ꢀ
to ensure that the written data is not masked.
DataꢀfromꢀanyꢀREADꢀburstꢀmayꢀbeꢀtruncatedꢀwithꢀaꢀsub-
sequentꢀWRITEꢀcommand,ꢀandꢀdataꢀfromꢀaꢀfixed-lengthꢀ
READꢀburstꢀmayꢀbeꢀimmediatelyꢀfollowedꢀbyꢀdataꢀfromꢀaꢀ
WRITEꢀcommandꢀ(subjectꢀtoꢀbusꢀturnaroundꢀlimitations).ꢀ
TheꢀWRITEꢀburstꢀmayꢀbeꢀinitiatedꢀonꢀtheꢀclockꢀedgeꢀim-
mediatelyꢀfollowingꢀtheꢀlastꢀ(orꢀlastꢀdesired)ꢀdataꢀelementꢀ
fromꢀtheꢀREADꢀburst,ꢀprovidedꢀthatꢀI/Oꢀcontentionꢀcanꢀbeꢀ
avoided. In a given system design, there may be a pos-
sibilityꢀthatꢀtheꢀdeviceꢀdrivingꢀtheꢀinputꢀdataꢀwillꢀgoꢀLow-Zꢀ
beforeꢀtheꢀSDRAMꢀDQsꢀgoꢀHigh-Z.ꢀInꢀthisꢀcase,ꢀatꢀleastꢀ
a single-cycle delay should occur between the last read
dataꢀandꢀtheꢀWRITEꢀcommand.
Aꢀfixed-lengthꢀREADꢀburstꢀmayꢀbeꢀfollowedꢀby,ꢀorꢀtruncatedꢀ
with, aPRECHARGE commandtothesamebank(provided
thatꢀautoꢀprechargeꢀwasꢀnotꢀactivated), and a full-page burst
mayꢀbeꢀtruncatedꢀwithꢀaꢀPRECHARGEꢀcommandꢀtoꢀtheꢀ
x cycles before the clock edge at which the last desired
data element is valid, where x equalsꢀtheꢀCASꢀlatencyꢀ
minusꢀone.ꢀThisꢀisꢀshownꢀinꢀtheꢀREADꢀtoꢀPRECHARGEꢀ
Integrated Silicon Solution, Inc. — www.issi.comꢀ
27
Rev. A
05/09/08
IS42S16160
diagramꢀforꢀeachꢀpossibleꢀCASꢀlatency;ꢀdataꢀelementꢀn +ꢀ
3ꢀisꢀeitherꢀtheꢀlastꢀofꢀaꢀburstꢀofꢀfourꢀorꢀtheꢀlastꢀdesiredꢀofꢀ
aꢀlongerꢀburst.ꢀFollowingꢀtheꢀPRECHARGEꢀcommand,ꢀaꢀ
subsequentꢀcommandꢀtoꢀtheꢀsameꢀbankꢀcannotꢀbeꢀissuedꢀ
until tr p ꢀisꢀmet.ꢀNoteꢀthatꢀpartꢀofꢀtheꢀrowꢀprechargeꢀtimeꢀisꢀ
hiddenꢀduringꢀtheꢀaccessꢀofꢀtheꢀlastꢀdataꢀelement(s).
Inꢀ theꢀ caseꢀ ofꢀ aꢀ fixed-lengthꢀ burstꢀ beingꢀ executedꢀ toꢀ
completion,ꢀ aꢀ PRECHARGEꢀ commandꢀ issuedꢀ atꢀ theꢀ
optimumꢀtimeꢀ(asꢀdescribedꢀabove)ꢀprovidesꢀtheꢀsameꢀ
operationꢀ thatꢀ wouldꢀ resultꢀ fromꢀ theꢀ sameꢀ fixed-lengthꢀ
burstꢀwithꢀautoꢀprecharge.ꢀTheꢀdisadvantageꢀofꢀtheꢀPRE-
CHARGEꢀcommandꢀisꢀthatꢀitꢀrequiresꢀthatꢀtheꢀcommandꢀ
and address buses be available at the appropriate time to
issueꢀtheꢀcommand;ꢀtheꢀadvantageꢀofꢀtheꢀPRECHARGEꢀ
commandꢀisꢀthatꢀitꢀcanꢀbeꢀusedꢀtoꢀtruncateꢀfixed-lengthꢀ
or full-page bursts.
Full-pageꢀREADꢀburstsꢀcanꢀbeꢀtruncatedꢀwithꢀtheꢀBURSTꢀ
TERMINATEꢀ command,ꢀ andꢀ fixed-lengthꢀ READꢀ burstsꢀ
mayꢀbeꢀtruncatedꢀwithꢀaꢀBURSTꢀTERMINATEꢀcommand,ꢀ
providedꢀthatꢀautoꢀprechargeꢀwasꢀnotꢀactivated.TheꢀBURSTꢀ
TERMINATEꢀcommandꢀshouldꢀbeꢀissuedꢀx cycles before
the clock edge at which the last desired data element is
valid, where x equalsꢀtheꢀCASꢀlatencyꢀminusꢀone.ꢀThisꢀisꢀ
shownꢀinꢀtheꢀREADꢀBurstꢀTerminationꢀdiagramꢀforꢀeachꢀ
possibleꢀCASꢀlatency;ꢀdataꢀelementꢀn+ꢀ3ꢀisꢀtheꢀlastꢀdesiredꢀ
data element of a longer burst.
28
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Rev. A
05/09/08
IS42S16160
RW1 - READ to WRITE
T0
T1
T2
T3
T4
T5
T6
CLK
DQM
COMMAND
ADDRESS
DQ
READ
NOP
NOP
NOP
NOP
NOP
WRITE
BANK,
COL n
BANK,
COL b
t
HZ
DOUT n+1
DOUT n+2
D
OUT
n
DIN b
CAS Latency - 2
t
DS
DON'T CARE
RW2 - READ to WRITE
T0
T1
T2
T3
T4
T5
CLK
DQM
COMMAND
ADDRESS
DQ
READ
NOP
NOP
NOP
NOP
WRITE
BANK,
COL n
BANK,
COL b
t
HZ
DOUT
n
DIN
b
CAS Latency - 3
t
DS
DON'T CARE
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29
Rev. A
05/09/08
IS42S16160
CONSECUTIVE READ BURSTS
T0
T1
T2
T3
T4
T5
T6
CLK
COMMAND
ADDRESS
DQ
READ
NOP
NOP
NOP
READ
NOP
NOP
BANK,
COL n
BANK,
COL b
D
OUT
n
DOUT n+1
DOUT n+2
DOUT n+3
DOUT
b
CAS Latency - 2
DON'T CARE
T0
T1
T2
T3
T4
T5
T6
T7
CLK
COMMAND
READ
NOP
NOP
NOP
READ
NOP
NOP
NOP
BANK,
COL n
BANK,
COL b
ADDRESS
DQ
DOUT
n
DOUT n+1
DOUT n+2
DOUT n+3
D
OUT
b
CAS Latency - 3
DON'T CARE
30
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Rev. A
05/09/08
IS42S16160
RANDOM READ ACCESSES
T0
T1
T2
T3
T4
T5
CLK
COMMAND
ADDRESS
DQ
READ
READ
READ
READ
NOP
NOP
BANK,
COL n
BANK,
COL b
BANK,
COL m
BANK,
COL x
DOUT
n
DOUT
b
DOUT
m
DOUT
x
CAS Latency - 2
DON'T CARE
T0
T1
T2
T3
T4
T5
T6
CLK
COMMAND
ADDRESS
DQ
READ
READ
READ
READ
NOP
NOP
NOP
BANK,
COL n
BANK,
COL b
BANK,
COL m
BANK,
COL x
DOUT
n
DOUT
b
DOUT
m
DOUT
x
CAS Latency - 3
DON'T CARE
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31
Rev. A
05/09/08
IS42S16160
READ BURST TERMINATION
T0
T1
T2
T3
T4
T5
T6
CLK
BURST
TERMINATE
COMMAND
ADDRESS
DQ
READ
NOP
NOP
NOP
NOP
NOP
x = 1 cycle
BANK a,
COL n
D
OUT
n
DOUT n+1
DOUT n+2
DOUT n+3
CAS Latency - 2
DON'T CARE
T0
T1
T2
T3
T4
T5
T6
T7
CLK
COMMAND
ADDRESS
DQ
BURST
TERMINATE
READ
NOP
NOP
NOP
NOP
x = 2 cycles
NOP
NOP
BANK,
COL n
DOUT
n
DOUT n+1
DOUT n+2
DOUT n+3
CAS Latency - 3
DON'T CARE
32
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Rev. A
05/09/08
IS42S16160
ALTERNATING BANK READ ACCESSES
T0
T1
T2
T3
T4
T5
T6
T7
T8
tCK
t
CL
tCH
CLK
CKE
t
CKS tCKH
t
CMS
tCMH
COMMAND
ACTIVE
NOP
READ
NOP
ACTIVE
NOP
READ
NOP
ACTIVE
t
CMS tCMH
DQM/
DQML, DQMH
t
t
t
AS
tAH
COLUMN m(2)
ROW
ROW
COLUMN b(2)
ROW
ROW
A0-A9, A11, A12
A10
ROW
AS
tAH
ENABLE AUTO PRECHARGE
ENABLE AUTO PRECHARGE
ROW
AS
tAH
BANK 0
BANK 3
BANK 3
BANK 0
BA0, BA1
BANK 0
tLZ
tOH
tOH
tOH
tOH
t
OH
DQ
D
OUT
m
D
OUT m+
1
D
OUT m+
2
DOUT m+
3
DOUT
b
t
AC
t
AC
t
AC
t
AC
tAC
tAC
t
t
t
t
RCD - BANK 0
RRD
CAS Latency - BANK 0
t
RP - BANK 0
tRCD - BANK 0
t
RCD - BANK 3
CAS Latency - BANK 3
RAS - BANK 0
RC - BANK 0
DON'T CARE
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
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Rev. A
05/09/08
IS42S16160
READ - FULL-PAGE BURST
T0
T1
T2
T3
T4
T5
T6
Tn+1
Tn+2
Tn+3
Tn+4
tCK
tCL
tCH
CLK
CKE
tCKS tCKH
tCMS
tCMH
COMMAND
ACTIVE
NOP
READ
CMS CMH
NOP
NOP
NOP
NOP
NOP
BURST TERM
NOP
NOP
t
t
DQM/
DQML, DQMH
t
t
t
AS
tAH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
AS
tAH
ROW
AS
tAH
BA0, BA1
BANK
BANK
tAC
tAC
t
AC
t
AC
t
AC
t
AC
tHZ
D
OUT
m
D
OUT m+
1
D
OUT m+
2
D
OUT m-
1
D
OUT
m
D
OUT m+
1
DQ
t
LZ
t
OH
t
OH
t
OH
tOH
tOH
tOH
t
RCD
CAS Latency
each row (x16) has
DON'T CARE
UNDEFINED
512 locations(3)
Full page Full-page burst not self-terminating.
completion
Notes:
1) CAS latency = 2, Burst Length = Full Page
2) x16: A9, A11, and A12 = "Don't Care"
34
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Rev. A
05/09/08
IS42S16160
READ - DQM OPERATION
T0
T1
T2
T3
T4
T5
T6
T7
T8
tCK
tCL
tCH
CLK
CKE
t
CKS tCKH
t
CMS tCMH
COMMAND
ACTIVE
NOP
READ
NOP
NOP
NOP
NOP
NOP
NOP
t
CMS
t
CMH
DQM/
DQML, DQMH
t
t
t
AS
tAH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
AS
t
AH
ENABLE AUTO PRECHARGE
ROW
DISABLE AUTO PRECHARGE
AS
t
AH
BA0, BA1
BANK
BANK
tOH
t
OH
tOH
t
AC
tAC
D
OUT
m
D
OUT m+
2
D
OUT m+
3
DQ
tLZ
tLZ
tHZ
tAC
t
HZ
DON'T CARE
UNDEFINED
t
RCD
CAS Latency
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
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35
Rev. A
05/09/08
IS42S16160
READ to PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
CLK
t
RP
PRECHARGE
COMMAND
ADDRESS
DQ
READ
NOP
NOP
NOP
NOP
ACTIVE
NOP
BANK a,
COL n
BANK
BANK a,
ROW
(a or all)
t
RQL
High-Z
D
OUT
n
DOUT n+1
DOUT n+2
DOUT n+3
CAS Latency - 2
DON'T CARE
T0
T1
T2
T3
T4
T5
T6
T7
CLK
COMMAND
ADDRESS
DQ
t
RP
PRECHARGE
READ
NOP
NOP
NOP
NOP
NOP
ACTIVE
BANK,
COL n
BANK,
COL b
BANK a,
ROW
t
RQL
High-Z
DOUT
n
DOUT n+1
D
OUT n+2
DOUT n+3
CAS Latency - 3
DON'T CARE
36
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
precharge.TheꢀdisadvantageꢀofꢀtheꢀPRECHARGEcommand
IS42S16160
WRITES
AnꢀexampleꢀisꢀshownꢀinꢀWRITEꢀtoꢀWRITEꢀdiagram.ꢀDataꢀ
n +ꢀ1ꢀisꢀeitherꢀtheꢀlastꢀofꢀaꢀburstꢀofꢀtwoꢀorꢀtheꢀlastꢀdesiredꢀ
ofꢀaꢀlongerꢀburst.ꢀTheꢀ256MbꢀSDRAMꢀusesꢀaꢀpipelinedꢀ
architectureꢀandꢀthereforeꢀdoesꢀnotꢀrequireꢀtheꢀ2n rule as-
sociatedꢀwithꢀaꢀprefetchꢀarchitecture.ꢀAꢀWRITEꢀcommandꢀ
can be initiated on any clock cycle following a previous
WRITEꢀcommand.ꢀFull-speedꢀrandomꢀwriteꢀaccessesꢀwithinꢀ
a page can be performed to the same bank, as shown in
RandomꢀWRITEꢀCycles,ꢀorꢀeachꢀsubsequentꢀWRITEꢀmayꢀ
be performed to a different bank.
WRITEꢀburstsꢀareꢀinitiatedꢀwithꢀaꢀWRITEꢀcommand,ꢀasꢀ
shownꢀinꢀWRITEꢀCommandꢀdiagram.
WRITE COMMAND
CLK
HIGH
CKE
DataꢀforꢀanyꢀWRITEꢀburstꢀmayꢀbeꢀtruncatedꢀwithꢀaꢀsubse-
quentꢀREADꢀcommand,ꢀandꢀdataꢀforꢀaꢀfixed-lengthꢀWRITEꢀ
burstꢀmayꢀbeꢀimmediatelyꢀfollowedꢀbyꢀaꢀsubsequentꢀREADꢀ
command.ꢀOnceꢀtheꢀREADꢀcomꢀmandꢀisꢀregistered,ꢀtheꢀ
dataꢀinputsꢀwillꢀbeꢀignored,ꢀandꢀWRITEsꢀwillꢀnotꢀbeꢀex-
ecuted.ꢀAnꢀexampleꢀisꢀshownꢀinꢀWRITEꢀtoꢀREAD.ꢀDataꢀn
+ꢀ1ꢀisꢀeitherꢀtheꢀlastꢀofꢀaꢀburstꢀofꢀtwoꢀorꢀtheꢀlastꢀdesiredꢀ
of a longer burst.
CS
RAS
CAS
WE
Dataꢀ forꢀ aꢀ fixed-lengthꢀ WRITEꢀ burstꢀ mayꢀ beꢀ followedꢀ
by,ꢀorꢀtruncatedꢀwith,ꢀaꢀPRECHARGEꢀcommandꢀtoꢀtheꢀ
same bank (provided that auto precharge was not acti-
vated),ꢀandꢀaꢀfull-pageꢀWRITEꢀburstꢀmayꢀbeꢀtruncatedꢀ
withꢀaꢀPRECHARGEꢀcommandꢀtoꢀtheꢀsameꢀbank.ꢀTheꢀ
PRECHARGEꢀcommandꢀshouldꢀbeꢀissuedꢀtd p l after the
clock edge at which the last desired input data element
isꢀregistered.ꢀTheꢀautoꢀprechargeꢀmodeꢀrequiresꢀaꢀtd p l of
atꢀleastꢀoneꢀclockꢀplusꢀtime,ꢀregardlessꢀofꢀfrequency.ꢀInꢀ
addition,ꢀwhenꢀtruncatingꢀaꢀWRITEꢀburst,ꢀtheꢀDQMꢀsignalꢀ
must be used to mask input data for the clock edge prior
to,ꢀandꢀtheꢀclockꢀedgeꢀcoincidentꢀwith,ꢀtheꢀPRECHARGEꢀ
command.ꢀAnꢀexampleꢀisꢀshownꢀinꢀtheꢀWRITEꢀtoꢀPRE-
CHARGEꢀdiagram.ꢀDataꢀn+1ꢀisꢀeitherꢀtheꢀlastꢀofꢀaꢀburstꢀ
ofꢀtwoꢀorꢀtheꢀlastꢀdesiredꢀofꢀaꢀlongerꢀburst.ꢀFollowingꢀtheꢀ
PRECHARGEꢀcommand,ꢀaꢀsubsequentꢀcommandꢀtoꢀtheꢀ
same bank cannot be issued until tr p is met.
COLUMN ADDRESS
AUTO PRECHARGE
A0-A9
A11, A12
A10
NO PRECHARGE
BANK ADDRESS
BA0, BA1
Note:ꢀA9ꢀisꢀ"Don'tꢀCare"ꢀforꢀx16.
Theꢀstartingꢀcolumnꢀandꢀbankꢀaddressesꢀareꢀprovidedꢀwithꢀ
theꢀWRITEꢀcommand,ꢀandꢀautoꢀprechargeꢀisꢀeitherꢀenabledꢀ
or disabled for that access. If auto precharge is enabled,
the row being accessed is precharged at the completion of
theꢀburst.ꢀForꢀtheꢀgenericꢀWRITEꢀcommandsꢀusedꢀinꢀtheꢀ
following illustrations, auto precharge is disabled.
Inꢀtheꢀcaseꢀofꢀaꢀfixed-lengthꢀburstꢀbeingꢀexecutedꢀtoꢀcomple-
tion,ꢀaꢀPRECHARGEꢀcommandꢀissuedꢀatꢀtheꢀoptimumꢀ
time (asꢀdescribedꢀabove) provides the same operation that
wouldꢀresultꢀfromꢀtheꢀsameꢀfixed-lengthꢀburstꢀwithꢀautoꢀ
DuringꢀWRITEꢀbursts,ꢀtheꢀfirstꢀvalidꢀdata-in element will be
registeredcoincidentwiththeWRITEꢀcommand.ꢀSubsequentꢀ
data elements will be registered on each successive posi-
tiveꢀclockꢀedge.ꢀUponꢀcompletionꢀofꢀaꢀfixed-lengthꢀburst,ꢀ
assuming no other commands have been initiated, the
DQsꢀwillꢀremainꢀHigh-Zꢀandꢀanyꢀadditionalꢀinputꢀdataꢀwillꢀ
beꢀignoredꢀ(seeꢀWRITEꢀBurst).ꢀAꢀfull-pageꢀburstꢀwillꢀcon-
tinue until terminated. (At the end of the page, it will wrap
toꢀcolumnꢀ0ꢀandꢀcontinue.)
isꢀthatꢀitꢀrequiresꢀthatꢀtheꢀcommandꢀandꢀaddressꢀbusesꢀbeꢀ
availableꢀatꢀtheꢀappropriateꢀtimeꢀtoꢀissueꢀtheꢀcommand;ꢀtheꢀ
advantageꢀofꢀtheꢀPRECHARGEꢀcommandꢀisꢀthatꢀitꢀcanꢀbeꢀ
usedꢀtoꢀtruncateꢀfixed-lengthꢀorꢀfull-pageꢀbursts.
Fixed-lengthꢀorꢀfull-pageꢀWRITEꢀburstsꢀcanꢀbeꢀtruncatedꢀ
withꢀtheꢀBURSTꢀTERMINATEꢀcommand.ꢀWhenꢀtruncat-
ingꢀaꢀWRITEꢀburst,ꢀtheꢀinputꢀdataꢀappliedꢀcoincidentꢀwithꢀ
theꢀBURSTꢀTERMINATEꢀcommandꢀwillꢀbeꢀignored.ꢀTheꢀ
lastꢀdataꢀwrittenꢀ(providedꢀthatꢀDQMꢀisꢀLOWꢀatꢀthatꢀtime)ꢀ
will be the input data applied one clock previous to the
BURSTꢀTERMINATEꢀcommand.ꢀThisꢀisꢀshownꢀinꢀWRITEꢀ
BurstꢀTermination,ꢀwhereꢀdataꢀn is the last desired data
element of a longer burst.
DataꢀforꢀanyꢀWRITEꢀburstꢀmayꢀbeꢀtruncatedꢀwithꢀaꢀsubse-
quentꢀWRITEꢀcommand,ꢀandꢀdataꢀforꢀaꢀfixed-lengthꢀWRITEꢀ
burstꢀmayꢀbeꢀimmediatelyꢀfollowedꢀbyꢀdataꢀforꢀaꢀWRITEꢀ
command.ꢀTheꢀnewꢀWRITEꢀcommandꢀcanꢀbeꢀissuedꢀonꢀ
anyꢀclockꢀfollowingꢀtheꢀpreviousꢀWRITEꢀcommand,ꢀandꢀtheꢀ
data provided coincident with the new command applies to
the new command.
Integrated Silicon Solution, Inc. — www.issi.comꢀ
37
Rev. A
05/09/08
IS42S16160
WRITE BURST
T0
T1
T2
T3
CLK
COMMAND
ADDRESS
DQ
WRITE
NOP
NOP
NOP
BANK,
COL n
DIN
n
DIN n+1
DON'T CARE
WRITE TO WRITE
T0
T1
T2
CLK
COMMAND
ADDRESS
DQ
WRITE
NOP
WRITE
BANK,
COL n
BANK,
COL b
DIN
n
DIN n+1
DIN b
DON'T CARE
RANDOM WRITE CYCLES
T0
T1
T2
T3
CLK
COMMAND
ADDRESS
DQ
WRITE
WRITE
WRITE
WRITE
BANK,
COL n
BANK,
COL b
BANK,
COL m
BANK,
COL x
DIN
n
DIN
b
DIN
m
DIN x
38
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
WRITE to READ
T0
T1
T2
T3
T4
T5
CLK
COMMAND
ADDRESS
DQ
WRITE
NOP
READ
NOP
NOP
NOP
BANK,
COL n
BANK,
COL b
DIN
n
DIN n+1
D
OUT
b
DOUT b+1
CAS Latency - 2
DON'T CARE
WP1 - WRITE to PRECHARGE
T0
T1
T2
T3
T4
T5
T6
CLK
DQM
tRP
PRECHARGE
COMMAND
ADDRESS
DQ
WRITE
NOP
NOP
NOP
ACTIVE
NOP
BANK a,
COL n
BANK
BANK a,
ROW
(a or all)
tDPL
DIN
n
D
IN n+1
DIN n+2
DON'T CARE
Integrated Silicon Solution, Inc. — www.issi.comꢀ
39
Rev. A
05/09/08
IS42S16160
WP2 - WRITE to PRECHARGE
T0
T1
T2
T3
T4
T5
T6
CLK
DQM
tRP
COMMAND
ADDRESS
DQ
PRECHARGE
WRITE
NOP
NOP
NOP
NOP
ACTIVE
BANK a,
COL n
BANK
BANK a,
ROW
(a or all)
tDPL
DIN
n
DIN n+1
DON'T CARE
WRITE Burst Termination
T0
T1
T2
CLK
BURST
TERMINATE
NEXT
COMMAND
ADDRESS
DQ
WRITE
COMMAND
BANK,
COL n
(ADDRESS)
DIN
n
(DATA)
DON'T CARE
40
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
WRITE - FULL PAGE BURST
T0
T1
T2
T3
T4
T5
Tn+1
Tn+2
t
CK
t
CL
t
CH
CLK
CKE
t
CKS CKH
t
t
CMS
tCMH
COMMAND
ACTIVE
NOP
WRITE
NOP
NOP
NOP
NOP
BURST TERM
NOP
t
CMS
t
CMH
DQM/DQML
DQMH
t
t
t
AS
t
AH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
AS
tAH
ROW
AS
tAH
BA0, BA1
BANK
BANK
tDS
t
DH
tDS
t
DH
t
DS
t
DH
t
DS
t
DH
tDS
t
DH
t
DS
t
DH
DIN
m
D
IN m+
1
D
IN m+
2
D
IN m+
3
DIN m-1
DQ
t
RCD
Full page completed
DON'T CARE
Notes:
1) Burst Length = Full Page
2) x16: A9, A11, and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.comꢀ
41
Rev. A
05/09/08
IS42S16160
WRITE - DQM OPERATION
T0
T1
T2
T3
T4
T5
T6
T7
t
CK
tCL
tCH
CLK
CKE
t
CKS CKH
t
tCMS
tCMH
COMMAND
ACTIVE
NOP
WRITE
NOP
NOP
NOP
NOP
NOP
t
CMS
t
CMH
DQM/DQML
DQMH
t
t
t
AS
t
AH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
AS
t
AH
ENABLE AUTO PRECHARGE
ROW
DISABLE AUTO PRECHARGE
AS
t
AH
BA0, BA1
BANK
BANK
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
DIN
m
DIN m+
2
D
IN m+3
DQ
tRCD
DON'T CARE
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
42
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
ALTERNATING BANK WRITE ACCESSES
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
t
CK
tCL
tCH
CLK
CKE
t
CKS tCKH
t
CMS
tCMH
COMMAND
ACTIVE
NOP
WRITE
NOP
ACTIVE
NOP
WRITE
NOP
NOP
ACTIVE
t
CMS tCMH
DQM/DQML
DQMH
t
t
t
AS
tAH
COLUMN m(2)
ROW
ROW
COLUMN b(2)
ROW
ROW
A0-A9, A11, A12
A10
ROW
AS
tAH
ENABLE AUTO PRECHARGE
ENABLE AUTO PRECHARGE
ROW
AS
tAH
BANK 0
BANK 1
BANK 1
BANK 0
BA0, BA1
BANK 0
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
tDS
t
DH
t
DS
t
DH
tDS
t
DH
t
DS
tDH
t
DS
tDH
DQ
DIN
m
D
IN m+
1
D
IN m+
2
D
IN m+
3
DIN
b
D
IN b+
1
D
IN b+
2
DIN b+3
t
t
t
t
RCD - BANK 0
RRD
t
DPL - BANK 0
tRP - BANK 0
t
RCD - BANK 0
t
RCD - BANK 1
tDPL - BANK 1
RAS - BANK 0
RC - BANK 0
DON'T CARE
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.comꢀ
43
Rev. A
05/09/08
IS42S16160
CLOCK SUSPEND
ofꢀaꢀsuspendedꢀinternalꢀclockꢀedgeꢀisꢀignored;ꢀanyꢀdataꢀ
presentꢀonꢀtheꢀDQꢀpinsꢀremainsꢀdriven;ꢀandꢀburstꢀcountersꢀ
are not incremented, as long as the clock is suspended.
(Seeꢀfollowingꢀexamples.)
Clock suspend mode occurs when a column access/burst
isꢀinꢀprogressꢀandꢀCKEꢀisꢀregisteredꢀLOW.ꢀInꢀtheꢀclockꢀ
suspendꢀmode,ꢀtheꢀinternalꢀclockꢀisꢀdeactivated,ꢀ“freezing”ꢀ
the synchronous logic.
ClockꢀsuspendꢀmodeꢀisꢀexitedꢀbyꢀregisteringꢀCKEꢀHIGH;ꢀ
the internal clock and related operation will resume on the
subsequentꢀpositiveꢀclockꢀedge.
ForꢀeachꢀpositiveꢀclockꢀedgeꢀonꢀwhichꢀCKEꢀisꢀsampledꢀ
LOW,ꢀtheꢀnextꢀinternalꢀpositiveꢀclockꢀedgeꢀisꢀsuspended.ꢀ
Any command or data present on the input pins at the time
Clock Suspend During WRITE Burst
T0
T1
T2
T3
T4
T5
CLK
CKE
INTERNAL
CLOCK
COMMAND
ADDRESS
DQ
NOP
WRITE
NOP
NOP
BANK a,
COL n
D
IN
n
DIN n+1
DIN n+2
DON'T CARE
Clock Suspend During READ Burst
T0
T1
T2
T3
T4
T5
T6
CLK
CKE
INTERNAL
CLOCK
COMMAND
ADDRESS
DQ
READ
NOP
NOP
NOP
NOP
NOP
BANK a,
COL n
DOUT
n
D
OUT n+1
DOUT n+2
DOUT n+3
DON'T CARE
44
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
CLOCK SUSPEND MODE
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
t
CK
t
CL
t
CH
CLK
CKE
tCKS
t
CKH
t
CKS CKH
t
t
CMS
t
CMH
COMMAND
READ
NOP
NOP
NOP
NOP
NOP
WRITE
NOP
t
CMS
t
CMH
DQM/DQML
DQMH
tAS
tAH
COLUMN n(2)
A0-A9, A11, A12
A10
COLUMN m(2)
tAS
tAH
tAS
tAH
BA0, BA1
BANK
BANK
t
DS
t
DH
t
AC
t
AC
t
HZ
DQ
DOUT
m
DOUT m+1
DIN
e
DIN e+1
t
LZ
tOH
DON'T CARE
UNDEFINED
Notes:
1) CAS latency = 3, Burst Length = 2, Auto Precharge is disabled.
2) X16: A9, A11, and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.comꢀ
45
Rev. A
05/09/08
allꢀbanks.Theꢀbank(s)ꢀwillꢀbeꢀavailableꢀforꢀaꢀsubsequentꢀrowꢀ
IS42S16160
PRECHARGE
TheꢀPRECHARGEꢀcommandꢀ(seeꢀfigure)ꢀisꢀusedꢀtoꢀdeac-
PRECHARGE Command
tivate the open row in a particular bank or the open row in
CLK
access some specified time (tr p )ꢀafterꢀtheꢀPRECHARGEꢀ
command is issued.Input A10 determines whether one or
all banks are to be precharged, and in the case where only
oneꢀbankꢀisꢀtoꢀbeꢀprecharged,ꢀinputsꢀBA0,ꢀBA1ꢀselectꢀtheꢀ
bank.ꢀWhenꢀallꢀbanksꢀareꢀtoꢀbeꢀprecharged,ꢀinputsꢀBA0,ꢀ
BA1ꢀareꢀtreatedꢀasꢀ“Don’tꢀCare.”ꢀOnceꢀaꢀbankꢀhasꢀbeenꢀ
precharged, it is in the idle state and must be activated
priorꢀtoꢀanyꢀREADꢀorꢀWRITEꢀcommandsꢀbeingꢀissuedꢀtoꢀ
that bank.
HIGH
CKE
CS
RAS
CAS
WE
POWER-DOWN
Power-downꢀoccursꢀifꢀCKEꢀisꢀregisteredꢀLOWꢀcoincidentꢀ
withꢀaꢀNOPꢀorꢀCOMMANDꢀINHIBITꢀwhenꢀnoꢀaccessesꢀ
are in progress. If power-down occurs when all banks are
idle,ꢀthisꢀmodeꢀisꢀreferredꢀtoꢀasꢀprechargeꢀpower-down;ꢀ
if power-down occurs when there is a row active in either
bank, this mode is referred to as active power-down.
Entering power-down deactivates the input and output
buffers,ꢀexcludingꢀCKE,ꢀforꢀmaximumꢀpowerꢀsavingsꢀwhileꢀ
inꢀstandby.ꢀTheꢀdeviceꢀmayꢀnotꢀremainꢀinꢀtheꢀpower-downꢀ
stateꢀlongerꢀthanꢀtheꢀrefreshꢀperiodꢀ(64ms)ꢀsinceꢀnoꢀrefreshꢀ
operations are performed in this mode.
A0-A9, A11, A12
ALL BANKS
A10
BANK SELECT
BANK ADDRESS
BA0, BA1
Theꢀpower-downꢀstateꢀisꢀexitedꢀbyꢀregisteringꢀaꢀNOPꢀorꢀ
COMMANDꢀINHIBITꢀandꢀCKEꢀHIGHꢀatꢀtheꢀdesiredꢀclockꢀ
edge (meeting tc k s ).ꢀSeeꢀfigureꢀbelow.
POWER-DOWN
CLK
t
CKS
≥ tCKS
CKE
COMMAND
NOP
NOP
ACTIVE
tRCD
tRAS
t
RC
All banks idle
Input buffers gated off
Enter power-down mode
Exit power-down mode
less than 64ms
DON'T CARE
46
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
POWER-DOWN MODE CYCLE
T0
T1
T2
Tn+1
Tn+2
t
CK
t
CL
t
CH
CLK
t
CKS
t
CKH
t
CKS
tCKS
CKE
t
CMS
tCMH
COMMAND
PRECHARGE
NOP
NOP
NOP
ACTIVE
DQM/DQML
DQMH
A0-A9, A11, A12
A10
ROW
ROW
ALL BANKS
SINGLE BANK
t
AS
tAH
BA0, BA1
DQ
BANK
BANK
High-Z
Two clock cycles
Input buffers gated
All banks idle
off while in
power-down mode
Precharge all
active banks
All banks idle, enter
power-down mode
DON'T CARE
Exit power-down mode
Integrated Silicon Solution, Inc. — www.issi.comꢀ
47
Rev. A
05/09/08
IS42S16160
BURST READ/SINGLE WRITE
SDRAMsꢀsupportꢀCONCURRENTꢀAUTOꢀPRECHARGE.ꢀ
FourꢀcasesꢀwhereꢀCONCURRENTꢀAUTOꢀPRECHARGEꢀ
occurs are defined below.
Theꢀburstꢀread/singleꢀwriteꢀmodeꢀisꢀenteredꢀbyꢀprogrammingꢀ
the write burst mode bit (M9) in the mode register to a logic
1. In this mode, all WRITE commands result in the access
ofꢀaꢀsingleꢀcolumnꢀlocationꢀ(burstꢀofꢀone),ꢀregardlessꢀofꢀ
theꢀprogrammedꢀburstꢀlength.ꢀREADꢀcommandsꢀaccess
columns according to the programmed burst length and
sequence,ꢀjustꢀasꢀinꢀtheꢀnormalꢀmodeꢀofꢀoperationꢀ(M9ꢀ
=ꢀ0).
READ with Auto Precharge
1.ꢀInterruptedꢀbyꢀaꢀREADꢀ(withꢀorꢀwithoutꢀautoꢀprecharge):ꢀ
AꢀREADꢀtoꢀbankꢀmꢀwillꢀinterruptꢀaꢀREADꢀonꢀbankꢀn,ꢀ
CASꢀlatencyꢀlater.ꢀTheꢀPRECHARGEꢀtoꢀbankꢀnꢀwillꢀ
beginꢀwhenꢀtheꢀREADꢀtoꢀbankꢀmꢀisꢀregistered.
CONCURRENT AUTO PRECHARGE
2.ꢀInterruptedꢀbyꢀaꢀWRITEꢀ(withꢀorꢀwithoutꢀautoꢀprecharge):ꢀ
AꢀWRITEꢀtoꢀbankꢀmꢀwillꢀinterruptꢀaꢀREADꢀonꢀbankꢀnꢀ
whenꢀregistered.ꢀDQMꢀshouldꢀbeꢀusedꢀthreeꢀclocksꢀpriorꢀ
toꢀtheꢀWRITEꢀcommandꢀtoꢀpreventꢀbusꢀcontention.ꢀTheꢀ
PRECHARGEꢀtoꢀbankꢀnꢀwillꢀbeginꢀwhenꢀtheꢀWRITEꢀtoꢀ
bank m is registered.
Anꢀaccessꢀcommandꢀ(READꢀorꢀWRITE)ꢀtoꢀanotherꢀbankꢀ
while an access command with auto precharge enabled is
executingꢀisꢀnotꢀallowedꢀbyꢀSDRAMs,ꢀunlessꢀtheꢀSDRAMꢀ
supportsꢀ CONCURRENTꢀ AUTOꢀ PRECHARGE.ꢀ ISSI
READ With Auto Precharge interrupted by a READ
T0
T1
T2
T3
T4
T5
T6
T7
CLK
READ - AP
BANK n
READ - AP
BANK m
NOP
NOP
NOP
NOP
NOP
NOP
Idle
COMMAND
BANK n
Page Active
READ with Burst of 4
Page Active
Interrupt Burst, Precharge
t
RP - BANK n
tRP - BANK m
Internal States
BANK m
READ with Burst of 4
Precharge
BANK n,
COL a
BANK n,
COL b
ADDRESS
DQ
D
OUT
a
DOUT a+1
DOUT
b
DOUT b+1
CAS Latency - 3 (BANK n)
DON'T CARE
CAS Latency - 3 (BANK m)
READ With Auto Precharge interrupted by a WRITE
T0
T1
T2
T3
T4
T5
T6
T7
CLK
READ - AP
BANK n
WRITE - AP
BANK m
COMMAND
NOP
NOP
NOP
NOP
NOP
NOP
BANK n
READ with Burst of 4
Page Active
Interrupt Burst, Precharge
Idle
Page Active
tRP - BANK n
tDPL - BANK m
Internal States
BANK m
WRITE with Burst of 4
Write-Back
BANK n,
COL a
BANK m,
COL b
ADDRESS
DQM
DQ
D
OUT
a
DIN
b
DIN b+1
DIN b+2
DIN b+3
CAS Latency - 3 (BANK n)
DON'T CARE
48
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
WRITE with Auto Precharge
4.ꢀInterruptedꢀbyꢀaꢀWRITEꢀ(withꢀorꢀwithoutꢀautoꢀprecharge):ꢀ
WRITE tobankmwillinterruptaWRITE onbanknwhen
3.ꢀInterruptedꢀbyꢀaꢀREADꢀ(withꢀorꢀwithoutꢀautoꢀprecharge):ꢀ
AꢀREADꢀtoꢀbankꢀmꢀwillꢀinterruptꢀaꢀWRITEꢀonꢀbankꢀnꢀwhenꢀ
registered, with the data-out appearing (CASꢀ latency)ꢀ
later.ꢀTheꢀPRECHARGEꢀtoꢀbankꢀnꢀwillꢀbeginꢀafterꢀtd p l
is met, where td p l ꢀbeginsꢀwhenꢀtheꢀREADꢀtoꢀbankꢀmꢀisꢀ
registered.ꢀTheꢀlastꢀvalidꢀWRITE to bank n will be data-in
registeredꢀoneꢀclockꢀpriorꢀtoꢀtheꢀREADꢀtoꢀbankꢀm.
A
registered.ꢀTheꢀPRECHARGEꢀtoꢀbankꢀnꢀwillꢀbeginꢀafterꢀ
td p l is met, where td p l ꢀbeginsꢀwhenꢀtheꢀWRITEꢀtoꢀbankꢀ
mꢀisꢀregistered.ꢀTheꢀlastꢀvalidꢀdataꢀWRITEꢀtoꢀbankꢀnꢀ
willꢀbeꢀdataꢀregisteredꢀoneꢀclockꢀpriorꢀtoꢀaꢀWRITEꢀtoꢀ
bank m.
WRITE With Auto Precharge interrupted by a READ
T0
T1
T2
T3
T4
T5
T6
T7
CLK
COMMAND
BANK n
WRITE - AP
BANK n
READ - AP
BANK m
NOP
NOP
NOP
NOP
NOP
NOP
Page Active
WRITE with Burst of 4 Interrupt Burst, Write-Back
DPL - BANK n
Precharge
t
tRP - BANK n
Internal States
tRP - BANK m
BANK m
Page Active
READ with Burst of 4
Precharge
BANK n,
COL a
BANK m,
COL b
ADDRESS
DQ
DIN
a
DIN a+1
DOUT
b
DOUT b+1
CAS Latency - 3 (BANK m)
DON'T CARE
WRITE With Auto Precharge interrupted by a WRITE
T0
T1
T2
T3
T4
T5
T6
T7
CLK
COMMAND
BANK n
WRITE - AP
BANK n
WRITE - AP
BANK m
NOP
NOP
NOP
NOP
NOP
NOP
Page Active
WRITE with Burst of 4
Interrupt Burst, Write-Back
DPL - BANK n
Precharge
t
t
RP - BANK n
Internal States
tDPL - BANK m
BANK m
Page Active
WRITE with Burst of 4
Write-Back
BANK n,
COL a
BANK m,
COL b
ADDRESS
DQ
DIN
a
DIN a+1
DIN a+2
D
IN
b
DIN b+1
DIN b+2
DIN b+3
DON'T CARE
Integrated Silicon Solution, Inc. — www.issi.comꢀ
49
Rev. A
05/09/08
IS42S16160
SINGLE READ WITH AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
t
CK
t
CL
tCH
CLK
CKE
t
CKS tCKH
t
CMS
tCMH
COMMAND
ACTIVE
NOP
NOP
NOP
READ
NOP
NOP
ACTIVE
NOP
t
CMS
t
CMH
DQM/DQML
DQMH
t
t
t
AS
tAH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
ROW
ROW
BANK
AS
tAH
ENABLE AUTO PRECHARGE
ROW
AS
tAH
BA0, BA1
BANK
BANK
tOH
tAC
DOUT m
DQ
t
HZ
DON'T CARE
UNDEFINED
t
t
t
RCD
RAS
RC
CAS Latency
t
RP
Notes:
1) CAS latency = 2, Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
50
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
SINGLE READ WITHOUT AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
tCK
tCL
t
CH
CLK
CKE
t
CKS CKH
t
tCMS
tCMH
COMMAND
ACTIVE
NOP
READ
NOP
NOP
PRECHARGE
NOP
ACTIVE
NOP
t
CMS
t
CMH
DQM/DQML
DQMH
t
t
t
AS
t
AH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
ROW
ROW
BANK
AS
tAH
ALL BANKS
ROW
SINGLE BANK
BANK
AS
tAH
DISABLE AUTO PRECHARGE
BA0, BA1
DQ
BANK
BANK
t
OH
t
AC
D
OUT
m
t
LZ
t
HZ
DON'T CARE
UNDEFINED
tRCD
tRAS
t
RC
CAS Latency
t
RP
Notes:
1) CAS latency = 2, Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.com
51
Rev. A
05/09/08
IS42S16160
READ WITH AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
t
CK
tCL
tCH
CLK
CKE
tCKS tCKH
t
CMS tCMH
COMMAND
ACTIVE
NOP
READ
NOP
NOP
NOP
NOP
NOP
ACTIVE
t
CMS
t
CMH
DQM/DQML
DQMH
t
t
t
AS
tAH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
ROW
ROW
BANK
AS
tAH
ENABLE AUTO PRECHARGE
ROW
AS
tAH
BA0, BA1
DQ
BANK
BANK
t
AC
t
AC
t
AC
t
AC
tHZ
D
OUT
m
D
OUT m+1
D
OUT m+2
D
OUT m+3
t
LZ
tOH
t
OH
tOH
tOH
t
t
t
RCD
RAS
RC
CAS Latency
DON'T CARE
t
RP
UNDEFINED
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
52
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
READ WITHOUT AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
t
CK
t
CL
tCH
CLK
CKE
t
CKS tCKH
t
CMS tCMH
COMMAND
ACTIVE
NOP
READ
NOP
NOP
NOP
PRECHARGE
ALL BANKS
NOP
ACTIVE
t
CMS
t
CMH
DQM/DQML
DQMH
t
t
t
AS
tAH
COLUMN m(2)
A0-A9, A11, A12
A10
ROW
ROW
ROW
BANK
AS
tAH
ROW
AS
tAH
DISABLE AUTO PRECHARGE
SINGLE BANK
BANK
BA0, BA1
DQ
BANK
BANK
t
AC
t
AC
t
AC
t
AC
tHZ
D
OUT
m
DOUT m+1
DOUT m+2
DOUT m+3
t
LZ
tOH
tOH
tOH
tOH
tRCD
tRAS
t
RC
CAS Latency
DON'T CARE
t
RP
UNDEFINED
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.comꢀ
53
Rev. A
05/09/08
IS42S16160
SINGLE WRITE WITH AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
t
CK
t
CL
tCH
CLK
CKE
t
CKS tCKH
t
CMS tCMH
ACTIVE
NOP
NOP
NOP
WRITE
NOP
NOP
NOP
ACTIVE
NOP
COMMAND
tCMS tCMH
DQM/DQML, DQMH
t
t
t
AS
tAH
A0-A9, A11, A12
A10
COLUMN m(2)
ROW
ROW
BANK
ROW
AS
t
AH
ENABLE AUTO PRECHARGE
ROW
AS
t
AH
BA0, BA1
BANK
BANK
t
DS
t
DH
DQ
DIN
m
t
t
t
RCD
RAS
RC
t
DPL
tRP
DON'T CARE
Notes:
1) Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
54
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
SINGLE WRITE - WITHOUT AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
t
CK
t
CL
tCH
CLK
CKE
tCKS tCKH
t
CMS tCMH
COMMAND
ACTIVE
NOP
WRITE
NOP
NOP
PRECHARGE
NOP
ACTIVE
NOP
tCMS tCMH
DQM/DQML
DQMH
t
t
t
AS
tAH
COLUMN m(2)
ROW
A0-A9, A11, A12
A10
ROW
AS
tAH
DISABLE AUTO PRECHARGE
ALL BANKS
ROW
ROW
SINGLE BANK
AS
tAH
BA0, BA1
BANK
BANK
BANK
BANK
tDS
t
DH
DQ
DIN
m
t
t
t
RCD
RAS
RC
t
DPL(3)
tRP
DON'T CARE
Notes:
1) Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
3) tr a s must not be violated.
Integrated Silicon Solution, Inc. — www.issi.com
55
Rev. A
05/09/08
IS42S16160
WRITE - WITH AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
tCK
tCL
tCH
CLK
CKE
tCKS tCKH
tCMS
tCMH
COMMAND
ACTIVE
NOP
WRITE
NOP
NOP
NOP
NOP
NOP
NOP
ACTIVE
t
CMS tCMH
DQM/DQML
DQMH
t
t
t
AS
tAH
COLUMN m(2)
ROW
ROW
BANK
A0-A9, A11, A12
A10
ROW
AS
tAH
ENABLE AUTO PRECHARGE
ROW
AS
tAH
BA0, BA1
BANK
BANK
tDS
t
DH
tDS
t
DH
t
DS
tDH
t
DS
tDH
DQ
DIN
m
D
IN m+
1
D
IN m+
2
D
IN m+3
tRCD
tRAS
t
RC
t
DPL
tRP
DON'T CARE
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
56
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
IS42S16160
WRITE - WITHOUT AUTO PRECHARGE
T0
T1
T2
T3
T4
T5
T6
T7
T8
tCK
tCL
t
CH
CLK
CKE
t
CKS CKH
t
t
CMS
t
CMH
COMMAND
ACTIVE
NOP
WRITE
NOP
NOP
NOP
PRECHARGE
NOP
ACTIVE
t
CMS
t
CMH
DQM/DQML
DQMH
t
t
t
AS
t
AH
COLUMN m(2)
ROW
ROW
BANK
A0-A9, A11, A12
A10
ROW
AS
tAH
ALL BANKS
ROW
AS
tAH
SINGLE BANK
BANK
DISABLE AUTO PRECHARGE
BANK
BA0, BA1
BANK
tDS
t
DH
t
DS
t
DH
tDS
t
DH
tDS
t
DH
DQ
D
IN
m
D
IN m+
1
D
IN m+
2
D
IN m+3
tRCD
tRAS
t
RC
t
DPL(3)
tRP
DON'T CARE
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
3) tr a s must not be violated.
Integrated Silicon Solution, Inc. — www.issi.comꢀ
57
Rev. A
05/09/08
IS42S16160
ORDERING INFORMATION - VD D = 3.3V
Commercial Range: 0°C to +70°C
Frequency
ꢀ166ꢀMHzꢀ
ꢀ143ꢀMHzꢀ
ꢀ166ꢀMHzꢀ
ꢀ143ꢀMHzꢀ
Speed (ns) Order Part No.
Package
6ꢀ
7ꢀ
6ꢀ
7ꢀ
IS42S16160-6TLꢀ
IS42S16160-7TLꢀ
IS42S16160-6BLꢀ
IS42S16160-7BLꢀ
54-PinꢀTSOPII,ꢀLead-freeꢀ
54-PinꢀTSOPII,ꢀLead-freeꢀ
54-BallꢀBGA,ꢀLead-freeꢀ
54-BallꢀBGA,ꢀLead-freeꢀ
Industrial Range: -40°C to +85°C
Frequency
ꢀ166ꢀMHzꢀ
ꢀꢀ143ꢀMHzꢀ
ꢀ166ꢀMHzꢀ
ꢀ143ꢀMHzꢀ
Speed (ns) Order Part No.
Package
6ꢀ
7ꢀ
6ꢀ
7ꢀ
IS42S16160-6TLIꢀ
IS42S16160-7TLIꢀ
IS42S16160-6BLIꢀ
IS42S16160-7BLIꢀ
54-PinꢀTSOPII,ꢀLead-free
54-PinꢀTSOPII,ꢀLead-freeꢀ
54-BallꢀBGA,ꢀLead-freeꢀ
54-BallꢀBGA,ꢀLead-freeꢀ
PleaseꢀcontactꢀProductꢀManagerꢀforꢀLeadedꢀpartsꢀsupport.
58
Integrated Silicon Solution, Inc. — www.issi.com
Rev. A
05/09/08
PACKAGING INFORMATION
Mini Ball Grid Array
Package Code: B (54-Ball)
ø 0.45 +/−0.05 (54X)
4
1
2
3
4
5
6
7
8
9
9
8
7
6
5
3 2 1
A
B
C
D
E
F
A
B
C
D
E
F
e
D
D1
G
H
J
G
H
J
e
E1
E
A1
A
SEATING PLANE
Notes:
1. Controlling dimensions are in millimeters.
2. 0.8 mm Ball Pitch
mBGA - 8mm x 13mm
MILLIMETERS
INCHES
Min. Typ. Max.
Sym. Min. Typ. Max.
N0.
Leads
54
A
—
—
1.00
—
—
0.039
A1
D
0.30
0.35 0.40
0.012 0.014 0.016
0.508 0.512 0.516
12.90 13.00 13.10
D1
E
—
7.90
—
6.40
—
—
0.252
—
8.00 8.10
0.311 0.315 0.319
E1
e
6.40
0.80
—
—
—
—
0.252
0.031
—
—
—
Copyright © 2006 Integrated Silicon Solution, Inc. All rights reserved. ISSI reserves the right to make changes to this specification and its products at any time
without notice. ISSI assumes no liability arising out of the application or use of any information, products or services described herein. Customers are advised to
obtain the latest version of this device specification before relying on any published information and before placing orders for products.
Integrated Silicon Solution, Inc. — www.issi.com — 1-800-379-4774
Rev. B
03/28/06
PACKAGING INFORMATION
Plastic TSOP 54–Pin, 86-Pin
Package Code: T (Type II)
N
N/2+1
Notes:
1. Controlling dimension: millimieters,
unless otherwise specified.
2. BSC = Basic lead spacing between
centers.
3. Dimensions D and E1 do not include
mold flash protrusions and should be
measured from the bottom of the
E
E1
package
.
4. Formed leads shall be planar with
respect to one another within 0.004
inches at the seating plane.
1
N/2
D
SEATING PLANE
A
ZD
L
α
e
b
C
A1
Plastic TSOP (T - Type II)
Plastic TSOP (T - Type II)
Millimeters
Inches
Millimeters
Inches
Symbol
Min
Max
Min
Max
Symbol Min
Max
Min
Max
Ref. Std.
Ref. Std.
No. Leads (N)
54
No. Leads (N)
86
A
A1
A2
b
C
D
E1
E
e
—
1.20
—
0.047
A
A1
A2
b
C
D
E1
E
e
—
1.20
0.05 0.15
0.95 1.05
0.17 0.27
0.12 0.21
22.02 22.42
10.03 10.29
11.56 11.96
0.50 BSC
—
0.047
0.05 0.15
—
0.002 0.006
—
0.002 0.006
0.037 0.041
0.007 0.011
0.005 0.008
0.867 0.8827
0.395 0.405
0.455 0.471
0.020 BSC
—
—
0.30 0.45
0.12 0.21
22.02 22.42
10.03 10.29
11.56 11.96
0.80 BSC
0.012 0.018
0.005 0.0083
0.867 0.8827
0.395 0.405
0.455 0.471
0.031 BSC
L
0.40 0.60
0.016 0.024
L
0.40 0.60
0.80 REF
0.61 REF
0.016 0.024
0.031 REF
0.024 BSC
L1
ZD
α
—
—
—
—
L1
ZD
α
0.71 REF
0° 8°
0°
8°
0°
8°
0°
8°
Integrated Silicon Solution, Inc.
1
Rev. D
03/13/07
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IS42S16160A1-7TL
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