SGS Thomson Microelectronics ST93C67, ST93C66 Datasheet

4K (256 x 16 or 512 x 8)SERIALMICROWIREEEPROM
1 MILLIONERASE/WRITE CYCLES, with 40 YEARS DATARETENTION
DUALORGANIZATION:256 x 16 or 512 x 8 BYTE/WORDand ENTIRE MEMORY
PROGRAMMING INSTRUCTIONS SELF-TIMED PROGRAMMINGCYCLEwith
AUTO-ERASE READY/BUSY SIGNAL DURING
PROGRAMMING SINGLESUPPLY VOLTAGE: – 4.5V to 5.5V for ST93C66version – 3V to 5.5V for ST93C67 version SEQUENTIAL READ OPERATION 5ms TYPICALPROGRAMMING TIME
ST93C66and ST93C67are replaced by the M93C66
8
1
PSDIP8 (B)
0.4mm Frame
Figure 1. Logic Diagram
ST93C66 ST93C67
NOT FOR NEW DESIGN
8
1
SO8 (CM)
150mil Width
DESCRIPTION
This specification covers a range of 4K bit serial EEPROMproducts, the ST93C66specified at 5V ± 10%and theST93C67 specifiedat 3V to 5.5V.In the text, products are referred to asST93C66.
The ST93C66 is a 4K bit Electrically Erasable ProgrammableMemory(EEPROM)fabricatedwith SGS-THOMSON’sHighEnduranceSinglePolysili­con CMOS technology. The memory is accessed through a serial input (D) and output (Q). The 4K bit memory is divided into either 512 x 8 bit bytes or 256 x 16 bit words. The organization may be selectedby a signalappliedon the ORG input.
Table 1. Signal Names
S Chip Select Input D Serial Data Input Q Serial Data Output C Serial Clock ORG Organisation Select V
CC
V
SS
Supply Voltage Ground
ORG
V
D
C S
ST93C66 ST93C67
V
SS
Q
AI01252B
July 1997 1/13
This isinformation on a product still in production but not recommended for new designs.
ST93C66,ST93C67
Figure2A. DIPPin Connections
ST93C66 ST93C67
SV
1 2
D
3
Q
4
Warning: DU = Don’t Use Warning: DU = Don’t Use
Table 2. Absolute Maximum Ratings
Symbol Parameter Value Unit
T
T
STG
T
LEAD
V
V
CC
V
ESD
Notes: 1. Exceptfor the rating ”Operating Temperature Range”, stresses above those listed in the Table ”Absolute Maximum Ratings”
Ambient Operating Temperature –40 to 125 °C
A
Storage Temperature –65 to 150 °C Lead Temperature,Soldering (SO8 package)
Input or Output Voltages(Q = VOHor Hi-Z) –0.3 to VCC+0.5 V
IO
Supply Voltage –0.3 to 6.5 V Electrostatic Discharge Voltage (Human Body model) Electrostatic Discharge Voltage (Machine model)
may cause permanent damage to the device. Theseare stress ratings only and operation of thedevice at these or any other conditions abovethose indicated in the Operating sectionsof this specification is not implied. Exposure toAbsolute Maximum Rating conditions for extended periods may affect device reliability.Refer also to the SGS-THOMSON SURE Programand other relevant quality documents.
2. MIL-STD-883C, 3015.7(100pF, 1500 ).
3. EIAJ IC-121 (Condition C) (200pF, 0 ).
8 7 6 5
AI01253B
DUC ORG V
SS
(1)
(PSDIP8 package)
Figure2B. SO Pin Connections
ST93C66 ST93C67
1
SV
2
D
3
Q
4
40 sec 10 sec
(2)
(3)
8 7 6 5
AI01254C
215 260
7000 V 1000 V
DUC ORG V
SS
°C
DESCRIPTION (cont’d) The memory is accessed by a set of instructions
which includes Read a byte/word, Write a byte/word,Erasea byte/word,Erase All and Write All. ARead instructionloads theaddressof the first byte/word to be read into an internal address pointer.The data containedat this addressis then clocked out serially. The address pointer is auto­maticallyincrementedafterthe data is output and, if the Chip Select input (S) is held High, the ST93C66 can output a sequential stream of data bytes/words.In this way,the memorycan be read as a data stream from 8 to 4096 bits long, or continuouslyas the address counterautomatically rolls over to ’00’ when the highest address is reached.Programming is internallyself-timed(the external clock signal on C input may be discon-
2/13
nectedorleftrunningafterthestart ofa Writecycle) and does not require an erase cycle prior to the Write instruction. The Write instruction writes 8 or 16 bits at one timeinto oneof the512 bytesor256 words. After the startof the programming cycle, a Busy/Readysignal is available on the Data output (Q)when Chip Select (S) is driven High.
The design of the ST93C66 and the High Endur­anceCMOStechnologyusedforitsfabricationgive an Erase/Write cycle Endurance of 1,000,000 cy­clesand a data retention of 40 years.
TheDU (Don’tUse) pindoesnotaffectthefunction of the memory and it is reserved for use by SGS­THOMSON duringtestsequences.The pinmaybe left unconnectedor may be connected to V V
. Direct connection of DU to VSSis recom-
SS
CC
or
mended for the lowest standby power consump­tion.
ST93C66, ST93C67
AC MEASUREMENT CONDITIONS
Figure 3. AC Testing Input Output Waveforms
Input Rise and Fall Times 20ns Input Pulse Voltages 0.4V to 2.4V Input TimingReference Voltages 1V to 2.0V Output TimingReference Voltages 0.8V to 2.0V
Note that Output Hi-Z is defined as the point where data
2.4V
0.4V
2V 1V
INPUT OUTPUT
is no longer driven.
Table 3. Capacitance
(1)
(TA=25°C, f = 1 MHz )
Symbol Parameter Test Condition Min Max Unit
C
IN
C
OUT
Note: 1. Sampledonly, not 100% tested.
Input Capacitance VIN=0V 5 pF Output Capacitance V
=0V 5 pF
OUT
Table 4. DC Characteristics
= 0 to70°C or –40 to 85°C; VCC= 4.5V to 5.5V or 3V to 5.5V)
(T
A
2.0V
0.8V
AI00815
Symbol Parameter TestCondition Min Max Unit
I
I
I
CC1
V
V
V
V
I
LI
LO
CC
IL
IH
OL
OH
Input Leakage Current 0V VIN≤ V
Output Leakage Current
0V V
VCC,
OUT
Q inHi-Z
CC
±2.5 µA
±2.5 µA
Supply Current (TTL Inputs) S = VIH, f = 1 MHz 3 mA Supply Current (CMOS Inputs) S = V
Supply Current (Standby)
Input Low Voltage (D, C, S)
Input High Voltage (D, C, S)
Output Low Voltage
Output High Voltage
, f = 1 MHz 2 mA
IH
,C=VSS,
S=V
SS
ORG = V
V
CC
3V V V
CC
3V V
I
OL
I
I
OH
I
OH
or V
SS
CC
=5V±10% –0.3 0.8 V
4.5V –0.3 0.2V
CC
=5V±10% 2 VCC+1 V
4.5V 0.8 V
CC
CC
= 2.1mA 0.4 V
=10µA 0.2 V
OL
= –400µA 2.4 V
= –10µAV
–0.2 V
CC
50 µA
VCC+1 V
CC
V
3/13
ST93C66,ST93C67
Table 5. AC Characteristics
(T
= 0 to70°C or –40 to 85°C; VCC= 4.5V to 5.5V or 3V to 5.5V)
A
Symbol Alt Parameter Test Condition Min Max Unit
t
SHCH
t
CLSH
t
DVCH
t
CHDX
t t
t
t
Chip Select High to Clock High 50 ns
CSS
Clock Low to Chip SelectHigh 100 ns
SKS
Input Valid to Clock High 100 ns
DIS
Temp.Range: grade 1 100 ns
Clock High to Input Transition
DIH
Temp.Range:
grades3, 6
200 ns
t
CHQL
t
CHQV
t
CLSL
t
SLCH
t
SLSH
t
SHQV
t
SLQZ
t
CHCL
t
CLCH
t
W
f
C
Notes: 1. Chip Selectmust bebrought low for a minimumof 250 ns(t
2. The Clock frequency specification calls for a minimum clock period of 1 µs, therefore the sum of the timings t
t t t
Clock High to Output Low 500 ns
PD0
Clock High to Output Valid 500 ns
PD1
Clock Low to Chip SelectLow 0 ns
CSH
Chip Select Low to Clock High 250 ns
t
Chip Select Low to Chip Select High Note 1 250 ns
CS
t
Chip Select High to Output Valid 500 ns
SV
t
Chip Select Low to Output Hi-Z 200 ns
DF
t t
must be greater or equal to 1 µs. For example, ift
Clock High to Clock Low Note 2 250 ns
SKH
Clock Low to Clock High Note 2 250 ns
SKL
t
Erase/Write Cycle time 10 ms
WP
f
Clock Frequency 0 1 MHz
SK
is 250 ns, then t
CHCL
) between consecutive instruction cycles.
SLSH
must be at least 750 ns.
CLCH
Figure4. Synchronous Timing, Start and Op-CodeInput
CHCL+tCLCH
4/13
tCLSH tCHCL
C
tSHCH
S
tDVCH
D
OP CODE OP CODESTART
OP CODE INPUTSTART
tCLCH
tCHDX
AI01428
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