IS93C46D データシートの表示(PDF) - Integrated Silicon Solution
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IS93C46D Datasheet PDF : 16 Pages
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IS93C46D
Write Enable (WEN)
The write enable (WEN) instruction must be executed
before any device programming (WRITE, WRALL, ERASE,
and ERAL) can be done. When Vcc is applied, this device
powers up in the write disabled state. The device then
remains in a write disabled state until a WEN instruction is
executed. Thereafter, the device remains enabled until a
WDS instruction is executed or until Vcc is removed. (See
Figure 4.) (Note: Chip select must remain LOW until Vcc
reaches its operational value.)
Write (WRITE)
The WRITE instruction includes 8 or 16 bits of data to be
written into the specified register. After the last data bit has
been applied to DIN, and before the next rising edge of SK,
CS must be brought LOW. If the device is write-enabled,
then the falling edge of CS initiates the self-timed program-
ming cycle (see WEN).
If CS is brought HIGH, after a minimum wait of 200 ns (5V
operation) after the falling edge of CS (tCS) DOUT will indicate
the READY/BUSY status of the chip. Logical “0” means
programming is still in progress; logical “1” means the
selected register has been written, and the part is ready for
another instruction (see Figure 5). The READY/BUSY
status will not be available if: a) The CS input goes HIGH
after the end of the self-timed programming cycle, tWP; or b)
Simultaneously CS is HIGH, Din is HIGH, and SK goes
HIGH, which clears the status flag.
INSTRUCTION SET - IS93C46D (1Kb)
Write All (WRALL)
The write all (WRALL) instruction programs all registers with
the data pattern specified in the instruction. As with the
WRITE instruction, the falling edge of CS must occur to
initiate the self-timed programming cycle. If CS is then
brought HIGH after a minimum wait of 200 ns (tCS), the DOUT
pin indicates the READY/BUSY status of the chip (see
Figure 6). Vcc is required to be above 4.5V for WRALL to
function properly.
Write Disable (WDS)
The write disable (WDS) instruction disables all programming
capabilities. This protects the entire device against acci-
dental modification of data until a WEN instruction is
executed. (When Vcc is applied, this part powers up in the
write disabled state.) To protect data, a WDS instruction
should be executed upon completion of each programming
operation.
Erase Register (ERASE)
After the erase instruction is entered, CS must be brought
LOW. The falling edge of CS initiates the self-timed internal
programming cycle. Bringing CS HIGH after a minimum of
tCS, will cause DOUT to indicate the READ/BUSY status of the
chip: a logical “0” indicates programming is still in progress;
a logical “1” indicates the erase cycle is complete and the
part is ready for another instruction (see Figure 8).
Erase All (ERAL)
Full chip erase is provided for ease of programming. Erasing
the entire chip involves setting all bits in the entire memory
array to a logical “1” (see Figure 9). Vcc is required to be
above 4.5V for ERAL to function properly.
Instruction(2)
Start Bit
READ
1
WEN (Write Enable)
1
WRITE
1
WRALL (Write All Registers) 1
WDS (Write Disable)
1
ERASE
1
ERAL (Erase All Registers) 1
OP Code
10
00
01
00
00
11
00
8-bit Organization
(ORG = GND)
Address (1) Input Data
(A6-A0)
—
11xxxxx
—
(A6-A0)
(D7-D0)
01xxxxx
(D7-D0)
00xxxxx
—
(A6-A0)
—
10xxxxx
—
16-bit Organization
(ORG = Vcc)
Address (1) Input Data
(A5-A0)
—
11xxxx
—
(A5-A0) (D15-D0)
01xxxx (D15-D0)
00xxxx
—
(A5-A0)
—
10xxxx
—
Notes:
1. x = Don't care bit.
2. If the number of bits clocked-in does not match the number corresponding to a selected command, all extra trailing bits are ignored,
and WRITE, WRALL, ERASE, ERAL are also ignored, and READ, WEN, WDS are accepted.
Integrated Silicon Solution, Inc. — www.issi.com — 1-800-379-4774
3
Rev. 00G
01/15/07
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