SLCF2GM2TU-S STEC, SLCF2GM2TU-S Datasheet - Page 10
SLCF2GM2TU-S
Manufacturer Part Number
SLCF2GM2TU-S
Description
Manufacturer
STEC
Datasheet
1.SLCF2GM2TU-S.pdf
(69 pages)
Specifications of SLCF2GM2TU-S
Lead Free Status / Rohs Status
Compliant
SLCFxxxM2TU(I)(-x)
Datasheet
2.4
Note: Part numbers with -P extension do not support MDWMA and UMDA.
BVD2
(PC Card Memory Mode)
-SPKR
(PC Card I/O Mode)
-DASP
(TrueIDE Mode)
-CD1, -CD2
(PC Card Memory Mode)
-CD1, -CD2
-CD1, -CD2
D15 - D00
(PC Card Memory Mode)
D15 - D00
PC Card I/O Mode
D15 - D00
(TrueIDE Mode)
-IOWR
(PC Card Memory Mode
except UDMA protocol
active)
STOP
(All Modes: UDMA protocol
active)
-IOWR
(PC Card I/O Mode except
UDMA protocol active)
STOP
(All Modes: UDMA protocol
active)
-IOWR
(TrueIDE Mode except
UDMA protocol active)
STOP
(All Modes: UDMA protocol
active)
(PC Card I/O Mode)
(TrueIDE Mode)
Signal Description
Signal Name
I/O
I/O
I/O
I
Type
Table 6: CF Card Signal Description
45
26, 25
31, 30,
29, 28,
27, 49,
48, 47, 6,
5, 4, 3, 2,
23, 22, 21
35
Number
61000-07000-104, April 2011
Pin
This output line is always driven to a high state in Memory
Mode since a battery is not required for this product.
This output line is always driven to a high state in I/O Mode
since this product produces no audio.
In the TrueIDE Mode, this input/output is the Disk
Active/Slave Present signal in the Master/Slave handshake
protocol.
These Card Detect pins are connected to ground on the card.
They are used by the host to determine that the card is fully
inserted into the socket.
This signal is the same as Memory Mode.
These signals are not used in TrueIDE Mode.
These lines carry the Data, Commands and Status
information between the host and the controller. D00 is the
LSB of the Even Byte of the Word. D08 is the LSB of the Odd
Byte of the Word.
This signal is the same as the PC Card Memory Mode signal.
In TrueIDE Mode, all Task File operations occur in byte mode
on the low order bus D00-D07 while all data transfers are 16
bit using D00-D15.
This signal is not used in this mode.
In all modes, while UDMA mode protocol is active, the
assertion of this signal causes the termination of the UDMA
data burst.
The I/O Write strobe pulse is used to clock I/O data onto the
data bus and into the controller registers. The clocking
occurs on the negative to positive edge of the signal (trailing
edge).
Same as STOP above.
In TrueIDE Mode, this signal has the same function as in PC
Card I/O Mode.
Same as STOP above.
Description
CompactFlash Card
10
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