MT47H32M16BN-25:D Micron Technology Inc, MT47H32M16BN-25:D Datasheet - Page 49

MT47H32M16BN-25:D

Manufacturer Part Number

MT47H32M16BN-25:D

Description

Manufacturer

Micron Technology Inc

Type

DDR2 SDRAMr

Datasheet

1.MT47H32M16BN-25D.pdf (139 pages)

Specifications of MT47H32M16BN-25:D

Organization

32Mx16

Density

512Mb

Address Bus

15b

Access Time (max)

400ps

Maximum Clock Rate

800MHz

Operating Supply Voltage (typ)

1.8V

Package Type

FBGA

Operating Temp Range

0C to 85C

Operating Supply Voltage (max)

1.9V

Operating Supply Voltage (min)

1.7V

Supply Current

295mA

Pin Count

Mounting

Surface Mount

Operating Temperature Classification

Commercial

Lead Free Status / Rohs Status

Compliant

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Table 16: Differential Input Logic Levels

All voltages referenced to Vss

Figure 16: Differential Input Signal Levels

PDF: 09005aef82f1e6e2

Rev. M 9/08 EN

Parameter

DC input signal voltage

DC differential input voltage

AC differential input voltage

AC differential cross-point voltage

Input midpoint voltage

Notes:

VddQ = 1.8V

1. Vin(DC) specifies the allowable DC execution of each input of differential pair such as

2. Vid(DC) specifies the input differential voltage |Vtr - Vcp| required for switching, where

3. Vid(AC) specifies the input differential voltage |Vtr - Vcp| required for switching, where

4. The typical value of Vix(AC) is expected to be about 0.5 × VddQ of the transmitting de-

5. Vmp(DC) specifies the input differential common mode voltage (Vtr + Vcp)/2 where Vtr

6. VddQ + 300mV allowed provided 1.9V is not exceeded.

1. TR and CP may not be more positive than VddQ + 0.3V or more negative than Vss - 0.3V.

2. TR represents the CK, DQS, RDQS, LDQS, and UDQS signals; CP represents CK#, DQS#,

3. This provides a minimum of 850mV to a maximum of 950mV and is expected to be

4. TR and CP must cross in this region.

5. TR and CP must meet at least Vid(DC) MIN when static and is centered around Vmp(DC).

1.075V

0.725V

–0.30V

2.1V

0.9V

CP 2

TR 2

CK, CK#, DQS, DQS#, LDQS, LDQS#, UDQS, UDQS#, and RDQS, RDQS#.

Vtr is the true input (such as CK, DQS, LDQS, UDQS) level and Vcp is the complementary

input (such as CK#, DQS#, LDQS#, UDQS#) level. The minimum value is equal to Vih(DC) -

Vil(DC). Differential input signal levels are shown in Figure 16 (page 49).

Vtr is the true input (such as CK, DQS, LDQS, UDQS, RDQS) level and Vcp is the comple-

mentary input (such as CK#, DQS#, LDQS#, UDQS#, RDQS#) level. The minimum value is

equal to Vih(AC) - Vil(AC), as shown in Table 15 (page 48).

vice and Vix(AC) is expected to track variations in VddQ. Vix(AC) indicates the voltage at

which differential input signals must cross, as shown in Figure 16 (page 49).

is the true input (CK, DQS) level and Vcp is the complementary input (CK#, DQS#).

Vmp(DC) is expected to be approximately 0.5 × VddQ.

RDQS#, LDQS#, and UDQS# signals.

VddQ/2.

Input Electrical Characteristics and Operating Conditions

Vmp(DC)

Symbol

Vin(DC)

Vid(DC)

Vid(AC)

Vix(AC)

0.50 × VddQ - 175

–300

Min

250

500

850

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

512Mb: x4, x8, x16 DDR2 SDRAM

0.50 × VddQ + 175

Vin(dc) MAX 1

Vmp(dc) 3

Vin(dc) MIN 1

Vix(ac) 4

VddQ

Max

950

Vid(dc) 5

Vid(ac) 6

Units

Notes

1, 6

2, 6

3, 6

MT47H32M16BN-25:D Micron Technology Inc, MT47H32M16BN-25:D Datasheet - Page 49

MT47H32M16BN-25:D

Specifications of MT47H32M16BN-25:D

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