參數(shù)資料
型號(hào): M50FW002
廠商: 意法半導(dǎo)體
英文描述: 2 Mbit 256Kb x8, Boot Block 3V Supply Firmware Hub Flash Memory
中文描述: 2兆位的256Kb × 8,啟動(dòng)塊3V電源閃存固件集線器
文件頁(yè)數(shù): 8/39頁(yè)
文件大?。?/td> 254K
代理商: M50FW002
M50FW002
8/39
BUS OPERATIONS
The two interfaces have similar bus operations but
the signals and timings are completely different.
The Firmware Hub (FWH) Interface is the usual
interface and all of the functionality of the part is
available through this interface. Only a subset of
functions are available through the Address/
Address Multiplexed (A/A Mux) Interface.
Follow the section Firmware Hub (FWH) Bus
Operations below and the section Address/
Address Multiplexed (A/A Mux) Interface Bus
Operations below for a description of the bus
operations on each interface.
Firmware Hub (FWH) Bus Operations
The Firmware Hub (FWH) Interface consists of
four data signals (FWH0-FWH3), one control line
(FWH4) and a clock (CLK). In addition protection
against accidental or malicious data corruption
can be achieved using two further signals (TBL
and WP). Finally two reset signals (RP and INIT)
are available to put the memory into a known
state.
The data signals, control signal and clock are
designed to be compatible with PCI electrical
specifications. The interface operates with clock
speeds up to 33MHz.
The following operations can be performed using
the appropriate bus cycles: Bus Read, Bus Write,
Standby, Reset and Block Protection.
Bus Read.
Bus Read operations read from the
memory cells, specific registers in the Command
Interface or Firmware Hub Registers. A valid Bus
Read operation starts when Input Communication
Frame, FWH4, is Low, V
IL
, as Clock rises and the
correct Start cycle is on FWH0-FWH3. On the
following clock cycles the Host will send the
Memory ID Select, Address and other control bits
on FWH0-FWH3. The memory responds by
outputting Sync data until the wait-states have
elapsed followed by Data0-Data3 and Data4-
Data7.
Refer to Table 4, FWH Bus Read Field Definitions,
and Figure 5, FWH Bus Read Waveforms (1-byte),
for a description of the Field definitions for each
clock cycle of the transfer. See Table 16, AC Mea-
surement Conditions (FWH Interface), and Figure
10, AC Signal Timing Waveforms (FWH Interface),
for details on the timings of the signals.
Bus Write.
Bus Write operations write to the
Command Interface or Firmware Hub Registers. A
valid Bus Write operation starts when Input
Communication Frame, FWH4, is Low, V
IL
, as
Clock rises and the correct Start cycle is on
FWH0-FWH3. On the following Clock cycles the
Host will send the Memory ID Select, Address,
other control bits, Data0-Data3 and Data4-Data7
on FWH0-FWH3. The memory outputs Sync data
until the wait-states have elapsed.
Refer to Table 5, FWH Bus Write Field Definitions,
and Figure 6, FWH Bus Write Waveforms, for a
description of the Field definitions for each clock
cycle of the transfer. See Table 16, AC
Measurement Conditions (FWH Interface), and
Figure 10, AC Signal Timing Waveforms (FWH
Interface), for details on the timings of the signals.
Bus Abort.
The Bus Abort operation can be used
to immediately abort the current bus operation. A
Bus Abort occurs when FWH4 is driven Low, V
IL
,
during the bus operation; the memory will tri-state
the Input/Output Communication pins, FWH0-
FWH3.
Note that, during a Bus Write operation, the
Command
Interface
command as soon as the data is fully received; a
Bus Abort during the final TAR cycles is not
guaranteed to abort the command; the bus,
however, will be released immediately.
Standby.
When FWH4 is High, V
IH
, the memory
is put into Standby mode where FWH0-FWH3 are
put into a high-impedance state and the Supply
Current is reduced to the Standby level, I
CC1
.
Reset.
During Reset mode all internal circuits are
switched off, the memory is deselected and the
outputs are put in high-impedance. The memory is
in Reset mode when Interface Reset, RP, or CPU
Reset, INIT, is Low, V
IL
. RP or INIT must be held
Low, V
IL
, for t
PLPH
. The memory resets to Read
mode upon return from Reset mode and the Lock
Registers return to their default states regardless
of their state before Reset, see Table 12. If RP or
INIT goes Low, V
IL
, during a Program or Erase
operation, the operation is aborted and the
memory cells affected no longer contain valid
data; the memory can take up to t
PLRH
to abort a
Program or Erase operation.
Block Protection.
Block
forced using the signals Top Block Lock, TBL, and
Write Protect, WP, regardless of the state of the
Lock Registers.
starts
executing
the
Protection
can
be
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