M50FLW080A STMicroelectronics, M50FLW080A Datasheet - Page 10
M50FLW080A
Manufacturer Part Number
M50FLW080A
Description
8 Mbit (13 x 64KByte Blocks + 3 x 16 x 4KByte Sectors) 3V Supply Firmware Hub / Low Pin Count Flash Memory
Manufacturer
STMicroelectronics
Datasheet
1.M50FLW080A.pdf
(53 pages)
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M50FLW080A, M50FLW080B
SIGNAL DESCRIPTIONS
There are two distinct bus interfaces available on
this device. The active interface is selected before
power-up, or during Reset, using the Interface
Configuration Pin, IC.
The signals for each interface are discussed in the
Firmware Hub/Low Pin Count (FWH/LPC) Signal
Descriptions
Multiplexed (A/A Mux) Signal Descriptions
tion, respectively, while the supply signals are dis-
cussed in the
Firmware Hub/Low Pin Count (FWH/LPC)
Signal Descriptions
Please see
Input/Output Communications (FWH0/LAD0-
FWH3/LAD3). All Input and Output Communica-
tions with the memory take place on these pins.
Addresses and Data for Bus Read and Bus Write
operations are encoded on these pins.
Input
LFRAME). The Input Communication Frame
(FWH4/LFRAME) signal indicates the start of a
bus operation. When Input Communication Frame
is Low, V
bus operation is initiated. If Input Communication
Frame is Low, V
operation is aborted. When Input Communication
Frame is High, V
ther proceeding or the bus is idle.
Identification Inputs (ID0-ID3). Up to 16 memo-
ries can be addressed on a bus, in the Firmware
Hub (FWH) mode. The Identification Inputs allow
each device to be given a unique 4-bit address. A
‘0’ is signified on a pin by driving it Low, V
leaving it floating (since there is an internal pull-
down resistor, with a value of R
on a pin by driving it High, V
leakage current of I
By convention, the boot memory must have ad-
dress ‘0000’, and all additional memories are giv-
en addresses, allocated sequentially, from ‘0001’.
In the Low Pin Count (LPC) mode, the identifica-
tion Inputs (ID2-ID3) can address up to 4 memo-
ries on a bus. In the LPC mode, the ID0 and ID1
signals are Reserved for Future Use (RFU). The
value on address A20-A21 is compared to the
hardware strapping on the ID2-ID3 lines to select
the memory that is being addressed. For an ad-
dress bit to be ‘1’, the corresponding ID pin can be
left floating or driven Low, V
ternal pull-down resistor, with a value of R
an address bit to be ‘0’, the corresponding ID pin
must be driven High, V
age current of I
Table
10/53
24.). For details, see
IL
Communication
, on the rising edge of the Clock, a new
Figure 2.
section and the
Supply Signal Descriptions
LI2
IL
IH
, during a bus operation then the
, the current bus operation is ei-
through the pin, as specified in
LI2
and
through the pin).
IH
(and there will be a leak-
Table
Table
IH
IL
(and there will be a
(again, with the in-
Frame
IL
1..
Address/Address
). A ‘1’ is signified
5..
section.
(FWH4/
IL
). For
IL
sec-
, or
General Purpose Inputs (GPI0-GPI4). The
General Purpose Inputs can be used as digital in-
puts for the CPU to read, with their contents being
available in the General Purpose Inputs Register.
The pins must have stable data throughout the en-
tire cycle that reads the General Purpose Input
Register. These pins should be driven Low, V
High, V
Interface Configuration (IC). The Interface Con-
figuration input selects whether the FWH/LPC in-
terface or the Address/Address Multiplexed (A/A
Mux) Interface is used. The state of the Interface
Configuration, IC, should not be changed during
operation of the memory device, except for select-
ing the desired interface in the period before pow-
er-up or during a Reset.
To select the FWH/LPC Interface, the Interface
Configuration pin should be left to float or driven
Low, V
plexed (A/A Mux) Interface, the pin should be driv-
en High, V
included with a value of R
current of I
Interface Reset (RP). The Interface Reset (RP)
input is used to reset the device. When Interface
Reset (RP) is driven Low, V
Reset mode (the outputs go to high impedance,
and the current consumption is minimized). When
RP is driven High, V
eration. After exiting Reset mode, the memory en-
ters Read mode.
CPU Reset (INIT). The CPU Reset, INIT, signal
is used to Reset the device when the CPU is reset.
It behaves identically to Interface Reset, RP, and
the internal Reset line is the logical OR (electrical
AND) of RP and INIT.
Clock (CLK). The Clock, CLK, input is used to
clock the signals in and out of the Input/Output
Communication Pins, FWH0/LAD0-FWH3/LAD3.
The Clock conforms to the PCI specification.
Top Block Lock (TBL). The Top Block Lock in-
put is used to prevent the Top Block (Block 15)
from being changed. When Top Block Lock, TBL,
is driven Low, V
in the Top Block have no effect, regardless of the
state of the Lock Register. When Top Block Lock,
TBL, is driven High, V
is determined by the Lock Registers. The state of
Top Block Lock, TBL, does not affect the protec-
tion of the Main Blocks (Blocks 0 to 14). For de-
tails, see
Top Block Lock, TBL, must be set prior to a pro-
gram or erase operation being initiated, and must
not be changed until the operation has completed,
otherwise unpredictable results may occur. Simi-
larly, unpredictable behavior is possible if WP is
IH
IL
. To select the Address/Address Multi-
, and must not be left floating.
APPENDIX
LI2
IH
through each pin when pulled to V
. An internal pull-down resistor is
IL
, program and erase operations
IH
IH
A..
, the device is in normal op-
, the protection of the Block
IL
; there will be a leakage
IL
, the memory is in
IL,
IH
or
.
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