ETC AK491024GP-80

DESCRIPTION
Accutek
Microcircuit
Corporation
AK491024S / AK491024G
1,048,576 Word x 9 Bit CMOS
Dynamic Random Access Memory
Front View
The Accutek AK491024 high density memory module is a random
access memory organized in 1 Meg x 9 bit words. The assembly
consists of nine standard 1 Meg x 1 DRAMs in plastic leaded chip
carriers (SOJ) mounted on the front side of a printed circuit board.
The module can be configured as a leadless 30 pad SIM or a leaded
30 pin SIP. This packaging approach provides a 6 to 1 density increase over standard DIP packaging.
30-Pin SIM
30
1
30-Pin SIP
The operation of the AK491024 is identical to nine 1 Meg x 1
DRAMs. For the lower eight bits data input is tied to the data output
and brought out separately for each device, with common RAS,
CAS control. This common I/O feature dictates the use of
early-write cycles to prevent contention of D and Q. Since the
Write-Enable (WE) signal must always go low before CAS in a write
cycle, Read-Write and Read-Modify-Write operation is not possible.
For the ninth bit, the data input (D9) and the data output (Q9) pins are
brought out separately and controlled by a separate PCAS for that
bit. Bit nine is generally used for parity.
1
FEATURES
· 1,048,576 x 9 bit organization
· Optional 30 Pad leadless SIM (Single In-Line Module) or 30
Pin leaded SIP (Single In-Line Package)
· JEDEC standard pinout
· Power
3.465 Watt Max Active (80 nSEC)
2.97 Watt Max Active (100 nSEC)
2.475 Watt Max Active (120 nSEC)
49.5 mW Max Standby
· Operating free air temperature 00C to 700C
· Common CAS and RAS control for the lower eight bits
· Upward compatible with AK594096 and AK5916384
· Separate PCAS control for D9 and Q9
· Downward compatible with AK49256
· CAS-before-RAS refresh
PIN NOMENCLATURE
PIN ASSIGNMENT
DQ1 - DQ8
Data In / Data Out
PIN #
SYMBOL
PIN #
SYMBOL
1
Vcc
16
DQ5
D9
Data In 9
2
CAS
17
A8
Q9
Data Out 9
3
DQ1
18
A9
A0 - A9
Address Inputs
4
A0
19
NC
5
A1
20
DQ6
CAS, PCAS
Column Address Strobe
6
DQ2
21
WE
RAS
Row Address Strobe
7
A2
22
Vss
WE
Write Enable
DQ7
Vcc
Vss
NC
FUNCTIONAL DIAGRAM
8
A3
23
9
Vss
24
NC
5v Supply
10
DQ3
25
DQ8
Ground
11
A4
26
Q9
12
A5
27
RAS
13
DQ4
28
PCAS
14
A6
29
D9
15
A7
30
Vcc
No Connect
MODULE OPTIONS
Leadless SIM: AK491024S
Leaded SIP: AK491024G
MECHANICAL DIMENSIONS
ORDERING INFORMATION
PART NUMBER CODING INTERPRETATION
Position
1
2
3
6
Inches
7
8
0.425
0.375
.100
.060
0.325
0.275
1
1
3.525
3.475
3.100
3.090
30
0.200
MAX
0.053
0.047
Product
AK = Accutek Memory
Type
4 = Dynamic RAM
5 = CMOS Dynamic RAM
6 = Static RAM
Organization/Word Width
1 = by 1 16 = by 16
4 = by 4 32 = by 32
8 = by 8 36 = by 36
9 = by 9
Size/Bits Depth
64 = 64K
4096 = 4 MEG
256 = 256K
8192 = 8 MEG
1024 = 1 MEG 16384 = 16 MEG
Package Type
G = Single In-Line Package (SIP)
S = Single In-Line Module (SIM)
D = Dual In-Line Package (DIP)
W = .050 inch Pitch Edge Connect
Z = Zig-Zag In-Line Package (ZIP)
Special Designation
P = Page Mode
N = Nibble Mode
K = Static Column Mode
W = Write Per Bit Mode
V = Video Ram
Separator
- = Commercial 00C to +700C
M = Military Equivalent Screened
(-550C to +1250C)
I = Industrial Temperature Tested
(-450C to +850C)
X = Burned In
Speed (first two significant digits)
DRAMS
SRAMS
50 = 50 nS
8 =
8 nS
60 = 60 nS
10 = 10 nS
70 = 70 nS
12 = 12 nS
80 = 80 nS
15 = 15 nS
0.815
0.785
8
5
0.024
0.016
7
4
0.100
TYP
6
3
0.100
TYP
5
2
0.815
0.785
4
1
0.100
TYP
The numbers and coding on this page do not include all variations
available but are show as examples of the most widely used variations.
Contact Accutek if other information is required.
EXAMPLES:
AK491024SP-80
1 Meg x 9, 80 nSEC DRAM 30 pin SIM Configuration, Page Mode
AK491024GN-70
1 Meg x 9, 70 nSEC Dram 30 pin SIP Configuration, Nibble Mode
ACCUTEK MICROCIRCUIT CORPORATION
BUSINESS CENTER at NEWBURYPORT
2 NEW PASTURE ROAD, SUITE 1
NEWBURYPORT, MA 01950-4054
VOICE: 978-465-6200 FAX: 978-462-3396
Email: [email protected]
Internet: www.accutekmicro.com
Accutek Reserves the right to make changes in specifications at any
time and without notice. Accutek does not assume any responsibility
for the use of any circuitry described; no circuit patent licenses are implied. Preliminary data sheets contain minimum and maximum limits
based upon design objectives, which are subject to change upon full
characterization over the specific operating conditions.