MU9C2480A(1998) Ver la hoja de datos (PDF) - Music Semiconductors

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MU9C2480A
(Rev.:1998)

LANCAMs®

Music Semiconductors 

MU9C2480A/L

OPERATIONAL CHARACTERISTICS Continued

Priority Matching or Next Free location. When connected

in a daisy chain, the last device’s Full flag and Match flag

accurately report the condition for the whole string. A

system in which LANCAMs are vertically cascaded using

daisy-chaining of the flags is shown in Figure 1a on page 7.

the Status register of the device with the match. It also

permits updating the entry stored at the Highest-Priority

Match location. In the Enhanced mode, devices are enabled

to respond to some command and data writes, as noted in

Table 5b, but not command and data reads.

To operate the daisy chain, the Device Select registers are

set to FFFFH to enable all devices to execute Command

Write and Data Write cycles. In normal operation, read

cycles are enabled from the device with the Highest-Priority

match by locking the daisy chain (see the “Locked Daisy

Chain” section). An individual device in the chain may be

targeted for a read or write operation by temporarily setting

the Device Select registers to the Page address of the target

device. Setting the Device Select registers back to FFFFH

restores the operation of the entire daisy chain.

Table 5a (Standard mode) and Table 5b (Enhanced mode) show

when a device will respond to reads or writes and when it will

not, based on the state of /EC(int), the internal match condition,

and other control inputs. /EC is latched by the falling edge of

/E. /EC(int) is registered from the latched /EC signal off the

rising edge of /E, so it controls what happens in the next

cycle, as shown in Figure 6. When /EC is first taken LOW in a

string of LANCAM devices (and assuming the Device Select

registers are set to FFFFH), all devices will respond to that

command write or data write.

Match Flag Cascading

The Match Flag daisy chain cascading is used for three

purposes: first, to allow operations on Highest-Priority

Match addresses to be issued globally over the whole

string; second, to provide a system wide match flag; third,

to lock out all devices except the one with the Highest-

Priority match for instructions such as Status reads after a

match. The Match flag logic causes only the highest-priority

device to operate on its Highest-Priority Match location

while devices with lower-priority matches ignore Highest-

Priority Match operations. The lock-out feature is enabled

by the match flag cascading and the use of the /EC control

signal, as shown in Tables 5a and 5b on page 12.

The ripple delay of the flags when connected in a daisy

chain requires the extension of the /E HIGH time until the

logic in all devices has settled out. In a string of “n” devices,

the /E HIGH time should be greater than

tEHMFV + (n-2)· tMIVMFV

If the last device’s Match flag is required by external logic or a

state machine before the start of the next CAM cycle, one

additional tMIVMFV should be added to the /E HIGH time

along with the setup time and delays for the external logic.

Locked Daisy Chain

In a locked daisy chain, the highest-priority device is the

one with /MI HIGH and /MF LOW. In the Standard mode,

only this device will respond to command and data reads

and writes, until the daisy chain has been unlocked by

taking /EC HIGH. This allows reading the associated data

field from only the Highest-Priority Match location

anywhere in a string of devices, or the Match address from

From then on the daisy chain will remain 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 the Standard mode, only the Highest-Priority

Match device will respond (See Case 6 of Table 5a). 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 will respond to reads or writes until

the daisy chain is unlocked by taking /EC HIGH and

asserting /E for a cycle.

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 will respond 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

/E

/EC

/EC (IN T )

/MF

Figure 6: /EC(Int) Timing Diagram

Rev. 1a

14

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