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IDT72V36106L15PF8

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30P31-P33P34-P36P37-P39
31
COMMERCIAL TEMPERATURE RANGE
IDT72V3686/72V3696/72V36106 3.3V CMOS TRIPLE BUS SyncFIFO
TM
WITH BUS-MATCHING 16,384 x 36 x 2, 32,768 x 36 x 2, 65, 536 x 36
NOTES:
1. tSKEW1 is the minimum time between a rising CLKC edge and a rising CLKC edge for IRC to transition HIGH in the next CLKC cycle. If the time between the rising CLKA edge and rising
CLKC edge is less than tSKEW1, then IRC may transition HIGH one CLKC cycle later than shown.
2. If Port C size is word or byte, IRC is set LOW by the last word or byte write of the long word, respectively (the word-size case is shown).
Figure 22. IRC Flag Timing and First Available Write when FIFO2 is Full (FWFT Mode)
CSA
ORA
MBA
ENA
A0-A35
CLKA
IRC
CLKC
4676 drw 24
12
C0-C17
MBC
WENC
t
CLK
t
CLKH
t
CLKL
t
ENS2
t
ENH
t
A
t
SKEW1
t
CLK
t
CLKH
t
CLKL
t
ENS2
t
ENS2
t
DS
t
ENH
t
ENH
t
DH
To FIFO2
Previous Word in FIFO2 Output Register
Next Word From FIFO2
LOW
W/RA
LOW
LOW
HIGH
(1)
FIFO2 Full
t
WFF
t
DH
t
DS
t
WFF
Write
32
COMMERCIAL TEMPERATURE RANGE
IDT72V3686/72V3696/72V36106 3.3V CMOS TRIPLE BUS SyncFIFO
TM
WITH BUS-MATCHING 16,384 x 36 x 2, 32,768 x 36 x 2, 65, 536 x 36
NOTES:
1. tSKEW2 is the minimum time between a rising CLKA edge and a rising CLKB edge for AEB to transition HIGH in the next CLKB cycle. If the time between the rising CLKA edge and rising
CLKB edge is less than tSKEW2, then AEB may transition HIGH one CLKB cycle later than shown.
2. FIFO1 Write (CSA = LOW, W/RA = LOW, MBA = LOW), FIFO1 read (CSB = LOW, MBB = LOW). Data in the FIFO1 output register has been read from the FIFO.
3. If Port B size is word or byte, AEB is set LOW by the last word or byte read from FIFO1, respectively.
Figure 24. Timing for
AEBAEB
AEBAEB
AEB
when FIFO1 is Almost-Empty (IDT Standard and FWFT Modes)
Figure 23.
FFCFFC
FFCFFC
FFC
Flag Timing and First Available Write when FIFO2 is Full (IDT Standard Mode)
NOTES:
1. tSKEW1 is the minimum time between a rising CLKA edge and a rising CLKC edge for FFC to transition HIGH in the next CLKC cycle. If the time between the rising CLKA edge and rising
CLKC edge is less than tSKEW1, then FFC may transition HIGH one CLKC cycle later than shown.
2. If Port C size is word or byte, FFC is set LOW by the last word or byte write of the long word, respectively (the word-size case is shown).
CSA
EFA
MBA
ENA
A0-A35
CLKA
FFC
CLKC
4676 drw 25
12
C0-C17
MBC
ENC
t
CLK
t
CLKH
t
CLKL
t
ENS2
t
ENH
t
A
t
SKEW1
t
CLK
t
CLKH
t
CLKL
t
ENS2
t
ENS2
t
DS
t
ENH
t
ENH
t
DH
To FIFO2
Previous Word in FIFO2 Output Register
Next Word From FIFO2
LOW
W/RA
LOW
LOW
HIGH
(1)
FIFO2 Full
t
WFF
t
WFF
t
DH
t
DS
Write
AEB
CLKA
RENB
4676 drw 26
ENA
CLKB
2
1
tENS2
tENH
tSKEW2
tPAE
tPAE
tENS2
tENH
X1 Word in FIFO1
(X1+1) Words in FIFO1
(1)
33
COMMERCIAL TEMPERATURE RANGE
IDT72V3686/72V3696/72V36106 3.3V CMOS TRIPLE BUS SyncFIFO
TM
WITH BUS-MATCHING 16,384 x 36 x 2, 32,768 x 36 x 2, 65, 536 x 36
NOTES:
1. tSKEW2 is the minimum time between a rising CLKC edge and a rising CLKA edge for AFC to transition HIGH in the next CLKC cycle. If the time between the rising CLKC edge and rising
CLKA edge is less than tSKEW2, then AFC may transition HIGH one CLKC cycle later than shown.
2. FIFO2 write (MBC = LOW), FIFO2 read (CSA = LOW, W/RA = LOW, MBA = LOW). Data in the FIFO2 output register has been read from the FIFO.
3. D = Maximum FIFO Depth = 16,384 for the IDT72V3686, 32,768 for the IDT72V3696, 65,536 for the IDT72V36106.
4. Port C size is word or byte, AFC is set LOW by the last word or byte write of the long word, respectively.
Figure 27. Timing for
AFCAFC
AFCAFC
AFC
when FIFO2 is Almost-Full (IDT Standard and FWFT Modes)
Figure 25. Timing for
AEAAEA
AEAAEA
AEA
when FIFO2 is Almost-Empty (IDT Standard and FWFT Modes)
Figure 26. Timing for
AFAAFA
AFAAFA
AFA
when FIFO1 is Almost-Full (IDT Standard and FWFT Modes)
NOTES:
1. t
SKEW2 is the minimum time between a rising CLKC edge and a rising CLKA edge for AEA to transition HIGH in the next CLKA cycle. If the time between the rising CLKC edge and rising
CLKA edge is less than tSKEW2, then AEA may transition HIGH one CLKA cycle later than shown.
2. FIFO2 Write (MBC = LOW), FIFO2 read (CSA = LOW, W/RA = LOW, MBA = LOW). Data in the FIFO2 output register has been read from the FIFO.
3. If Port C size is word or byte, tSKEW2 is referenced to the rising CLKC edge that writes the last word or byte of the long word, respectively.
NOTES:
1. tSKEW2 is the minimum time between a rising CLKA edge and a rising CLKB edge for AFA to transition HIGH in the next CLKA cycle. If the time between the rising CLKA edge and rising
CLKB edge is less than tSKEW2, then AFA may transition HIGH one CLKA cycle later than shown.
2. FIFO1 Write (CSA = LOW, W/RA = HIGH, MBA = LOW), FIFO1 read (CSB = LOW, MBB = LOW). Data in the FIFO1 output register has been read from the FIFO.
3. D = Maximum FIFO Depth = 16,384 for the IDT72V3686, 32,768 for the IDT72V3696, 65,536 for the IDT72V36106.
4. If Port B size is word or byte, tSKEW2 is referenced from the rising CLKB edge that reads the last word or byte of the long word, respectively.
AEA
CLKC
ENA
4676 drw 27
WENC
CLKA
2
1
t
ENS2
t
ENH
t
SKEW2
t
PAE
t
PAE
t
ENS2
t
ENH
(X2+1) Words in FIFO2
X2 Words in FIFO2
(1)
AFA
CLKA
RENB
4676 drw 28
ENA
CLKB
12
t
SKEW2
t
ENS2
t
ENH
t
PAF
t
ENS2
t
ENH
t
PAF
[D-(Y1+1)] Words in FIFO1
(D-Y1) Words in FIFO1
(1)
AFC
CLKC
ENA
4676 drw 29
WENC
CLKA
12
t
SKEW2
t
ENS2
t
ENH
t
PAF
t
ENS2
t
ENH
t
PAF
[D-(Y2+1)] Words in FIFO2
(D-Y2) Words in FIFO2
(1)
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30P31-P33P34-P36P37-P39

IDT72V36106L15PF8

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IC FIFO 131KX36 15NS 128QFP
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