TM497MBK36H, TM497MBK36I
4194304 BY 36-BIT
DYNAMIC RAM MODULES
SMMS676 – MARCH 1997
Organization . . . 4 194 304 × 36
3-State Output
Performance Ranges:
Single 5-V Power Supply (±10% Tolerance)
ACCESS ACCESS ACCESS READ
72-Pin Single-In-Line Memory Module
(SIMM) for Use With Sockets
TIME
TIME
TIME
OR
t
t
t
WRITE
CYCLE
(MIN)
RAC
CAC
AA
Uses Eight 16M-bit Dynamic RAMs
(DRAMs) in Plastic Small-Outline J-Lead
(SOJ) Packages and Four 4M-bit DRAMs in
Plastic SOJ Packages
(MAX)
(MAX)
(MAX)
’497MBK36H/I-60 60 ns
’497MBK36H/I-70 70 ns
’497MBK36H/I-80 80 ns
15 ns
18 ns
20 ns
30 ns
35 ns
40 ns
110 ns
130 ns
150 ns
Low Power Dissipation
Long Refresh Period . . . 32 ms
(2 048 Cycles)
†
Operating Free-Air Temperature
Range . . . 0°C to 70°C
All Inputs, Outputs, and Clocks are Fully
TTL Compatible
Presence Detect
Common CAS Control for Nine Common
Data-In and Data-Out Lines in Four Blocks
Gold-Tabbed Version Available
TM497MBK36H
Separate RAS Control for Eighteen Data-In
and Data-Out Lines in Two Blocks
Tin-Lead (Solder) Tabbed Version
Available: TM497MBK36I
description
The TM497MBK36H/I is a 144M-bit dynamic random-access memory (DRAM) device organized as four times
4194304 × 9 (bit 9 generally is used for parity) in a 72-pin leadless single-in-line memory module (SIMM). The
SIMM is composed of eight TMS417400ADJ, 4 194 304 × 4-bit DRAMs in 24/26-lead plastic SOJ packages,
and four TMS44100DJ, 4 194 304 × 1-bit DRAMs in 20/26-lead plastic SOJ packages mounted on a substrate
with decoupling capacitors. TMS417400ADJ and TMS44100DJ are described in the TMS417400A and
TMS44100 data sheets (literature numbers SMKS889 and SMHS561, respectively).
The TM497MBK36H/I is available in a double-sided, BK, leadless module for use with sockets. The
TM497MBK36H/I features RAS access times of 60, 70, and 80 ns. This device is characterized for operation
from 0°C to 70°C.
operation
The TM497MBK36H/I operates as eight TMS417400ADJs and four TMS44100DJs connected as shown in the
functionalblockdiagramandTable1. SeetheTMS417400AandTMS44100datasheetsfordetailsofoperation.
The common I/O feature dictates the use of early write cycles to prevent contention on D and Q.
Table 1. Connection Table
DATA BLOCK
DQ0–DQ8
RASx
RAS0
RAS0
RAS2
RAS2
CASx
CAS0
CAS1
CAS2
CAS3
DQ9–DQ17
DQ18–DQ26
DQ27–DQ35
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
†
A0–A9 address lines must be refreshed every 16 ms.
Copyright 1997, Texas Instruments Incorporated
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of Texas Instruments
standard warranty. Production processing does not necessarily include
testing of all parameters.
1
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