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MU9C1480A-70DC 参数 Datasheet PDF下载

MU9C1480A-70DC图片预览
型号: MU9C1480A-70DC
PDF下载: 下载PDF文件 查看货源
内容描述: LANCAM A / L系列 [LANCAM A/L series]
分类和应用: 存储内存集成电路静态存储器双倍数据速率局域网
文件页数/大小: 32 页 / 332 K
品牌: MUSIC [ MUSIC SEMICONDUCTORS ]
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LANCAM A/L series (not recommended for new designs)  
Operational Characteristics  
15. When /EC is first taken LOW in a string of LANCAM  
devices (and assuming the Device Select registers are set  
to FFFFH), all devices respond to that command write or  
data write.  
Full Flag Cascading  
The Full Flag daisy chain cascading has the following  
three purposes:  
Allow instructions that address Next Free locations to  
operate globally  
From then on the daisy chain remains locked in each  
subsequent cycle as long as /EC is held LOW on the  
falling edge of /E in the current cycle. When the daisy  
chain is locked in Standard mode, only the  
Highest-Priority Match device responds (See Case 6 of  
Table 4). If, for example, all of the CAM memory  
locations were empty, there would be no match, and /MF  
would stay HIGH. Since none of the devices could then be  
the Highest-Priority Match device, none respond to reads  
or writes until the daisy chain is unlocked by taking /EC  
HIGH and asserting /E for a cycle.  
Provide a system wide Full flag  
Allow the loading of the Page Address registers  
during initialization using the SFF instruction  
The full flag logic causes only the device containing the  
first empty location to respond to Next Free instructions  
such as MOV NF,CR,V, which moves the contents of the  
Comparand register to the first empty location in a string  
of devices and sets that location Valid, making it available  
for the next automatic compare. With devices connected as  
in Figure 3 on page 7, the /FF output of the last device in a  
string provides a full indication for the entire string.  
If there is a match between the data in the Comparand  
register and one or more locations in memory, then only  
the Highest-Priority Match device responds to any cycle,  
such as an associated data or Status Register read. If there  
is not a match, then a NOP with /EC HIGH needs to be  
inserted before issuing any new instructions, such as Write  
to Next Free Address instruction to learn the data. Since  
Next Free operations are controlled by the /FI–/FF daisy  
chain, only the device with the first empty location  
responds. If an instruction is used to unlock the daisy  
chain, it works only on the Highest-Priority Match device,  
if one exists. If none exists, the instruction has no effect  
except to unlock the daisy chain. To read the Status  
registers of specific devices when there is no match  
requires the use of the TCO DS command to set DS=PA of  
each device. Single chip systems can tie /EC HIGH and  
read the Status register or the /MA and /MM pins to  
monitor match conditions, as the daisy chain lock-out  
feature is not needed in this configuration. This removes  
the need to insert a NOP in the case of a no-match.  
IEEE 802.3/802.5 Format Mapping  
To support the symmetrical mapping between the address  
formats of IEEE 802.3 and IEEE 802.5, the LANCAM  
provides a bit translation facility. Formally expressed, the  
nth input bit, D(n), maps to the xth output bit, Q(x),  
through the following expressions:  
D(n) = Q(7–n) for 0 < n < 7,  
D(n) = Q(23–n) for 8 < n < 15  
Setting Control Register bit 10 and bit 9 selects whether to  
persistently translate, or persistently not to translate, the  
data written onto the 64-bit internal bus. The default  
condition after a Reset command is not to translate the  
incoming data. Figure 5 on page 9 shows the bit mapping  
between the two formats.  
Initializing the Lancam  
Initialization of the LANCAM is required to configure the  
various registers on the device. Since a Control register  
reset establishes the operating conditions shown in Table 3  
on page 11, restoration of operating conditions better  
suited for the application may be required after a reset,  
whether using the Control Register reset, or the /RESET  
pin. When the device powers up, the memory and registers  
are in an unknown state, so the /RESET pin must be  
asserted to place the device in a known state.  
When the Control register is set to Enhanced mode, you  
can continue to write data to the Comparand register or  
issue a Move to Next Free Address instruction without  
first having to issue a NOP with /EC HIGH to unlock the  
daisy chain after a Compare cycle with no match, as  
indicated in cases 4 and 5 of Table 4 on page 12. In  
Enhanced mode, data write cycles as well as command  
write cycles are enabled in all devices even when /EC is  
LOW. Exceptions are data writes, moves, or VBC  
instructions involving HM, which occur only in the device  
with the highest match; and data writes or move  
instructions involving NF, which occur only in the device  
with /FI LOW and /FF HIGH. Enhanced mode speeds up  
system performance by eliminating the need to unlock the  
daisy chain before Command or Data Write cycles.  
Setting Page Address Register Values  
In a vertically cascaded system, the user must set the  
individual Page Address registers to unique values by  
using the Page Address initialization mechanism. Each  
Page Address register must contain a unique value to  
prevent bus contention. This process allows individual  
device selection. The Page Address register initialization  
works as follows: Writes to Page Address registers are  
only active for devices with /FI LOW and /FF HIGH. At  
16  
Rev. 1  
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