ATMEL 5962-0622901QXC

Features
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16 Mbit SRAM Multi Chip Module
Allows 32-, 16- or 8-bit access configuration
Operating Voltage: 3.3V + 0.3V, 5V Tolerant
Access Time:
– 25 ns, 20 ns
– 18 ns (preliminary information)
Very Low Power Consumption
– Active: 595 mW per byte (Max) @ 20 ns(1), 415mW per byte (Max) @ 50ns(2)
– Standby: 15 mW (Typ)
Military Temperature Range: -55 to +125°C
TTL-Compatible Inputs and Outputs
Asynchronous
Die manufactured on Atmel 0.25 µm Radiation Hardened Process
No Single Event Latch Up below LET Threshold of 80 MeV/mg/cm2
Tested up to a Total Dose of 300 krads (Si) according to MIL-STD-883 Method 1019
ESD Better than 2000V
Quality Grades:
– QML-Q or V with SMD 5962-06229
– ESCC
950 Mils Wide MQFP 68 Package
Mass : 8.5 grams
Notes:
1. For AT68166FT-20 only. 540mW for AT68166FT-25.
2. For AT68166FT-20 only. 450mW for AT68166FT-25.
Rad Hard
16 MegaBit 3.3V
5V Tolerant
SRAM MultiChip Module
AT68166FT
Description
The AT68166FT is a 16Mbit SRAM packaged in a hermetic Multi Chip Module (MCM)
for space applications.
The AT68166FT MCM incorporates four 4Mbit AT60142FT SRAM dice. It can be organized as either one bank of 512Kx8, two banks of 512Kx16 or four banks of 512Kx8. It
combines rad-hard capabilities, a latch-up threshold of 80MeV.cm²/mg, a Multiple Bit
Upset immunity and a total dose tolerance of 300Krads, with a fast access time.
The MCM packaging technology allows a reduction of the PCB area by 50% with a
weight savings of 75% compared to four 4Mbit packages.
Thanks to the small size of the 4Mbit SRAM die, Atmel has been able to accommodate the assembly of the four dice on one side of the package which facilitates the
power dissipation.
The compatibility with other products allows designers to easily migrate to the Atmel
AT68166FT memory.
The AT68166FT is powered at 3.3V and is 5V tolerant.
The AT68166FT is processed according to the test methods of the latest revision of
the MIL-PRF-38535 or the ESCC 9000.
7531G–AERO–07/07
Block Diagram
Figure 1. AT68166FT Block Diagram
CS3
WE3
CS2
WE2
CS1
WE1
CS0
WE0
A[18:0]
OE
BANK3
BANK2
BANK1
BANK0
512k x 8
512k x 8
512k x 8
512k x 8
I/O[31:24]
or
I/O2[31:16]
or
I/O3[7:0]
I/O[23:16]
or
I/O2[15:0]
or
I/O2[7:0]
I/O[15:8]
or
I/O1[31:16]
or
I/O1[7:0]
I/O[7:0]
or
I/O1[15:0]
or
I/O[7:0]
Figure 2. 512K x 8 Banks Block Diagram (AT60142FT)
A0
A10
I/Ox0
I/Ox7
CSx
WEx
OE
Packages
AT68166FT is packed in MQFP68.
Access Times
AT68166FT
25 ns
20 ns
18 ns
YM
YS
YS
The pin assignment depends on the access time. There are 2 versions:
2
–
YM package where 3 pins are not connected.
–
YS package where the 3 above pins are connected to GND or VCC.
AT68166FT
7531G–AERO–07/07
AT68166FT
Pin
Configuration
Table 1. AT68166FT pin assignment in YS package
Lead
Signal
Lead
Signal
Lead
Signal
Lead
Signal
1
I/O0[0]
18
VCC
35
I/O3[7]
52
VCC
2
I/O0[1]
19
A11
36
I/O3[6]
53
A10
3
I/O0[2]
20
A12
37
I/O3[5]
54
A9
4
I/O0[3]
21
A13
38
I/O3[4]
55
A8
5
I/O0[4]
22
A14
39
I/O3[3]
56
A7
6
I/O0[5]
23
A15
40
I/O3[2]
57
A6
Note:
7
I/O0[6]
24
A16
41
I/O3[1]
58
WE0
8
I/O0[7]
25
CS0
42
I/O3[0]
59
CS3
9
GND
26
OE
43
GND
60
GND
10
I/O1[0]
27
CS1
44
I/O2[7]
61
CS2
11
I/O1[1]
28
A17
45
I/O2[6]
62
A5
12
I/O1[2]
29
WE1
46
I/O2[5]
63
A4
13
I/O1[3]
30
WE2
47
I/O2[4]
64
A3
14
I/O1[4]
31
WE3
48
I/O2[3]
65
A2
15
I/O1[5]
32
A18
49
I/O2[2]
66
A1
16
I/O1[6]
33
GND
50
I/O2[1]
67
A0
17
I/O1[7]
34
VCC
51
I/O2[0]
68
VCC
In YM package leads 33, 34 and 68 are not connected.
3
7531G–AERO–07/07
AT68166FT
(top view)
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
I/O2[0]
I/O2[1]
I/O2[2]
I/O2[3]
I/O2[4]
I/O2[5]
I/O2[6]
I/O2[7]
GND
I/O3[0]
I/O3[1]
I/O3[2]
I/O3[3]
I/O3[4]
I/O3[5]
I/O3[6]
I/O3[7]
VCC
A11
A12
A13
A14
A15
A16
CS0
0E
CS1
A17
WE1
WE2
WE3
A18
NC
NC
I/O0[0]
I/O0[1]
I/O0[2]
I/O0[3]
I/O0[4]
I/O0[5]
I/O0[6]
I/O0[7]
GND
I/O1[0]
I/O1[1]
I/O1[2]
I/O1[3]
I/O1[4]
I/O1[5]
I/O1[6]
I/O1[7]
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
NC
A0
A1
A2
A3
A4
A5
CS2
GND
CS3
WE0
A6
A7
A8
A9
A10
VCC
Figure 3. AT68166FT pin assignment in YM package
AT68166FT
(top view)
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
I/O2[0]
I/O2[1]
I/O2[2]
I/O2[3]
I/O2[4]
I/O2[5]
I/O2[6]
I/O2[7]
GND
I/O3[0]
I/O3[1]
I/O3[2]
I/O3[3]
I/O3[4]
I/O3[5]
I/O3[6]
I/O3[7]
VCC
A11
A12
A13
A14
A15
A16
CS0
0E
CS1
A17
WE1
WE2
WE3
A18
GND
VCC
I/O0[0]
I/O0[1]
I/O0[2]
I/O0[3]
I/O0[4]
I/O0[5]
I/O0[6]
I/O0[7]
GND
I/O1[0]
I/O1[1]
I/O1[2]
I/O1[3]
I/O1[4]
I/O1[5]
I/O1[6]
I/O1[7]
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
VCC
A0
A1
A2
A3
A4
A5
CS2
GND
CS3
WE0
A6
A7
A8
A9
A10
VCC
Figure 4. AT68166FT pin assignment in YS package
4
AT68166FT
7531G–AERO–07/07
AT68166FT
Pin Description
Table 2. Pin Names
Name
Description
A0 - A18
Address Inputs
I/O0 - I/O31
Data Input/Output
CS0 - CS3
Chip Select
WE0 - WE3
Write Enable
OE
Output Enable
VCC
Power Supply
GND(1)
Ground
Note:
1. The package lid is connected to GND
Table 3. Truth Table(1)
CSx
WEx
OE
Inputs/Outputs
Mode
H
X
X
Z
Standby
L
H
L
Data Out
Read
L
L
X
Data In
Write
L
H
H
Z
Output Disable
Note:
1. L=low, H=high, X= H or L, Z=high impedance.
5
7531G–AERO–07/07
Electrical Characteristics
Absolute Maximum Ratings*
Supply Voltage to GND Potential:.........................-0.5V to +7V
*NOTE:
DC Input Voltage:........................................GND -0.5V to 4.6V
DC Output Voltage High Z State: ................GND -0.5V to 4.6V
Storage Temperature: .................................... -65°C to +150°C
Output Current Into Outputs (Low): ............................... 20 mA
Stresses beyond 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
beyond those indicated in the operational sections of
this specification is not implied. Exposure to absolute
maximum rating conditions for extended periods may
affect device reliability.
Electro Statics Discharge Voltage:..... .........> 2000V (MIL STD
883D Method 3015.3)
Military Operating Range
Operating Voltage
Operating Temperature
3.3 + 0.3V
-55°C to + 125°C
Recommended DC Operating Conditions
Parameter
Note:
Description
Vcc
Supply voltage
GND
Ground
Min
Typ
Max
Unit
3
3.3
3.6
V
0.0
0.0
0.0
V
VIL
Input low voltage
GND - 0.3
0.0
0.8
V
VIH
Input high voltage
2.2
–
5.5V(1)
V
Min
Typ
Max
Unit
1. 5.8V in transient conditions.
Capacitance
Parameter
Cin(1) (OE and Ax)
Input capacitance
–
–
48
pF
Cin(1) (CSx and
WEx)
Input capacitance
–
–
12
pF
I/O capacitance
–
–
12
pF
Cio(1)
Note:
6
Description
1. Guaranteed but not tested.
AT68166FT
7531G–AERO–07/07
AT68166FT
DC Parameters
Maximum
Parameter
Description
Minimum
Typical
IIX(1)
Input leakage
current
-1
–
1
1
1
µA
IOZ(1)
Output leakage
current
-1
–
1
1
1
µA
Input Leakage
Current (OE &
Axx)
–
–
10
6
6
µA
Input Leakage
Current (WE &
CS)
–
–
5
2
2
µA
Output Leakage
Current
–
–
5
1.5
1.5
µA
VOL(3)
Output low
voltage
–
–
0.4
0.4
0.4
V
VOH(4)
Output high
voltage
2.4
–
–
–
–
V
IIH(2) at 5.5V
IOZH(2) at 5.5V
Notes:
1.
2.
3.
4.
AT68166FT-25 AT68166FT-20 AT68166FT-18
Unit
GND < VIN < VCC, GND < VOUT < VCC Output Disabled.
VIN = 5.5V, VOUT = 5.5V, Output Disabled.
VCC min. - IOL = 6 mA
VCC min. IOH = -4 mA
7
7531G–AERO–07/07
Consumption
Symbol
Description
TAVAV/TAVAW
Test Condition
AT68166FT-25
AT68166FT-20
AT68166FT-18
(preliminary)
Unit
Value
ICCSB(1)
Standby
Supply
Current
–
10
7
7.5
mA
max
ICCSB1(2)
Standby
Supply
Current
–
8
6
7
mA
max
–
–
150
85
15
–
165
145
80
12
170
165
145
80
12
mA
max
–
–
150
125
110
–
140
135
115
105
145
140
135
115
105
mA
max
Read per
byte
Dynamic
Operating
Current
18 ns
20 ns
25 ns
50 ns
1 µs
ICCOP(4)
Write per
byte
Dynamic
Operating
Current
18 ns
20 ns
25 ns
50 ns
1 µs
ICCOP(3)
Notes:
1.
2.
3.
4.
All CSx >VIH
All CSx > VCC - 0.3V
F = 1/TAVAV, Iout = 0 mA, WEx = OE = VIH, VIN = GND/VCC, VCC max.
F = 1/TAVAW, Iout = 0 mA, WEx = VIL, OE = VIH , VIN = GND/VCC, VCC max.
Data Retention
Mode
Atmel CMOS RAM's are designed with battery backup in mind. Data retention voltage and supply current are guaranteed over temperature. The following rules insure data retention:
1. During data retention chip select CSx must be held high within VCC to VCC -0.2V.
2. Output Enable (OE) should be held high to keep the RAM outputs high impedance, minimizing power dissipation.
3. During power-up and power-down transitions CSx and OE must be kept between VCC +
0.3V and 70% of VCC.
4. The RAM can begin operation > tR ns after VCC reaches the minimum operation voltages
(3V).
Figure 5. Data Retention Timing
vcc
CSx
8
AT68166FT
7531G–AERO–07/07
AT68166FT
Data Retention Characteristics
Parameter
Description
Min
Typ TA = 25°C
Max
Unit
VCCDR
VCC for data retention
2.0
–
–
V
tCDR
Chip deselect to data
retention time
0.0
–
–
ns
tR
Operation recovery
time
–
–
ns
tAVAV
(1)
6
ICCDR
(2)
Data retention current
–
3
4.5 (AT68166FT-20)
5
1.
2.
(AT68166FT-25)
mA
(AT68166FT-18)
TAVAV = Read cycle time.
All CSx = VCC, VIN = GND/VCC.
9
7531G–AERO–07/07
AC Characteristics
Temperature Range:................................................ -55 +125°C
Supply Voltage: ....................................................... 3.3 +0.3V
Input Pulse Levels: .................................................. GND to 3.0V
Input Rise and Fall Times:....................................... 3ns (10 - 90%)
Input and Output Timing Reference Levels: ............ 1.5V
Output Loading IOL/IOH:............................................ See Figure 3
Figure 6. AC Test Loads Waveforms
General
Specific (TWLQZ, TWHQX, TELQX, TEHQZ
TGLQX, TGHQZ)
Write Cycle
Table 4. Write cycle timings(1)
AT68166FT-25
Notes:
10
Symbol
Parameter
TAVAW
AT68166FT-20
AT68166FT-18
(preliminary)
min
max
min
max
min
max
Unit
Write cycle time
20
-
20
-
18
-
ns
TAVWL
Address set-up time
2
-
2
-
2
-
ns
TAVWH
Address valid to end of write
14
-
11
-
10
-
ns
TDVWH
Data set-up time
9
-
8
-
7
-
ns
TELWH
CS low to write end
12
-
12
-
11
-
ns
TWLQZ
Write low to high Z(2)
-
10
-
10
-
9
ns
TWLWH
Write pulse width
12
-
9
-
9
-
ns
TWHAX
Address hold from end of
write
0
-
0
-
0
-
ns
TWHDX
Data hold time
2
-
1
-
1
-
ns
TWHQX
Write high to low Z(2)
5
-
5
-
5
-
ns
1. Timings figures applicable for 8-bit, 16-bit and 32-bit mode.
2. Parameters guaranteed, not tested, with output loading 5 pF. (See “AC Test Loads Waveforms” on page 10.)
AT68166FT
7531G–AERO–07/07
AT68166FT
Figure 7. Write Cycle 1. WE Controlled, OE High During Write
ADDRESS
CSx
E
WEx E
OE
I/Os
Figure 8. Write Cycle 2. WE Controlled, OE Low
ADDRESS
CSx
WEx E
E
I/Os
Figure 9. Write Cycle 3. CS Controlled
ADDRESS
CSx
WEx E
I/Os
The internal write time of the memory is defined by the overlap of CS Low and WE LOW. Both signals must
be activated to initiate a write and either signal can terminate a write by going in active mode. The data
input setup and hold timing should be referenced to the active edge of the signal that terminates the write.
Data out is high impedance if OE= VIH.
11
7531G–AERO–07/07
Read Cycle
Table 5. Read cycle timings(1)
AT68166FT-25
Notes:
12
Symbol
Parameter
TAVAV
Read cycle time
TAVQV
AT68166FT-20
AT68166FT-18
(preliminary)
min
max
min
max
min
max
Unit
25
-
20
-
18
-
ns
Address access time
-
25
-
20
-
18
ns
TAVQX
Address valid to low Z
5
-
5
-
5
-
ns
TELQV
Chip-select access time
-
25
-
20
-
18
ns
TELQX
CS low to low Z(2)
5
-
5
-
5
-
ns
TEHQZ
CS high to high Z(2)
-
10
-
9
-
9
ns
TGLQV
Output Enable access time
-
12
-
10
-
9
ns
TGLQX
OE low to low Z(2)
2
-
2
-
2
-
ns
TGHQZ
OE high to high Z (2)
-
10
-
9
-
9
ns
1. Timings figures applicable for 8-bit, 16-bit and 32-bit mode.
2. Parameters guaranteed, not tested, with output loading 5 pF. (See “AC Test Loads Waveforms” on page 10.)
AT68166FT
7531G–AERO–07/07
AT68166FT
Figure 10. Read Cycle nb 1: Address Controlled (CS = OE = VIL, WE = VIH)
ADDRESS
DOUT
Figure 11. Read Cycle nb 2: Chip Select Controlled (WE = VIH)
CSx
OE
DOUT
13
7531G–AERO–07/07
Typical
Applications
This section presents some standard implementations of the AT68166FT in application.
32-bit mode
application
When used on a 32-bit (word) application, the module shall be connected as follow :
•
The 32 lines of data are connected to distinct data lines
•
The four CSx are connected together and linked to a single host CS output
•
Each one of the four WEx is connected to a dedicated WE line on the host to allow byte, half
word and word format write.
Figure 12. 32-bit typical application ( 1 SRAM bank)
A
AT68166FT
RAMS0*
RAMOE0*
RWE[3:0]*
CS[3:0]
OE
WE[3:0]
A[17:0]
I/O[31:0]
TSC695F
D[31:0]
A[19:2]
A[27:0]
D[31:0]
D[31:0]
16-bit mode
application
D
A[19:2]
When used on a 16-bit (half word) application, the module can be connected as presented in the
following figure. This allows use of a single AT68166FT part for two SRAM memory banks.
All input controls of the AT68166FT not used in the application shall be pulled-up.
Figure 13. 16-bit typical application (two SRAM banks)
RAMOE[1:0]*
AT68166FT
RAMS1*
RWE0*
CS[3:2]
WE[3:2]
RAMS0*
RWE0*
CS[1:0]
WE[1:0]
TSC695F
A[27:0]
D[31:0]
8-bit mode
application
OE
A
A[17:0]
I/O[31:16]
I/O[15:0]
A[18:1]
D
D[31:16]
D[31:16]
A[18:1]
D[31:0]
When used on a 8-bit (byte) application, the module can be connected as presented in the following figure. This allows use of a single AT68166FT part for up to four SRAM memory banks.
All input controls of the AT68166FT not used in the application shall be pulled-up.
14
AT68166FT
7531G–AERO–07/07
AT68166FT
Figure 14. 8-bit typical application (two SRAM banks)
RAMOE[1:0]*
TSC695F
OE
RAMS2*
RWE0*
CS[3]
WE[3]
RAMS2*
RWE0*
CS[2]
WE[2]
RAMS1*
RWE0*
CS[1]
WE[1]
RAMS0*
RWE0*
CS[0]
WE[0]
A[27:0]
D[31:0]
A
AT68166FT
A[17:0]
I/O[31:24]
I/O[23:16]
I/O[15:8]
I/O[7:0]
A[17:0]
D
D[31:24]
D[31:24]
D[31:24]
D[31:24]
A[17:0]
D[31:0]
15
7531G–AERO–07/07
Ordering Information
Part Number
Temperature Range
Speed
Package
Flow
AT68166FT-YM25-E
25°C
25 ns
MQFPT68
Engineering Samples
5962-0622901QXC
-55° to +125°C
25 ns
MQFPT68
QML Q
5962-0622901VXC
-55° to +125°C
25 ns
MQFPT68
QML V
5962R0622901VXC
-55° to +125°C
25 ns
MQFPT68
QML V RHA
AT68166FT-YM25-SCC
-55° to +125°C
25 ns
MQFPT68
ESCC
AT68166FT
AT68166FT-YS20-E
25°C
20 ns
MQFPT68
Engineering Samples
-55° to +125°C
20 ns
MQFPT68
QML Q
(2)
-55° to +125°C
20 ns
MQFPT68
QML V
(2)
-55° to +125°C
20 ns
MQFPT68
QML V RHA
AT68166FT-YS20-SCC
-55° to +125°C
20 ns
MQFPT68
ESCC
AT68166FT-YS18-E(1)
25°C
18 ns
MQFPT68
Engineering Samples
QML Q
AT68166FT-YS20-MQ(2)
AT68166FT-YS20-SV
AT68166FT-YS20-SR
(2)
AT68166FT-YS18-MQ
(1)(2)
-55° to +125°C
18 ns
MQFPT68
(1)(2)
-55° to +125°C
18 ns
MQFPT68
QML V
AT68166FT-YS18-SR(1)(2)
-55° to +125°C
18 ns
MQFPT68
QML V RHA
AT68166FT-YS18-SCC(1)(2)
-55° to +125°C
18 ns
MQFPT68
ESCC
AT68166FT-YS18-SV
Note:
1. Please contact your local sales office.
2. Will be replaced by SMD part number when available.
16
AT68166FT
7531G–AERO–07/07
AT68166FT
Package
Drawings
68-lead Quad Flat Pack (950 Mils) with non conductive tie bar
Note:
Lid is connected to Ground.
Note:
YM and YS package drawings are identical.
17
7531G–AERO–07/07
Document Revision History
Changes from
7531C to 7531D
1. Update of access time parameters.
Changes from
7531D to 7531E
1. Added YS package.
Changes from
7531E to 7531F
1. Updated ordering information.
Changes from
7531F to 7531G
1. Split datasheet into two seperate documents: removed AT68166F from this document.
Please refer to document 7747 on the Atmel web site.
18
AT68166FT
7531G–AERO–07/07
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7531G–AERO–07/07