IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
Integrated Silicon Solution, Inc. — www.issi.com 1
Rev. F
12/9/2013
Copyright © 2013 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. does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can
reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such
applications unless Integrated Silicon Solution, Inc. receives written assurance to its satisfaction, that:
a.) the risk of injury or damage has been minimized;
b.) the user assume all such risks; and
c.) potential liability of Integrated Silicon Solution, Inc is adequately protected under the circumstances
FEATURES
• Clockfrequency:200,166,143MHz
• Fullysynchronous;allsignalsreferencedtoa
positive clock edge
• Internalbankforhidingrowaccess/precharge
• SinglePowersupply:3.3V+0.3V
• LVTTLinterface
• Programmableburstlength
–(1,2,4,8,fullpage)
• Programmableburstsequence:
Sequential/Interleave
• AutoRefresh(CBR)
• SelfRefresh
• 8Krefreshcyclesevery32ms(A2grade)or
64ms(commercial,industrial,A1grade)
• Randomcolumnaddresseveryclockcycle
• ProgrammableCAS latency (2, 3 clocks)
• Burstread/writeandburstread/singlewrite
operations capability
• Burstterminationbyburststopandprecharge
command
OPTIONS
• Package:
54-pinTSOP-II
54-ballBGA
• OperatingTemperatureRange:
Commercial (0oC to +70oC)
Industrial(-40oCto+85oC)
AutomotiveGradeA1(-40oCto+85oC)
AutomotiveGradeA2(-40oC to +105oC)
OVERVIEW
ISSI's256MbSynchronousDRAMachieveshigh-speed
data transfer using pipeline architecture. All inputs and
outputs signals refer to the rising edge of the clock input.
The256MbSDRAMisorganizedasfollows.
32Meg x 8, 16Meg x16
256Mb SYNCHRONOUS DRAM
DECEMBER 2013
IS42S83200G IS42S16160G
8Mx8x4Banks 4Mx16x4Banks
54-pinTSOPII 54-pinTSOPII
54-ballBGA 54-ballBGA
Parameter 32M x 8 16M x 16
Conguration 8M x 8 x 4
banks
4M x 16 x 4
banks
Refresh Count
Com./Ind.
A1
A2
8K/64ms
8K/64ms
8K/32ms
8K/64ms
8K/64ms
8K/32ms
Row Addresses A0-A12 A0-A12
Column Addresses A0-A9 A0-A8
Bank Address Pins BA0, BA1 BA0, BA1
Auto Precharge Pins A10/AP A10/AP
ADDRESS TABLE
KEY TIMING PARAMETERS
Parameter -5 -6 -7 Unit
ClkCycleTime
CASLatency=3 5 6 7 ns
CASLatency=2 10 10 7.5 ns
ClkFrequency
CASLatency=3 200 166 143 Mhz
CASLatency=2 100 100 133 Mhz
AccessTimefromClock
CASLatency=3 5 5.4 5.4 ns
CASLatency=2 5 5.4 5.4 ns
2 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
DEVICE OVERVIEW
The 256Mb SDRAM is a high speed CMOS, dynamic
random-accessmemorydesignedtooperatein3.3VVdd
and3.3VVddq memorysystemscontaining268,435,456
bits.Internallyconguredasaquad-bankDRAMwitha
synchronousinterface.Each67,108,864-bitbankisorga-
nizedas8,192rowsby512columnsby16bitsor8,192
rowsby1,024columnsby8bits.
The256MbSDRAMincludesanAUTOREFRESHMODE,
andapower-saving, power-downmode. Allsignalsare
registeredonthepositiveedgeoftheclocksignal,CLK.
AllinputsandoutputsareLVTTLcompatible.
The256MbSDRAMhastheabilitytosynchronouslyburst
dataatahighdataratewithautomaticcolumn-address
generation, the ability to interleave between internal banks
to hide precharge time and the capability to randomly
change column addresses on each clock cycle during
burst access.
Aself-timedrowprechargeinitiatedattheendoftheburst
sequenceisavailablewiththeAUTOPRECHARGEfunction
enabled.
Precharge
one bank while accessing one of the
other three banks will hide the
precharge
cycles and provide
seamless,high-speed,random-accessoperation.
SDRAM
read and write accesses are burst oriented starting
at a selected location and continuing for a programmed
number of locations in a programmed sequence. The
registration of an ACTIVE command begins accesses,
followedbyaREADorWRITEcommand.TheACTIVE
command in conjunction with address bits registered are
usedtoselectthebankandrowto beaccessed(BA0,
BA1selectthebank;A0-A12selecttherow).TheREAD
or WRITE commands in conjunction with address bits
registered are used to select the starting column location
for the burst access.
ProgrammableREADorWRITEburstlengthsconsistof
1,2,4and8locationsorfullpage,withaburstterminate
option.
CLK
CKE
CS
RAS
CAS
WE
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
BA0
BA1
A10
A12
COMMAND
DECODER
&
CLOCK
GENERATORMODE
REGISTER
REFRESH
CONTROLLER
REFRESH
COUNTER
SELF
REFRESH
CONTROLLER
ROW
ADDRESS
LATCH
MULTIPLEXER
COLUMN
ADDRESS LATCH
BURST COUNTER
COLUMN
ADDRESS BUFFER
COLUMN DECODER
DATA IN
BUFFER
DATA OUT
BUFFER
DQML
DQMH
DQ 0-15
VDD/VDDQ
Vss/VssQ
13
13
9
13
13
9
16
16 16
16
512
(x 16)
8192
8192
8192
ROW DECODER
8192 MEMORY CELL
ARRAY
BANK 0
SENSE AMP I/O GATE
BANK CONTROL LOGIC
ROW
ADDRESS
BUFFER
A11
2
FUNCTIONAL BLOCK DIAGRAM (FOR 4Mx16x4 BANKS SHOWN)
Integrated Silicon Solution, Inc. — www.issi.com 3
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
V
DD
DQ0
V
DD
Q
NC
DQ1
V
SS
Q
NC
DQ2
V
DD
Q
NC
DQ3
V
SS
Q
NC
V
DD
NC
WE
CAS
RAS
CS
BA0
BA1
A10
A0
A1
A2
A3
V
DD
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
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
V
SS
DQ7
V
SS
Q
NC
DQ6
V
DD
Q
NC
DQ5
V
SS
Q
NC
DQ4
V
DD
Q
NC
V
SS
NC
DQM
CLK
CKE
A12
A11
A9
A8
A7
A6
A5
A4
V
SS
PIN CONFIGURATIONS
54 pin TSOP - Type II for x8
PIN DESCRIPTIONS
A0-A12 RowAddressInput
A0-A9 ColumnAddressInput
BA0,BA1 BankSelectAddress
DQ0toDQ7 DataI/O
CLK SystemClockInput
CKE ClockEnable
CS Chip Select
RAS RowAddressStrobeCommand
CAS Column Address Strobe Command
WE WriteEnable
DQM DataInput/OutputMask
Vdd Power
Vss Ground
Vddq PowerSupplyforI/OPin
Vssq GroundforI/OPin
NC No Connection
4 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
PIN CONFIGURATIONS
54 pin TSOP - Type II for x16
PIN DESCRIPTIONS
A0-A12 RowAddressInput
A0-A8 ColumnAddressInput
BA0,BA1 BankSelectAddress
DQ0toDQ15 DataI/O
CLK SystemClockInput
CKE ClockEnable
CS Chip Select
RAS RowAddressStrobeCommand
CAS Column Address Strobe Command
V
DD
DQ0
V
DD
Q
DQ1
DQ2
V
SS
Q
DQ3
DQ4
V
DD
Q
DQ5
DQ6
V
SS
Q
DQ7
V
DD
DQML
WE
CAS
RAS
CS
BA0
BA1
A10
A0
A1
A2
A3
V
DD
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
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
V
SS
DQ15
V
SS
Q
DQ14
DQ13
V
DD
Q
DQ12
DQ11
V
SS
Q
DQ10
DQ9
V
DD
Q
DQ8
V
SS
NC
DQMH
CLK
CKE
A12
A11
A9
A8
A7
A6
A5
A4
V
SS
WE WriteEnable
DQML x16LowerByte,Input/OutputMask
DQMH x16UpperByte,Input/OutputMask
Vdd Power
Vss Ground
Vddq PowerSupplyforI/OPin
Vssq GroundforI/OPin
NC No Connection
Integrated Silicon Solution, Inc. — www.issi.com 5
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
PIN CONFIGURATION
54-ball TF-BGA for x8 (TopView)(8.00mmx8.00mmBody,0.8mmBallPitch)
packagecode:B
1 2 3 4 5 6 7 8 9
A
B
C
D
E
F
G
H
J
VSS
A12
A8
VSS
NC
CLK
A11
A7
A5
VSSQ
VDDQ
VSSQ
VDDQ
VSS
CKE
A9
A6
A4
VDDQ
VSSQ
VDDQ
VSSQ
VDD
CAS
BA0
A0
A3
DQ0
RAS
BA1
A1
A2
VDD
WE
CS
A10
VDD
PIN DESCRIPTIONS
A0-A12 RowAddressInput
A0-A9 ColumnAddressInput
BA0,BA1 BankSelectAddress
DQ0toDQ7 DataI/O
CLK SystemClockInput
CKE ClockEnable
CS Chip Select
RAS RowAddressStrobeCommand
CAS Column Address Strobe Command
WE WriteEnable
DQM DataInput/OutputMask
Vdd Power
Vss Ground
Vddq PowerSupplyforI/OPin
Vssq GroundforI/OPin
NC No Connection
NC
NC
NC
NC
DQM
DQ7
DQ6
DQ5
DQ4
NC
NC
NC
NC
NC
DQ1
DQ2
DQ3
6 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
PIN CONFIGURATION
54-ball TF-BGA for x16 (TopView)(8.00mmx8.00mmBody,0.8mmBallPitch)
packagecode:B
PIN DESCRIPTIONS
A0-A12 RowAddressInput
A0-A8 ColumnAddressInput
BA0,BA1 BankSelectAddress
DQ0toDQ15 DataI/O
CLK SystemClockInput
CKE ClockEnable
CS Chip Select
RAS RowAddressStrobeCommand
CAS Column Address Strobe Command
WE WriteEnable
DQML x16LowerByteInput/OutputMask
DQMH x16UpperByteInput/OutputMask
Vdd Power
Vss Ground
Vddq PowerSupplyforI/OPin
Vssq GroundforI/OPin
NC No Connection
1 2 3 4 5 6 7 8 9
A
B
C
D
E
F
G
H
J
VSS
DQ14
DQ12
DQ10
DQ8
DQMH
A12
A8
VSS
DQ15
DQ13
DQ11
DQ9
NC
CLK
A11
A7
A5
VSSQ
VDDQ
VSSQ
VDDQ
VSS
CKE
A9
A6
A4
VDDQ
VSSQ
VDDQ
VSSQ
VDD
CAS
BA0
A0
A3
DQ0
DQ2
DQ4
DQ6
DQML
RAS
BA1
A1
A2
VDD
DQ1
DQ3
DQ5
DQ7
WE
CS
A10
VDD
Integrated Silicon Solution, Inc. — www.issi.com 7
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
PIN FUNCTIONS
Symbol Type Function (In Detail)
A0-A12
Input Pin
AddressInputs:A0-A12aresampledduringtheACTIVEcommand(row-address
A0-A12)andREAD/WRITEcommand(columnaddressA0-A9(x8),orA0-A8(x16);
with A10 defining auto precharge) to select one location out of the memory array in
therespectivebank.A10issampledduringaPRECHARGEcommandtodetermine
ifallbanksaretobeprecharged(A10HIGH)orbankselectedbyBA0,BA1(LOW).
Theaddressinputsalsoprovidetheop-codeduringaLOADMODEREGISTER
command.
BA0,BA1
Input Pin
BankSelectAddress:BA0andBA1deneswhichbanktheACTIVE,READ,WRITE
orPRECHARGEcommandisbeingapplied.
CAS
Input Pin
CAS, in conjunction with the RAS and WE, forms the device command. See the
"CommandTruthTable"fordetailsondevicecommands.
CKE
Input Pin
TheCKEinputdetermineswhethertheCLKinputisenabled.Thenextrisingedge
oftheCLKsignalwillbevalidwhenisCKEHIGHandinvalidwhenLOW.WhenCKE
isLOW,thedevicewillbeineitherpower-downmode,clocksuspendmode,orself
refresh mode.
CKEisan
asynchronous i
nput.
CLK
Input Pin
CLKisthemasterclockinputforthisdevice.ExceptforCKE,allinputstothisdevice
are acquired in synchronization with the rising edge of this pin.
CS
Input Pin
TheCS input determines whether command input is enabled within the device.
Command input is enabled when CSisLOW,anddisabledwithCSisHIGH.The
device remains in the previous state when CSisHIGH.
DQML,
Input Pin
DQMLandDQMHcontrolthelowerandupperbytesoftheI/Obuffers.Inread
DQMH mode,DQMLandDQMHcontroltheoutputbuffer.WhenDQMLorDQMHisLOW,the
correspondingbufferbyteisenabled,andwhenHIGH,disabled.Theoutputsgoto
theHIGHimpedancestatewhenDQML/DQMHisHIGH.Thisfunctioncorrespondsto
OEinconventionalDRAMs.Inwritemode,DQMLandDQMHcontroltheinputbuffer.
WhenDQMLorDQMHisLOW,thecorrespondingbufferbyteisenabled,anddata
canbewrittentothedevice.WhenDQMLorDQMHisHIGH,inputdataismasked
andcannotbewrittentothedevice.ForIS42S16160Gonly.
DQM InputPin ForIS42S83200Gonly.
DQ0-DQ7 or Input/Output DataontheDataBusislatchedonDQpinsduringWritecommands,andbufferedfor
DQ0-DQ15 outputafterReadcommands.
RAS
Input Pin
RAS, in conjunction with CAS and WE, forms the device command. See the "Com-
mandTruthTable"itemfordetailsondevicecommands.
WE
Input Pin
WE, in conjunction with RAS and CAS, forms the device command. See the "Com-
mandTruthTable"itemfordetailsondevicecommands.
Vddq
Power Supply Pin
Vddq is the output buffer power supply.
Vdd
Power Supply Pin
Vdd is the device internal power supply.
Vssq
Power Supply Pin
Vssq is the output buffer ground.
Vss
Power Supply Pin
Vss is the device internal ground.
8 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
GENERAL DESCRIPTION
READ
TheREADcommandselectsthebankfromBA0,BA1inputs
and starts a burst read access to an active row. Inputs
A0-A9(x8);A0-A8(x16)providesthestartingcolumnloca-
tion.WhenA10isHIGH,thiscommandfunctionsasan
AUTOPRECHARGEcommand.Whentheautoprecharge
is selected, the row being accessed will be precharged at
theendoftheREADburst.Therowwillremainopenfor
subsequentaccesseswhenAUTOPRECHARGEisnot
selected.DQ’sreaddataissubjecttothelogiclevelon
theDQMinputstwoclocksearlier.WhenagivenDQM
signalwasregisteredHIGH,thecorrespondingDQ’swill
beHigh-Ztwoclocks later. DQ’s will providevalid data
whentheDQMsignalwasregisteredLOW.
WRITE
A burst write access to an active row is initiated with the
WRITEcommand.BA0,BA1inputsselectsthebank,and
thestartingcolumnlocationisprovidedbyinputsA0-A9
(x8);A0-A8(x16).WhetherornotAUTO-PRECHARGEis
used is determined by A10.
Therowbeingaccessedwillbeprechargedattheendof
theWRITE burst,ifAUTO PRECHARGEisselected. If
AUTOPRECHARGEisnotselected,therowwillremain
open for subsequent accesses.
A memory array is written with corresponding input data
onDQ’sandDQMinputlogiclevelappearingatthesame
time.DatawillbewrittentomemorywhenDQMsignalis
LOW.WhenDQMisHIGH,thecorrespondingdatainputs
willbeignored,andaWRITEwillnotbeexecutedtothat
byte/column location.
PRECHARGE
The PRECHARGE command is used to deactivate the
open row in a particular bank or the open row in all banks.
BA0,BA1canbeusedtoselectwhichbankisprecharged
or they are treated as “Don’t Care”. A10 determined
whether one or all banks are precharged. After execut-
ing this command, the next command for the selected
bank(s) is executed after passage of the period tRP
, which
istheperiodrequiredforbankprecharging.Onceabank
has been precharged, it is in the idle state and must be
activatedpriortoanyREADorWRITEcommandsbeing
issued to that bank.
AUTO PRECHARGE
TheAUTOPRECHARGEfunctionensuresthatthepre-
charge is initiated at the earliest valid stage within a burst.
Thisfunctionallowsforindividual-bankprechargewithout
requiringanexplicitcommand.A10toenabletheAUTO
PRECHARGEfunctioninconjunctionwithaspecicREAD
orWRITEcommand.ForeachindividualREADorWRITE
command, auto precharge is either enabled or disabled.
AUTOPRECHARGEdoesnotapplyexceptinfull-page
burst mode. Upon completion of the READ or WRITE
burst, a precharge of the bank/row that is addressed is
automatically performed.
AUTO REFRESH COMMAND
ThiscommandexecutestheAUTOREFRESHoperation.
Therowaddressandbanktoberefreshedareautomatically
generatedduringthisoperation. Thestipulatedperiod(trc) is
required for a single refresh operation, and no other com-
mandscanbeexecutedduringthisperiod. Thiscommand
isexecutedatleast8192timesforeveryTref.Duringan
AUTOREFRESHcommand,addressbitsare“Don’tCare”.
ThiscommandcorrespondstoCBRAuto-refresh.
BURST TERMINATE
The BURSTTERMINATE command forcibly terminates
the burst read and write operations by truncating either
xed-length or full-page bursts and the most recently
registeredREADorWRITEcommandpriortotheBURST
TERMINATE.
COMMAND INHIBIT
COMMANDINHIBITpreventsnewcommandsfrombeing
executed.Operationsinprogressarenotaffected,apart
fromwhethertheCLKsignalisenabled
NO OPERATION
WhenCSislow,theNOPcommandpreventsunwanted
commands from being registered during idle or wait
states.
LOAD MODE REGISTER
DuringtheLOADMODEREGISTERcommandthemode
registerisloadedfromA0-A12.Thiscommandcanonly
be issued when all banks are idle.
ACTIVE COMMAND
When the ACTIVE COMMAND is activated, BA0, BA1
inputs selects a bank to be accessed, and the address
inputsonA0-A12selectstherow.UntilaPRECHARGE
command is issued to the bank, the row remains open
for accesses.
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Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
CKE
Function n-1 n DQMH DQML
Datawrite/outputenable H × L L
Datamask/outputdisable H × H H
Upperbytewriteenable/outputenable H × L ×
Lowerbytewriteenable/outputenable H × × L
Upperbytewriteinhibit/outputdisable H × H ×
Lowerbytewriteinhibit/outputdisable H × × H
CKE A12, A11
Function n – 1 n CS RAS CAS WE BA1 BA0 A10 A9 - A0
Devicedeselect(DESL) H × H × × × × × × ×
Nooperation(NOP) H × L H H H × × × ×
Burststop(BST) H × L H H L × × × ×
Read H × L H L H V V L V
Readwithautoprecharge H × L H L H V V H V
Write H × L H L L V V L V
Writewithautoprecharge H × L H L L V V H V
Bankactivate(ACT) H × L L H H V V V V
Prechargeselectbank(PRE) H × L L H L V V L ×
Prechargeallbanks(PALL) H × L L H L × × H ×
CBRAuto-Refresh(REF) H H L L L H × × × ×
Self-Refresh(SELF) H L L L L H × × × ×
Moderegisterset(MRS) H × L L L L L L L V
COMMAND TRUTH TABLE
DQM TRUTH TABLE
Note:H=Vih,L=Vilx=VihorVil,V=ValidData.
Note:H=Vih,L=Vilx=VihorVil,V=ValidData.
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IS45S83200G, IS45S16160G
CKE
CurrentState/Function n–1 n CS RAS CAS WE Address
ActivatingClocksuspendmodeentry H L × × × × ×
AnyClocksuspendmode L L × × × × ×
Clocksuspendmodeexit L H × × × × ×
AutorefreshcommandIdle(REF) H H L L L H ×
SelfrefreshentryIdle(SELF) H L L L L H ×
PowerdownentryIdle H L × × × × ×
Selfrefreshexit L H L H H H ×
L H H × × × ×
Powerdownexit L H × × × × ×
Note:H=Vih,L=Vilx=VihorVil,V=ValidData.
CKE TRUTH TABLE
Integrated Silicon Solution, Inc. — www.issi.com 11
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IS45S83200G, IS45S16160G
Current State CS RAS CAS WE Address Command Action
Idle H X X X X DESL NoporPowerDown(2)
L H H H X NOP NoporPowerDown(2)
L H H L X BST NoporPowerDown
L H L H BA,CA,A10 READ/READA ILLEGAL(3)
L H L L A,CA,A10 WRIT/WRITA ILLEGAL(3)
L L H H BA,RA ACT Rowactivating
L L H L BA,A10 PRE/PALL Nop
L L L H X REF/SELF AutorefreshorSelf-refresh(4)
L L L L OC,BA1=L MRS Moderegisterset
RowActive H X X X X DESL Nop
L H H H X NOP Nop
L H H L X BST Nop
L H L H BA,CA,A10 READ/READA Beginread(5)
L H L L BA,CA,A10 WRIT/WRITA Beginwrite(5)
L L H H BA,RA ACT ILLEGAL(3)
L L H L BA,A10 PRE/PALL Precharge
Precharge all banks(6)
L L L H X REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
Read H X X X X DESL Continuebursttoendto
Rowactive
L H H H X NOP ContinuebursttoendRow
Rowactive
L H H L X BST Burststop,Rowactive
L H L H BA,CA,A10 READ/READA Terminateburst,
begin new read (7)
L H L L BA,CA,A10 WRIT/WRITA Terminateburst,
begin write
(7,8)
L L H H BA,RA ACT ILLEGAL(3)
L L H L BA,A10 PRE/PALL Terminateburst
Precharging
L L L H X REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
Write H X X X X DESL Continuebursttoend
Writerecovering
L H H H X NOP Continuebursttoend
Writerecovering
L H H L X BST Burststop,Rowactive
L H L H BA,CA,A10 READ/READA Terminateburst,startread:
DetermineAP(7,8)
L H L L BA,CA,A10 WRIT/WRITA Terminateburst,newwrite:
DetermineAP(7)
L L H H BA,RA RAACT ILLEGAL(3)
L L H L BA,A10 PRE/PALL TerminateburstPrecharging(9)
L L L H X REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
FUNCTIONAL TRUTH TABLE
Note:H=Vih,L=Vilx=VihorVil,V=ValidData,BA=BankAddress,CA+ColumnAddress,RA=RowAddress,OC=Op-Code
12 Integrated Silicon Solution, Inc. — www.issi.com
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IS45S83200G, IS45S16160G
Current State CS RAS CAS WE Address Command Action
Readwithauto H × × × × DESL Continuebursttoend,Precharge
Precharging
L H H H x NOP Continuebursttoend,Precharge
L H H L × BST ILLEGAL
L H L H BA,CA,A10 READ/READA ILLEGAL(11)
L H L L BA,CA,A10 WRIT/WRITA ILLEGAL(11)
L L H H BA,RA ACT ILLEGAL(3)
L L H L BA,A10 PRE/PALL ILLEGAL(11)
L L L H × REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
WritewithAuto H × × × × DESL Continuebursttoend,Write
Precharge recovering with auto precharge
L H H H × NOP Continuebursttoend,Write
recovering with auto precharge
L H H L × BST ILLEGAL
L H L H BA,CA,A10 READ/READA ILLEGAL(11)
L H L L BA,CA,A10 WRIT/WRITA ILLEGAL(11)
L L H H BA,RA ACT ILLEGAL(3,11)
L L H L BA,A10 PRE/PALL ILLEGAL(3,11)
L L L H × REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
Precharging H × × × × DESL Nop,EnteridleaftertRP
L H H H × NOP Nop,EnteridleaftertRP
L H H L × BST Nop,EnteridleaftertRP
L H L H BA,CA,A10 READ/READA ILLEGAL(3)
L H L L BA,CA,A10 WRIT/WRITA ILLEGAL(3)
L L H H BA,RA ACT ILLEGAL(3)
L L H L BA,A10 PRE/PALL NopEnteridleaftertRP
L L L H × REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
RowActivating H × × × × DESL Nop,EnterbankactiveaftertRCD
L H H H × NOP Nop,EnterbankactiveaftertRCD
L H H L × BST Nop,EnterbankactiveaftertRCD
L H L H BA,CA,A10 READ/READA ILLEGAL(3)
L H L L BA,CA,A10 WRIT/WRITA ILLEGAL(3)
L L H H BA,RA ACT ILLEGAL(3,9)
L L H L BA,A10 PRE/PALL ILLEGAL(3)
L L L H × REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
FUNCTIONAL TRUTH TABLE Continued:
Note:H=Vih,L=Vilx=VihorVil,V=ValidData,BA=BankAddress,CA+ColumnAddress,RA=RowAddress,OC=Op-Code
Integrated Silicon Solution, Inc. — www.issi.com 13
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
Current State CS RAS CAS WE Address Command Action
WriteRecovering H × × × × DESL Nop,EnterrowactiveaftertDPL
L H H H × NOP Nop,EnterrowactiveaftertDPL
L H H L × BST Nop,EnterrowactiveaftertDPL
L H L H BA,CA,A10 READ/READA Beginread(8)
L H L L BA,CA,A10 WRIT/WRITA Beginnewwrite
L L H H BA,RA ACT ILLEGAL(3)
L L H L BA,A10 PRE/PALL ILLEGAL(3)
L L L H × REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
WriteRecovering H × × × × DESL Nop,EnterprechargeaftertDPL
withAuto L H H H × NOP Nop,EnterprechargeaftertDPL
Precharge L H H L × BST Nop,EnterrowactiveaftertDPL
L H L H BA,CA,A10 READ/READA ILLEGAL(3,8,11)
L H L L BA,CA,A10 WRIT/WRITA ILLEGAL(3,11)
L L H H BA,RA ACT ILLEGAL(3,11)
L L H L BA,A10 PRE/PALL ILLEGAL(3,11)
L L L H × REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
Refresh H × × × × DESL Nop,EnteridleaftertRC
L H H × × NOP/BST Nop,EnteridleaftertRC
L H L H BA,CA,A10 READ/READA ILLEGAL
L H L L BA,CA,A10 WRIT/WRITA ILLEGAL
L L H H BA,RA ACT ILLEGAL
L L H L BA,A10 PRE/PALL ILLEGAL
L L L H × REF/SELF ILLEGAL
L L L L OC,BA MRS ILLEGAL
ModeRegister H × × × × DESL Nop,Enteridleafter2clocks
Accessing L H H H × NOP Nop,Enteridleafter2clocks
L H H L × BST ILLEGAL
L H L × BA,CA,A10 READ/WRITE ILLEGAL
L L × × BA,RA ACT/PRE/PALL ILLEGAL
REF/MRS
FUNCTIONAL TRUTH TABLE Continued:
Note:H=Vih,L=Vilx=VihorVil,V=ValidData,BA=BankAddress,CA+ColumnAddress,RA=RowAddress,OC=Op-Code
Notes:
1.AllentriesassumethatCKEisactive(CKEn-1=CKEn=H).
2.Ifbothbanksareidle,andCKEisinactive(Low),thedevicewillenterPowerDownmode.AllinputbuffersexceptCKEwillbe
disabled.
3.Illegaltobankinspeciedstates;FunctionmaybelegalinthebankindicatedbyBankAddress(BA),dependingonthestateof
that bank.
4.Ifbothbanksareidle,andCKEisinactive(Low),thedevicewillenterSelf-Refreshmode.AllinputbuffersexceptCKEwillbe
disabled.
5.IllegaliftRCDisnotsatised.
6.IllegaliftRASisnotsatised.
7.Mustsatisfyburstinterruptcondition.
8.Mustsatisfybuscontention,busturnaround,and/orwriterecoveryrequirements.
9.Mustmaskprecedingdatawhichdon’tsatisfytDPL.
10.IllegaliftRRDisnotsatised.
11. Illegal for single bank, but legal for other banks.
14 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
CKE RELATED COMMAND TRUTH TABLE(1)
CKE
Current State Operation n-1 n CS RAS CAS WE Address
Self-Refresh(S.R.) INVALID,CLK(n-1)wouldexitS.R. H X X X X X X
Self-RefreshRecovery(2) L H H X X X X
Self-RefreshRecovery(2) L H L H H X X
Illegal L H L H L X X
Illegal L H L L X X X
MaintainS.R. L L X X X X X
Self-RefreshRecoveryIdleAftertrc H H H X X X X
Idle After trc H H L H H X X
Illegal H H L H L X X
Illegal H H L L X X X
Beginclocksuspendnextcycle(5) H L H X X X X
Beginclocksuspendnextcycle(5) H L L H H X X
Illegal H L L H L X X
Illegal H L L L X X X
Exit clock suspend next cycle(2) L H X X X X X
Maintainclocksuspend L L X X X X X
Power-Down(P.D.) INVALID,CLK(n-1)wouldexitP.D. H X X X X X —
EXITP.D.-->Idle(2) L H X X X X X
Maintainpowerdownmode L L X X X X X
AllBanksIdle RefertooperationsinOperativeCommandTable H H H X X X —
RefertooperationsinOperativeCommandTable H H L H X X —
RefertooperationsinOperativeCommandTable H H L L H X —
Auto-Refresh H H L L L H X
RefertooperationsinOperativeCommandTable H H L L L L Op-Code
RefertooperationsinOperativeCommandTable H L H X X X —
RefertooperationsinOperativeCommandTable H L L H X X —
RefertooperationsinOperativeCommandTable H L L L H X —
Self-Refresh(3) H L L L L H X
RefertooperationsinOperativeCommandTable H L L L L L Op-Code
Power-Down(3) L X X X X X X
Anystate RefertooperationsinOperativeCommandTable H H X X X X X
otherthan Beginclocksuspendnextcycle(4) H L X X X X X
listedabove Exitclocksuspendnextcycle L H X X X X X
Maintainclocksuspend L L X X X X X
Notes:
1.H:Highlevel,L:lowlevel,X:Highorlowlevel(Don’tcare).
2.CKELowtoHightransitionwillre-enableCLKandotherinputsasynchronously.Aminimumsetup
timemustbesatisedbeforeanycommandotherthanEXIT.
3. Power down and Self refresh can be entered only from the both banks idle state.
4.MustbelegalcommandasdenedinOperativeCommandTable.
5. Illegal if txsr is not satisfied.
Integrated Silicon Solution, Inc. — www.issi.com 15
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
Mode
Register
Set
IDLE
Self
Refresh
CBR (Auto)
Refresh
Row
Active
Active
Power
Down
Power
Down
WRITE
WRITE
SUSPEND READ READ
SUSPEND
WRITEA
SUSPEND WRITEA READA READA
SUSPEND
POWER
ON Precharge
Automatic sequence
Manual Input
SELF
SELF exit
REF
MRS
ACT
CKE
CKE
CKE
CKE
BST
Read
Write
Write
Precharge
RRE (Precharge termination)
PRE (Precharge termination)
Write with
Auto Precharge
Read with
Auto Precharge
Read
Write
BST
CKE
CKECKE
CKE
CKE
CKE
CKE
CKE
Read
STATE DIAGRAM
16 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
ABSOLUTE MAXIMUM RATINGS(1)
Symbol Parameters Rating Unit
Vdd max MaximumSupplyVoltage –0.5to+4.6 V
Vddq max MaximumSupplyVoltageforOutputBuffer –0.5to+4.6 V
Vin InputVoltage –0.5toVdd+0.5 V
Vout OutputVoltage –1.0toVddq+0.5 V
Pd max AllowablePowerDissipation 1 W
Ics output Shorted Current 50 mA
Topr operatingTemperature Com. 0 to +70 °C
Ind. –40to+85
A1 –40to+85
A2 –40to+105
Tstg StorageTemperature –65to+150 °C
DC RECOMMENDED OPERATING CONDITIONS
(Ta=0oC to +70oCforCommercialgrade.Ta=-40oCto+85oCforIndustrialandA1grade.Ta=-40oC to +105oC for A2 grade.)
Symbol Parameter Min. Typ. Max. Unit
Vdd SupplyVoltage 3.0 3.3 3.6 V
Vddq I/OSupplyVoltage 3.0 3.3 3.6 V
Vih(1) InputHighVoltage 2.0 — Vddq +0.3 V
Vil(2) InputLowVoltage -0.3 — +0.8 V
CAPACITANCE CHARACTERISTICS (AtTa=0to+25°C,Vdd=Vddq =3.3±0.3V)
Symbol Parameter Min. Max. Unit
Cin1 InputCapacitance:CLK 2.5 3.5 pF
Cin2 InputCapacitance:Allotherinputpins 2.5 3.8 pF
CI/O DataInput/OutputCapacitance:DQS 4.0 6.0 pF
Note:
1.Vih (overshoot): Vih (max)=Vddq +1.2V (pulse width < 3ns).
2.Vil (undershoot): Vih (min)=-1.2V (pulse width < 3ns).
3. AllvoltagesarereferencedtoVss.
Notes:
1. StressgreaterthanthoselistedunderABSOLUTEMAXIMUMRATINGSmaycausepermanentdamageto
thedevice.Thisisastressratingonlyandfunctionaloperationofthedeviceattheseoranyotherconditions
above those indicated in the operational sections of this specification is not implied. Exposure to absolute
maximum rating conditions for extended periods may affect reliability.
2. AllvoltagesarereferencedtoVss.
THERMAL RESISTANCE (AtTa=0to+25°C,Vdd=Vddq =3.3±0.3V)
Package Substrate Theta-ja
(Airow = 0m/s)
Theta-ja
(Airow = 1m/s)
Theta-ja
(Airow = 2m/s)
Theta-jc Units
Alloy42 TSOP2 (54) 4-layer 70.6 62.0 58.3 13.0 C/W
Copper TSOP2 (54) 4-layer 46.0 40.9 38.3 8.9 C/W
BGA (54) 4-layer 33.6 28.8 2 7.1 6.9 C/W
Integrated Silicon Solution, Inc. — www.issi.com 17
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
DC ELECTRICAL CHARACTERISTICS 1(1,3) (RecommendedOperationConditionsunlessotherwisenoted.)
Symbol Parameter Test Condition -5 -6 -7 Unit
idd1
(1)
OperatingCurrent Onebankactive,CL=3,BL=1, 150 130 110 mA
tclk=tclk (min), trc=trc (min)
idd2p PrechargeStandbyCurrent CKE≤ Vil (max), tck=15ns 4 4 4 mA
(InPower-DownMode)4
idd2ps PrechargeStandbyCurrent CKE≤ Vil (max),CLK≤ Vil (max) 4 4 4 mA
(InPower-DownMode)
idd2n
(2)
Precharge Standby Current CS ≥ Vcc-0.2V,CKE≥ Vih (min) 25 25 25 mA
(InNonPower-DownMode) tck=15ns
Idd2ns Precharge Standby Current CS ≥ Vcc-0.2V,CKE≥ Vih (min) 20 20 20 mA
(InNonPower-DownMode) or CKE≤ Vil (max), All inputs stable
idd3p ActiveStandbyCurrent CKE≤ Vil (max), tck=15ns 9 9 9 mA
(Power-DownMode)
idd3ps ActiveStandbyCurrent CKE≤ Vil (max),CLK≤ Vil (max) 9 9 9 mA
(Power-DownMode)
idd3n
(2)
Active Standby Current CS ≥ Vcc-0.2V,CKE≥ Vih (min) 30 30 30 mA
(InNonPower-DownMode) tck=15ns
Idd3ns Active Standby Current CS ≥ Vcc-0.2V,CKE≥ Vih (min) 15 15 15 mA
(InNonPower-DownMode) or CKE≤ Vil (max), All inputs stable
idd4 OperatingCurrent Allbanksactive,BL=4,CL=3, 180 160 130 mA
tck=tck (min)
idd5 Auto-RefreshCurrent trc=trc (min), tclk=tclk(min) 180 160 130 mA
idd6 Self-RefreshCurrent CKE≤ 0.2V 5 5 5 mA
Notes:
1. Idd (max) is specified at the output open condition.
2. Input signals are changed one time during 30ns.
3.ForA2temperaturegradewith
Ta >85oC:
idd1, idd3p, idd3ps, and idd4
are derated to 10% above these values;
idd2p, idd2ps, and
idd6
are derated to 25% above these values.
DC ELECTRICAL CHARACTERISTICS 2 (RecommendedOperationConditionsunlessotherwisenoted.)
Symbol Parameter Test Condition Min Max Unit
iil InputLeakageCurrent 0V≤Vin≤Vcc,withpinsotherthan -5 5
µA
thetestedpinat0V
iol OutputLeakageCurrent Outputisdisabled,0V≤Vout≤Vcc, -5 5
µA
Voh OutputHighVoltageLevel Ioh=-2mA 2.4
—
V
Vol OutputLowVoltageLevel Iol=2mA
—
0.4
V
18 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
AC ELECTRICAL CHARACTERISTICS (1,2,3)
-5 -6 -7
Symbol Parameter Min. Max. Min. Max. Min. Max. Units
tck3 ClockCycleTime CASLatency=3 5 — 6 — 7 — ns
tck2 CASLatency=2 10 — 10 — 7.5 — ns
tac3 AccessTimeFromCLK CASLatency=3 — 5 — 5.4 — 5.4 ns
tac2 CASLatency=2 — 5 — 5.4 — 5.4 ns
tch CLKHIGHLevelWidth 2 — 2.5 — 2.5 — ns
tcl CLKLOWLevelWidth 2 — 2.5 — 2.5 — ns
toh3 OutputDataHoldTime CASLatency=3 2.7 — 2.7 — 2.7 — ns
toh2 CAS Latency=2 2.7 — 2.7 — 2.7 — ns
tlz OutputLOWImpedanceTime 0 — 0 — 0 — ns
thz3 OutputHIGHImpedanceTimeCASLatency=3 2.7 5 2.7 5.4 2.7 5.4 ns
thz2 CAS Latency=2 2.75 2.75.4 2.75.4 ns
tds InputDataSetupTime
(2)
1.5 — 1.5 — 1.5 — ns
tdh InputDataHoldTime
(2)
0.8 — 0.8 — 0.8 — ns
tas AddressSetupTime
(2)
1.5 — 1.5 — 1.5 — ns
tah AddressHoldTime
(2)
0.8 — 0.8 — 0.8 — ns
tcks CKESetupTime
(2)
1.5 — 1.5 — 1.5 — ns
tckh CKEHoldTime
(2)
0.8 — 0.8 — 0.8 — ns
tcms CommandSetupTime(CS, RAS, CAS, WE,DQM)
(2)
1.5 — 1.5 — 1.5 — ns
tcmh CommandHoldTime(CS, RAS, CAS, WE,DQM)
(2) 0.8
— 0.8 — 0.8 — ns
trc CommandPeriod(REFtoREF/ACTtoACT) 60 — 60 — 60 — ns
tras CommandPeriod(ACTtoPRE) 45 100K 42
100K
37
100K
ns
trp CommandPeriod(PREtoACT) 15 — 18 — 15 — ns
trcd ActiveCommandToRead/WriteCommandDelayTime 15 — 18 — 15 — ns
trrd CommandPeriod(ACT[0]toACT[1]) 10 — 12 — 14 — ns
tdpl InputDataToPrecharge 10 — 12 — 14 — ns
CommandDelaytime
tdal InputDataToActive/Refresh 25 —
30
—
30
— ns
CommandDelaytime(DuringAuto-Precharge)
tmrd ModeRegisterProgramTime 10 — 12 — 14 — ns
tdde PowerDownExitSetupTime 5 — 6 — 7 — ns
txsr exitSelf-RefreshtoActiveTime(4) 65 — 66 — 70 — ns
tt TransitionTime 0.3 1.2 0.3 1.2 0.3 1.2 ns
tref RefreshCycleTime(8192)
Ta ≤ 70oCCom.,Ind.,A1,A2 — 64 — 64 — 64 ms
Ta ≤85o CInd.,A1,A2 — 64 — 64 — 64 ms
Ta >85oCA2 — — — 32 — 32 ms
Notes:
1. Thepower-onsequencemustbeexecutedbeforestartingmemoryoperation.
2. measured with tt =1ns.Ifclockrisingtimeislongerthan1ns,(tt/2-0.5)nsshouldbeaddedtotheparameter.
3.
Thereferencelevelis1.4Vwhenmeasuringinputsignaltiming.RiseandfalltimesaremeasuredbetweenVih(min.)andVil(max).
4.Self-RefreshModeisnotsupportedforA2gradewithTa>85
o
C
Integrated Silicon Solution, Inc. — www.issi.com 19
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
OPERATING FREQUENCY / LATENCY RELATIONSHIPS
SYMBOL PARAMETER -5 -6 -7 UNITS
tCK ClockCycleTime CASLatency=3 5 6 7 ns
CASLatency=2 10 10 7.5
Freq. OperatingFrequency CASLatency=3 200 166 143 MHz
CASLatency=2 100 100 133
trcd ActiveCommandToRead/WriteCommandDelayTime CASLatency=3 3 3 3 cycle
CASLatency=2 2 2 2
trac RASLatency(trcd + tcac) CASLatency=3 6 6 6 cycle
CASLatency=2 4 4 4
trc CommandPeriod(REFtoREF/ACTtoACT) CASLatency=3 12 10 9 cycle
CASLatency=2 6 6 8
tras CommandPeriod(ACTtoPRE) CASLatency=3 9 7 6 cycle
CASLatency=2 5 5 6
trp CommandPeriod(PREtoACT) CASLatency=3 3 3 3 cycle
CASLatency=2 2 2 2
trrd CommandPeriod(ACT[0]toACT[1]) 2 2 2 cycle
tccd ColumnCommandDelayTime 1 1 1 cycle
(READ,READA,WRIT,WRITA)
tdpl InputDataToPrechargeCommandDelayTime 2 2 2 cycle
tdal InputDataToActive/RefreshCommandDelayTime CASLatency=3 5 5 5 cycle
(DuringAuto-Precharge) CASLatency=2 4 4 4
trbd BurstStopCommandToOutputinHIGH-ZDelayTime CASLatency=3 3 3 3 cycle
(Read) CASLatency=2 2 2 2
twbd BurstStopCommandToInputinInvalidDelayTime 0 0 0 cycle
(Write)
trql PrechargeCommandToOutputinHIGH-ZDelayTime CASLatency=3 3 3 3 cycle
(Read) CASLatency=2 2 2 2
twdl PrechargeCommandToInputinInvalidDelayTime 0 0 0 cycle
(Write)
tpql
LastOutputToAuto-PrechargeStartTime(Read)
CASLatency=3 -2 -2 -2 cycle
CASLatency=2 -1 -1 -1
tqmd DQMToOutputDelayTime(Read) 2 2 2 cycle
tdmd DQMToInputDelayTime(Write) 0 0 0 cycle
tmrd ModeRegisterSetToCommandDelayTime 2 2 2 cycle
Note:ThenumberofclockcyclesshowninthistableareexamplesbasedontCKvalues in this table and the timing limits from AC
Electrical Characteristics table.
20 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
AC TEST CONDITIONS
Input Load Output Load
Output
Z
= 50Ω
50 pF
1.4V
50Ω
3.0V
1.4V
0V
CLK
INPUT
OUTPUT
t
CH
t
CMH
t
AC
t
OH
t
CMS
t
CK
t
CL
3.0V
1.4V
1.4V 1.4V
0V
AC TEST CONDITIONS
Parameter Rating
ACInputLevels 0Vto3.0V
InputRiseandFallTimes 1ns
InputTimingReferenceLevel 1.4V
OutputTimingMeasurementReferenceLevel 1.4V
Integrated Silicon Solution, Inc. — www.issi.com 21
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
FUNCTIONAL DESCRIPTION
The256MbSDRAMsarequad-bankDRAMswhichoperate
at3.3Vandincludeasynchronousinterface(allsignals
are registered on the positive edge of the clock signal,
CLK).Eachofthe67,108,864-bitbanksisorganizedas
8,192rowsby512columnsby16bitsor8,192rowsby
1,024columnsby8bits.
ReadandwriteaccessestotheSDRAMareburstoriented;
accesses start at a selected location and continue for
a programmed number of locations in a programmed
sequence. Accesses begin with the registration of an AC-
TIVEcommandwhichisthenfollowedbyaREADorWRITE
command.Theaddressbitsregisteredcoincidentwiththe
ACTIVEcommandareusedtoselectthebankandrow
to be accessed
(BA0andBA1selectthebank,A0-A12select
the row)
.Theaddressbits
A0-A9(x8);A0-A8(x16)
registered
coincidentwiththeREADorWRITEcommandareusedto
select the starting column location for the burst access.
Prior to normal operation, the SDRAM must be initial-
ized.Thefollowingsectionsprovidedetailedinformation
covering device initialization, register definition, command
descriptions and device operation.
Initialization
SDRAMs must be powered up and initialized in a
predefined manner.
The256MbSDRAMisinitializedafterthepowerisapplied
toVddandVddq (simultaneously) and the clock is stable
withCKEHigh.
A 100µs delay is required prior to issuing any command
other than a
COMMANDINHIBIT
or a
NOP
.TheCOMMAND
INHIBITorNOPmaybeappliedduringthe200usperiod
and should continue at least through the end of the period.
WithatleastoneCOMMANDINHIBITorNOPcommand
havingbeenapplied,aPRECHARGEcommandshould
be applied once the 100µs delay has been satisfied. All
banksmustbeprecharged.Thiswillleaveallbanksinan
idle state after which at least two
AUTOREFRESH
cycles
must be performed. After the
AUTOREFRESH
cycles are
complete, the SDRAM is then ready for mode register
programming.
The mode register should be loaded prior to applying
any operational command because it will power up in an
unknown state.
22 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
INITIALIZE AND LOAD MODE REGISTER(1)
DON'T CARE
CLK
CKE
COMMAND
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CMS
t
CMH
t
CMS
t
CMH
t
CKS
t
CKH
T0 T1 Tn+1 To+1 Tp+1 Tp+2 Tp+3
t
MRD
t
RC
t
RC
t
RP
ROW
ROW
BANK
t
AS
t
AH
t
AS
t
AH
CODE
CODE
ALL BANKS
SINGLE BANK
ALL BANKS
AUTO
REFRESH AUTO
REFRESH Load MODE
REGISTER
T = 100µs Min.
Power-up: V
CC
and CLK stable
Precharge
all banks
AUTO REFRESH Program MODE REGISTER
NOP
PRECHARGE
NOP NOP NOP ACTIVE
T
(2, 3, 4)
AUTO REFRESH
At least 2 Auto-Refresh Commands
CODE
t
AS
t
AH
Notes:
1. If CSisHighatclockHightime,allcommandsappliedareNOP.
2.TheModeregistermaybeloadedpriortotheAuto-Refreshcyclesifdesired.
3.JEDECandPC100specifythreeclocks.
4.OutputsareguaranteedHigh-Zafterthecommandisissued.
Integrated Silicon Solution, Inc. — www.issi.com 23
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
AUTO-REFRESH CYCLE
Notes:
1. CASlatency=2,3
t
RP
t
RC
t
RC
DON'T CARE
CLK
CKE
COMMAND
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
AS
t
AH
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
T0 T1 T2 Tn+1 To +1
ALL BANKS
SINGLE BANK
BANK(s)
ROW
ROW
BANK
High-Z
PRECHARGE
NOP NOP NOP ACTIVE
Auto
Refresh
Auto
Refresh
24 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
SELF-REFRESH CYCLE
CLK
CKE
COMMAND
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
AS
t
AH
BANK
t
CL
t
CH
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
ALL BANKS
SINGLE BANK
t
CKS
Precharge all
active banks
CLK stable prior to exiting
self refresh mode
Enter self
refresh
mode
Exit
self refresh
mode
(Restart refresh time base)
T0 T1 T2 Tn+1 To +1 To +2
High-Z
Auto
Refresh Auto
Refresh
PRECHARGE
NOP NOP NOP
t
CKS
≥ t
RAS
t
RP
t
XSR
DON'T CARE
Notes:
1.Self-RefreshModeisnotsupportedforA2gradewithTa>85oC.
Integrated Silicon Solution, Inc. — www.issi.com 25
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
REGISTER DEFINITION
Mode Register
The mode register is used to dene the specic mode
ofoperationoftheSDRAM.Thisdenitionincludesthe
selection of a burst length, a burst type, a CAS latency,
an operating mode and a write burst mode, as shown in
MODEREGISTERDEFINITION.
ThemoderegisterisprogrammedviatheLOADMODE
REGISTERcommandandwillretainthestoredinformation
until it is programmed again or the device loses power.
Mode register bits M0-M2 specify the burst length, M3
specifies the type of burst
(sequential or interleaved)
,M4-M6
specifytheCASlatency,M7andM8specifytheoperating
mode,M9speciestheWRITEburstmode,andM10,M11,
andM12arereservedforfutureuse.
Themoderegistermustbe loaded when all banks are
idle, and the controller must wait the specified time before
initiatingthesubsequentoperation.Violatingeitherofthese
requirements will result in unspecified operation.
MODE REGISTER DEFINITION
Latency Mode
M6 M5 M4 CAS Latency
0 0 0 Reserved
0 0 1 Reserved
0 1 0 2
0 1 1 3
1 0 0 Reserved
1 0 1 Reserved
1 1 0 Reserved
1 1 1 Reserved
1. To ensure compatibility with future devices,
should program BA1, BA0, A12, A11, A10 = "0"
Write Burst Mode
M9 Mode
0 Programmed Burst Length
1 Single Location Access
Operating Mode
M8 M7 M6-M0 Mode
0 0 Defined Standard Operation
— — — All Other States Reserved
Burst Type
M3 Type
0 Sequential
1 Interleaved
Burst Length
M2 M1 M0 M3=0 M3=1
0 0 0 1 1
0 0 1 2 2
0 1 0 4 4
0 1 1 8 8
1 0 0 Reserved Reserved
1 0 1 Reserved Reserved
1 1 0 Reserved Reserved
1 1 1 Full Page Reserved
Reserved
Address Bus (Ax)
Mode Register (Mx)
(1)
BA1 BA0 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0
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BURST DEFINITION
Burst Starting Column Order of Accesses Within a Burst
Length Address Type = Sequential Type = Interleaved
A0
2 0 0-1 0-1
1 1-0 1-0
A1 A0
0 0 0-1-2-3 0-1-2-3
4 0 1 1-2-3-0 1-0-3-2
1 0 2-3-0-1 2-3-0-1
1 1 3-0-1-2 3-2-1-0
A2 A1 A0
0 0 0 0-1-2-3-4-5-6-7 0-1-2-3-4-5-6-7
0 0 1 1-2-3-4-5-6-7-0 1-0-3-2-5-4-7-6
0 1 0 2-3-4-5-6-7-0-1 2-3-0-1-6-7-4-5
8 0 1 1 3-4-5-6-7-0-1-2 3-2-1-0-7-6-5-4
1 0 0 4-5-6-7-0-1-2-3 4-5-6-7-0-1-2-3
1 0 1 5-6-7-0-1-2-3-4 5-4-7-6-1-0-3-2
1 1 0 6-7-0-1-2-3-4-5 6-7-4-5-2-3-0-1
1 1 1 7-0-1-2-3-4-5-6 7-6-5-4-3-2-1-0
Full n=A0-A8(x16) Cn,Cn+1,Cn+2 NotSupported
Page n=A0-A9(x8) Cn+3,Cn+4...
(y) (location0-y) …Cn-1,
Cn…
BURST LENGTH
ReadandwriteaccessestotheSDRAMareburstoriented,
with the burst length being programmable, as shown in
MODEREGISTERDEFINITION.Theburstlengthdeter-
mines the maximum number of column locations that can
beaccessedforagivenREADorWRITEcommand.Burst
lengthsof1,2,4or8locationsareavailableforboththe
sequentialandtheinterleavedbursttypes,andafull-page
burst is available for the sequential type.The full-page
burstisusedinconjunctionwiththeBURSTTERMINATE
command to generate arbitrary burst lengths.
Reservedstatesshouldnotbeused,asunknownoperation
or incompatibility with future versions may result.
WhenaREADorWRITEcommandisissued,ablockof
columns equal to the burst length is effectively selected. All
accesses for that burst take place within this block, mean-
ing that the burst will wrap within the block if a boundary is
reached.TheblockisuniquelyselectedbyA1-A8(x16)or
A1-A9(x8)whentheburstlengthissettotwo;byA2-A8
(x16)orA2-A9(x8)whentheburstlengthissettofour;
andbyA3-A8(x16)orA3-A9(x8)whentheburstlength
issettoeight.Theremaining(leastsignicant)address
bit(s) is (are) used to select the starting location within
the block. Full-page bursts wrap within the page if the
boundary is reached.
BurstType
Accesses within a given burst may be programmed to be
either sequential or interleaved; this is referred to as the
bursttypeandisselectedviabitM3.
Theorderingofaccesseswithinaburstisdeterminedby
the burst length, the burst type and the starting column
address,asshowninBURSTDEFINITIONtable.
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DON'T CARE
UNDEFINED
CLK
COMMAND
DQ
READ NOP NOP NOP
CAS Latency - 3
t
AC
t
OH
D
OUT
T0 T1 T2 T3 T4
tLZ
CLK
COMMAND
DQ
READ NOP NOP
CAS Latency - 2
t
AC
t
OH
D
OUT
T0 T1 T2 T3
tLZ
CAS LATENCY
CAS Latency
TheCAS latencyisthedelay,in clockcycles,between
the
registrationofaREADcommandandtheavailabilityof
therstpieceofoutputdata.Thelatencycanbesettotwoor
three clocks.
IfaREADcommandisregisteredatclockedgen,and
the latency is m clocks, the data will be available by clock
edge n + m.TheDQswillstartdrivingasaresultofthe
clock edge one cycle earlier (n + m -1),andprovidedthat
the relevant access times are met, the data will be valid by
clock edge n + m.Forexample,assumingthattheclock
cycle time is such that all relevant access times are met,
ifaREADcommandisregisteredatT0andthelatency
isprogrammedtotwoclocks,theDQs willstartdriving
afterT1andthedatawillbevalidbyT2,asshowninCAS
Latency diagrams.The Allowable Operating Frequency
table indicates the operating frequencies at which each
CAS latency setting can be used.
Reservedstatesshouldnotbeusedasunknownoperation
or incompatibility with future versions may result.
CAS Latency
Allowable Operating Frequency (MHz)
Speed CAS Latency = 2 CAS Latency = 3
-5 100 200
-6 100 166
-7 133 143
Operating Mode
ThenormaloperatingmodeisselectedbysettingM7andM8
tozero;theothercombinationsofvaluesforM7andM8are
reservedforfutureuseand/ortestmodes.Theprogrammed
burstlengthappliestobothREADandWRITEbursts.
Testmodesandreservedstatesshouldnotbeusedbe-
cause unknown operation or incompatibility with future
versions may result.
Write Burst Mode
WhenM9=0,theburstlengthprogrammedviaM0-M2
appliestobothREADandWRITEbursts;whenM9=1,
theprogrammedburstlengthappliestoREADbursts,but
writeaccessesaresingle-location(nonburst)accesses.
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CLK
CKE
ROW ADDRESS
BANK ADDRESS
CS
RAS
CAS
WE
A0-A12
BA0, BA1
HIGH
ACTIVATING SPECIFIC ROW WITHIN SPE-
CIFIC BANK
DON'T CARE
CLK
COMMAND ACTIVE NOP NOP
tRCD
T0 T1 T2 T3 T4
READ or
WRITE
CHIP OPERATION
BANK/ROW ACTIVATION
BeforeanyREAD orWRITEcommandscanbe issued
toabankwithintheSDRAM,arowinthatbankmustbe
“opened.”
ThisisaccomplishedviatheACTIVEcommand,
which selects both the bank and the row to be activated
(see
ActivatingSpecicRowWithinSpecicBank
).
After opening a row
(issuinganACTIVEcommand)
,aREAD
orWRITEcommandmaybeissuedtothatrow,subjectto
the trcdspecication.Minimumtrcd should be divided by
the clock period and rounded up to the next whole number
to determine the earliest clock edge after the ACTIVE
commandonwhichaREADorWRITEcommandcanbe
entered.Forexample,atrcd specification of 15ns with a
143MHzclock(7nsperiod)resultsin2.14clocks,rounded
to3.Thisisreectedinthefollowingexample,whichcov-
ersanycasewhere2<[trcd(MIN)/tck] ≤3.(Thesame
procedure is used to convert other specification limits from
time units to clock cycles).
AsubsequentACTIVEcommandtoadifferentrowinthe
same bank can only be issued after the previous active
rowhasbeen“closed”(precharged).Theminimumtime
interval betweensuccessiveACTIVEcommands to the
same bank is defined by trc.
AsubsequentACTIVEcommandtoanotherbankcanbe
issued while the first bank is being accessed, which results
inareductionoftotalrow-accessoverhead.Theminimum
timeintervalbetweensuccessiveACTIVEcommandsto
different banks is defined by trrd.
EXAMPLE: MEETING TRCD (MIN) WHEN 2 < [TRCD (MIN)/TCK] ≤ 3
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CLK
CKE
HIGH
COLUMN ADDRESS
AUTO PRECHARGE
NO PRECHARGE
CS
RAS
CAS
WE
A0-A9
A10
BA0, BA1 BANK ADDRESS
A11, A12
READ COMMANDREADS
READ bursts are initiated with a READ command, as
shownintheREADCOMMANDdiagram.
Thestartingcolumnandbankaddressesareprovidedwith
theREADcommand,andautoprechargeiseitherenabledor
disabled for that burst access. If auto precharge is enabled,
the row being accessed is precharged at the completion of
theburst.ForthegenericREADcommandsusedinthefol-
lowing illustrations, auto precharge is disabled.
DuringREADbursts,thevaliddata-outelementfromthe
starting column address will be available following the
CASlatencyaftertheREADcommand.Eachsubsequent
data-outelementwillbevalidbythenextpositiveclock
edge.The CAS Latency diagram shows general timing
for each possible CAS latency setting.
Uponcompletionofaburst,assumingnoothercommands
havebeeninitiated,theDQswillgoHigh-Z.Afull-pageburst
will continue until terminated. (At the end of the page, it will
wrap to column 0 and continue.)
DatafromanyREADburstmaybetruncatedwithasub-
sequentREADcommand,anddatafromaxed-length
READburstmaybeimmediatelyfollowedbydatafroma
READcommand.Ineithercase,acontinuousowofdata
canbemaintained.Therstdataelementfromthenew
burst follows either the last element of a completed burst
or the last desired data element of a longer burst which
is being truncated.
ThenewREADcommandshouldbeissuedx cycles before
the clock edge at which the last desired data element is
valid, where x equalstheCASlatencyminusone.Thisis
showninConsecutiveREADBurstsforCASlatenciesof
two and three; data element n + 3 is either the last of a
burstoffourorthelastdesiredofalongerburst.The256Mb
SDRAMusesapipelinedarchitectureandthereforedoes
not require the 2n rule associated with a prefetch architec-
ture.AREADcommandcanbeinitiatedonanyclockcycle
followingapreviousREADcommand.Full-speedrandom
read accesses can be performed to the same bank, as
showninRandomREADAccesses,oreachsubsequent
READmaybeperformedtoadifferentbank.
DatafromanyREADburstmaybetruncatedwithasub-
sequent WRITE command, and data from a xed-length
READburstmaybeimmediatelyfollowedbydatafroma
WRITEcommand(subjecttobusturnaroundlimitations).
TheWRITEburstmaybeinitiatedontheclockedgeim-
mediately following the last (or last desired) data element
fromtheREADburst,providedthatI/Ocontentioncanbe
avoided. In a given system design, there may be a pos-
sibilitythatthedevicedrivingtheinputdatawillgoLow-Z
beforetheSDRAMDQsgoHigh-Z.Inthiscase,atleast
asingle-cycledelayshouldoccurbetweenthelastread
dataandtheWRITEcommand.
TheDQMinputisusedtoavoidI/Ocontention,asshown
inFiguresRW1andRW2.TheDQMsignalmustbeas-
serted (HIGH)atleast three clocksprior to theWRITE
command(DQMlatencyistwoclocksforoutputbuffers)
tosuppress data-outfrom theREAD. OncetheWRITE
commandisregistered,theDQswillgoHigh-Z(orremain
High-Z),regardlessofthestateoftheDQMsignal,provided
theDQMwasactiveontheclockjustpriortotheWRITE
commandthattruncatedtheREADcommand.Ifnot,the
secondWRITEwillbeaninvalidWRITE.Forexample,if
DQMwasLOWduringT4inFigureRW2,thentheWRITEs
atT5andT7wouldbevalid,whiletheWRITEatT6would
be invalid.
TheDQMsignalmustbede-assertedpriortotheWRITE
command(DQMlatencyiszeroclocksforinputbuffers)
to ensure that the written data is not masked.
Axed-lengthREADburstmaybefollowedby,ortruncated
with, a
PRECHARGE
command to the same bank
(provided
that auto precharge was not activated)
,andafull-pageburst
maybetruncatedwithaPRECHARGEcommandtothe
samebank.ThePRECHARGEcommandshouldbeissued
x cycles before the clock edge at which the last desired
data element is valid, where x equals the CAS latency
minusone.ThisisshownintheREADtoPRECHARGE
Note:A9is"Don'tCare"forx16.
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diagram for each possible CAS latency; data element n +
3 is either the last of a burst of four or the last desired of
alongerburst.FollowingthePRECHARGEcommand,a
subsequent command to the same bank cannot be issued
until trp is met. Note that part of the row precharge time is
hidden during the access of the last data element(s).
In the case of a xed-length burst being executed to
completion, a PRECHARGE command issued at the
optimum time (as described above) provides the same
operation that would result from the same xed-length
burstwithautoprecharge.ThedisadvantageofthePRE-
CHARGEcommandisthatitrequiresthatthecommand
and address buses be available at the appropriate time to
issuethecommand;theadvantageofthePRECHARGE
commandisthatitcanbeusedtotruncatexed-length
orfull-pagebursts.
Full-pageREADburstscanbetruncatedwiththeBURST
TERMINATE command, and xed-length READ bursts
maybetruncatedwithaBURSTTERMINATEcommand,
providedthatautoprechargewasnotactivated.TheBURST
TERMINATEcommandshouldbeissuedx cycles before
the clock edge at which the last desired data element is
valid, where x equalstheCASlatencyminusone.Thisis
shownintheREADBurstTerminationdiagramforeach
possible CAS latency; data element n + 3 is the last desired
data element of a longer burst.
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DON'T CARE
CLK
DQM
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5
READ
NOP NOP NOP NOP WRITE
BANK,
COL nBANK,
COL b
D
OUT
n
D
IN
b
t
DS
t
HZ
CAS Latency - 3
RW1 - READ to WRITE
RW2 - READ to WRITE
DON'T CARE
CLK
DQM
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6
READ
NOP NOP NOP NOP NOP WRITE
BANK,
COL n
DIN b
tDS
tHZ
BANK,
COL b
CAS Latency - 2
DOUT n
D
OUT
n+1 D
OUT
n+2
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DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6
READ
NOP NOP NOP READ NOP NOP
D
OUT
n
D
OUT
n+1
D
OUT
n+2
D
OUT
n+3
D
OUT
b
BANK,
COL nBANK,
COL b
CAS Latency - 2
DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6 T7
READ
NOP NOP NOP READ NOP NOP NOP
D
OUT
n
D
OUT
n+1
D
OUT
n+2
D
OUT
n+3
D
OUT
b
BANK,
COL nBANK,
COL b
CAS Latency - 3
CONSECUTIVE READ BURSTS
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DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5
READ
READ
READ
READ
NOP NOP
D
OUT
n
D
OUT
b
D
OUT
m
D
OUT
x
BANK,
COL nBANK,
COL b
CAS Latency - 2
BANK,
COL mBANK,
COL x
DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6
READ
READ
READ
READ
NOP NOP NOP
D
OUT
n
D
OUT
b
D
OUT
m
D
OUT
x
BANK,
COL nBANK,
COL b
CAS Latency - 3
BANK,
COL mBANK,
COL x
RANDOM READ ACCESSES
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DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6
READ
NOP NOP NOP NOP NOP
D
OUT
n
D
OUT
n+1
D
OUT
n+2
D
OUT
n+3
BANK a,
COL n
CAS Latency - 2
x = 1 cycle
BURST
TERMINATE
DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6 T7
READ
NOP NOP NOP NOP NOP NOP
D
OUT
n
D
OUT
n+1
D
OUT
n+2
D
OUT
n+3
BANK,
COL n
CAS Latency - 3
x = 2 cycles
BURST
TERMINATE
READ BURST TERMINATION
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ALTERNATING BANK READ ACCESSES
BANK 0 BANK 3 BANK 3 BANK 0
DON'T CARE
CLK
CKE
COMMAND
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
t
RCD
- BANK 0
CAS Latency - BANK 0
t
RCD
- BANK 0
t
RAS
- BANK 0
t
RC
- BANK 0
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
ACTIVE
NOP READ NOP
ACTIVE
NOP READ NOP
ACTIVE
ROW
ROW
BANK 0
ROW ROW
t
RRD
t
RCD
- BANK 3
t
RP
- BANK 0
COLUMN m(2)
ROW
COLUMN b(2)
ROW
ENABLE AUTO PRECHARGE ENABLE AUTO PRECHARGE
T0 T1 T2 T3 T4 T5 T6 T7 T8
t
AC
t
OH
t
OH
t
OH
t
OH
t
OH
DOUT m DOUT m+
1
DOUT m+
2
DOUT m+
3
DOUT b
t
AC
t
AC
t
AC
t
AC
t
AC
t
LZ
CAS Latency - BANK 3
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
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READ - FULL-PAGE BURST
DON'T CARE
UNDEFINED
CLK
CKE
COMMAND
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
ACTIVE NOP READ NOP NOP NOP NOP NOP
BURST TERM NOP NOP
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
ROW
ROW
BANK
COLUMN m
(2)
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
BANK
t
RCD
CAS Latency
t
AC
t
AC
t
AC
t
AC
t
AC
t
HZ
t
LZ
t
AC
t
OH
t
OH
t
OH
t
OH
t
OH
t
OH
D
OUT
m D
OUT
m+1 D
OUT
m+2 D
OUT
m-1 D
OUT
m D
OUT
m+1
each row (x16) has
512 locations
(3)
Full page
completion
Full-page burst not self-terminating.
Use BURST TERMINATE command.
T0 T1 T2 T3 T4 T5 T6 Tn+1 Tn+2 Tn+3 Tn+4
Notes:
1) CAS latency = 2, Burst Length = Full Page
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
3) x8: Each row has 1,024 locations.
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READ - DQM OPERATION
DON'T CARE
UNDEFINED
CLK
CKE
COMMAND
DQM/
DQML, DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
tCMS tCMH
ACTIVE NOP READ NOP NOP NOP NOP NOP NOP
tAS tAH
tAS tAH
tAS tAH
ENABLE AUTO PRECHARGE
DISABLE AUTO PRECHARGE
ROW
ROW
BANK
tRCD CAS Latency
DOUT m
D
OUT
m+
2
D
OUT
m+
3
COLUMN m
(2)
BANK
tCH
tCLtCK
tCMS tCMH
tCKS tCKH
tOH
tOHtOH tACtAC
tACtHZ tHZ
tLZ tLZ
T0 T1 T2 T3 T4 T5 T6 T7 T8
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
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DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6 T7
READ
NOP NOP NOP NOP ACTIVE NOP
D
OUT
n
D
OUT
n+1
D
OUT
n+2
D
OUT
n+3
BANK a,
COL nBANK a,
ROW
BANK
(a or all)
CAS Latency - 2
t
RP
PRECHARGE
t
RQL
High-Z
DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6 T7
READ
NOP NOP NOP NOP NOP ACTIVE
D
OUT
n
D
OUT
n+1
D
OUT
n+2
D
OUT
n+3
BANK,
COL nBANK,
COL b
CAS Latency - 3
t
RP
t
RQL
BANK a,
ROW
PRECHARGE
High-Z
READ to PRECHARGE
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CLK
CKE
HIGH
COLUMN ADDRESS
AUTO PRECHARGE
BANK ADDRESS
CS
RAS
CAS
WE
A0-A9
A10
BA0, BA1
NO PRECHARGE
A11, A12
WRITE COMMAND
Thestartingcolumnandbankaddressesareprovidedwith
theWRITEcommand,andautoprechargeiseitherenabled
or disabled for that access. If auto precharge is enabled,
the row being accessed is precharged at the completion of
theburst.ForthegenericWRITEcommandsusedinthe
following illustrations, auto precharge is disabled.
DuringWRITEbursts,therstvalid
data-in
element will be
registered coincident
with the
WRITE
command.
Subsequent
data elements will be registered on each successive posi-
tiveclockedge.Uponcompletionofaxed-lengthburst,
assuming no other commands have been initiated, the
DQswillremainHigh-Zandanyadditionalinputdatawill
beignored(seeWRITEBurst).Afull-pageburstwillcon-
tinue until terminated. (At the end of the page, it will wrap
to column 0 and continue.)
DataforanyWRITEburstmaybetruncatedwithasubse-
quentWRITEcommand,anddataforaxed-lengthWRITE
burst may be immediately followed by data for a WRITE
command. The new WRITE command can be issued on
anyclockfollowingthepreviousWRITEcommand,andthe
data provided coincident with the new command applies to
the new command.
AnexampleisshowninWRITEtoWRITEdiagram.Data
n + 1 is either the last of a burst of two or the last desired
ofalongerburst.The256MbSDRAMusesapipelined
architecture and therefore does not require the 2n rule as-
sociatedwithaprefetcharchitecture.AWRITEcommand
can be initiated on any clock cycle following a previous
WRITEcommand.Full-speedrandomwriteaccesseswithin
a page can be performed to the same bank, as shown in
RandomWRITECycles,oreachsubsequentWRITEmay
be performed to a different bank.
DataforanyWRITEburstmaybetruncatedwithasubse-
quentREADcommand,anddataforaxed-lengthWRITE
burstmaybeimmediatelyfollowedbyasubsequentREAD
command.OncetheREADcommandisregistered,the
datainputswillbeignored,andWRITEswillnotbeex-
ecuted.AnexampleisshowninWRITEtoREAD.Datan
+ 1 is either the last of a burst of two or the last desired
of a longer burst.
Data for a xed-length WRITE burst may be followed
by,or truncated with,a PRECHARGEcommand tothe
same bank (provided that auto precharge was not acti-
vated), and a full-pageWRITE burst may be truncated
withaPRECHARGE commandtothe same bank.The
PRECHARGEcommandshouldbeissuedtdpl after the
clock edge at which the last desired input data element
isregistered.Theautoprechargemoderequiresatdpl of
at least one clock plus time, regardless of frequency. In
addition,whentruncatingaWRITEburst,theDQMsignal
must be used to mask input data for the clock edge prior
to,andtheclockedgecoincidentwith,thePRECHARGE
command.AnexampleisshownintheWRITEtoPRE-
CHARGEdiagram.Datan+1 is either the last of a burst
oftwoorthelastdesiredofalongerburst.Followingthe
PRECHARGEcommand,asubsequentcommandtothe
same bank cannot be issued until trp is met.
Inthecaseofaxed-lengthburstbeingexecutedtocomple-
tion, a PRECHARGE command issued at the optimum
time
(as described above)
provides the same operation that
wouldresultfromthesamexed-lengthburstwithauto
precharge.Thedisadvantageofthe
PRECHARGE
command
is that it requires that the command and address buses be
available at the appropriate time to issue the command; the
advantageofthePRECHARGEcommandisthatitcanbe
usedtotruncatexed-lengthorfull-pagebursts.
Fixed-lengthorfull-pageWRITEburstscanbetruncated
withtheBURSTTERMINATEcommand.Whentruncat-
ingaWRITEburst,theinputdataappliedcoincidentwith
theBURSTTERMINATEcommandwillbeignored.The
lastdatawritten(providedthatDQMisLOWatthattime)
will be the input data applied one clock previous to the
BURSTTERMINATEcommand.ThisisshowninWRITE
BurstTermination,wheredatan is the last desired data
element of a longer burst.
WRITES
WRITEburstsareinitiatedwithaWRITEcommand,as
showninWRITECommanddiagram.
Note:A9is"Don'tCare"forx16.
40 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3
WRITE
NOP
NOP
NOP
D
IN
n
D
IN
n+1
BANK,
COL n
DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2
WRITE
NOP
WRITE
D
IN
n
D
IN
n+1
D
IN
b
BANK,
COL nBANK,
COL b
DON'T CARE
WRITE BURST
WRITE TO WRITE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3
WRITE
WRITE
WRITE
WRITE
DIN n
DIN b
DIN m
DIN x
BANK,
COL nBANK,
COL bBANK,
COL mBANK,
COL x
RANDOM WRITE CYCLES
Integrated Silicon Solution, Inc. — www.issi.com 41
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
DON'T CARE
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5
WRITE
NOP
READ
NOP
NOP NOP
D
IN
n
D
IN
n+1
D
OUT
b
D
OUT
b+1
BANK,
COL nBANK,
COL b
CAS Latency - 2
WRITE to READ
WP1 - WRITE to PRECHARGE
DON'T CARE
CLK
DQM
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6
WRITE
NOP NOP NOP ACTIVE NOP
BANK a,
COL nBANK a,
ROW
BANK
(a or all)
tDPL
tRP
PRECHARGE
DIN n
DIN n+1 DIN n+2
42 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
CLK
COMMAND
ADDRESS
DQ
T0 T1 T2
WRITE
DIN n
(DATA )
BANK,
COL n
DON'T CARE
(ADDRESS)
BURST
TERMINAT E
NEXT
COMMAND
WRITE Burst Termination
DON'T CARE
CLK
DQM
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6
WRITE
NOP NOP NOP NOP ACTIVE
BANK a,
COL nBANK a,
ROW
BANK
(a or all)
tDPL
tRP
PRECHARGE
DIN n
DIN n+1
WP2 - WRITE to PRECHARGE
Integrated Silicon Solution, Inc. — www.issi.com 43
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
ACTIVE NOP WRITE NOP NOP NOP NOP
BURST TERM NOP
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
ROW
ROW
BANK
t
RCD
D
IN
m D
IN
m+
1
D
IN
m+
2
D
IN
m+
3
D
IN
m-
1
COLUMN m
(2)
t
CH
t
CL
t
CK
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
t
CMS
t
CMH
t
CKS
t
CKH
BANK
Full page completed
T0 T1 T2 T3 T4 T5 Tn+1 Tn+2
WRITE - FULL PAGE BURST
Notes:
1) Burst Length = Full Page
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
44 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
tCMS tCMH
ACTIVE NOP WRITE NOP NOP NOP NOP NOP
tAS tAH
tAS tAH
tAS tAH
tDS tDH tDS tDH tDS tDH
ENABLE AUTO PRECHARGE
DISABLE AUTO PRECHARGE
ROW
ROW
BANK
tRCD
DIN m DIN m+
2
DIN m+
3
COLUMN m
(2)
BANK
tCH
tCLtCK
tCMS tCMH
tCKS tCKH
T0 T1 T2 T3 T4 T5 T6 T7
WRITE - DQM OPERATION
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.com 45
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
ALTERNATING BANK WRITE ACCESSES
BANK 0 BANK 1 BANK 1 BANK 0
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
t
RCD
- BANK 0
tRCD
- BANK 0
t
DPL
- BANK 1
t
RAS
- BANK 0
t
RC
- BANK 0
t
CH
t
CL
t
CK
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
t
CMS
t
CMH
t
CKS
t
CKH
ACTIVE NOP WRITE NOP ACTIVE NOP WRITE NOP NOP ACTIVE
D
IN
m D
IN
m+1 D
IN
m+2 D
IN
m+3 D
IN
b D
IN
b+1 D
IN
b+2 D
IN
b+3
ROW
ROW
BANK 0
ROW ROW
t
RRD
t
RCD
- BANK 1
t
DPL
- BANK 0 t
RP
- BANK 0
COLUMN m(2)
ROW
COLUMN b(2)
ROW
ENABLE AUTO PRECHARGE ENABLE AUTO PRECHARGE
T0 T1 T2 T3 T4 T5 T6 T7 T8 T9
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
46 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
DON'T CARE
CLK
CKE
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5
NOP
WRITE
NOP NOP
BANK a,
COL n
D
IN
n
D
IN
n+1 D
IN
n+2
INTERNAL
CLOCK
DON'T CARE
CLK
CKE
COMMAND
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6
READ
NOP NOP NOP NOP NOP
BANK a,
COL n
DOUT n DOUT n+1 DOUT n+2 DOUT n+3
INTERNAL
CLOCK
CLOCK SUSPEND
Clock suspend mode occurs when a column access/burst
isinprogressandCKEisregisteredLOW. Intheclock
suspendmode,theinternalclockisdeactivated,“freezing”
the synchronous logic.
ForeachpositiveclockedgeonwhichCKEissampled
LOW,thenextinternalpositiveclockedgeissuspended.
Any command or data present on the input pins at the time
of a suspended internal clock edge is ignored; any data
presentontheDQpinsremainsdriven;andburstcounters
are not incremented, as long as the clock is suspended.
(See following examples.)
ClocksuspendmodeisexitedbyregisteringCKEHIGH;
the internal clock and related operation will resume on the
subsequent positive clock edge.
Clock Suspend During WRITE Burst
Clock Suspend During READ Burst
Integrated Silicon Solution, Inc. — www.issi.com 47
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
CLOCK SUSPEND MODE
Notes:
1) CAS latency = 3, Burst Length = 2, Auto Precharge is disabled.
2) X16: A9, A11, and A12 = "Don't Care"
X8: A11 and A12 = "Don't Care"
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
COLUMN m(2)
T0 T1 T2 T3 T4 T5 T6 T7 T8 T9
READ NOP NOP NOP NOP NOP WRITE NOP
t
CKS
t
CKH
BANK BANK
COLUMN n(2)
t
AC
t
AC
tOH
t
HZ
DOUT m DOUT m+1
tLZ
UNDEFINED
DIN e+1
t
DS
t
DH
DIN e
48 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
CLK
CKE
HIGH
ALL BANKS
BANK SELECT
BANK ADDRESS
CS
RAS
CAS
WE
A0-A9, A11, A12
A10
BA0, BA1
DON'T CARE
CLK
CKE
COMMAND NOP NOP
ACTIVE
≥ tCKStCKS
All banks idle
Enter
power-down mode
Exit power-down mode
tRCD
tRAS
tRC
Input buffers gated
off
less than 64ms
PRECHARGE Command
POWER-DOWN
POWER-DOWN
Power-downoccursifCKEisregisteredLOWcoincident
withaNOP orCOMMANDINHIBITwhennoaccesses
areinprogress.Ifpower-downoccurswhenallbanksare
idle,thismodeisreferredtoasprechargepower-down;
ifpower-downoccurswhenthereisarowactiveineither
bank, this mode is referred to as active power-down.
Entering power-down deactivates the input and output
buffers,excludingCKE,formaximumpowersavingswhile
instandby.Thedevicemaynotremaininthepower-down
statelongerthantherefreshperiod(64ms)sincenorefresh
operations are performed in this mode.
Thepower-downstateisexitedbyregisteringaNOPor
COMMANDINHIBITandCKEHIGHatthedesiredclock
edge (meeting tcks). See figure below.
PRECHARGE
ThePRECHARGEcommand(seegure)isusedtodeac-
tivate the open row in a particular bank or the open row in
allbanks.Thebank(s)willbeavailableforasubsequentrow
access some specified time (trp)afterthePRECHARGE
command is issued. Input A10 determines whether one or
all banks are to be precharged, and in the case where only
onebankistobeprecharged,inputsBA0,BA1selectthe
bank.Whenallbanksaretobeprecharged,inputsBA0,
BA1aretreatedas“Don’tCare.”Onceabankhasbeen
precharged, it is in the idle state and must be activated
priortoanyREADorWRITEcommandsbeingissuedto
that bank.
Integrated Silicon Solution, Inc. — www.issi.com 49
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
POWER-DOWN MODE CYCLE
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
tAS tAH
BANK
tCH
tCL
tCK
tCMS tCMH
tCKS tCKH
PRECHARGE
NOP NOP NOP
ACTIVE
ALL BANKS
SINGLE BANK
ROW
ROW
BANK
tCKStCKS
Precharge all
active banks
All banks idle
Two clock cycles
Input buffers gated
off while in
power-down mode
All banks idle, enter
power-down mode
Exit power-down mode
T0 T1 T2 Tn+1 Tn+2
High-Z
50 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
DON'T CARE
CLK
COMMAND
BANK n
BANK m
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6 T7
NOP NOP NOP NOP NOP NOP
DOUT a
DOUT a+1
DOUT b
DOUT b+1
BANK n,
COL a
CAS Latency - 3 (BANK n)
CAS Latency - 3 (BANK m)
t
RP - BANK n
t
RP - BANK m
READ - AP
BANK n
READ - AP
BANK m
Page Active READ with Burst of 4 Interrupt Burst, Precharge Idle
Page Active READ with Burst of 4 Precharge
Internal States
BANK n,
COL b
BURST READ/SINGLE WRITE
Theburstread/singlewritemodeisenteredbyprogramming
the write burst mode bit
(M9)
in the mode register to a logic
1. In this mode, all
WRITE
commands result in the access
of a single column location (burst of one), regardless of
theprogrammedburstlength.READcommandsaccess
columns according to the programmed burst length and
sequence,justasinthenormalmodeofoperation(M9
=0).
CONCURRENT AUTO PRECHARGE
Anaccesscommand(READorWRITE)toanotherbank
while an access command with auto precharge enabled is
executingisnotallowedbySDRAMs,unlesstheSDRAM
supports CONCURRENT AUTO PRECHARGE. ISSI
SDRAMssupportCONCURRENTAUTOPRECHARGE.
FourcaseswhereCONCURRENTAUTOPRECHARGE
occurs are defined below.
READ with Auto Precharge
1.InterruptedbyaREAD(withorwithoutautoprecharge):
AREADtobankmwillinterruptaREADonbankn,
CAS latency later. The PRECHARGE to bank n will
beginwhentheREADtobankmisregistered.
2.InterruptedbyaWRITE(withorwithoutautoprecharge):
AWRITEtobankmwillinterruptaREADonbankn
whenregistered.DQMshouldbeusedthreeclocksprior
totheWRITEcommandtopreventbuscontention.The
PRECHARGEtobanknwillbeginwhentheWRITEto
bank m is registered.
READ With Auto Precharge interrupted by a READ
READ With Auto Precharge interrupted by a WRITE
DON'T CARE
CLK
COMMAND
BANK n
BANK m
ADDRESS
DQM
DQ
T0 T1 T2 T3 T4 T5 T6 T7
NOP NOP NOP NOP NOP NOP
D
OUT
a
D
IN
b
D
IN
b+1
D
IN
b+2
D
IN
b+3
BANK n,
COL aBANK m,
COL b
CAS Latency - 3 (BANK n)
tRP - BANK n tDPL - BANK m
READ - AP
BANK n
WRITE - AP
BANK m
READ with Burst of 4 Interrupt Burst, Precharge Idle
Page Active WRITE with Burst of 4 Write-Back
Internal States Page Active
Integrated Silicon Solution, Inc. — www.issi.com 51
Rev. F
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IS45S83200G, IS45S16160G
DON'T CARE
CLK
COMMAND
BANK n
BANK m
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6 T7
NOP NOP NOP NOP NOP NOP
D
IN
a
D
IN
a+1
D
OUT
b
D
OUT
b+1
BANK n,
COL aBANK m,
COL b
CAS Latency - 3 (BANK m)
t
RP - BANK n
t
RP - BANK m
WRITE - AP
BANK n
READ - AP
BANK m
Page Active WRITE with Burst of 4 Interrupt Burst, Write-Back Precharge
Page Active READ with Burst of 4 Precharge
Internal States
t
DPL
- BANK n
DON'T CARE
CLK
COMMAND
BANK n
BANK m
ADDRESS
DQ
T0 T1 T2 T3 T4 T5 T6 T7
NOP NOP NOP NOP NOP NOP
BANK n,
COL aBANK m,
COL b
t
RP - BANK n
t
DPL - BANK m
WRITE - AP
BANK n
WRITE - AP
BANK m
Page Active WRITE with Burst of 4 Interrupt Burst, Write-Back Precharge
Page Active WRITE with Burst of 4 Write-Back
Internal States
t
DPL
- BANK n
D
IN
a
D
IN
a+1 D
IN
a+2
D
IN
b
D
IN
b+1 D
IN
b+2 D
IN
b+3
WRITE with Auto Precharge
3.InterruptedbyaREAD(withorwithoutautoprecharge):
AREADtobankmwillinterruptaWRITEonbanknwhen
registered, with the data-out appearing
(CAS latency)
later.ThePRECHARGEtobanknwillbeginaftertdpl
is met, where tdplbeginswhentheREADtobankmis
registered.Thelastvalid
WRITE
tobanknwillbedata-in
registeredoneclockpriortotheREADtobankm.
4.InterruptedbyaWRITE(withorwithoutautoprecharge):
A
WRITE
to bank m will interrupt a
WRITE
on bank n when
registered.ThePRECHARGEtobanknwillbeginafter
tdpl is met, where tdplbeginswhentheWRITEtobank
misregistered.ThelastvaliddataWRITEtobankn
willbedataregisteredoneclockpriortoaWRITEto
bank m.
WRITE With Auto Precharge interrupted by a READ
WRITE With Auto Precharge interrupted by a WRITE
52 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
READ WITH AUTO PRECHARGE
DON'T CARE
UNDEFINED
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
ACTIVE NOP READ NOP NOP NOP NOP NOP ACTIVE
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
ROW
ROW
BANK
COLUMN m
(2)
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
BANK
t
RCD
t
RAS
t
RC
CAS Latency
t
AC
t
AC
t
AC
t
AC
tOH
t
HZ
tOH
D
OUT
m
tOH
D
OUT
m+1
tOH
D
OUT
m+2 D
OUT
m+3
T0 T1 T2 T3 T4 T5 T6 T7 T8
t
RP
ENABLE AUTO PRECHARGE
ROW
ROW
BANK
t
LZ
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.com 53
Rev. F
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IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
READ WITHOUT AUTO PRECHARGE
DON'T CARE
UNDEFINED
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
ACTIVE NOP READ NOP NOP NOP
PRECHARGE
NOP ACTIVE
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
ROW
ROW
BANK
COLUMN m
(2)
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
BANK
t
RCD
CAS Latency
t
AC
t
AC
t
AC
t
AC
t
OH
t
HZ
t
OH
D
OUT
m
t
OH
D
OUT
m+1
t
OH
D
OUT
m+2 D
OUT
m+3
T0 T1 T2 T3 T4 T5 T6 T7 T8
DISABLE AUTO PRECHARGE
ROW
ROW
BANK
t
LZ
t
RAS
t
RC
t
RP
ALL BANKS
SINGLE BANK
BANK
Notes:
1) CAS latency = 2, Burst Length = 4
2) x16: A9, A11, A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
54 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
SINGLE READ WITH AUTO PRECHARGE
DON'T CARE
UNDEFINED
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
ACTIVE NOP NOP NOP READ NOP NOP ACTIVE NOP
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
ROW
ROW
BANK
COLUMN m
(2)
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
BANK
t
RCD
t
RAS
t
RC
CAS Latency
t
AC
t
HZ
tOH
D
OUT
m
T0 T1 T2 T3 T4 T5 T6 T7 T8
t
RP
ENABLE AUTO PRECHARGE
ROW
ROW
BANK
Notes:
1) CAS latency = 2, Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.com 55
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
SINGLE READ WITHOUT AUTO PRECHARGE
DON'T CARE
UNDEFINED
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
ACTIVE NOP READ NOP NOP
PRECHARGE
NOP ACTIVE NOP
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
ROW
ROW
BANK
COLUMN m(2)
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
BANK
t
RCD
t
RAS
t
RC
CAS Latency
t
AC
t
HZ
t
OH
DOUT m
T0 T1 T2 T3 T4 T5 T6 T7 T8
t
RP
DISABLE AUTO PRECHARGE
ROW
ROW
BANK
t
LZ
ALL BANKS
SINGLE BANK
BANK
Notes:
1) CAS latency = 2, Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
56 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
WRITE - WITH AUTO PRECHARGE
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
tCMS tCMH
tAS tAH
tAS tAH
tAS tAH
tRCD
tRAS
tRC
tCH
tCLtCK
tCMS tCMH
tCKS tCKH
ACTIVE
NOP WRITE NOP NOP NOP NOP NOP NOP
ACTIVE
tDPL tRP
COLUMN m
(2)
ROW
BANK BANK
ENABLE AUTO PRECHARGE
ROW
ROW
ROW
BANK
tDS tDH tDS tDH tDS tDHtDS tDH
DIN m DIN m+
1
DIN m+
2
DIN m+
3
T0 T1 T2 T3 T4 T5 T6 T7 T8 T9
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
Integrated Silicon Solution, Inc. — www.issi.com 57
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
WRITE - WITHOUT AUTO PRECHARGE
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
t
RCD
t
RAS
t
RC
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
ACTIVE
NOP WRITE NOP NOP NOP
PRECHARGE
NOP
ACTIVE
t
DPL
(3)
t
RP
COLUMN m(2)
ROW
DISABLE AUTO PRECHARGE
ROW
ROW
ROW
BANK
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
t
DS
t
DH
D
IN
m D
IN
m+1 D
IN
m+2 D
IN
m+3
BANK BANK BANK
ALL BANKS
SINGLE BANK
T0 T1 T2 T3 T4 T5 T6 T7 T8
Notes:
1) Burst Length = 4
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
3) tras must not be violated.
58 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
SINGLE WRITE WITH AUTO PRECHARGE
Notes:
1) Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML, DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
t
DS
t
DH
t
RCD
t
RAS
t
RC
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
ACTIVE NOP NOP NOP WRITE NOP NOP NOP ACTIVE NOP
t
DPL
t
RP
COLUMN m
(2)
ROW
BANK BANK
ENABLE AUTO PRECHARGE
ROW
ROW
ROW
BANK
D
IN
m
T0 T1 T2 T3 T4 T5 T6 T7 T8 T9
Integrated Silicon Solution, Inc. — www.issi.com 59
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
SINGLE WRITE - WITHOUT AUTO PRECHARGE
DON'T CARE
CLK
CKE
COMMAND
DQM/DQML
DQMH
A0-A9, A11, A12
A10
BA0, BA1
DQ
t
CMS
t
CMH
t
AS
t
AH
t
AS
t
AH
t
AS
t
AH
t
DS
t
DH
t
RCD
t
RAS
t
RC
t
CH
t
CL
t
CK
t
CMS
t
CMH
t
CKS
t
CKH
ACTIVE NOP WRITE NOP NOP
PRECHARGE
NOP
ACTIVE
NOP
t
DPL
(3)
t
RP
ROW
ROW
ROW
BANK
D
IN
m
COLUMN m(2)
ROW
BANK BANK BANK
ALL BANKS
SINGLE BANK
T0 T1 T2 T3 T4 T5 T6 T7 T8
DISABLE AUTO PRECHARGE
Notes:
1) Burst Length = 1
2) x16: A9, A11, and A12 = "Don't Care"
x8: A11 and A12 = "Don't Care"
3) tras must not be violated.
60 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
ORDERING INFORMATION - VDD = 3.3V
Commercial Range: 0°C to +70°C
Frequency Speed (ns) Order Part No. Package
200MHz 5 IS42S83200G-5TL 54-PinTSOPII,Lead-free
IS42S83200G-5BL 54-BallBGA,Lead-free
166MHz 6 IS42S83200G-6TL 54-PinTSOPII,Lead-free
143MHz 7 IS42S83200G-7TL 54-PinTSOPII,Lead-free
IS42S83200G-7BL 54-BallBGA,Lead-free
Frequency Speed (ns) Order Part No. Package
200MHz 5 IS42S16160G-5TL 54-PinTSOPII,Lead-free
IS42S16160G-5BL 54-BallBGA,Lead-free
166MHz 6 IS42S16160G-6TL 54-PinTSOPII,Lead-free
IS42S16160G-6BL 54-BallBGA,Lead-free
143MHz 7 IS42S16160G-7TL 54-PinTSOPII,Lead-free
IS42S16160G-7BL 54-BallBGA,Lead-free
IS42S16160G-7B 54-BallBGA,Leaded
Industrial Range: -40°C to +85°C
Frequency Speed (ns) Order Part No. Package
166MHz 6 IS42S83200G-6TLI 54-PinTSOPII,Lead-free
143MHz 7 IS42S83200G-7TLI 54-PinTSOPII,Lead-free
IS42S83200G-7BLI 54-BallBGA,Lead-free
Frequency Speed (ns) Order Part No. Package
166MHz 6 IS42S16160G-6TLI 54-PinTSOPII,Lead-free
IS42S16160G-6BLI 54-BallBGA,Lead-free
143MHz 7 IS42S16160G-7TLI 54-PinTSOPII,Lead-free
IS42S16160G-7BLI 54-BallBGA,Lead-free
IS42S16160G-7BI 54-BallBGA,Leaded
Integrated Silicon Solution, Inc. — www.issi.com 61
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
Automotive Range A1: -40°C to +85°C
Frequency Speed (ns) Order Part No. Package
166MHz 6 IS45S83200G-6TLA1 54-PinTSOPII,Alloy42leadframeplatedwithmatteSn
143MHz 7 IS45S83200G-7TLA1 54-PinTSOPII,Alloy42leadframeplatedwithmatteSn
IS45S83200G-7CTLA1 54-PinTSOPII,CuleadframeplatedwithmatteSn
IS45S83200G-7BLA1 54-ballBGA,SnAgCuballs
Frequency Speed (ns) Order Part No. Package
166MHz 6 IS45S16160G-6TLA1 54-PinTSOPII,Alloy42leadframeplatedwithmatteSn
IS45S16160G-6BLA1 54-ballBGA,SnAgCuballs
143MHz 7 IS45S16160G-7TLA1 54-PinTSOPII,Alloy42leadframeplatedwithmatteSn
IS45S16160G-7CTLA1 54-PinTSOPII,CuleadframeplatedwithmatteSn
IS45S16160G-7BLA1 54-ballBGA,SnAgCuballs
Automotive Range A2: -40°C to +105°C
Frequency Speed (ns) Order Part No. Package
143MHz 7 IS45S83200G-7TLA2 54-PinTSOPII,Alloy42leadframeplatedwithmatteSn
IS45S83200G-7CTLA2 54-PinTSOPII,CuleadframeplatedwithmatteSn
Frequency Speed (ns) Order Part No. Package
166MHz 6 IS45S16160G-6CTLA2 54-PinTSOPII,CuleadframeplatedwithmatteSn
IS45S16160G-6BLA2 54-PinTSOPII,SnAgCuballs
143MHz 7 IS45S16160G-7TLA2 54-PinTSOPII,Alloy42leadframeplatedwithmatteSn
IS45S16160G-7CTLA2 54-PinTSOPII,CuleadframeplatedwithmatteSn
IS45S16160G-7BLA2 54-ballBGA,SnAgCuballs
Notes:
1. Contact ISSI for leaded and copper lead frame parts support.
2.Partnumberswith"L"areleadfree,andRoHScompliant.
62 Integrated Silicon Solution, Inc. — www.issi.com
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
Integrated Silicon Solution, Inc. — www.issi.com 63
Rev. F
12/9/2013
IS42S83200G, IS42S16160G
IS45S83200G, IS45S16160G
Package Outline 10/17/2007
