MT4LC4M16R6

The 4 Meg x 16 DRAM MT4LC4M16R6 is a high-speed CMOS, dynamic random-access memory device containing 67,108,864 bits and designed to operate from 3V to 3.6V. The device is functionally organized as 4,194,304 locations containing 16 bits each. The 4,194,304 memory locations are arranged in 4,096 rows by 1,024 columns on the MT4LC4M16R6 or 8,192 rows by 512 columns on the MT4LC4M16N3. During READ or WRITE cycles, each location is uniquely addressed via the address bits: 12 row-address bits (A0-A11) and 10 column-address bits (A0-A9) on the MT4LC4M16R6 or 13 row-address bits (A0-A12) and 9 column-address bits (A0-A8) on the MT4LC4M16N3 version. In addition, both byte and word accesses are supported via the two CAS# pins (CASL# and CASH#).

The CAS# functionality and timing of MT4LC4M16R6 related to address and control functions (e.g., latching column addresses or selecting CBR REFRESH) is such that the internal CAS# signal is determined by the first external CAS# signal (CASL# or CASH#) to transition LOW and the last to transition back HIGH. The CAS# functionality and timing of MT4LC4M16R6 related to driving or latching data is such that each CAS# signal independently controls the associated eight DQ pins.

The row address of MT4LC4M16R6 is latched by the RAS# signal, then the column address is latched by CAS#. This device provides EDO-PAGE-MODE operation, allowing for fast successive data operations (READ, WRITE or READMODIFY- WRITE) within a given row.

The 4 Meg x 16 DRAM MT4LC4M16R6 must be refreshed periodically in order to retain stored data.