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M93C46-RDS6G

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30
7/30
M93C86, M93C76, M93C66, M93C56, M93C46, M93C06
Table 5. Instruction Set for the M93C56 and M93C66
Note: 1. X = Don’t Care bit.
2. Address bit A8 is not decoded by the M93C56.
3. Address bit A7 is not decoded by the M93C56.
Table 6. Instruction Set for the M93C76 and M93C86
Note: 1. X = Don’t Care bit.
2. Address bit A10 is not decoded by the M93C76.
3. Address bit A9 is not decoded by the M93C76.
Instruc
tion
Description
Start
bit
Op-
Code
x8 Origination (ORG = 0) x16 Origination (ORG = 1)
Address
1,2
Data
Required
Clock
Cycles
Address
1,3
Data
Required
Clock
Cycles
READ
Read Data from
Memory
1 10 A8-A0 Q7-Q0 A7-A0 Q15-Q0
WRITE
Write Data to
Memory
1 01 A8-A0 D7-D0 20 A7-A0 D15-D0 27
EWEN Erase/Write Enable 1 00
1 1XXX
XXXX
12
11XX
XXXX
11
EWDS Erase/Write Disable 1 00
0 0XXX
XXXX
12
00XX
XXXX
11
ERASE Erase Byte or Word 1 11 A8-A0 12 A7-A0 11
ERAL Erase All Memory 1 00
1 0XXX
XXXX
12
10XX
XXXX
11
WRAL
Write All Memory
with same Data
100
0 1XXX
XXXX
D7-D0 20
01XX
XXXX
D15-D0 27
Instruc
tion
Description
Start
bit
Op-
Code
x8 Origination (ORG = 0) x16 Origination (ORG = 1)
Address
1,2
Data
Required
Clock
Cycles
Address
1,3
Data
Required
Clock
Cycles
READ
Read Data from
Memory
1 10 A10-A0 Q7-Q0 A9-A0 Q15-Q0
WRITE
Write Data to
Memory
1 01 A10-A0 D7-D0 22 A9-A0 D15-D0 29
EWEN Erase/Write Enable 1 00
11X XXXX
XXXX
14
11 XXXX
XXXX
13
EWDS Erase/Write Disable 1 00
00X XXXX
XXXX
14
00 XXXX
XXXX
13
ERASE Erase Byte or Word 1 11 A10-A0 14 A9-A0 13
ERAL Erase All Memory 1 00
10X XXXX
XXXX
14
10 XXXX
XXXX
13
WRAL
Write All Memory
with same Data
100
01X XXXX
XXXX
D7-D0 22
01 XXXX
XXXX
D15-D0 29
M93C86, M93C76, M93C66, M93C56, M93C46, M93C06
8/30
Figure 5. READ, WRITE, EWEN, EWDS Sequences
Note: For the meanings of An, Xn, Qn and Dn, see Table 4, Table 5 and Table 6.
Read
The Read Data from Memory (READ) instruction
outputs serial data on Serial Data Output (Q).
When the instruction is received, the op-code and
address are decoded, and the data from the mem-
ory is transferred to an output shift register. A dum-
my 0 bit is output first, followed by the 8-bit byte or
the 16-bit word, with the most significant bit first.
Output data changes are triggered by the rising
edge of Serial Clock (C). The M93Cx6 automati-
cally increments the internal address register and
clocks out the next byte (or word) as long as the
Chip Select Input (S) is held High. In this case, the
dummy 0 bit is
not
output between bytes (or
words) and a continuous stream of data can be
read.
Erase/Write Enable and Disable
The Erase/Write Enable (EWEN) instruction en-
ables the future execution of erase or write instruc-
tions, and the Erase/Write Disable (EWDS)
instruction disables it. When power is first applied,
the M93Cx6 initializes itself so that erase and write
instructions are disabled. After an Erase/Write En-
able (EWEN) instruction has been executed, eras-
ing and writing remains enabled until an Erase/
Write Disable (EWDS) instruction is executed, or
until V
CC
falls below the power-on reset threshold
voltage. To protect the memory contents from ac-
cidental corruption, it is advisable to issue the
Erase/Write Disable (EWDS) instruction after ev-
ery write cycle. The Read Data from Memory
(READ) instruction is not affected by the Erase/
Write Enable (EWEN) or Erase/Write Disable
(EWDS) instructions.
AI00878C
1 1 0 An A0
Qn Q0
DATA OUT
D
S
Q
READ
SWRITE
ADDR
OP
CODE
1 0An A0
DATA IN
D
Q
OP
CODE
Dn D01
BUSY READY
SERASE
WRITE
ENABLE
1
0XnX0
D
OP
CODE
101
SERASE
WRITE
DISABLE
1 0XnX0D
OP
CODE
0 00
CHECK
STATUS
ADDR
9/30
M93C86, M93C76, M93C66, M93C56, M93C46, M93C06
Figure 6. ERASE, ERAL Sequences
Note: For the meanings of An and Xn, please see Table 4, Table 5 and Table 6.
Erase
The Erase Byte or Word (ERASE) instruction sets
the bits of the addressed memory byte (or word) to
1. Once the address has been correctly decoded,
the falling edge of the Chip Select Input (S) starts
the self-timed Erase cycle. The completion of the
cycle can be detected by monitoring the Ready/
Busy
line, as described on page 9.
Write
For the Write Data to Memory (WRITE) instruction,
8 or 16 data bits follow the op-code and address
bits. These form the byte or word that is to be writ-
ten. As with the other bits, Serial Data Input (D) is
sampled on the rising edge of Serial Clock (C).
After the last data bit has been sampled,
the Chip
Select Input (S) must be taken Low before the next
rising edge of Serial Clock (C).
If Chip Select Input
(S) is brought Low before or after this specific time
frame, the self-timed programming cycle will not
be started, and the addressed location will not be
programmed. The completion of the cycle can be
detected by monitoring the Ready/Busy
line, as
described later in this document.
Once the Write cycle has been started, it is inter-
nally self-timed (the external clock signal on Serial
Clock (C) may be stopped or left running after the
start of a Write cycle). The cycle is automatically
preceded by an Erase cycle, so it is unnecessary
to execute an explicit erase instruction before a
Write Data to Memory (WRITE) instruction.
Erase All
The Erase All Memory (ERAL) instruction erases
the whole memory (all memory bits are set to 1).
The format of the instruction requires that a dum-
my address be provided. The Erase cycle is con-
ducted in the same way as the Erase instruction
(ERASE). The completion of the cycle can be de-
tected by monitoring the Ready/Busy
line, as de-
scribed on page 9.
AI00879B
SERASE
1 1D
Q
ADDR
OP
CODE
1
BUSY READY
CHECK
STATUS
SERASE
ALL
1 0D
Q
OP
CODE
1
BUSY READY
CHECK
STATUS
0 0
An A0
Xn X0
ADDR
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30

M93C46-RDS6G

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Buy M93C46-RDS6G
Manufacturer:
STMicroelectronics
Description:
EEPROM 1K (64x8 or 32x16)
Lifecycle:
New from this manufacturer.
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