ETC FM93C66ALM8

FM93C66A
4K-Bit Serial CMOS EEPROM
(MICROWIRE™ Synchronous Bus)
General Description
Features
FM93C66A is a 4096-bit CMOS non-volatile EEPROM organized
as 256 x 16-bit array. This device features MICROWIRE interface
which is a 4-wire serial bus with chipselect (CS), clock (SK), data
input (DI) and data output (DO) signals. This interface is compatible to many of standard Microcontrollers and Microprocessors.
This device offers a pin (ORG), using which, the user can select
the format of the data (16-bit or 8-bit). If ORG is tied to GND, then
8-bit format is selected, while if ORG is tied to VCC, then 16-bit
format is selected. There are 7 instructions implemented on the
FM93C66A for various Read, Write, Erase, and Write Enable/
Disable operations. This device is fabricated using Fairchild
Semiconductor floating-gate CMOS process for high reliability,
high endurance and low power consumption.
■ Wide VCC 2.7V - 5.5V
“LZ” and “L” versions of FM93C66A offer very low standby current
making them suitable for low power applications. This device is
offered in both SO and TSSOP packages for small space considerations.
■ Endurance: 1,000,000 data changes
■ User selectable organization
x16 (ORG = 1)
x8 (ORG = 0)
■ Typical active current of 200µA
10µA standby current typical
1µA standby current typical (L)
0.1µA standby current typical (LZ)
■ No Erase instruction required before Write instruction
■ Self timed write cycle
■ Device status during programming cycles
■ 40 year data retention
■ Packages available: 8-pin SO, 8-pin DIP, 8-pin TSSOP
Functional Diagram
VCC
CS
INSTRUCTION
DECODER
CONTROL LOGIC
AND CLOCK
GENERATORS
SK
DI
INSTRUCTION
REGISTER
HIGH VOLTAGE
GENERATOR
AND
PROGRAM
TIMER
ADDRESS
REGISTER
ORG
DECODER
EEPROM ARRAY
16
READ/WRITE AMPS
VSS
16
DATA IN/OUT REGISTER
16/8 BITS
DO
© 2000 Fairchild Semiconductor International
FM93C66A Rev. B.1
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DATA OUT BUFFER
1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
July 2000
FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Connection Diagram
Dual-In-Line Package (N)
8–Pin SO (M8) and 8–Pin TSSOP (MT8)
CS
1
8
VCC
SK
2
7
NC
DI
3
6
ORG
DO
4
5
GND
Top View
Package Number
N08E, M08A and MTC08
Pin Names
CS
Chip Select
SK
Serial Data Clock
DI
Serial Data Input
DO
Serial Data Output
GND
Ground
ORG
Organization
NC
No Connect
VCC
Power Supply
NOTE: Pins designated as "NC" are typically unbonded pins. However some of them are bonded for special testing purposes. Hence if a signal is applied to these pins, care
should be taken that the voltage applied on these pins does not exceed the VCC applied to the device. This will ensure proper operation.
Ordering Information
FM
93
C
XX
A
LZ
E
XXX
Letter
Package
Description
N
M8
MT8
8-pin DIP
8-pin SO
8-pin TSSOP
Temp. Range
None
V
E
0 to 70°C
-40 to +125°C
-40 to +85°C
Voltage Operating Range
Blank
L
LZ
4.5V to 5.5V
2.7V to 5.5V
2.7V to 5.5V and
<1µA Standby Current
A
x8 or x16 configuration
66
4096 bits
C
CS
CMOS
Data protect and sequential
read
93
MICROWIRE
Density
Interface
Fairchild Memory Prefix
2
FM93C66A Rev. B.1
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Operating Conditions
Ambient Storage Temperature
Ambient Operating Temperature
FM93C66A
FM93C66AE
FM93C66AV
-65°C to +150°C
All Input or Output Voltages
with Respect to Ground
Lead Temperature
(Soldering, 10 sec.)
+6.5V to -0.3V
+300°C
ESD rating
0°C to +70°C
-40°C to +85°C
-40°C to +125°C
Power Supply (VCC)
4.5V to 5.5V
2000V
DC and AC Electrical Characteristics VCC = 4.5V to 5.5V unless otherwise specified
Symbol
Max
Units
ICCA
Operating Current
Parameter
CS = VIH, SK=1.0 MHz
Conditions
Min
1
mA
ICCS
Standby Current
CS = VIL
50
µA
IIL
IOL
Input Leakage
Output Leakage
VIN = 0V to VCC
(Note 2)
±-1
µA
IILO
Input Leakage ORG Pin
ORG tied to VCC
ORG tied to VSS (Note 3)
-1
-2.5
1
2.5
µA
VIL
VIH
Input Low Voltage
Input High Voltage
-0.1
2
0.8
VCC +1
V
0.4
V
0.2
V
1
MHz
VOL1
VOH1
Output Low Voltage
Output High Voltage
IOL = 2.1 mA
IOH = -400 µA
2.4
VOL2
VOH2
Output Low Voltage
Output High Voltage
IOL = 10 µA
IOH = -10 µA
VCC - 0.2
fSK
SK Clock Frequency
(Note 4)
tSKH
SK High Time
0°C to +70°C
-40°C to +125°C
tSKL
SK Low Time
(Note 5)
250
300
ns
250
ns
tCS
Minimum CS Low Time
250
ns
tCSS
CS Setup Time
50
ns
tDH
DO Hold Time
70
ns
tDIS
DI Setup Time
100
ns
tCSH
CS Hold Time
0
ns
tDIH
DI Hold Time
20
ns
tPD
Output Delay
500
ns
tSV
CS to Status Valid
500
ns
tDF
CS to DO in Hi-Z
100
ns
tWP
Write Cycle Time
10
ms
CS = VIL
3
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Absolute Maximum Ratings (Note 1)
Operating Conditions
Ambient Storage Temperature
Ambient Operating Temperature
FM93C66AL/LZ
FM93C66ALE/LZE
FM93C66ALV/LZV
-65°C to +150°C
All Input or Output Voltages
with Respect to Ground
+6.5V to -0.3V
Lead Temperature
(Soldering, 10 sec.)
+300°C
ESD rating
0°C to +70°C
-40°C to +85°C
-40°C to +125°C
Power Supply (VCC)
2.7V to 5.5V
2000V
DC and AC Electrical Characteristics VCC = 2.7V to 4.5V unless otherwise specified. Refer to
page 3 for VCC = 4.5V to 5.5V.
Symbol
Parameter
Conditions
ICCA
Operating Current
CS = VIH, SK=250 KHz
ICCS
Standby Current
L
LZ (2.7V to 4.5V)
Input Leakage
Output Leakage
CS = VIL
Input Leakage ORG Pin
ORG tied to VCC
ORG tied to VSS (Note 3)
IIL
IOL
IILO
Min
Max
Units
1
mA
10
1
±1
µA
µA
µA
-1
-2.5
1
2.5
µA
-0.1
0.8VCC
0.15VCC
VCC +1
0.1VCC
V
250
KHz
µs
µs
VIN = 0V to VCC
(Note 2)
VIL
VIH
VOL
VOH
fSK
tSKH
tSKL
Input Low Voltage
Input High Voltage
Output Low Voltage
Output High Voltage
SK Clock Frequency
SK High Time
SK Low Time
IOL = 10µA
IOH = -10µA
(Note 4)
(Note 5)
0.9VCC
0
1
1
V
tCS
Minimum CS Low Time
1
µs
tCSS
tDH
tDIS
CS Setup Time
DO Hold Time
DI Setup Time
0.2
70
0.4
µs
ns
µs
tCSH
tDIH
tPD
CS Hold Time
DI Hold Time
Output Delay
0
0.4
2
ns
µs
µs
tSV
CS to Status Valid
1
µs
tDF
tWP
CS to DO in Hi-Z
Write Cycle Time
0.4
15
µs
ms
CS = VIL
Note 1: Stress above those listed under “Absolute Maximum Ratings” may cause permanent damage
to the device. This is a stress rating only and functional operation of the device at these or any other
conditions above those indicated in the operational sections of the specification is not implied. Exposure
to absolute maximum rating conditions for extended periods may affect device reliability.
Capacitance TA = 25°C, f = 1 MHz or
250 KHz (Note 6)
Symbol
Test
Max
Units
COUT
Output Capacitance
Typ
5
pF
CIN
Input Capacitance
5
pF
Note 2:
Typical leakage values are in the 20nA range.
Note 3:
ORG pin may draw >1µA when in x8 mode due to the internal pull-up transistor.
Note 4: The shortest allowable SK clock period = 1/fSK (as shown under the fSK parameter). Maximum
SK clock speed (minimum SK period) is determined by the interaction of several AC parameters stated
in the datasheet. Within this SK period, both tSKH and tSKL limits must be observed. Therefore, it is not
allowable to set 1/fSK = tSKHminimum + tSKLminimum for shorter SK cycle time operation.
Note 5: CS (Chip Select) must be brought low (to VIL) for an interval of tCS in order to reset all internal
device registers (device reset) prior to beginning another opcode cycle. (This is shown in the opcode
diagram on the following page.)
Note 6:
This parameter is periodically sampled and not 100% tested.
AC Test Conditions
VCC Range
VIL/VIH
Input Levels
VIL/VIH
Timing Level
VOL/VOH
Timing Level
IOL/IOH
2.7V ≤ VCC ≤ 5.5V
0.3V/1.8V
1.0V
0.8V/1.5V
±10µA
4.5V ≤ VCC ≤ 5.5V
0.4V/2.4V
1.0V/2.0V
0.4V/2.4V
2.1mA/-0.4mA
(Extended Voltage Levels)
(TTL Levels)
Output Load: 1 TTL Gate (CL = 100 pF)
4
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Absolute Maximum Ratings (Note 1)
Refer Table 1 and Table 2 for more details. This pin is internally
pulled-up to VCC. Hence leaving this pin unconnected would
default to 16-bit data format.
Chip Select (CS)
This is an active high input pin to FM93C66A EEPROM (the device)
and is generated by a master that is controlling the device. A high
level on this pin selects the device and a low level deselects the
device. All serial communications with the device is enabled only
when this pin is held high. However this pin cannot be permanently
tied high, as a rising edge on this signal is required to reset the
internal state-machine to accept a new cycle and a falling edge to
initiate an internal programming after a write cycle. All activity on the
SK, DI and DO pins are ignored while CS is held low.
Microwire Interface
Serial Clock (SK)
Each of the above 7 instructions is explained under individual
instruction descriptions.
A typical communication on the Microwire bus is made through the
CS, SK, DI and DO signals. To facilitate various operations on the
Memory array, a set of 7 instructions are implemented on
FM93C66A. The format of each instruction is listed under Table 1
(for 16-bit format) and Table 2 (for 8-bit format).
Instruction
This is an input pin to the device and is generated by the master that
is controlling the device. This is a clock signal that synchronizes the
communication between a master and the device. All input information (DI) to the device is latched on the rising edge of this clock input,
while output data (DO) from the device is driven from the rising edge
of this clock input. This pin is gated by CS signal.
Start bit
This is a 1-bit field and is the first bit that is clocked into the device
when a Microwire cycle starts. This bit has to be “1” for a valid cycle
to begin. Any number of preceding “0” can be clocked into the
device before clocking a “1”.
Serial Input (DI)
Opcode
This is an input pin to the device and is generated by the master
that is controlling the device. The master transfers Input information (Start bit, Opcode bits, Array addresses and Data) serially via
this pin into the device. This Input information is latched on the
rising edge of the SCK. This pin is gated by CS signal.
This is a 2-bit field and should immediately follow the start bit.
These two bits (along with 2 MSB of address field) select a
particular instruction to be executed.
Address Field
Serial Output (DO)
This is an output pin from the device and is used to transfer Output
data via this pin to the controlling master. Output data is serially
shifted out on this pin from the rising edge of the SCK. This pin is
active only when the device is selected.
Depending on the selected organization, this is a 8-bit or 9-bit field
and should immediately follow the Opcode bits. In FM93C66A, all
8 bits (or 9 bits) are used for address decoding during READ,
WRITE and ERASE instructions. During all other instructions, the
MSB 2 bits are used to decode instruction (along with Opcode bits).
Organization (ORG)
Data Field
This is an input pin to the device and is used to select the format
of data (16-bit or 8-bit). If this pin is tied high, 16-bit format is
selected, while if it is tied low, 8-bit format is selected. Depending
on the format selected, FM93C66A requires 8-bit address field (for
16-bit data format) or 9-bit address field (for 8-bit data format).
Depending on the selected organization, this is a 16-bit or 8-bit
field and should immediately follow the Address bits. Only the
WRITE and WRALL instructions require this field. MSB bit (D15 or
D7) is clocked first and LSB bit (D0) is clocked last (both during
writes as well as reads).
Table 1. Instruction set (16-bit organization)
Instruction
Start Bit
Opcode Field
Address Field
Data Field
READ
1
10
A7
A6
A5
A4
A3
A2
A1
A0
WEN
1
00
1
1
X
X
X
X
X
X
WRITE
1
01
A7
A6
A5
A4
A3
A2
A1
A0
D15-D0
WRALL
1
00
0
1
X
X
X
X
X
X
D15-D0
WDS
1
00
0
0
X
X
X
X
X
X
ERASE
1
11
A7
A6
A5
A4
A3
A2
A1
A0
ERAL
1
00
1
0
X
X
X
X
X
X
5
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Pin Description
Instruction
Start Bit
Opcode Field
Address Field
Data Field
READ
1
10
A8
A7
A6
A5
A4
A3
A2
A1
A0
WEN
1
00
1
1
X
X
X
X
X
X
X
WRITE
1
01
A8
A7
A6
A5
A4
A3
A2
A1
A0
D7-D0
WRALL
1
00
0
1
X
X
X
X
X
X
X
D7-D0
WDS
1
00
0
0
X
X
X
X
X
X
X
ERASE
1
11
A8
A7
A6
A5
A4
A3
A2
A1
A0
ERAL
1
00
1
0
X
X
X
X
X
X
X
Functional Description
3) Write (WRITE)
A typical Microwire cycle starts by first selecting the device
(bringing the CS signal high). Once the device is selected, a valid
Start bit (“1”) should be issued to properly recognize the cycle.
Following this, the 2-bit opcode of appropriate instruction should
be issued. After the opcode bits, the 8-bit (or 9-bit) address
information should be issued. For certain instructions, some of the
bits of this field are don’t care values (can be “0” or “1”), but they
should still be issued. Following the address information, depending on the instruction (WRITE and WRALL), 16-Bit data (or 8-Bit)
is issued. Otherwise, depending on the instruction (READ), the
device starts to drive the output data on the DO line. Other
instructions perform certain control functions and do not deal with
data bits. The Microwire cycle ends when the CS signal is brought
low. However during certain instructions, falling edge of the CS
signal initiates an internal cycle (Programming), and the device
remains busy till the completion of the internal cycle. Each of the
7 instructions is explained in detail in the following sections.
WRITE instruction allows write operation to a specified location in
the memory with a specified data. This instruction is valid only when
device is write-enabled (Refer WEN instruction).
Input information (Start bit, Opcode, Address and Data) for this
WRITE instruction should be issued as listed under Table 1 or
Table 2. After inputting the last bit of data (D0 bit), CS signal must
be brought low before the next rising edge of the SK clock. This
falling edge of the CS initiates the self-timed programming cycle.
It takes tWP time (refer appropriate DC and AC Electrical Characteristics table) for the internal programming cycle to finish. During
this time, the device remains busy and is not ready for another
instruction.
The status of the internal programming cycle can be polled at any
time by bringing the CS signal high again, after tCS interval. When
CS signal is high, the DO pin indicates the READY/BUSY status
of the chip. DO = logical 0 indicates that the programming is still
in progress. DO = logical 1 indicates that the programming is
finished and the device is ready for another instruction. It is not
required to provide the SK clock during this status polling. While
the device is busy, it is recommended that no new instruction be
issued. Refer Write cycle diagram.
1) Read (READ)
READ instruction allows data to be read from a selected location
in the memory array. Input information (Start bit, Opcode and
Address) for this instruction should be issued as listed under Table
1 or Table 2. Upon receiving a valid input information, decoding of
the opcode and the address is made, followed by data transfer
from the selected memory location into a 16-bit serial-out shift
register. This 16-bit data (or 8-bit data) is then shifted out on the
DO pin. MSB of the data (D15 or D8) is shifted out first and LSB
(DO) is shifted out last. A dummy-bit (logical 0) precedes this data
output string. Output data changes are initiated on the rising edge
of the SK clock. After reading the 16-bit (or 8-bit) data, the CS
signal can be brought low to end the Read cycle. Refer Read cycle
diagram.
It is also recommended to follow this instruction (after the device
becomes READY) with a Write Disable (WDS) instruction to
safeguard data against corruption due to spurious noise, inadvertent writes etc.
4) Write All (WRALL)
Write all (WRALL) instruction is similar to the Write instruction
except that WRALL instruction will simultaneously program all
memory locations with the data pattern specified in the instruction.
This instruction is valid only when device is write-enabled (Refer
WEN instruction).
2) Write Enable (WEN)
Input information (Start bit, Opcode, Address and Data) for this
WRALL instruction should be issued as listed under Table 1 or
Table 2. After inputting the last bit of data (D0 bit), CS signal must
be brought low before the next rising edge of the SK clock. This
falling edge of the CS initiates the self-timed programming cycle.
It takes tWP time (Refer appropriate DC and AC Electrical Characteristics table) for the internal programming cycle to finish. During
this time, the device remains busy and is not ready for another
instruction. Status of the internal programming can be polled as
described under WRITE instruction description. While the device
is busy, it is recommended that no new instruction be issued.
Refer Write All cycle diagram.
When VCC is applied to the part, it “powers up” in the Write Disable
(WDS) state. Therefore, all programming operations must be
preceded by a Write Enable (WEN) instruction. Once a Write
Enable instruction is executed, programming remains enabled
until a Write Disable (WDS) instruction is executed or VCC is
completely removed from the part. Input information (Start bit,
Opcode and Address) for this WEN instruction should be issued
as listed under Table 1 or Table 2. The device becomes writeenabled at the end of this cycle when the CS signal is brought low.
Execution of a READ instruction is independent of WEN instruction. Refer Write Enable cycle diagram.
6
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Table 2. Instruction set (8-bit organization)
Write Disable (WDS) instruction disables all programming operations and should follow all programming operations. Executing
this instruction after a valid write instruction would protect against
accidental data disturb due to spurious noise, glitches, inadvertent writes etc. Input information (Start bit, Opcode and Address)
for this WDS instruction should be issued as listed under Table 1
or Table 2. The device becomes write-disabled at the end of this
cycle when the CS signal is brought low. Execution of a READ
instruction is independent of WDS instruction. Refer Write Disable
cycle diagram.
Note: The Fairchild CMOS EEPROMs do not require an “ERASE” or “ERASE ALL”
instruction prior to the “WRITE” or “WRITE ALL” instruction, respectively. The
“ERASE” and “ERASE ALL” instructions are included to maintain compatibility with
earlier technology EEPROMs.
6) Erase (ERASE)
Clearing of Ready/Busy status
The ERASE instruction will program all bits in the specified
location to logical “1” state. Input information (Start bit, Opcode
and Address) for this WDS instruction should be issued as listed
under Table 1 or Table 2. After inputting the last bit of data (A0 bit),
CS signal must be brought low before the next rising edge of the
SK clock. This falling edge of the CS initiates the self-timed
programming cycle. It takes tWP time (Refer appropriate DC and
AC Electrical Characteristics table) for the internal programming
cycle to finish. During this time, the device remains busy and is not
ready for another instruction. Status of the internal programming
can be polled as described under WRITE instruction description.
While the device is busy, it is recommended that no new instruction be issued. Refer Erase cycle diagram.
When programming is in progress, the Data-Out pin will display
the programming status as either BUSY (low) or READY (high)
when CS is brought high (DO output will be tri-stated when CS is
low). To restate, during programming, the CS pin may be brought
high and low any number of times to view the programming status
without affecting the programming operation. Once programming
is completed (Output in READY state), the output is ‘cleared’
(returned to normal tri-state condition) by clocking in a Start Bit.
After the Start Bit is clocked in, the output will return to a tri-stated
condition. When clocked in, this Start Bit can be the first bit in a
command string, or CS can be brought low again to reset all
internal circuits. Refer Clearing Ready Status diagram.
7) Erase All (ERAL)
Related Document
The Erase all instruction will program all locations to logical “1”
state. Input information (Start bit, Opcode and Address) for this
WDS instruction should be issued as listed under Table 1 or Table
Application Note: AN758 - Using Fairchild’s MICROWIRE™ EEPROM.
7
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
2. After inputting the last bit of data (A0 bit), CS signal must be
brought low before the next rising edge of the SK clock. This falling
edge of the CS initiates the self-timed programming cycle. It takes
tWP time (Refer appropriate DC and AC Electrical Characteristics
table) for the internal programming cycle to finish. During this time,
the device remains busy and is not ready for another instruction.
Status of the internal programming can be polled as described
under WRITE instruction description. While the device is busy, it
is recommended that no new instruction be issued. Refer Erase
All cycle diagram.
5) Write Disable (WDS)
FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Timing Diagrams
SYNCHRONOUS DATA TIMING
CS
tCSS
tSKH
tSKL
tCSH
SK
tDIS
tDIH
Valid
Input
DI
Valid
Input
Valid
Output
DO (Data Read)
tDF
tPD
tDH
tPD
Valid
Output
tDF
tSV
Valid Status
DO (Status Read)
READ CYCLE (READ)
tCS
CS
SK
DI
1
1
Star t
Bit
An
0
A n-1
Opcode
Bits(2)
A1
;;;;;;;;;;;;;;
;;;;;;;;;;;;;;
;;;
;;;
A0
Address
Bits(8/9)
High - Z
DO
Dn
0
D1
D0
D u m my
Bit
9 3 C 6 6 A ( O R G = 1 ; A n =A7; D n =D15 ) :
Address bits pattern -> A7-A6-A5-A4-A3-A2-A1-A0; User defined
9 3 C 6 6 A ( O R G = 0 ; A n =A8; D n =D7 ) :
Address bits pattern -> A8-A7-A6-A5-A4-A3-A2-A1-A0; User defined
WRITE ENABLE CYCLE (WEN)
tCS
CS
SK
DI
1
Start
Bit
0
0
Opcode
Bits(2)
DO
An
A n-1
A1
A0
Address
Bits(8/9)
High - Z
93C66A (ORG=1; A n =A7 ):
Address bits pattern -> 1-1-x-x-x-x-x-x; (x -> Don’t Care, can be 0 or 1)
93C66A (ORG=0; A n =A8 ):
Address bits pattern -> 1-1-x-x-x-x-x-x-x; (x -> Don’t Care, can be 0 or 1)
8
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Timing Diagrams (Continued)
WRITE DISABLE CYCLE (WDS)
tCS
CS
SK
DI
1
0
Start
Bit
An
0
A n-1
Opcode
Bits(2)
A1
A0
Address
Bits(8/9)
High - Z
DO
93C66A (ORG=1; A n =A7 ):
Address bits pattern -> 0-0-x-x-x-x-x-x; (x -> Don ’t Care, can be 0 or 1)
93C66A (ORG=0; A n =A8 ):
Address bits pattern -> 0-0-x-x-x-x-x-x-x; (x -> Don ’t Care, can be 0 or 1)
WRITE CYCLE (WRITE)
tCS
CS
SK
DI
1
0
Star t
Bit
1
An
A n-1
Opcode
Bits(2)
A1
A0
Dn
D n-1
Address
Bits(8/9)
D1
D0
tWP
Data
Bits(16/8)
High - Z
DO
Ready
Busy
93C66A (ORG=1; A n =A7; D n =D15 ):
Address bits patter n -> A7-A6-A5-A4-A3-A2-A1-A0; User defined
Data bits patter n
-> D15-to-D0; User defined
93C66A (ORG=0; A n =A8; D n =D7 ):
Address bits patter n -> A8-A7-A6-A5-A4-A3-A2-A1-A0; User defined
Data bits patter n
-> D7-to-D0; User defined
WRITE ALL CYCLE (WRALL)
tCS
CS
SK
DI
1
Star t
Bit
0
0
Opcode
Bits(2)
An
A1
A n-1
A0
Dn
Address
Bits(8/9)
D n-1
D1
Data
Bits(16/8)
D0
tWP
High - Z
DO
Ready
Busy
93C66A (ORG=1; A n =A7; D n =D15 ):
Address bi t s pat t er n -> 0-1-x-x-x-x-x-x; (x -> Don't Care, can be 0 or 1)
Dat a bi t s pat t er n
-> D15-to-D0; User defined
93C66A (ORG=0; A n =A8; D n =D7 ):
Address bi t s pat t er n -> 0-1-x-x-x-x-x-x-x; (x -> Don't Care, can be 0 or 1)
Dat a bi t s pat t er n
-> D7-to-D0; User defined
9
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Timing Diagrams (Continued)
ERASE CYCLE (ERASE)
tCS
CS
SK
1
DI
Star t
Bit
1
1
Opcode
Bits(2)
DO
An
A1
A n-1
A0
tWP
Address
Bits(8/9)
High - Z
Ready
Busy
93C66A (ORG=1; A n =A7):
Address bits patter n -> A7-A6-A5-A4-A3-A2-A1-A0; User defined
93C66A (ORG=0; A n =A8 ):
Address bits patter n -> A8-A7-A6-A5-A4-A3-A2-A1-A0; User defined
ERASE ALL CYCLE (ERAL)
tCS
CS
SK
DI
1
Start
Bit
DO
0
An
0
Opcode
Bits(2)
A n-1
High - Z
A1
A0
tWP
Address
Bits(8/9)
Ready
Busy
93C66A (ORG=1; A n =A7 ):
Address bits pattern -> 1-0-x-x-x-x-x-x; (x -> Don’t Care, can be 0 or 1)
93C66A (ORG=0; A n =A8 ):
Address bits pattern -> 1-0-x-x-x-x-x-x-x; (x -> Don’t Care, can be 0 or 1)
CLEARING READY STATUS
CS
SK
DI
Star t
Bit
DO
High - Z
Ready
High - Z
Busy
N o t e : T h i s S t a r t b i t c a n a l s o b e p a r t o f a n ex t i n s t r u c t i o n . H e n c e t h e c y c l e
c a n b e c o n t i nu e d ( i n s t e a d o f g e t t i n g t e r m i n a t e d , a s s h ow n ) a s i f a n ew
instruction is being issued.
10
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Physical Dimensions inches (millimeters) unless otherwise noted
0.189 - 0.197
(4.800 - 5.004)
8 7 6 5
0.228 - 0.244
(5.791 - 6.198)
1 2 3 4
Lead #1
IDENT
0.010 - 0.020
x 45¡
(0.254 - 0.508)
0.0075 - 0.0098
(0.190 - 0.249)
Typ. All Leads
0.150 - 0.157
(3.810 - 3.988)
8¡ Max, Typ.
All leads
0.004
(0.102)
All lead tips
0.053 - 0.069
(1.346 - 1.753)
0.004 - 0.010
(0.102 - 0.254)
Seating
Plane
0.014
(0.356)
0.016 - 0.050
(0.406 - 1.270)
Typ. All Leads
0.050
(1.270)
Typ
0.014 - 0.020 Typ.
(0.356 - 0.508)
Molded Package, Small Outline, 0.15 Wide, 8-Lead (M8)
Package Number M08A
11
FM93C66A Rev. B.1
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0.114 - 0.122
(2.90 - 3.10)
8
5
(4.16) Typ (7.72) Typ
0.169 - 0.177
(4.30 - 4.50)
0.246 - 0.256
(6.25 - 6.5)
(1.78) Typ
(0.42) Typ
0.123 - 0.128
(3.13 - 3.30)
(0.65) Typ
1
Land pattern recommendation
4
Pin #1 IDENT
0.0433
Max
(1.1)
0.0256 (0.65)
Typ.
0.0035 - 0.0079
See detail A
0.002 - 0.006
(0.05 - 0.15)
0.0075 - 0.0118
(0.19 - 0.30)
Gage
plane
0¡-8¡
DETAIL A
Typ. Scale: 40X
0.020 - 0.028
(0.50 - 0.70)
Seating
plane
0.0075 - 0.0098
(0.19 - 0.25)
Notes: Unless otherwise specified
1. Reference JEDEC registration MO153. Variation AA. Dated 7/93
8-Pin Molded TSSOP, JEDEC (MT8)
Package Number MTC08
12
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Physical Dimensions inches (millimeters) unless otherwise noted
0.373 - 0.400
(9.474 - 10.16)
0.090
(2.286)
8
0.092
DIA
(2.337)
7
6
0.250 - 0.005
+
Pin #1 IDENT
8
0.032 ± 0.005
(6.35 ± 0.127)
Pin #1
IDENT
1
Option 1
1
0.280 MIN
(7.112)
0.300 - 0.320
(7.62 - 8.128)
7
(0.813 ± 0.127)
RAD
5
2
3
0.040 Typ.
(1.016)
0.030
MAX
(0.762)
20° ± 1°
4
Option 2
0.145 - 0.200
0.039
(0.991)
(3.683 - 5.080)
0.130 ± 0.005
(3.302 ± 0.127)
95° ± 5°
0.009 - 0.015
(0.229 - 0.381)
+0.040
0.325 -0.015
+1.016
8.255 -0.381
0.125
(3.175)
DIA
NOM
0.125 - 0.140
(3.175 - 3.556)
0.065
(1.651)
90° ± 4°
Typ
0.018 ± 0.003
(0.457 ± 0.076)
0.100 ± 0.010
(2.540 ± 0.254)
0.045 ± 0.015
(1.143 ± 0.381)
0.020
(0.508)
Min
0.060
(1.524)
0.050
(1.270)
Molded Dual-In-Line Package (N)
Package Number N08E
Life Support Policy
Fairchild's products are not authorized for use as critical components in life support devices or systems without the express written
approval of the President of Fairchild Semiconductor Corporation. As used herein:
1. Life support devices or systems are devices or systems which,
(a) are intended for surgical implant into the body, or (b) support
or sustain life, and whose failure to perform, when properly
used in accordance with instructions for use provided in the
labeling, can be reasonably expected to result in a significant
injury to the user.
Fairchild Semiconductor
Americas
Customer Response Center
Tel. 1-888-522-5372
2. A critical component is any component of a life support device
or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system,
or to affect its safety or effectiveness.
Fairchild Semiconductor
Europe
Fax:
+44 (0) 1793-856858
Deutsch
Tel:
+49 (0) 8141-6102-0
English
Tel:
+44 (0) 1793-856856
Français
Tel:
+33 (0) 1-6930-3696
Italiano
Tel:
+39 (0) 2-249111-1
Fairchild Semiconductor
Hong Kong
8/F, Room 808, Empire Centre
68 Mody Road, Tsimshatsui East
Kowloon. Hong Kong
Tel; +852-2722-8338
Fax: +852-2722-8383
Fairchild Semiconductor
Japan Ltd.
4F, Natsume Bldg.
2-18-6, Yushima, Bunkyo-ku
Tokyo, 113-0034 Japan
Tel: 81-3-3818-8840
Fax: 81-3-3818-8841
Fairchild does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and Fairchild reserves the right at any time without notice to change said circuitry and specifications.
13
FM93C66A Rev. B.1
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FM93C66A 4K-Bit Serial CMOS EEPROM
(MICROWIRETM Synchronous Bus)
Physical Dimensions inches (millimeters) unless otherwise noted