MT36KSF2G72PDZ-1G1D1 Datasheet MT36KSF1G72PDZ-1G1K1, MT36KSF2G72PDZ-1G1D1, MT36KSF2G72PDZ-1G4D1 | P19-P21

Table 14: DDR3 I

Specifications and Conditions – 16GB (Die Revision E)

Values are for the MT41K512M8 DDR3L SDRAM only and are computed from values specified in the 1.35V 4Gb (512 Meg x

8) component data sheet

Parameter Symbol 1333 1066 Units

Operating current 0: One bank ACTIVATE-to-PRECHARGE I

DD0

909 882 mA

Operating current 1: One bank ACTIVATE-to-READ-to-PRECHARGE I

DD1

1044 1017 mA

Precharge power-down current: Slow exit I

DD2P0

648 648 mA

Precharge power-down current: Fast exit I

DD2P1

1008 936 mA

Precharge quiet standby current I

DD2Q

1008 972 mA

Precharge standby current I

DD2N

1044 1008 mA

Precharge standby ODT current I

DD2NT

801 774 mA

Active power-down current I

DD3P

1260 1152 mA

Active standby current I

DD3N

1260 1152 mA

Burst read operating current I

DD4R

1746 1593 mA

Burst write operating current I

DD4W

1476 1341 mA

Refresh current I

DD5B

2538 2502 mA

Self refresh temperature current: MAX T

= 85°C I

DD6

720 720 mA

Self refresh temperature current (SRT-enabled): MAX T

= 95°C I

DD6ET

900 900 mA

All banks interleaved read current I

DD7

2196 1926 mA

RESET low current I

DD8

720 720 mA

Notes:

1. One module rank in the active I

, the other ranks in I

DD2P0

(slow exit).

2. All ranks in this I

condition.

8GB, 16GB (x72, ECC, QR) 240-Pin 1.35V DDR3L RDIMM

Specifications

PDF: 09005aef8490c71e

ksf36c1g_2gx72pdz.pdf - Rev. D 4/13 EN

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

Registering Clock Driver Specifications

Table 15: Registering Clock Driver Electrical Characteristics

SSTE32882 devices or equivalent; Note 1 applies to entire table

Parameter Symbol Pins Min Nom Max Units Notes

DC supply voltage V

– 1.283 1.35 1.45 V

1.425 1.5 1.575 V 2

DC reference volt-

age

REF

– 0.49 × V

- 20mV 0.5 × V

0.51 × V

+ 20mV V

DC termination

voltage

– 0.49 × V

- 20mV 0.5 × V

0.51 × V

+ 20mV V

AC high-level input

voltage

IH(AC)

Control, command,

address

REF

+ 175mV – V

+ 400mV V

AC low-level input

voltage

IL(AC)

Control, command,

address

–0.4 – V

REF

- 175mV V

DC high-level input

voltage

IH(DC)

Control, command,

address

REF

+ 100mV – V

+ 0.4 V

DC low-level input

voltage

IL(DC)

Control, command,

address

–0.4 – V

REF

- 100mV V

High-level input

voltage

IH(CMOS)

RESET#, MIRROR 0.65 × V

– V

Low-level input

voltage

IL(CMOS)

RESET#, MIRROR 0 – 0.35 × V

Differential input

crosspoint voltage

range

IX(AC)

CK, CK#, FBIN, FBIN# 0.5 × V

- 175mV 0.5 × V

0.5 × V

+ 175mV V

Differential input

voltage

ID(AC)

CK, CK# 350 – V

+ TBD mV

High-level output

current

Err_Out# – – TBD mA

Low-level output

current

Err_Out# TBD – TBD mA

Notes:

1. Timing and switching specifications for the register listed are critical for proper opera-

tion of the DDR3 SDRAM RDIMMs. These are meant to be a subset of the parameters for

the specific device used on the module.

2. The register is backward-compatible with 1.5V operation. Refer to device specification

for details and operation guidance.

8GB, 16GB (x72, ECC, QR) 240-Pin 1.35V DDR3L RDIMM

Registering Clock Driver Specifications

PDF: 09005aef8490c71e

ksf36c1g_2gx72pdz.pdf - Rev. D 4/13 EN

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

Temperature Sensor with Serial Presence-Detect EEPROM

The temperature sensor continuously monitors the module's temperature and can be

read back at any time over the I

C bus shared with the SPD EEPROM. Refer to JEDEC

standard No. 21-C page 4.7-1, "Definition of the TSE2002av, Serial Presence Detect with

Temperature Sensor."

Serial Presence-Detect

For the latest SPD data, refer to Micron's SPD page: www.micron.com/SPD.

Table 16: Temperature Sensor with SPD EEPROM Operating Conditions

Parameter/Condition Symbol Min Max Units

Supply voltage V

DDSPD

3.0 3.6 V

Supply current: V

= 3.3V I

– 2.0 mA

Input high voltage: Logic 1; SCL, SDA V

DDSPD

x 0.7 V

DDSPD

+ 1 V

Input low voltage: Logic 0; SCL, SDA V

–0.5 V

DDSPD

x 0.3 V

Output low voltage: I

OUT

= 2.1mA V

– 0.4 V

Input current I

–5.0 5.0 µA

Temperature sensing range – –40 125 °C

Temperature sensor accuracy (class B) – –1.0 1.0 °C

Table 17: Temperature Sensor and SPD EEPROM Serial Interface Timing

Parameter/Condition Symbol Min Max Units

Time bus must be free before a new transition can

start

BUF 4.7 – µs

SDA fall time

F 20 300 ns

SDA rise time

R – 1000 ns

Data hold time

HD:DAT 200 900 ns

Start condition hold time

H:STA 4.0 – µs

Clock HIGH period

HIGH 4.0 50 µs

Clock LOW period

LOW 4.7 – µs

SCL clock frequency

SCL 10 100 kHz

Data setup time

SU:DAT 250 – ns

Start condition setup time

SU:STA 4.7 – µs

Stop condition setup time

SU:STO 4.0 – µs

8GB, 16GB (x72, ECC, QR) 240-Pin 1.35V DDR3L RDIMM

Temperature Sensor with Serial Presence-Detect EEPROM

PDF: 09005aef8490c71e

ksf36c1g_2gx72pdz.pdf - Rev. D 4/13 EN

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

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MT36KSF2G72PDZ-1G1D1

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