HYB18M1G16 Datasheet, PDF(6/65 Page) Qimonda AG

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HYB18M1G16 Datasheet, PDF (6/65 Pages) Qimonda AG – 1-Gbit x16 DDR Mobile-RAM

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Data Sheet

HY[B/E]18M1G16[0/1]BF

1-Gbit DDR Mobile-RAM

1.3

Description

The HY[B/E]18M1G16[0/1]BF is a high-speed CMOS, dynamic random-access memory containing 1,073,741,824 bits. It is

internally configured as a quad-bank DRAM.

The HY[B/E]18M1G16[0/1]BF uses a double-data-rate architecture to achieve high-speed operation. The double-data-rate

architecture is essentially a 2n pre fetch architecture, with an interface designed to transfer two data words per clock cycle at

the I/O balls. A single READ or WRITE access for the DDR Mobile-RAM consists of a single 2n-bit wide, one clock cycle data

transfer at the internal DRAM core and two corresponding n-bit wide, one-half clock cycle data transfers at the I/O balls.

The HY[B/E]18M1G16[0/1]BF is especially designed for mobile applications. It operates from a 1.8V power supply. Power

consumption in self refresh mode is drastically reduced by an On-Chip Temperature Sensor (OCTS); it can further be reduced

by using the programmable Partial Array Self Refresh (PASR).

A conventional data-retaining Power-Down (PD) mode is available as well as a non-data-retaining Deep Power-Down (DPD)

mode. For further power-savings the clock may be stopped during idle periods.

The HY[B/E]18M1G16[0/1]BF is housed in a 60-ball PG-VFBGA-60-6 package. It is available in Commercial (-0Â°C to +70Â°C)

and Extended (-25Â°C to +85Â°C) temperature range.

This product provides two options in Clock Enable (CKE) configurations â 1 CKE and 2 CKE, in addition to the 2 Chip Select

scheme. The options provide independent control of CS and CKE of each DRAM dies as required to achieve low power

consumption.

For example, a possible combination is that while one DRAM die is in active mode, the other could be in standby via

independent CS control, or in Deep Power Down mode via independent CS and CKE control. As shown in Table 26 SDRAM

Maximum Operating Currents, number of figures for various scenarios are demonstrated, where one die is in active mode

controlled by CS0; the other is in standby mode controlled by CS1 (for 1 CKE option), or in Power-Down mode controlled by

CKE1 (for 2 CKE option).

The HY[B/E]18M1G16[0/1]BF package contains two dies, each die assigned a separate chip select, which is functionally

equivalent to having two seperate BGA components, with each component containing one die. The same functional limitations

apply and care must be taken to avoid possible bus contention, since both dies share the same data bus. Any back-to-back

read or write from a different die can only start when the existing burst operation is completed. For example, restricted

operations involving two dies may include:

â¢ Consecutive READ/WRITE bursts,

â¢ Random READ/WRITE accesses,

â¢ READ or WRITE truncations, and

â¢ Simultaneous READ or WRITE on both dies

In case of an ongoing read burst, the Burst Terminate (BST) command can be used before any access from the different die

occurs.

The dual-die device must follow the predefined command sequences for power-up and initialization. The operation can be

performed for the two dies together or separately.

Note: All the timing diagrams of operations shown int the following sections assume that operations occur within the same die.

Rev.1.0, 2007-03

10242006-Y557-TZXW

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