MT47H64M16HR-3 IT:H Micron Technology Inc, MT47H64M16HR-3 IT:H Datasheet - Page 105

MT47H64M16HR-3 IT:H

Manufacturer Part Number

MT47H64M16HR-3 IT:H

Description

DRAM Chip DDR2 SDRAM 1G-Bit 64Mx16 1.8V 84-Pin FBGA Tray

Manufacturer

Micron Technology Inc

Type

DDR2 SDRAMr

Datasheet

1.MT47H64M16HR-3_ITH.pdf (134 pages)

Specifications of MT47H64M16HR-3 IT:H

Density

1 Gb

Maximum Clock Rate

667 MHz

Package

84FBGA

Operating Supply Voltage

1.8 V

Maximum Random Access Time

0.45 ns

Operating Temperature

-40 to 85 Â°C

Organization

64Mx16

Address Bus

16b

Access Time (max)

450ps

Operating Supply Voltage (typ)

1.8V

Package Type

FBGA

Operating Temp Range

-40C to 85C

Operating Supply Voltage (max)

1.9V

Operating Supply Voltage (min)

1.7V

Supply Current

135mA

Pin Count

Mounting

Surface Mount

Operating Temperature Classification

Industrial

Lead Free Status / RoHS Status

Compliant

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Table 43: WRITE Using Concurrent Auto Precharge

PDF: 09005aef821ae8bf

1GbDDR2.pdf – Rev. V 6/10 EN

WRITE with auto precharge

From Command

(Bank n)

the WRITE diagrams show the nominal case, and where the two extreme cases (

[MIN] and

(page 106) shows the nominal case and the extremes of

tion of a burst, assuming no other commands have been initiated, the DQ will remain

High-Z and any additional input data will be ignored.

Data for any WRITE burst may be concatenated with a subsequent WRITE command to

provide continuous flow of input data. The first data element from the new burst is ap-

plied after the last element of a completed burst. The new WRITE command should be

issued x cycles after the first WRITE command, where x equals BL/2.

Figure 58 (page 107) shows concatenated bursts of BL = 4 and how full-speed random

write accesses within a page or pages can be performed. An example of nonconsecutive

WRITEs is shown in Figure 59 (page 107). DDR2 SDRAM supports concurrent auto pre-

charge options, as shown in Table 43.

DDR2 SDRAM does not allow interrupting or truncating any WRITE burst using BL = 4

operation. Once the BL = 4 WRITE command is registered, it must be allowed to com-

plete the entire WRITE burst cycle. However, a WRITE BL = 8 operation (with auto

precharge disabled) might be interrupted and truncated only by another WRITE burst

as long as the interruption occurs on a 4-bit boundary due to the 4n-prefetch architec-

ture of DDR2 SDRAM. WRITE burst BL = 8 operations may not be interrupted or

truncated with any command except another WRITE command, as shown in Figure 60

(page 108).

Data for any WRITE burst may be followed by a subsequent READ command. To follow

a WRITE,

cycles required to meet

WRITE burst may be followed by a subsequent PRECHARGE command.

met, as shown in Figure 62 (page 110).

less of the data mask condition.

WRITE or WRITE with auto precharge

READ or READ with auto precharge

PRECHARGE or ACTIVATE

WTR should be met, as shown in Figure 61 (page 109). The number of clock

DQSS [MAX]) might not be intuitive, they have also been included. Figure 57

To Command

(Bank m)

WTR is either 2 or

105

Micron Technology, Inc. reserves the right to change products or specifications without notice.

WR starts at the end of the data burst, regard-

WTR/

(with Concurrent Auto Precharge)

1Gb: x4, x8, x16 DDR2 SDRAM

CK, whichever is greater. Data for any

(CL - 1) + (BL/2) +

Minimum Delay

DQSS for BL = 4. Upon comple-

(BL/2)

WTR

WR must be

WRITE

DQSS

Units

MT47H64M16HR-3 IT:H Micron Technology Inc, MT47H64M16HR-3 IT:H Datasheet - Page 105

MT47H64M16HR-3 IT:H

Specifications of MT47H64M16HR-3 IT:H

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