IDT72V83L20PAI 概述
FIFO, 4KX9, 20ns, Asynchronous, CMOS, PDSO56 FIFO
IDT72V83L20PAI 规格参数
是否无铅: | 含铅 | 是否Rohs认证: | 不符合 |
生命周期: | Obsolete | Reach Compliance Code: | not_compliant |
ECCN代码: | EAR99 | HTS代码: | 8542.32.00.71 |
风险等级: | 5.33 | 最长访问时间: | 20 ns |
最大时钟频率 (fCLK): | 33.3 MHz | JESD-30 代码: | R-PDSO-G56 |
JESD-609代码: | e0 | 内存密度: | 36864 bit |
内存集成电路类型: | OTHER FIFO | 内存宽度: | 9 |
湿度敏感等级: | 1 | 端子数量: | 56 |
字数: | 4096 words | 字数代码: | 4000 |
工作模式: | ASYNCHRONOUS | 最高工作温度: | 85 °C |
最低工作温度: | -40 °C | 组织: | 4KX9 |
封装主体材料: | PLASTIC/EPOXY | 封装代码: | TSSOP |
封装等效代码: | TSSOP56,.3,20 | 封装形状: | RECTANGULAR |
封装形式: | SMALL OUTLINE, THIN PROFILE, SHRINK PITCH | 峰值回流温度(摄氏度): | 225 |
电源: | 3.3 V | 认证状态: | Not Qualified |
最大待机电流: | 0.005 A | 子类别: | FIFOs |
最大压摆率: | 0.1 mA | 标称供电电压 (Vsup): | 3.3 V |
表面贴装: | YES | 技术: | CMOS |
温度等级: | INDUSTRIAL | 端子面层: | Tin/Lead (Sn85Pb15) |
端子形式: | GULL WING | 端子节距: | 0.5 mm |
端子位置: | DUAL | 处于峰值回流温度下的最长时间: | 30 |
Base Number Matches: | 1 |
IDT72V83L20PAI 数据手册
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PDF下载IDT72V81
IDT72V82
IDT72V83
IDT72V84
IDT72V85
3.3 Volt CMOS DUAL ASYNCHRONOUS FIFO
DUAL 512 x 9, DUAL 1,024 x 9
DUAL 2,048 x 9, DUAL 4,096 X 9
DUAL 8,192 X 9
FEATURES:
DESCRIPTION:
♦
♦
♦
♦
♦
♦
The IDT72V81 is equivalent to two IDT72V01 - 512 x 9 FIFOs
The IDT72V82 is equivalent to two IDT72V02 - 1,024 x 9 FIFOs
The IDT72V83 is equivalent to two IDT72V03 - 2,048 x 9 FIFOs
The IDT72V84 is equivalent to two IDT72V04 - 4,096 x 9 FIFOs
The IDT72V85 is equivalent to two IDT72V05 - 8,192 x 9 FIFOs
Low power consumption
TheIDT72V81/72V82/72V83/72V84/72V85aredual-FIFOmemoriesthat
loadandemptydataonafirst-in/first-outbasis.Thesedevicesarefunctionaland
compatibletotwoIDT72V01/72V02/72V03/72V04/72V05FIFOsinasingle
packagewithallassociatedcontrol,data,andflaglinesassignedtoseparate
pins. The devices use Full and Empty flags to prevent data overflow and
underflowandexpansionlogictoallowforunlimitedexpansioncapabilityinboth
word size and depth.
— Active: 330 mW (max.)
— Power-down: 18 mW (max.)
Ultra high speed—15 ns access time
Asynchronous and simultaneous read and write
Offers optimal combination of data capacity, small foot print
and functional flexibility
The reads and writes are internally sequential through the use of ring
pointers,withnoaddressinformationrequiredtoloadandunloaddata. Data
istoggledinandoutofthedevicesthroughtheuseoftheWrite(W)andRead
(R) pins.
♦
♦
♦
The devices utilize a 9-bit wide data array to allow for control and parity
♦
Ideal for bidirectional, width expansion, depth expansion, bus- bitsattheuser’soption.Thisfeatureis especiallyusefulindatacommunications
matching, and data sorting applications
Status Flags: Empty, Half-Full, Full
Auto-retransmit capability
High-performance CEMOS™ technology
Space-saving TSSOP package
applicationswhereitisnecessarytouseaparitybitfortransmission/reception
errorchecking.ItalsofeaturesaRetransmit(RT)capabilitythatallowsforreset
of the read pointer to its initial position when RT is pulsed low to allow for
retransmissionfromthebeginningofdata.AHalf-FullFlagisavailableinthe
singledevicemodeandwidthexpansionmodes.
These FIFOs are fabricated using IDT’s high-speed CMOS technology.
Theyaredesignedforthoseapplicationsrequiringasynchronousandsimul-
taneousread/writesinmultiprocessingandratebufferapplications.
♦
♦
♦
♦
♦
Industrial temperature range (–40°C to +85°C) is available
FUNCTIONAL BLOCK DIAGRAM
DATA INPUTS
DATA INPUTS
(DA
0
-DA
8)
RSA
(DB
0
-DB
8)
RSB
WB
WRITE
CONTROL
WRITE
CONTROL
WA
RAM
RAM
ARRAY A
512 x 9
ARRAY A
512 x 9
1,024 x 9
2,048 x 9
4,096 x 9
8,192 x 9
1,024 x 9
2,048 x 9
4,096 x 9
8,192 x 9
WRITE
POINTER
WRITE
POINTER
READ
POINTER
READ
POINTER
THREE-
STATE
BUFFERS
THREE-
STATE
BUFFERS
READ
CONTROL
READ
CONTROL
RA
RESET
LOGIC
RESET
LOGIC
FLAG
LOGIC
FLAG
LOGIC
EXPANSION
LOGIC
EXPANSION
LOGIC
XIA
FFA EFA
RB
XIB
XOA/HFA
FLA/RTA
FFB EFB
FLB/RTB
DATA
XOB/HFB
DATA
OUTPUTS
(QB0-QB8)
OUTPUTS
3966 drw 01
(QA -QA8)
0
August 1999
1
1999 Integrated Device Technology, Inc.
DSC-3966/-
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
PIN CONFIGURATION
ABSOLUTE MAXIMUM RATINGS
Symbol
Rating
Commercial
Unit
VTERM
TerminalVoltage
–0.5 to +7.0
V
with Respect to GND
FFA
XIA
DA
DA
DA
1
56
55
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
QA0
0
1
2
2
TSTG
IOUT
StorageTemperature
DCOutputCurrent
–55to+125
–50to+50
°C
QA
QA
QA
1
3
mA
2
3
4
DA3
5
NOTE:
QA
8
DA
8
6
1. Stresses greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause
permanent damage to the device. This is a stress rating only and functional operation of
the device at these or any other conditions 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.
GND
WA
7
RA
V
CC
4
5
6
8
QA
4
DA
DA
DA
DA
9
QA
QA
QA
5
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
6
7
7
XOA/HFA
EFA
FLA/RTA
RSA
RECOMMENDED DC OPERATING
CONDITIONS
FFB
XIB
QB
0
DB
0
QB
QB
QB
1
DB
DB
DB
DB
WB
1
Symbol
Parameter
Min. Typ.
Max.
Unit
V
2
3
2
VCC
SupplyVoltage
3.0
0
3.3
0
3.6
3
QB
8
8
GND
SupplyVoltage
0
V
GND
(1)
VIH
InputHighVoltage
InputLowVoltage
2.0
—
0
—
—
—
VCC+0.5
0.8
V
RB
V
CC
4
5
6
(2)
QB
4
DB
DB
DB
DB
VIL
V
QB
QB
QB
5
TA
OperatingTemperature
Commercial
70
°C
6
7
7
XOB/HFB
FLB/RTB
RSB
NOTES:
EFB
1. For RT/RS/XI input, VIH = 2.6V (commercial).
2. 1.5V undershoots are allowed for 10ns once per cycle.
3966 drw 02
TSSOP (SO56-2, order code: PA)
TOP VIEW
CAPACITANCE(TA = +25°C, f = 1.0 MHz)
Symbol
CIN
Parameter(1)
InputCapacitance
OutputCapacitance
Condition
VIN = 0V
Max.
8
Unit
pF
pF
COUT
VOUT = 0V
8
NOTE:
1. Characterized values, not currently tested.
DC ELECTRICAL
CHARACTERISTICS(1)
(Commercial: VCC = 3.3V±0.3V, TA = 0°C to +70°C)
AC TEST CONDITIONS
Input Pulse Levels
IDT72V81
GND to 3.0V
5ns
IDT72V82
IDT72V83
IDT72V84
IDT72V85
Commercial
tA = 15, 20 ns
Input Rise/Fall Times
Input Timing Reference Levels
Output Reference Levels
Output Load
1.5V
1.5V
See Figure 1
Symbol
Parameter
Min.
Max. Unit
3.3V
(1)
ILI
InputLeakageCurrent(AnyInput)
OutputLeakageCurrent
–1
–10
2.4
1
µA
µA
V
(2)
ILO
10
—
330Ω
VOH
OutputLogic“1”Voltage
IOH = –2mA
TO
OUTPUT
PIN
VOL
OutputLogic“0”Voltage
IOL = 8mA
—
0.4
V
30pF*
(3,4)
ICC1
Active Power Supply Current (both FIFOs)
—
—
100
5
mA
mA
510Ω
(3,5)
ICC2
Standby Current (R=W=RS=FL/RT=VIH)
3966 drw 03
NOTES:
1. Measurements with 0.4 ≤ VIN ≤ VCC.
2. R ≥ VIH, 0.4 ≤ VOUT ≤ VCC.
3. Tested with outputs open (IOUT = 0).
4. Tested at f = 20 MHz.
or equivalent circuit
Figure 1. Output Load
*Includes scope and jib capacitances.
5. All Inputs = VCC - 0.2V or GND + 0.2V.
2
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
ACELECTRICALCHARACTERISTICS(1)
(Commercial: VCC = 3.3V±0.3V, TA = 0°C to +70°C)
Commercial
IDT72V81L15
IDT72V82L15
IDT72V83L15
IDT72V84L15
IDT72V85L15
IDT72V81L20
IDT72V82L20
IDT72V83L20
IDT72V84L20
IDT72V85L20
Symbol
tS
Parameter
Min.
Max.
40
Min.
—
30
—
10
20
3
Max.
33.3
—
20
Unit
MHz
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ShiftFrequency
—
25
—
10
15
3
tRC
ReadCycleTime
AccessTime
—
15
tA
tRR
ReadRecoveryTime
ReadPulseWidth(2)
—
—
—
—
—
15
—
—
—
—
—
15
tRPW
tRLZ
tWLZ
tDV
(3)
ReadPulseLowtoDataBusatLowZ
(3,4)
WritePulseHightoDataBusatLowZ
DataValidfromReadPulseHigh
5
5
5
5
(3)
tRHZ
tWC
ReadPulseHightoDataBusatHighZ
—
25
15
10
11
0
—
30
20
10
12
0
WriteCycleTime
WritePulseWidth(2)
—
—
—
—
—
—
—
—
—
—
—
—
—
25
—
—
—
—
—
—
—
—
—
—
—
—
—
30
tWPW
tWR
WriteRecoveryTime
tDS
DataSet-upTime
tDH
DataHoldTime
tRSC
tRS
ResetCycleTime
ResetPulseWidth(2)
ResetSet-upTime(3)
25
15
15
10
25
15
15
10
—
—
—
—
—
15
—
—
—
—
15
—
—
15
10
10
30
20
20
10
30
20
20
10
—
—
—
—
—
20
—
—
—
—
20
—
—
20
10
10
tRSS
tRSR
tRTC
tRT
ResetRecoveryTime
RetransmitCycleTime
RetransmitPulseWidth(2)
RetransmitSet-upTime(3)
RetransmitRecoveryTime
ResettoEmptyFlagLow
ResettoHalf-FullandFullFlagHigh
RetransmitLowtoFlagsValid
Read Low to Empty Flag Low
ReadHightoFullFlagHigh
ReadPulseWidthafterEFHigh
WriteHightoEmptyFlagHigh
WriteLowtoFullFlagLow
WriteLowtoHalf-FullFlagLow
ReadHightoHalf-FullFlagHigh
WritePulseWidthafterFFHigh
Read/WritetoXO Low
Read/WritetoXO High
XIPulseWidth(2)
tRTS
tRTR
tEFL
tHFH,FFH
tRTF
tREF
tRFF
tRPE
tWEF
tWFF
tWHF
tRHF
tWPF
tXOL
tXOH
tXI
25
30
25
30
15
20
15
20
—
15
—
20
15
20
25
30
25
30
—
15
—
20
15
20
—
—
—
—
—
—
tXIR
XI Recovery Time
XISet-upTime
tXIS
NOTES:
1. Timings referenced as in AC Test Conditions.
2. Pulse widths less than minimum value are not allowed.
3. Values guaranteed by design, not currently tested.
4. Only applies to read data flow-through mode.
3
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
SingleDeviceMode,this pinacts as theretransmitinput.TheSingleDevice
Mode is initiated by grounding the Expansion In (XI).
SIGNALDESCRIPTIONS
INPUTS:
The IDT72V81/72V82/72V83/72V84/72V85 can be made to retransmit
datawhentheRetransmitEnablecontrol(RT)inputispulsedlow. Aretransmit
operationwillsettheinternalreadpointertothefirstlocationandwillnotaffect
the write pointer. ReadEnable (R)andWrite Enable (W)mustbe inthe high
stateduringretransmitfortheIDT72V81/72V82/72V83/72V84/72V85respec-
tively.Thisfeatureisusefulwhenlessthan512/1,024/2,048/4,096/8,192writes
areperformedbetweenresets.Theretransmitfeatureisnotcompatiblewiththe
DepthExpansionMode andwillaffectthe Half-FullFlag(HF),dependingon
therelativelocationsofthereadandwritepointers.
DATA IN (D0 – D8)
Data inputs for 9-bit wide data.
CONTROLS:
RESET ( RS )
ResetisaccomplishedwhenevertheReset(RS)inputistakentoalowstate.
Duringreset,bothinternalreadandwritepointersaresettothefirstlocation.
Aresetisrequiredafterpowerupbeforeawriteoperationcantakeplace.Both
the Read Enable ( R) and Write Enable ( W) inputs must be in the high
state during the window shown in Figure 2, (i.e., tRSS before the rising
edge of RS ) and should not change until tRSR after the rising edge of
RS. Half-Full Flag ( HF ) will be reset to high after Reset ( RS ).
EXPANSION IN ( XI )
Thisinputisadual-purposepin. ExpansionIn(XI)isgroundedtoindicate
an operation in the single device mode. Expansion In (XI) is connected to
ExpansionOut(XO)ofthe previous device inthe DepthExpansionorDaisy
Chain Mode.
WRITE ENABLE ( W )
AwritecycleisinitiatedonthefallingedgeofthisinputiftheFullFlag(FF)
isnotset.Dataset-upandholdtimesmustbeadheredtowithrespecttotherising
edgeoftheWriteEnable(W).DataisstoredintheRAMarraysequentiallyand
independently of any on-going read operation.
After half of the memory is filled and at the falling edge of the next write
operation,theHalf-FullFlag(HF)willbesettolowandwillremainsetuntilthe
differencebetweenthewritepointerandreadpointeris less thanorequalto
onehalfofthetotalmemoryofthedevice.TheHalf-FullFlag(HF)isthenreset
by the rising edge of the read operation.
OUTPUTS:
FULL FLAG ( FF )
TheFullFlag(FF)willgolow,inhibitingfurtherwriteoperation,whenthewrite
pointerisonelocationlessthanthereadpointer,indicatingthatthedeviceisfull.
If the read pointer is not moved after Reset (RS), the Full-Flag (FF) will go low
after512writes forthe IDT72V81, 1,024writes forthe IDT72V82, 2,048writes
for the IDT72V83, 4,096 writes for the IDT72V84 and 8,192 writes for the
IDT72V85.
Topreventdataoverflow,theFullFlag(FF)willgolow,inhibitingfurtherwrite
operations.Uponthecompletionofavalidreadoperation,theFullFlag(FF)
willgohighaftertRFF,allowingavalidwritetobegin.WhentheFIFOisfull,the
internalwritepointerisblockedfromW,soexternalchangesinWwillnotaffect
the FIFOwhenitis full.
EMPTY FLAG ( EF)
The EmptyFlag(EF)willgolow, inhibitingfurtherreadoperations, when
the read pointer is equal to the write pointer, indicating that the device is
empty.
EXPANSION OUT/HALF-FULL FLAG ( XO/HF)
READ ENABLE ( R)
This is a dual-purpose output. In the single device mode, when Expan-
sionIn(XI)isgrounded,thisoutputactsasanindicationofahalf-fullmemory.
After half of the memory is filled and at the falling edge of the next write
operation, the Half-Full Flag (HF) will be set low and will remain set until the
difference between the write pointer and read pointer is less than or equal
toonehalfofthetotalmemoryofthedevice.TheHalf-FullFlag(HF)isthenreset
by using rising edge of the read operation.
AreadcycleisinitiatedonthefallingedgeoftheReadEnable(R)provided
theEmptyFlag(EF)isnotset.ThedataisaccessedonaFirst-In/First-Outbasis,
independentofanyongoingwriteoperations.AfterReadEnable(R)goeshigh,
theDataOutputs(Q0–Q8)willreturntoahighimpedanceconditionuntilthe
nextReadoperation.WhenalldatahasbeenreadfromtheFIFO,theEmpty
Flag(EF)willgolow,allowingthe“final”readcyclebutinhibitingfurtherread
operationswiththedataoutputsremaininginahighimpedancestate.Oncea
validwriteoperationhasbeenaccomplished,theEmptyFlag(EF)willgohigh
aftertWEFandavalidReadcanthenbegin.WhentheFIFOisempty,theinternal
readpointerisblockedfromRsoexternalchangesinRwillnotaffecttheFIFO
whenitisempty.
IntheDepthExpansionMode,ExpansionIn(XI)isconnectedtoExpansion
Out(XO)ofthepreviousdeviceintheDaisyChainbyprovidingapulsetothe
nextdevicewhentheprevious devicereaches thelastlocationofmemory.
DATA OUTPUTS ( Q0 – Q8 )
Data outputs for 9-bit wide data. This data is in a high impedance
condition whenever Read (R) is in a high state.
FIRST LOAD/RETRANSMIT ( FL/RT )
This is a dual-purpose input. In the Depth Expansion Mode, this pin is
grounded to indicate that it is the first loaded (see Operating Modes). In the
4
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
tRSC
tRS
RS
W
tRSS
tRSR
tRSS
R
tEFL
EF
tHFH, tFFH
3966 drw 04
HF, FF
NOTES:
1. EF, FF, HF may change status during Reset, but flags will be valid at tRSC.
2. W and R = VIH around the rising edge of RS.
Figure 2. Reset
tRPW
tRC
tRR
tA
tA
R
tDV
tRHZ
tRLZ
Q0-Q8
DATA OUT VALID
DATA OUT VALID
tWC
tWR
tWPW
W
tDS
tDH
D0-D8
DATA IN VALID
DATA IN VALID
3966 drw 05
Figure 3. Asynchronous Write and Read Operation
LAST WRITE
IGNORED
WRITE
FIRST READ
ADDITIONAL
READS
FIRST
WRITE
R
W
t
WFF
t
RFF
3966 drw 06
FF
Figure 4. Full Flag From Last Write to First Read
5
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
LAST READ
IGNORED
READ
FIRST WRITE
ADDITIONAL FIRST READ
WRITES
W
R
EF
tWEF
t
REF
tA
VALID
VALID
DATA OUT
3966 drw 07
Figure 5. Empty Flag From Last Read to First Write
tRTC
tRT
RT
W,R
t
RTS
tRTR
t
RTF
HF, EF, FF
FLAG VALID
3966 drw 08
Figure 6. Retransmit
W
EF
R
t
WEF
tRPE
3966 drw 09
Figure 7. Minimum Timing for an Empty Flag Coincident Read Pulse
R
FF
W
t
RFF
tWPF
3966 drw 10
Figure 8. Minimum Timing for an Full Flag Coincident Write Pulse
6
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
W
R
tRHF
tWHF
HALF-FULL OR LESS
HALF-FULL OR LESS
HF
MORE THAN HALF-FULL
Figure 9. Half-Full Flag Timing
3966 drw 11
WRITE TO
LAST PHYSICAL
LOCATION
READ FROM
LAST PHYSICAL
LOCATION
W
R
tXOL
tXOH
tXOH
tXOL
3966 drw 12
XO
Figure 10. Expansion Out
tXIR
tXI
XI
tXIS
WRITE TO
FIRST PHYSICAL
LOCATION
W
R
tXIS
READ FROM
FIRST PHYSICAL
LOCATION
3966 drw 13
Figure 11. Expansion In
strates a four-FIFO Depth Expansion using two IDT72V81/72V82/72V83/
72V84/72V85s. Any depth can be attained by adding additional IDT72V81/
72V82/72V83/72V84/72V85s.TheseFIFOsoperateintheDepthExpansion
mode whenthe followingconditions are met:
OPERATINGMODES:
Caremustbetakentoassurethattheappropriateflagismonitoredbyeach
system(i.e.FF ismonitoredonthedevicewhereWisused;EFismonitoredon
the device where R is used).
1. ThefirstFIFOmustbedesignatedbygroundingtheFirstLoad(FL)control
input.
2. AllotherFIFOs musthave FLinthe highstate.
Single Device Mode
3. TheExpansionOut(XO)pinofeachdevicemustbetiedtotheExpansion
In (XI) pin of the next device. See Figure 14.
4. ExternallogicisneededtogenerateacompositeFullFlag(FF)andEmpty
Flag(EF).ThisrequirestheORingofallEFsandORingofall FFs(i.e.all
mustbesettogeneratethecorrectcomposite FFor EF).SeeFigure14.
5. TheRetransmit(RT)functionandHalf-FullFlag(HF)arenotavailablein
theDepthExpansionMode.
A single IDT72V81/72V82/72V83/72V84/72V85 may be used when the
applicationrequirementsarefor512/1,024/2,048/4,096/8,192wordsorless.
TheseFIFOsareinaSingleDeviceConfigurationwhentheExpansionIn(XI)
control input is grounded (see Figure 12).
Depth Expansion
Thesedevicescaneasilybeadaptedtoapplicationswhentherequirements
are for greater than 512/1,024/2,048/4,096/8,192 words. Figure 14 demon-
7
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
FIFOpermitsareadingofasinglewordafterwritingonewordofdataintoan
empty FIFO. The data is enabled on the bus in (tWEF + tA) ns after the rising
edgeofW,calledthefirstwriteedge,anditremainsonthe busuntiltheRline
israisedfromlow-to-high,afterwhichthebuswouldgointoathree-statemode
aftertRHZns.TheEFlinewouldhaveapulseshowingtemporarydeassertion
andthenwouldbe asserted.
In the write flow-through mode (Figure 18), the FIFO permits the writing
of a single word of data immediately after reading one word of data from a
fullFIFO.The Rlinecauses theFFtobedeassertedbutthe Wlinebeinglow
causesittobeassertedagaininanticipationofanewdataword.Ontherising
edgeofW,thenewwordisloadedintheFIFO.TheWlinemustbetoggledwhen
FFisnotassertedtowritenewdataintheFIFOandtoincrementthewritepointer.
USAGEMODES:
Width Expansion
Word width may be increased simply by connecting the corresponding
input control signals of multiple FIFOs. Status flags (EF, FF and HF) can be
detectedfromanyoneFIFO. Figure13demonstratesan18-bitwordwidthby
usingthetwoFIFOscontainedintheIDT72V81/72V82/72V83/72V84/72V85s.
Any word width can be attained by adding FIFOs (Figure 13).
Bidirectional Operation
Applications which require data buffering between two systems (each
system capable of Read and Write operations) can be achieved by pairing
IDT72V81/72V82/72V83/72V84/72V85sasshowninFigure16.BothDepth
ExpansionandWidthExpansionmaybeusedinthis mode.
Compound Expansion
Thetwoexpansiontechniquesdescribedabovecanbeappliedtogether
in a straightforward manner to achieve large FIFO arrays (see Figure 15).
Data Flow-Through
Two types of flow-through modes are permitted, a read flow-through
andwriteflow-throughmode.Forthereadflow-throughmode(Figure17),the
(HALF-FULL FLAG)
(HF)
WRITE (W)
READ (R)
FIFO
A or B
IDT
9
9
DATA IN (D)
FULL FLAG (FF)
RESET (RS)
DATA OUT (Q)
72V81
72V82
72V83
72V84
72V85
EMPTY FLAG (EF)
RETRANSMIT (RT)
3966 drw 14
EXPANSION IN (XI)
Figure 12. Block Diagram of One 512 x 9, 1,024 x 9, 2,048 x 9, 4,096 x 9 and 8,192 x 9 FIFO Used in Single Device Mode
9
HFA
HFB
18
9
DATA IN (D)
FIFO A
FIFO B
WRITE (W)
FULL FLAG (FFA)
RESET (RS)
READ (R)
EMPTY FLAG (EFB)
RETRANSMIT (RT)
9
72V81/72V82/72V83
72V84/72V85
9
XIA
XIB
18
OUT (Q)
DATA
3966 drw 15
Figure 13. Block Diagram of One 512 x 18, 1,024 x 18, 2,048 x 18, 4,096 x 18 and 8,192 x 18 FIFO Memory Used in Width Expansion Mode
8
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
TABLEIRESETANDRETRANSMIT
Single Device Configuration/Width Expansion Mode
Inputs
InternalStatus
Write Pointer
Outputs
Mode
RS
0
RT
X
0
XI
0
Read Pointer
LocationZero
LocationZero
EF
0
FF
1
HF
1
Reset
LocationZero
Unchanged
Retransmit
Read/Write
1
0
X
X
X
X
X
X
(1)
(1)
1
1
0
Increment
Increment
NOTE:
1. Pointer will increment if flag is High.
TABLE IIRESET AND FIRST LOAD TRUTH TABLE
Depth Expansion/Compound Expansion Mode
Inputs
InternalStatus
Write Pointer
Outputs
Mode
ResetFirstDevice
Reset All Other Devices
Read/Write
RS
0
FL
0
XI
(1)
(1)
(1)
Read Pointer
LocationZero
LocationZero
X
EF
0
FF
1
LocationZero
LocationZero
X
0
1
0
1
1
X
X
X
NOTE:
1. XI is connected to XO of previous device. See Figure 14. RS = Reset Input, FL/RT = First Load/Retransmit, EF = Empty Flag Output, FF = Full Flag Output, XI = Expan-
sion Input, HF = Half-Full Flag Output
XOA
EFA
FFA
FIFO A
FLA
XIA
72V81/72V82
72V83/72V84
72V85
XOB
W
R
EFB
FFB
FIFO B
D
Q
9
9
9
FLB
VCC
XIB
XOA
FFA
EFA
FULL
EMPTY
FIFO A
9
FLA
XIA
72V81/72V82
72V83/72V84
72V85
XOB
EFB
FFB
FIFO B
9
RSA
FLB
XIB
3966 drw 16
Figure 14. Block Diagram of 2,048 x 9, 4,096 x 9, 8,192 x 9, 16,384 x 9 and 32,768 x 9 FIFO Memory (Depth Expansion)
9
IDT72V81/72V82/72V83/72V84/72V85
Commercial Temperature Range
Q0-Q8
Q9-Q17
Q(N-8)-Q
N
Q0-Q8
Q9-Q17
Q(N-8)-Q
N
IDT
IDT
IDT
72V81/72V82/72V83
72V84/72V85
72V81/72V82/72V83
72V84/72V85
72V81/72V82/72V83
72V84/72V85
R, W, RS
DEPTH
EXPANSION
BLOCK
DEPTH
EXPANSION
BLOCK
DEPTH
EXPANSION
BLOCK
D9-D17
D(N-8)-D
N
D0-D8
D0-DN
D9-DN
D18-DN
D(N-8)-D
N
3966 drw 17
NOTES:
1. For depth expansion block see section on Depth Expansion and Figure 14.
2. For Flag detection see section on Width Expansion and Figure 13.
Figure 15. Compound FIFO Expansion
WA
RA
EF
HF
A
FIFO A
A
FFA
DA 0-8
QA 0-8
IDT
72V81
72V82
72V83
72V84
72V85
SIDE 1
SIDE 2
DA 0-8
QB 0-8
FIFO B
WB
RB
HF
B
FFB
EFB
3966 drw 18
Figure 16. Bidirectional FIFO Mode
IN
W
R
DATA
tRPE
EF
tWEF
tREF
tWLZ
tA
OUT
DATA
OUT
DATA
VALID
3966 drw 19
Figure 17. Read Data Flow-Through Mode
10
R
W
tWPF
t
RFF
FF
tDH
WFF
t
IN
DATA
VALID
IN
DATA
tA
tDS
OUT
DATA
OUT
DATA
VALID
3966 drw 20
Figure 18. Write Data Flow-Through Mode
ORDERING INFORMATION
IDT
XXXX
X
XXX
X
X
Device Type Power Speed Package
Process/
Temperature
Range
Blank
PA
Commercial (0°C to +70°C)
Thin Shrink SOIC (TSSOP, S056-2)
Access Time (t
in Nanoseconds
A) Speed
15
20
Commercial
Low Power
L
72V81 512 x 9 3.3V Dual FIFO
72V82 1,024 x 9 3.3V Dual FIFO
2,048 x 9 3.3V Dual FIFO
4,096 x 9 3.3V Dual FIFO
8,192 x 9 3.3V Dual FIFO
72V83
72V84
72V85
3966 drw 21
NOTE:
1. Industrial temperature range is available by special order.
CORPORATE HEADQUARTERS
2975StenderWay
Santa Clara, CA 95054
for SALES:
for Tech Support:
408-330-1753
email:FIFOhelp@idt.com
800-345-7015 or 408-727-6116
fax: 408-492-8674
www.idt.com*
PFPkg: www.idt.com/docs/PSC4039.pdf
*To search for sales office near you, please click the sales button found on our home page or dial the 800# above and press 2.
The Async FIFO is a trademark and the IDT logo is a registered trademark of Integrated Device Technology, Inc.
11
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