IS61QDB42M36 Datasheet, PDF(1/28 Page) Integrated Silicon Solution, Inc – 72 Mb (2M x 36 & 4M x 18) QUAD (Burst of 4) Synchronous SRAMs

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IS61QDB42M36 Datasheet, PDF (1/28 Pages) Integrated Silicon Solution, Inc – 72 Mb (2M x 36 & 4M x 18) QUAD (Burst of 4) Synchronous SRAMs

72 Mb (2M x 36 & 4M x 18)

Q7 UAD (Burst of 4) Synchronous SRAMs

Features

â¢ 2M x 36 or 4M x 18.

â¢ On-chip delay-locked loop (DLL) for wide data

valid window.

â¢ Separate read and write ports with concurrent

read and write operations.

â¢ Synchronous pipeline read with late write opera-

tion.

â¢ Double data rate (DDR) interface for read and

write input ports.

â¢ Fixed 4-bit burst for read and write operations.

â¢ Clock stop support.

â¢ Two input clocks (K and K) for address and con-

trol registering at rising edges only.

â¢ Two input clocks (C and C) for data output con-

trol.

â¢ Industrial temperature available

November 2009

â¢ Two echo clocks (CQ and CQ) that are delivered

simultaneously with data.

â¢ +1.8V core power supply and 1.5, 1.8V VDDQ,

used with 0.75, 0.9V VREF.

â¢ HSTL input and output levels.

â¢ Registered addresses, write and read controls,

byte writes, data in, and data outputs.

â¢ Full data coherency.

â¢ Boundary scan using limited set of JTAG 1149.1

functions.

â¢ Byte write capability.

â¢ Fine ball grid array (FBGA) package

- 15mm x 17mm body size

- 1mm pitch

- 165-ball (11 x 15) array

â¢ Programmable impedance output drivers via 5x

user-supplied precision resistor.

Description

The 72Mb IS61QDB42M36 and

IS61QDB44M18 are synchronous, high-perfor-

mance CMOS static random access memory

(SRAM) devices. These SRAMs have separate I/Os,

eliminating the need for high-speed bus turnaround.

The rising edge of K clock initiates the read/write

operation, and all internal operations are self-timed.

Refer to the Timing Reference Diagram for Truth

Table on page 8 for a description of the basic opera-

tions of these QUAD (Burst of 4) SRAMs.

Read and write addresses are registered on alter-

nating rising edges of the K clock. Reads and writes

are performed in double data rate. The following are

registered internally on the rising edge of the K

clock:

â¢ Read/write address

â¢ Read enable

â¢ Write enable

â¢ Byte writes for burst addresses 1 and 3

â¢ Data-in for burst addresses 1 and 3

The following are registered on the rising edge of

the K clock:

â¢ Byte writes for burst addresses 2 and 4

â¢ Data-in for burst addresses 2 and 4

Byte writes can change with the corresponding data-

in to enable or disable writes on a per-byte basis. An

internal write buffer enables the data-ins to be regis-

tered one cycle after the write address. The first

data-in burst is clocked one cycle later than the write

command signal, and the second burst is timed to

the following rising edge of the K clock. Two full

clock cycles are required to complete a write opera-

tion.

During the burst read operation, the data-outs from

the first and third bursts are updated from output

registers off the second and fourth rising edges of

the C clock (starting 1.5 cycles later). The data-outs

from the second and fourth bursts are updated with

the third and fifth rising edges of the C clock. The K

and K clocks are used to time the data-outs when-

ever the C and C clocks are tied high. Two full clock

cycles are required to complete a read operation

The device is operated with a single +1.8V power

supply and is compatible with HSTL I/O interfaces.

Integrated Silicon Solution, Inc.

Rev. B

11/10/09

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