参数资料
型号: IDT72V2105L15PF
厂商: IDT, Integrated Device Technology Inc
文件页数: 2/26页
文件大小: 0K
描述: IC FIFO SUPERSYNCII 15NS 64-TQFP
标准包装: 45
系列: 72V
功能: 同步
存储容量: 4.7Mb(262k x 18)
访问时间: 15ns
电源电压: 3 V ~ 3.6 V
工作温度: 0°C ~ 70°C
安装类型: 表面贴装
封装/外壳: 64-LQFP
供应商设备封装: 64-TQFP(14x14)
包装: 托盘
其它名称: 72V2105L15PF
10
COMMERCIAL AND INDUSTRIAL TEMPERATURE RANGES
IDT72V295/72V2105 3.3V HIGH DENSITY CMOS
SUPERSYNC FIFOTM 131,072 x 18, 262,144 x 18
SERIAL PROGRAMMING MODE
If Serial Programming mode has been selected, as described above, then
programming of
PAE and PAF values can be achieved by using a combina-
tion of the
LD, SEN, WCLK and SI input pins. Programming PAE and PAF
proceeds as follows: when
LD and SEN are set LOW, data on the SI input
are written, one bit for each WCLK rising edge, starting with the Empty
Offset LSB and ending with the Full Offset MSB. A total of 34 bits for the
IDT72V295 and 36 bits for the IDT72V2105. See Figure 13, Serial Loading
of Programmable Flag Registers, for the timing diagram for this mode.
Using the serial method, individual registers cannot be programmed
selectively.
PAE and PAF can show a valid status only after the complete
set of bits (for all offset registers) has been entered. The registers can be
reprogrammed as long as the complete set of new offset bits is entered.
When
LDis LOW and SENis HIGH, no serial write to the registers can occur.
Write operations to the FIFO are allowed before and during the serial
programming sequence. In this case, the programming of all offset bits
does not have to occur at once. A select number of bits can be written to
the SI input and then, by bringing
LD and SEN HIGH, data can be written to
FIFO memory via Dn by toggling
WEN. When WENis brought HIGH with LD
and
SEN restored to a LOW, the next offset bit in sequence is written to the
registers via SI. If an interruption of serial programming is desired, it is
sufficient either to set
LD LOW and deactivate SEN or to set SEN LOW and
deactivate
LD. Once LD and SEN are both restored to a LOW level, serial
offset programming continues.
From the time serial programming has begun, neither partial flag will be
valid until the full set of bits required to fill all the offset registers has been
written. Measuring from the rising WCLK edge that achieves the above
criteria;
PAF will be valid after two more rising WCLK edges plus tPAF, PAE
will be valid after the next two rising RCLK edges plus tPAE plus tSKEW2.
It is not possible to read the flag offset values in a serial mode.
PARALLEL MODE
If Parallel Programming mode has been selected, as described above,
then programming of
PAE and PAF values can be achieved by using a
combination of the
LD, WCLK , WEN and Dn input pins. For the ID72V295/
72V2105, programming
PAE and PAF proceeds as follows: when LD and
WEN are set LOW, data on the inputs Dn are written into the Empty Offset
LSB Register on the first LOW-to-HIGH transition of WCLK. Upon the
second LOW-to-HIGH transition of WCLK, data are written into the Empty
Offset MSB Register. Upon the third LOW-to-HIGH transition of WCLK,
data are written into the Full Offset LSB Register. Upon the fourth LOW-to-
HIGH transition of WCLK, data are written into the Full Offset MSB Register.
The fifth transition of WCLK writes, once again, to the Empty Offset LSB
Register. See Figure 14, Parallel Loading of Programmable Flag Registers, for
the timing diagram for this mode.
The act of writing offsets in parallel employs a dedicated write offset
register pointer. The act of reading offsets employs a dedicated read offset
register pointer. The two pointers operate independently; however, a read
and a write should not be performed simultaneously to the offset registers.
A Master Reset initializes both pointers to the Empty Offset (LSB) register.
A Partial Reset has no effect on the position of these pointers.
Write operations to the FIFO are allowed before and during the parallel
programming sequence. In this case, the programming of all offset registers
does not have to occur at one time. One, two or more offset registers can
be written and then by bringing
LDHIGH, write operations can be redirected
to the FIFO memory. When
LDis set LOW again, and WENis LOW, the next
offset register in sequence is written to. As an alternative to holding
WEN
LOW and toggling
LD, parallel programming can also be interrupted by
setting
LD LOW and toggling WEN.
Note that the status of a partial flag (
PAE or PAF) output is invalid during
the programming process. From the time parallel programming has begun,
a partial flag output will not be valid until the appropriate offset word has
been written to the register(s) pertaining to that flag. Measuring from the
rising WCLK edge that achieves the above criteria;
PAFwill be valid after two
more rising WCLK edges plus tPAF,
PAEwill be valid after the next two rising
RCLK edges plus tPAE plus tSKEW2.
The act of reading the offset registers employs a dedicated read offset
register pointer. The contents of the offset registers can be read on the Q0-
Qn pins when
LD is set LOW and REN is set LOW. For the IDT72V295/
72V2105, data are read via Qn from the Empty Offset LSB Register on the
first LOW-to-HIGH transition of RCLK. Upon the second LOW-to-HIGH
transition of RCLK, data are read from the Empty Offset MSB Register.
Upon the third LOW-to-HIGH transition of RCLK, data are read from the Full
Offset LSB Register. Upon the fourth LOW-to-HIGH transition of RCLK,
data are read from the Full Offset MSB Register. The fifth transition of RCLK
reads, once again, from the Empty Offset LSB Register. See Figure 15,
Parallel Read of Programmable Flag Registers, for the timing diagram for
this mode.
It is permissible to interrupt the offset register read sequence with reads
or writes to the FIFO. The interruption is accomplished by deasserting
REN,
LD, or both together. When RENand LDare restored to a LOW level, reading
of the offset registers continues where it left off. It should be noted, and care
should be taken from the fact that when a parallel read of the flag offsets is
performed, the data word that was present on the output lines Qn will be
overwritten.
Parallel reading of the offset registers is always permitted regardless of
which timing mode (IDT Standard or FWFT modes) has been selected.
RETRANSMIT OPERATION
The Retransmit operation allows data that has already been read to be
accessed again. There are two stages: first, a setup procedure that resets
the read pointer to the first location of memory, then the actual retransmit,
which consists of reading out the memory contents, starting at the beginning
of memory.
Retransmit setup is initiated by holding
RT LOW during a rising RCLK
edge.
REN and WEN must be HIGH before bringing RT LOW. At least two
words, but no more than D - 2 words, should have been written into the FIFO
and read from the FIFO between Reset (Master or Partial) and the time of
Retransmit setup. D = 131,072 for the IDT72V295 and D = 262,144 for the
IDT72V2105. In FWFT mode, D = 131,073 for the IDT72V295 and D =
262,145 for the IDT72V2105.
If IDT Standard mode is selected, the FIFO will mark the beginning of
the Retransmit setup by setting
EF LOW. The change in level will only be
noticeable if
EFwas HIGH before setup. During this period, the internal read
pointer is initialized to the first location of the RAM array.
When
EFgoes HIGH, Retransmit setup is complete and read operations
may begin starting with the first location in memory. Since IDT Standard
mode is selected, every word read including the first word following
Retransmit setup requires a LOW on
RENto enable the rising edge of RCLK.
See Figure 11, Retransmit Timing (IDT Standard Mode), for the relevant
timing diagram.
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