K4H560438J-LLB3_技术文档

K4H560438J

K4H560838J

K4H561638J

DDR SDRAM

256Mb J-die DDR SDRAM Specification

66 TSOP-II

with Lead-Free and Halogen-Free

(RoHS compliant)

INFORMATION IN THIS DOCUMENT IS PROVIDED IN RELATION TO SAMSUNG PRODUCTS,

AND IS SUBJECT TO CHANGE WITHOUT NOTICE. NOTHING IN THIS DOCUMENT SHALL BE

CONSTRUED AS GRANTING ANY LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHER-

WISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IN SAMSUNG PRODUCTS OR TECHNOL-

OGY. ALL INFORMATION IN THIS DOCUMENT IS PROVIDED ON AS "AS IS" BASIS WITHOUT

GUARANTEE OR WARRANTY OF ANY KIND.

1. For updates or additional information about Samsung products, contact your nearest Samsung office.

2. Samsung products are not intended for use in life support, critical care, medical, safety equipment, or similar

applications where Product failure could result in loss of life or personal or physical harm, or any military or

defense application, or any governmental procurement to which special terms or provisions may apply.

* Samsung Electronics reserves the right to change products or specification without notice.

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Table of Contents

1.0 Key Features ...............................................................................................................................4

2.0 Ordering Information ..................................................................................................................4

3.0 Operating Frequencies ...............................................................................................................4

4.0 Pin Description ........................................................................................................................... 5

5.0 Package Physical Dimension ....................................................................................................6

6.0 Block Diagram (16Mb x 4 / 8Mb x 8 / 4Mb x 16 I/O x4 Banks) .................................................7

7.0 Input/Output Function Description ............................................................................................8

8.0 Command Truth Table ................................................................................................................9

9.0 General Description ..................................................................................................................10

10.0 Absolute Maximum Rating .....................................................................................................10

11.0 DC Operating Conditions .......................................................................................................10

12.0 DDR SDRAM Spec Items & Test Conditions ........................................................................11

13.0 Input/Output Capacitance ......................................................................................................11

14.0 Detailed test condition for DDR SDRAM IDD1 & IDD7A ......................................................12

15.0 DDR SDRAM IDD spec table ..................................................................................................13

16.0 AC Operating Conditions .......................................................................................................14

17.0 AC Overshoot/Undershoot specification for Address and Control Pins ...........................14

18.0 Overshoot/Undershoot specification for Data, Strobe and Mask Pins ..............................15

19.0 AC Timming Parameters & Specifications ...........................................................................16

20.0 System Characteristics for DDR SDRAM .............................................................................17

21.0 Component Notes ...................................................................................................................18

22.0 System Notes ..........................................................................................................................20

23.0 IBIS : I/V Characteristics for Input and Output Buffers........................................................21

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Revision History

Revision

1.0

Month

September

November

March

Year

2007

2008

History

- Release revision 1.0 SPEC

- Revised typo of package dimension

- Added Package pin out lead width

- Corrected typo

1.1

1.11

1.12

August

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1.0 Key Features

• V_DD: 2.5V ± 0.2V, V_DDQ: 2.5V ± 0.2V for DDR266, 333

• V_DD: 2.6V ± 0.1V, V_DDQ: 2.6V ± 0.1V for DDR400

• Double-data-rate architecture; two data transfers per clock cycle

• Bidirectional data strobe [DQS] (x4,x8) & [L(U)DQS] (x16)

• Four banks operation

• Differential clock inputs(CK and CK)

• DLL aligns DQ and DQS transition with CK transition

• MRS cycle with address key programs

-. Read latency : DDR266(2, 2.5 Clock), DDR333(2.5 Clock), DDR400(3 Clock)

-. Burst length (2, 4, 8)

-. Burst type (sequential & interleave)

• All inputs except data & DM are sampled at the positive going edge of the system clock(CK)

• Data I/O transactions on both edges of data strobe

• Edge aligned data output, center aligned data input

• LDM,UDM for write masking only (x16)

• DM for write masking only (x4, x8)

• Auto & Self refresh

• 7.8us refresh interval(8K/64ms refresh)

• Maximum burst refresh cycle : 8

• 66pin TSOP II Lead-Free & Halogen-Free package

• RoHS compliant

2.0 Ordering Information

Part No.

K4H560438J-LC/LB3

K4H560438J-LC/LB0

K4H560838J-LC/LCC

K4H560838J-LC/LB3

K4H561638J-LC/LCC

K4H561638J-LC/LB3

Note

Org.

Max Freq.

Interface

Package

Note

1, 2

2

B3(DDR333@CL=2.5)

B0(DDR266@CL=2.5)

CC(DDR400@CL=3)

B3(DDR333@CL=2.5)

CC(DDR400@CL=3)

B3(DDR333@CL=2.5)

66pin TSOP II

Lead-Free & Halogen-Free

64M x 4

SSTL2

2

66pin TSOP II

Lead-Free & Halogen-Free

32M x 8

SSTL2

1, 2

2

66pin TSOP II

Lead-Free & Halogen-Free

16M x 16

1, 2

1. "-B3"(DDR333, CL=2.5) can support "-B0"(DDR266, CL=2.5)/ "-A2"(DDR266, CL=2).

2. “L” of Part number(12th digit) stands for RoHS compliant and Halogen-Free product.

3.0 Operating Frequencies

CC(DDR400@CL=3)

B3(DDR333@CL=2.5)

A2(DDR266@CL=2.0)

B0(DDR266@CL=2.5)

Speed @CL2

Speed @CL2.5

Speed @CL3

CL-tRCD-tRP

-

133MHz

166MHz

-

133MHz

-

100MHz

133MHz

-

166MHz

200MHz

3-3-3

2.5-3-3

2-3-3

2.5-3-3

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4.0 Pin Description

16Mb x 16

32Mb x 8

64Mb x 4

VSS

NC

V^SSQ

NC

DQ³

VDDQ

NC

V^SSQ

NC

DQ²

VDDQ

NC

VSSQ

DQS

NC

V^REF

V^SS

DM

CK

CKE

NC

A¹²

A11

V^SS

DQ⁷

V^SSQ

NC

VSS

66

65

64

63

62

61

60

59

58

57

56

55

54

53

52

51

50

49

48

47

46

45

44

43

42

41

40

39

38

37

36

35

34

1

VDD

DQ0

VDDQ

DQ1

DQ2

VSSQ

DQ3

DQ4

VDDQ

DQ5

DQ6

VSSQ

DQ7

NC

VDD

DQ0

V^DDQ

NC

VDD

NC

DQ15

VSSQ

DQ14

DQ13

VDDQ

DQ12

DQ11

VSSQ

DQ10

DQ9

VDDQ

DQ8

NC

2

3

V^DDQ

NC

4

DQ⁶

V^DDQ

NC

5

DQ¹

V^SSQ

NC

DQ⁰

VSSQ

NC

6

7

DQ⁵

V^SSQ

NC

8

DQ²

V^DDQ

NC

9

V^DDQ

NC

10

11

12

13

14

15

16

17

18

19

20

21

66Pin TSOPII

(400mil x 875mil)

(0.65mm Pin Pitch)

DQ⁴

V^DDQ

NC

DQ³

V^SSQ

NC

DQ¹

VSSQ

NC

Bank Address

BA0~BA1

V^SSQ

DQS

NC

VSSQ

UDQS

NC

V^DDQ

LDQS

NC

V^DDQ

NC

V^DDQ

NC

Auto Precharge

A10

V^REF

V^SS

DM

CK

V^REF

V^SS

VDD

V^DD

NC

V^DD

NC

UDM

CK

LDM

WE

NC

WE

CAS

RAS

CS

WE

CAS

RAS

CS

CK

CAS

RAS

CS

22

23

CKE

NC

CKE

NC

24

25

26

27

28

29

30

31

32

33

A¹²

A¹¹

A¹²

NC

A11

BA0

BA1

BA⁰

BA¹

BA0

BA1

AP/A10

A0

A9

A⁹

A9

A8

AP/A10

A0

AP/A¹⁰

A⁰

A7

A⁷

A7

A6

A⁶

A6

A¹

A1

A5

A⁵

A5

A2

A²

A2

A4

A⁴

A4

A³

A3

V^SS

VSS

V^DD

256Mb TSOP-II Package Pinout

Organization

64Mx4

Row Address

A0~A12

Column Address

A0-A9, A11

A0-A9

32Mx8

A0~A12

16Mx16

A0~A12

A0-A8

DM is internally loaded to match DQ and DQS identically.

Row & Column address configuration

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5.0 Package Physical Dimension

Unit : mm

#66

#34

#1

#33

(1.50)

+0.075

- 0.035

0.125

22.22 ± 0.10

(10°)

0.10 MAX

[

(10°)

0.65TYP

0.075 MAX

[

(0.71)

[0.65 ± 0.08]

Detail A

Detail B

0.25TYP

NOTE

1. ( ) IS REFERENCE

2. [ ] IS ASS’Y OUT QUALITY

Detail A

(0° ∼ 8°)

± 0.08

0.30

0.25

66Pin TSOP(II) Package Dimension

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6.0 Block Diagram (16Mb x 4 / 8Mb x 8 / 4Mb x 16 I/O x4 Banks)

LWE

x4/8/16

CK, CK

Data Input Register

Serial to parallel

LDM (x4x8)

LUDM (x16)

Bank Select

x8/16/32

8Mx8/ 4Mx16/ 2Mx32

x8/16/32

x4/8/16

DQi

CK, CK

ADD

Column Decoder

Latency & Burst Length

Data Strobe

Programming Register

LWCBR

LCKE

LDM (x4x8)

LUDM (x16)

LRAS LCBR

LWE

LCAS

CK, CK

DM Input Register

Timing Register

LDM (x4x8)

LUDM (x16)

CK, CK

CKE

CS

RAS

CAS

WE

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7.0 Input/Output Function Description

SYMBOL

TYPE

DESCRIPTION

Clock : CK and CK are differential clock inputs. All address and control input signals are sam-

pled on the positive edge of CK and negative edge of CK. Output (read) data is referenced to

both edges of CK. Internal clock signals are derived from CK/CK.

CK, CK

Input

Clock Enable : CKE HIGH activates, and CKE LOW deactivates internal clock signals, and

device input buffers and output drivers. Taking CKE Low provides PRECHARGE POWER-

DOWN and SELF REFRESH operation (all banks idle), or ACTIVE POWER-DOWN (row

ACTIVE in any bank). CKE is synchronous for POWER-DOWN entry and exit, and for SELF

REFRESH entry. CKE is asynchronous for SELF REFRESH exit, and for output disable. CKE

must be maintained high throughput READ and WRITE accesses. Input buffers, excluding CK,

CK and CKE are disabled during POWER-DOWN. Input buffers, excluding CKE are disabled

during SELF REFRESH. CKE is an SSTL_2 input, but will detect an LVCMOS Low level after

V_DDis applied upon 1st power up, After V_REFhas become stable during the power on and ini-

CKE

Input

tialization sequence, it must be maintained for proper operation of the CKE receiver. For

proper SELF-REFRESH entry and exit, V_REFmust be maintained to this input.

Chip Select : CS enables(registered LOW) and disables(registered HIGH) the command

decoder. All commands are masked when CS is registered HIGH. CS provides for external

bank selection on systems with multiple banks. CS is considered part of the command code.

CS

Input

RAS, CAS, WE

Command Inputs : RAS, CAS and WE (along with CS) define the command being entered.

Input Data Mask : DM is an input mask signal for write data. Input data is masked when DM is

sampled HIGH along with that input data during a WRITE access. DM is sampled on both

edges of DQS. Although DM pins are input only, the DM loading matches the DQ and DQS

loading. For the x16, LDM corresponds to the data on DQ0~D7 ; UDM corresponds to the data

on DQ8~DQ15. DM may be driven high, low, or floating during READs.

LDM,(UDM)

BA0, BA1

Input

Bank Addres Inputs : BA0 and BA1 define to which bank an ACTIVE, READ, WRITE or PRE-

CHARGE command is being applied.

Address Inputs : Provide the row address for ACTIVE commands, and the column address and

AUTO PRECHARGE bit for READ/WRITE commands, to select one location out of the mem-

ory array in the respective bank. A10 is sampled during a PRECHARGE command to deter-

mine whether the PRECHARGE applies to one bank (A10 LOW) or all banks (A10 HIGH). If

only one bank is to be precharged, the bank is selected by BA0, BA1. The address inputs also

provide the op-code during a MODE REGISTER SET command. BA0 and BA1 define which

mode register is loaded during the MODE REGISTER SET command (MRS or EMRS).

A [0 : 12]

Input

DQ

I/O

Data Input/Output : Data bus

Data Strobe : Output with read data, input with write data. Edge-aligned with read data, cen-

tered in write data. Used to capture write data. For the x16, LDQS corresponds to the data on

DQ0~D7 ; UDQS corresponds to the data on DQ8~DQ15.

LDQS,(U)DQS

LDQS is NC on x4 and x8.

NC

-

No Connect : No internal electrical connection is present.

DQ Power Supply : +2.5V ± 0.2V. (+2.6V ±0.1V for DDR400)

DQ Ground.

V_DDQ

Supply

Input

V_SSQ

V_DD

Power Supply : +2.5V ± 0.2V. (+2.6V ±0.1V for DDR400)

Ground.

V_SS

V_REF

SSTL_2 reference voltage.

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(V=Valid, X=Don′t Care, H=Logic High, L=Logic Low)

8.0 Command Truth Table

A0 ~ A9,

COMMAND

CKEn-1 CKEn CS RAS CAS

WE BA0,1 A10/AP

Note

A11 ~ A12

Register

Extended MRS

Mode Register Set

Auto Refresh

H

X

H

L

OP CODE

1, 2

3

H

L

H

X

Entry

Refresh

Self

Refresh

L

H

L

H

X

L

H

X

H

X

H

Exit

L

H

X

3

Bank Active & Row Addr.

Read &

Column Address

V

Row Address

Auto Precharge Disable

Auto Precharge Enable

Auto Precharge Disable

Auto Precharge Enable

L

H

L

4

4, 6

7

Column

Address

L

H

L

H

Write &

Column Address

Column

Address

H

X

L

H

L

H

L

V

H

Burst Stop

Precharge

X

Bank Selection

All Banks

V

X

L

H

X

5

H

L

X

H

L

X

V

X

H

X

V

X

H

X

V

X

H

X

V

X

V

X

H

X

V

Entry

Exit

H

L

H

L

Active Power Down

X

Entry

H

Precharge Power Down Mode

H

L

Exit

L

H

X

DM(UDM/LDM for x16 only)

No operation (NOP) : Not defined

Note :

X

8

9

H

L

X

H

X

H

1. OP Code : Operand Code. A0 ~ A12& BA0 ~ BA1 : Program keys. (@EMRS/MRS)

2. EMRS/MRS can be issued only at all banks precharge state.

A new command can be issued 2 clock cycles after EMRS or MRS.

3. Auto refresh functions are same as the CBR refresh of DRAM.

The automatical precharge without row precharge command is meant by "Auto".

Auto/self refresh can be issued only at all banks precharge state.

4. BA0 ~ BA1 : Bank select addresses.

If both BA0 and BA1 are "Low" at read, write, row active and precharge, bank A is selected.

If BA0 is "High" and BA1 is "Low" at read, write, row active and precharge, bank B is selected.

If BA0 is "Low" and BA1 is "High" at read, write, row active and precharge, bank C is selected.

If both BA0 and BA1 are "High" at read, write, row active and precharge, bank D is selected.

5. If A10/AP is "High" at row precharge, BA0 and BA1 are ignored and all banks are selected.

6. During burst write with auto precharge, new read/write command can not be issued.

Another bank read/write command can be issued after the end of burst.

New row active of the associated bank can be issued at tRP after the end of burst.

7. Burst stop command is valid at every burst length.

8. DM(x4/8) sampled at the rising and falling edges of the DQS and Data-in are masked at the both edges (Write DM latency is 0).

UDM/LDM(x16 only) sampled at the rising and falling edges of the UDQS/LDQS and Data-in are masked at the both edges

(Write UDM/LDM latency is 0).

9. This combination is not defined for any function, which means "No Operation(NOP)" in DDR SDRAM.

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16M x 4Bit x 4 Banks / 8M x 8Bit x 4 Banks / 4M x 16Bit x 4 Banks Double Data Rate SDRAM

9.0 General Description

The K4H560438J / K4H560838J / K4H561638J is 268,435,456 bits of double data rate synchronous DRAM organized as 4x 16,777,216

/ 4x 8,388,608 / 4x 4,194,304 words by 4/8/16bits, fabricated with SAMSUNG′s high performance CMOS technology. Synchronous fea-

tures with Data Strobe allow extremely high performance up to 400Mb/s per pin. I/O transactions are possible on both edges of DQS.

Range of operating frequencies, programmable burst length and programmable latencies allow the device to be useful for a variety of

high performance memory system applications.

10.0 Absolute Maximum Rating

Parameter

Symbol

Value

Unit

Voltage on any pin relative to V_SS

V_IN, V_OUT

-0.5 ~ 3.6

V

Voltage on V_DD& V_DDQsupply relative to V_SS

Storage temperature

V_DD, V_DDQ

T_STG

P_D

-1.0 ~ 3.6

-55 ~ +150

1.5

V

°C

W

Power dissipation

Short circuit current

I_OS

50

mA

Note : Permanent device damage may occur if ABSOLUTE MAXIMUM RATINGS are exceeded.

Functional operation should be restricted to recommend operation condition.

Exposure to higher than recommended voltage for extended periods of time could affect device reliability.

11.0 DC Operating Conditions

Recommended operating conditions(Voltage referenced to V_SS=0V, TA=0 to 70°C)

Parameter

Symbol

V_DD

Min

2.3

Max

2.7

Unit Note

Supply voltage(for device with a nominal V_DDof 2.5V for DDR266/333)

V

Supply voltage(for device with a nominal V_DDof 2.6V for DDR400)

I/O Supply voltage(for device with a nominal V_DDof 2.5V for DDR266/333)

I/O Supply voltage(for device with a nominal V_DDof 2.5V for DDR400)

I/O Reference voltage

V_DD

V_DDQ

V_REF

V_TT

2.5

2.3

2.7

2.5

2.7

0.49*V_DDQ

V_REF-0.04

V_REF+0.15

-0.3

0.51*V_DDQ

V_REF+0.04

V_DDQ+0.3

V_REF-0.15

V_DDQ+0.3

V_DDQ+0.6

1.4

V

1

2

I/O Termination voltage(system)

Input logic high voltage

V_IH(DC)

V_IL(DC)

V_IN(DC)

V_ID(DC)

V_I(Ratio)

I_I

V

Input logic low voltage

V

Input Voltage Level, CK and CK inputs

-0.3

V

Input Differential Voltage, CK and CK inputs

V-I Matching: Pullup to Pulldown Current Ratio

Input leakage current

0.36

3

4

V

0.71

-

-2

2

uA

mA

Output leakage current

I_OZ

-5

5

Output High Current(Normal strengh driver) ;V_OUT= V_TT+ 0.84V

Output High Current(Normal strengh driver) ;V_OUT= V_TT- 0.84V

Output High Current(Half strengh driver) ;V_OUT= V_TT+ 0.45V

Output High Current(Half strengh driver) ;V_OUT= V_TT- 0.45V

I_OH

-16.8

16.8

I_OL

I_OH

-9

I_OL

9

Note :

1. V_REFis expected to be equal to 0.5*V_DDQof the transmitting device, and to track variations in the dc level of same. Peak-to peak noise on V_REFmay not

exceed +/-2% of the dc value.

2. V_TTis not applied directly to the device. V_TTis a system supply for signal termination resistors, is expected to be set equal to V_REF, and must track vari-

ations in the DC level of V_REF

3. V_IDis the magnitude of the difference between the input level on CK and the input level on CK.

4. The ratio of the pullup current to the pulldown current is specified for the same temperature and voltage, over the entire temperature and voltage range,

for device drain to source voltages from 0.25V to 1.0V. For a given output, it represents the maximum difference between pullup and pulldown drivers

due to process variation. The full variation in the ratio of the maximum to minimum pullup and pulldown current will not exceed 1.7 for device drain to

source voltages from 0.1 to 1.0.

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12.0 DDR SDRAM Spec Items & Test Conditions

Conditions

Symbol

IDD0

Operating current - One bank Active-Precharge;

tRC=tRCmin; tCK=10ns for DDR200, tCK=7.5ns for DDR266, 6ns for DDR333, 5ns for DDR400;

DQ,DM and DQS inputs changing once per clock cycle;

address and control inputs changing once every two clock cycles.

Operating current - One bank operation ; One bank open, BL=4, Reads

IDD1

- Refer to the following page for detailed test condition

Precharge power-down standby current; All banks idle; power - down mode;

CKE = <V_IL(max); tCK=10ns for DDR200,tCK=7.5ns for DDR266, 6ns for DDR333, 5ns for DDR400;

IDD2P

V_IN= V_REFfor DQ,DQS and DM.

Precharge Floating standby current; CS > =V_IH(min);All banks idle; CKE > = V_IH(min); tCK=10ns for

DDR200,tCK=7.5ns for DDR266, 6ns for DDR333, 5ns for DDR400; Address and other control inputs changing

IDD2F

once per clock cycle; V_IN= V_REFfor DQ,DQS and DM

Precharge Quiet standby current; CS > = V_IH(min); All banks idle;

CKE > = V_IH(min); tCK=10ns for DDR200, tCK=7.5ns for DDR266, 6ns for DDR333, 5ns for DDR400; Address and

other control inputs stable at >= V_IH(min) or =<V_IL(max); V_IN= V_REFfor DQ ,DQS and DM

IDD2Q

IDD3P

Active power - down standby current ; one bank active; power-down mode;

CKE=< V_IL(max); tCK=10ns for DDR200,tCK=7.5ns for DDR266, 6ns for DDR333, 5ns for DDR400;

Vin = Vref for DQ,DQS and DM

Active standby current; CS >= V_IH(min); CKE>=V_IH(min);

one bank active; active - precharge; tRC=tRASmax; tCK=10ns for DDR200,tCK=7.5ns for DDR266, 6ns for

DDR333, 5ns for DDR400; DQ, DQS and DM inputs changing twice per clock cycle; address and other control

inputs changing once per clock cycle

Operating current - burst read; Burst length = 2; reads; continguous burst; One bank active; address and control

inputs changing once per clock cycle; CL=2 at tCK=10ns for DDR200, CL=2 at 7.5ns for DDR266, CL=2.5 at

tCK=7.5ns for DDR266, tCK=6ns for DDR333, CL=3 at tCK=5ns for DDR400; 50% of data changing on every

transfer; lout = 0 m A

IDD3N

IDD4R

IDD4W

Operating current - burst write; Burst length = 2; writes; continuous burst;

One bank active address and control inputs changing once per clock cycle; CL=2 at tCK=10ns for DDR200, CL=2

at tCK=7.5ns for DDR266, CL=2.5 at tCK=7.5ns for DDR266, 6ns for DDR333, 5ns for DDR400; DQ, DM and DQS

inputs changing twice per clock cycle, 50% of input data changing at every burst

Auto refresh current; tRC = tRFC(min) which is 8*tCK for DDR200 at tCK=10ns; 10*tCK for DDR266 at

IDD5

IDD6

tCK=7.5ns; 12*tCK for DDR333 at tCK=6ns, 14*tCK for DDR400 at tCK=5ns; distributed refresh

Self refresh current; CKE =< 0.2V; External clock on; tCK=10ns for DDR200, tCK=7.5ns for DDR266, 6ns for

DDR333, 5ns for DDR400.

Operating current - Four bank operation ; Four bank interleaving with BL=4

IDD7A

-Refer to the following page for detailed test condition

( T_A= 25°C, f=100MHz)

13.0 Input/Output Capacitance

Parameter

Symbol

Min

Max

DeltaCap(max)

Unit

Note

Input capacitance

(A0 ~ A12, BA0 ~ BA1, CKE, CS, RAS,CAS, WE)

C_IN1

2

3

0.5

pF

4

C_IN2

C_OUT

C_IN3

Input capacitance( CK, CK )

Data & DQS input/output capacitance

Input capacitance(DM for x4/8, UDM/LDM for x16)

Note :

2

4

3

5

0.25

pF

4

1,2,3,4

0.5

1.These values are guaranteed by design and are tested on a sample basis only.

2. Although DM is an input -only pin, the input capacitance of this pin must model the input capacitance of the DQ and DQS pins.

This is required to match signal propagation times of DQ, DQS, and DM in the system.

3. Unused pins are tied to ground.

4. This parameteer is sampled. For DDR266 and DDR333 V_DDQ= +2.5V +0.2V, V_DD= +2.5V+0.2V. For DDR400, V_DDQ= +2.6V +0.1V, V_DD= +2.6V

+0.1V. For all devices, f=100MHz, tA=25°C, V_OUT(DC) = V_DDQ/2, Vout(peak to peak) = 0.2V. DM inputs are grouped with I/O pins - reflecting the fact

that they are matched in loading (to facilitate trace matching at the board level).

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14.0 Detailed test condition for DDR SDRAM IDD1 & IDD7A

IDD1 : Operating current: One bank operation

1. Typical Case: For DDR200,266,333: Vdd = 2.5V, T=25°C; For DDR400: Vdd=2.6V,T=25°C

Worst Case : Vdd = 2.7V, T= 10°C

2. Only one bank is accessed with tRC(min), Burst Mode, Address and Control inputs on NOP edge are changing once

per clock cycle. lout = 0mA

3. Timing patterns

- B0(133Mhz, CL=2.5) : tCK = 7.5ns, CL=2.5, BL=4, tRCD = 3*tCK, tRC = 9*tCK, tRAS = 6*tCK

Read : A0 N N R0 N N P0 N N A0 N - repeat the same timing with random address changing

*50% of data changing at every burst

- A2 (133Mhz, CL=2) : tCK = 7.5ns, CL=2, BL=4, tRCD = 3*tCK, tRC = 9*tCK, tRAS = 6*tCK

Read : A0 N N R0 N N P0 N N A0 N - repeat the same timing with random address changing

*50% of data changing at every burst

- B3(166Mhz, CL=2.5) : tCK=6ns, CL=2.5, BL=4, tRCD=3*tCK, tRC = 10*tCK, tRAS=7*tCK

Read : A0 N N R0 N N P0 N N A0 N - repeat the same timing with random address changing

*50% of data changing at every burst

- CC(200Mhz,CL = 3) : tCK = 5ns, CL = 3, BL = 4, tRCD = 3*tCK , tRC = 11*tCK, tRAS = 8*tCK

Read : A0 N N R0 N N N N P0 N N - repeat the same timing with random address changing

*50% of data changing at every transfer

Legend : A=Activate, R=Read, W=Write, P=Precharge, N=DESELECT

IDD7A : Operating current: Four bank operation

1. Typical Case: For DDR200,266,333: V_DD= 2.5V, T=25°C; For DDR400: V_DD=2.6V,T=25°C

Worst Case : V_DD= 2.7V, T= 10°C

2. Four banks are being interleaved with tRC(min), Burst Mode, Address and Control inputs on NOP edge are not

changing. lout = 0mA

4. Timing patterns

- B0(133Mhz, CL=2.5) : tCK = 7.5ns, CL=2.5, BL=4, tRRD = 2*tCK, tRCD = 3*tCK, Read with autoprecharge

Read : A0 N A1 R0 A2 R1 A3 R2 N R3 A0 N A1 R0 - repeat the same timing with random address changing

*50% of data changing at every burst

- A2(133Mhz, CL=2) : tCK = 7.5ns, CL2=2, BL=4, tRRD = 2*tCK, tRCD = 3*tCK, Read with autoprecharge

Read : A0 N A1 R0 A2 R1 A3 R2 N R3 A0 N A1 R0 - repeat the same timing with random address changing

*50% of data changing at every burst

- B3(166Mhz,CL=2.5) : tCK=6ns, CL=2.5, BL=4, tRRD=2*tCK, tRCD=3*tCK, Read with autoprecharge

Read : A0 N A1 R0 A2 R1 A3 R2 N R3 A0 N A1 R0 - repeat the same timing with random address changing

*50% of data changing at every burst

- CC(200Mhz,CL = 3) : tCK = 5ns, CL = 3, BL = 4, tRCD = 3*tCK , tRC = 11*tCK, tRAS = 8*tCK

Read : A0 N A1 R0 A2 R1 A3 R2 N R3 A0 N A1 R0 - repeat the same timing with random address changing

*50% of data changing at every transfer

Legend : A=Activate, R=Read, W=Write, P=Precharge, N=DESELECT

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15.0 DDR SDRAM IDD spec table

(V_DD=2.7V, T = 10°C)

64Mx4 (K4H560438J)

Symbol

Unit Notes

B3(DDR333@CL=2.5)

B0(DDR266@CL=2.5)

IDD0

IDD1

80

110

3

75

100

3

mA

IDD2P

IDD2F

IDD2Q

IDD3P

IDD3N

IDD4R

IDD4W

IDD5

30

25

23

35

55

45

160

155

150

Normal

Low power

IDD7A

3

IDD6

1.5

270

230

32Mx8 (K4H560838J) / 16Mx16 (K4H561638J)

CC(DDR400@CL=3) B3(DDR333@CL=2.5) A2(DDR266@CL=2.0) B0(DDR266@CL=2.5)

Symbol

Unit Notes

IDD0

IDD1

90

120

4

80

110

3

75

100

3

75

100

3

mA

IDD2P

IDD2F

IDD2Q

IDD3P

IDD3N

IDD4R

IDD4W

IDD5

30

25

30

25

23

25

23

35

60

55

45

180

160

155

150

155

150

Normal

Low power

IDD7A

3

IDD6

1.5

290

270

230

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16.0 AC Operating Conditions

Parameter/Condition

Input High (Logic 1) Voltage, DQ, DQS and DM signals

Input Low (Logic 0) Voltage, DQ, DQS and DM signals.

Input Differential Voltage, CK and CK inputs

Symbol

V_IH(AC)

Min

V_REF+ 0.31

Max

Unit

V

Note

V_IL(AC)

V_ID(AC)

V_IX(AC)

V_REF- 0.31

V_DDQ+0.6

V

0.7

V

1

2

0.5*V_DDQ-0.2

0.5*V_DDQ+0.2

Input Crossing Point Voltage, CK and CK inputs

Note :

1. V_IDis the magnitude of the difference between the input level on CK and the input level on CK.

V

2. The value of V_IXis expected to equal 0.5*V_DDQof the transmitting device and must track variations in the dc level of the same.

17.0 AC Overshoot/Undershoot specification for Address and Control Pins

Specification

DDR333

Parameter

DDR400

1.5 V

DDR200/266

1.5 V

Maximum peak amplitude allowed for overshoot

Maximum peak amplitude allowed for undershoot

1.5 V

The area between the overshoot signal and V_DDmust be less than or equal to

4.5 V-ns

The area between the undershoot signal and GND must be less than or equal to

VDD

Overshoot

5

4

3

Maximum Amplitude = 1.5V

2

Area

1

0

-1

-2

Maximum Amplitude = 1.5V

GND

-3

-4

-5

0

0.6875

0.5 1.0

1.5

2.5

3.5

4.5

5.5

6.3125

6.0 6.5

undershoot

7.0

2.0

3.0

4.0

5.0

Tims(ns)

AC overshoot/Undershoot Definition

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18.0 Overshoot/Undershoot specification for Data, Strobe and Mask Pins

Specification

Parameter

DDR400

1.2 V

DDR333

1.2 V

DDR200/266

1.2 V

Maximum peak amplitude allowed for overshoot

Maximum peak amplitude allowed for undershoot

1.2 V

The area between the overshoot signal and V_DDmust be less than or equal to

2.4 V-ns

The area between the undershoot signal and GND must be less than or equal to

V

DDQ

Overshoot

5

4

Maximum Amplitude = 1.2V

3

2

Area

1

0

-1

-2

-3

-4

-5

Maximum Amplitude = 1.2V

GND

0

0.5 1.0 1.42 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 5.68 6.0 6.5 7.0

Tims(ns)

undershoot

DQ/DM/DQS AC overshoot/Undershoot Definition

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19.0 AC Timming Parameters & Specifications

CC

B3

A2

B0

(DDR400@CL=3.0)

(DDR333@CL=2.5) (DDR266@CL=2.0)

(DDR266@CL=2.5)

Parameter

Symbol

Unit Note

Min

55

Max

Min

60

Max

Min

65

Max

Min

65

Max

Row cycle time

tRC

tRFC

tRAS

tRCD

tRP

ns

tCK

ns

Refresh row cycle time

Row active time

RAS to CAS delay

70

72

75

40

70K

42

70K

45

70K

45

70K

15

18

20

Row precharge time

18

20

Row active to Row active delay

Write recovery time

Last data in to Read command

tRRD

tWR

tWTR

10

15

2

-

6

5

12

15

1

7.5

6

15

1

7.5

-

15

1

10

7.5

-

CL=2.0

CL=2.5

CL=3.0

-

12

10

12

-

12

-

12

-

Clock cycle time

tCK

-

Clock high level width

Clock low level width

DQS-out access time from CK/CK

Output data access time from CK/CK

Data strobe edge to ouput data edge

Read Preamble

Read Postamble

CK to valid DQS-in

DQS-in setup time

DQS-in hold time

DQS falling edge to CK rising-setup time

DQS falling edge from CK rising-hold time

DQS-in high level width

tCH

tCL

tDQSCK

tAC

tDQSQ

tRPRE

tRPST

tDQSS

tWPRES

tWPRE

tDSS

0.45

-0.55

-0.65

-

0.9

0.4

0.72

0

0.25

0.2

0.35

0.6

0.55

+0.55

+0.65

0.4

1.1

0.6

1.28

0.45

-0.6

-0.7

-

0.9

0.4

0.75

0

0.25

0.2

0.35

0.75

0.55

+0.6

+0.7

0.45

1.1

0.45

-0.75

-

0.9

0.4

0.75

0

0.25

0.2

0.35

0.9

0.55

+0.75

0.5

1.1

0.6

1.25

0.45

-0.75

-

0.9

0.4

0.75

0

0.25

0.2

0.35

0.9

0.55

+0.75

0.5

1.1

0.6

1.25

tCK

ns

tCK

ns

tCK

ns

22

13

0.6

1.25

tDSH

tDQSH

tDQSL

tIS

DQS-in low level width

15, 17~19

Address and Control Input setup time(fast)

Address and Control Input hold time(fast)

Address and Control Input setup

tIH

ns

tIS

0.7

0.8

1.0

ns

16~19

Address and Control Input hold time(slow)

Data-out high impedence time from CK/CK

Data-out low impedence time from CK/CK

Mode register set cycle time

tIH

tHZ

tLZ

tMRD

tDS

0.7

-0.65

10

0.8

-0.7

12

1.0

-0.75

15

1.0

-0.75

15

ns

16~19

11

+0.65

+0.7

+0.75

DQ & DM setup time to DQS

0.4

0.45

0.5

j, k

DQ & DM hold time to DQS

tDH

0.4

0.45

0.5

Control & Address input pulse width

DQ & DM input pulse width

Exit self refresh to non-Read command

Exit self refresh to read command

Refresh interval time

tIPW

tDIPW

tXSNR

tXSRD

tREFI

2.2

1.75

75

2.2

1.75

75

2.2

1.75

75

2.2

1.75

75

ns

tCK

us

18

200

7.8

-

14

21

tHP

-tQHS

tHP

-tQHS

tHP

-tQHS

tHP

-tQHS

Output DQS valid window

Clock half period

tQH

tHP

-

ns

tCLmin

or tCHmin

tCLmin

or tCHmin

tCLmin

or tCHmin

tCLmin

or tCHmin

-

20, 21

Data hold skew factor

DQS write postamble time

Active to Read with Auto precharge

command

tQHS

tWPST

0.5

0.6

0.55

0.6

0.75

0.6

0.75

0.6

ns

tCK

21

12

0.4

15

0.4

18

0.4

20

0.4

20

tRAP

(tWR/tCK)

+

(tRP/tCK)

(tWR/tCK)

+

(tRP/tCK)

(tWR/tCK)

+

(tRP/tCK)

(tWR/tCK)

+

(tRP/tCK)

Autoprecharge write recovery +

Precharge time

tDAL

tCK

23

Power Down Exit Time

tPDEX

1

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20.0 System Characteristics for DDR SDRAM

The following specification parameters are required in systems using DDR400, DDR333 & DDR266 devices to ensure proper system

performance. these characteristics are for system simulation purposes and are guaranteed by design.

Table 1 : Input Slew Rate for DQ, DQS, and DM

AC CHARACTERISTICS

DDR400

DDR333

DDR266

SYMBOL

Units

Notes

PARAMETER

MIN

MAX

MIN

MAX

MIN

MAX

DQ/DM/DQS input slew rate measured between

V_IH(DC), V_IL(DC) and V_IL(DC), V_IH(DC)

DCSLEW

0.5

4.0

0.5

4.0

0.5

4.0

V/ns

a, l

Table 2 : Input Setup & Hold Time Derating for Slew Rate

Input Slew Rate

∆tIS

∆tIH

Units

Notes

0.5 V/ns

0

ps

i

0.4 V/ns

+50

+100

ps

0.3 V/ns

ps

Table 3 : Input/Output Setup & Hold Time Derating for Slew Rate

Input Slew Rate

∆tDS

∆tDH

Units

Notes

0.5 V/ns

0

ps

k

0.4 V/ns

+75

+150

+75

+150

ps

0.3 V/ns

ps

Table 4 : Input/Output Setup & Hold Derating for Rise/Fall Delta Slew Rate

Delta Slew Rate

∆tDS

∆tDH

Units

Notes

+/- 0.0 V/ns

0

ps

j

+/- 0.25 V/ns

+/- 0.5 V/ns

+50

+100

+50

+100

ps

Table 5 : Output Slew Rate Characteristice (X4, X8 Devices only)

Typical Range

Minimum

Maximum

Slew Rate Characteristic

Notes

(V/ns)

Pullup Slew Rate

Pulldown slew

1.2 ~ 2.5

1.0

4.5

a,c,d,f,g,h

b,c,d,f,g,h

Table 6 : Output Slew Rate Characteristice (X16 Devices only)

Typical Range

Minimum

Maximum

Slew Rate Characteristic

Notes

(V/ns)

Pullup Slew Rate

Pulldown slew

1.2 ~ 2.5

0.7

5.0

a,c,d,f,g,h

b,c,d,f,g,h

Table 7 : Output Slew Rate Matching Ratio Characteristics

AC CHARACTERISTICS

PARAMETER

Output Slew Rate Matching Ratio (Pullup to Pulldown)

DDR400

DDR333

DDR266

Notes

e, l

MIN

0.67

MAX

1.5

MIN

0.67

MAX

1.5

MIN

MAX

0.67

1.5

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21.0 Component Notes

1. All voltages referenced to V_SS

.

2. Tests for ac timing, IDD, and electrical, ac and dc characteristics, may be conducted at nominal reference/supply voltage levels,

but the related specifications and device operation are guaranteed for the full voltage range specified.

3. Figure 1 represents the timing reference load used in defining the relevant timing parameters of the part. It is not intended to be

either a precise representation of the typical system environment nor a depiction of the actual load presented by a production

tester. System designers will use IBIS or other simulation tools to correlate the timing reference load to a system environment.

Manufacturers will correlate to their production test conditions (generally a coaxial transmission line terminated at the tester elec-

tronics).

V_TT

50Ω

Output

(V_OUT

)

30pF

Figure 1 : Timing Reference Load

4. AC timing and IDD tests may use a V_ILto V_IHswing of up to 1.5 V in the test environment, but input timing is still referenced to

V_REF(or to the crossing point for CK/CK), and parameter specifications are guaranteed for the specified ac input levels under nor-

mal use conditions. The minimum slew rate for the input signals is 1 V/ns in the range between V_IL(AC) and V_IH(AC).

5. The ac and dc input level specifications are as defined in the SSTL_2 Standard (i.e., the receiver will effectively switch as a result

of the signal crossing the ac input level and will remain in that state as long as the signal does not ring back above (below) the dc

input LOW (HIGH) level.

6. Inputs are not recognized as valid until V_REFstabilizes. Exception: during the period before V_REFstabilizes, CKE ≤ 0.2V_DDQis

recognized as LOW.

7. Enables on.chip refresh and address counters.

8. IDD specifications are tested after the device is properly initialized.

9. The CK/CK input reference level (for timing referenced to CK/CK) is the point at which CK and CK cross; the input reference level

for signals other than CK/CK, is V_REF

.

10. The output timing reference voltage level is V_TT.

11. tHZ and tLZ transitions occur in the same access time windows as valid data transitions. These parameters are not referenced to

a specific voltage level but specify when the device output is no longer driving (HZ), or begins driving (LZ).

12. The maximum limit for this parameter is not a device limit. The device will operate with a greater value for this parameter, but sys

tem performance (bus turnaround) will degrade accordingly.

13. The specific requirement is that DQS be valid (HIGH, LOW, or at some point on a valid transition) on or before this CK edge. A

valid transition is defined as monotonic and meeting the input slew rate specifications of the device. when no writes were previ

ously in progress on the bus, DQS will be transitioning from High- Z to logic LOW. If a previous write was in progress, DQS could

be HIGH, LOW, or transitioning from HIGH to LOW at this time, depending on tDQSS.

14. A maximum of eight AUTO REFRESH commands can be posted to any given DDR SDRAM device.

15. For command/address input slew rate ≥ 1.0 V/ns

16. For command/address input slew rate ≥ 0.5 V/ns and < 1.0 V/ns

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Component Notes

17. For CK & CK slew rate ≥ 1.0 V/ns

18. These parameters guarantee device timing, but they are not necessarily tested on each device. They may be guaranteed by

device design or tester correlation.

19. Slew Rate is measured between V_OH(AC) and V_OL(AC).

20. Min (tCL, tCH) refers to the smaller of the actual clock low time and the actual clock high time as provided to the device (i.e. this

value can be greater than the minimum specification limits for tCL and tCH).....For example, tCL and tCH are = 50% of the

period, less the half period jitter (tJIT(HP)) of the clock source, and less the half period jitter due to crosstalk (tJIT(crosstalk)) into

the clock traces.

21. tQH = tHP - tQHS, where:

tHP = minimum half clock period for any given cycle and is defined by clock high or clock low (tCH, tCL). tQHS accounts for 1) The

pulse duration distortion of on-chip clock circuits; and 2) The worst case push-out of DQS on one tansition followed by the worst

case pull-in of DQ on the next transition, both of which are, separately, due to data pin skew and output pattern effects, and p-

channel to n-channel variation of the output drivers.

22. tDQSQ

Consists of data pin skew and output pattern effects, and p-channel to n-channel variation of the output drivers for any given cycle.

23. tDAL = (tWR/tCK) + (tRP/tCK)

For each of the terms above, if not already an integer, round to the next highest integer. Example: For DDR266 at CL=2.5 and

tCK=7.5ns tDAL = (15 ns / 7.5 ns) + (20 ns/ 7.5ns) = (2) + (3)

tDAL = 5 clocks

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22.0 System Notes

a. Pullup slew rate is characteristized under the test conditions as shown in Figure 2.

Test point

50Ω

Output

V_SSQ

Figure 2 : Pullup slew rate test load

b. Pulldown slew rate is measured under the test conditions shown in Figure 3.

V_DDQ

50Ω

Output

Test point

Figure 3 : Pulldown slew rate test load

c. Pullup slew rate is measured between (V_DDQ/2 - 320 mV +/- 250 mV)

Pulldown slew rate is measured between (V_DDQ/2 + 320 mV +/- 250 mV)

Pullup and Pulldown slew rate conditions are to be met for any pattern of data, including all outputs switching and only one output

switching.

Example : For typical slew rate, DQ0 is switching

For minmum slew rate, all DQ bits are switching from either high to low, or low to high.

The remaining DQ bits remain the same as for previous state.

d. Evaluation conditions

Typical : 25 °C (T Ambient), V_DDQ= 2.5V(for DDR266/333) and 2.6V(for DDR400), typical process

Minimum : 70 °C (T Ambient), V_DDQ= 2.3V(for DDR266/333) and 2.5V(for DDR400), slow - slow process

Maximum : 0 °C (T Ambient), V_DDQ= 2.7V(for DDR266/333) and 2.7V(for DDR400), fast - fast process

e. The ratio of pullup slew rate to pulldown slew rate is specified for the same temperature and voltage, over the entire temperature and

voltage range. For a given output, it represents the maximum difference between pullup and pulldown drivers due to process variation.

f. Verified under typical conditions for qualification purposes.

g. TSOPII package divices only.

h. Only intended for operation up to 266 Mbps per pin.

i. A derating factor will be used to increase tIS and tIH in the case where the input slew rate is below 0.5V/ns

as shown in Table 2. The Input slew rate is based on the lesser of the slew rates detemined by either V_IH(AC) to V_IL(AC) or

V_IH(DC) to V_IL(DC), similarly for rising transitions.

j. A derating factor will be used to increase tDS and tDH in the case where DQ, DM, and DQS slew rates differ, as shown in Tables 3 & 4.

Input slew rate is based on the larger of AC-AC delta rise, fall rate and DC-DC delta rise, Input slew rate is based on the lesser of the

slew rates determined by either V_IH(AC) to V_IL(AC) or V_IH(DC) to V_IL(DC), similarly for rising transitions.

The delta rise/fall rate is calculated as:

{1/(Slew Rate1)} - {1/(Slew Rate2)}

For example : If Slew Rate 1 is 0.5 V/ns and slew Rate 2 is 0.4 V/ns, then the delta rise, fall rate is - 0.5ns/V . Using the table given, this

would result in the need for an increase in tDS and tDH of 100 ps.

k. Table 3 is used to increase tDS and tDH in the case where the I/O slew rate is below 0.5 V/ns. The I/O slew rate is based on the lesser

on the lesser of the AC - AC slew rate and the DC- DC slew rate. The inut slew rate is based on the lesser of the slew rates deter

mined by either V_IH(AC) to V_IL(AC) or V_IH(DC) to V_IL(DC), and similarly for rising transitions.

l. DQS, DM, and DQ input slew rate is specified to prevent double clocking of data and preserve setup and hold times. Signal transi

tions through the DC region must be monotonic.

Rev. 1.12 August 2008

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23.0 IBIS : I/V Characteristics for Input and Output Buffers

DDR SDRAM Output Driver V-I Characteristics

DDR SDRAM Output driver characteristics are defined for full and half strength operation as selected by the EMRS bit A1.

Figures 4 and 5 show the driver characteristics graphically, and tables 8 and 9 show the same data in tabular format suitable for input

into simulation tools. The driver characteristcs evaluation conditions are:

Typical

Minimum

Maximum

25×C

70×C

0×C

V_DD/V_DDQ= 2.5V, typical process

V_{DD DDQ}

/V

= 2.3V, slow-slow process

= 2.7V, fast-fast process

V_DD/V_DDQ

Output Driver Characteristic Curves Notes:

1. The full variation in driver current from minimum to maximum process, temperature and voltage will lie within the outer bounding lines

the of the V-I curve of Figures 4 and 5.

2. It is recommended that the "typical" IBIS V-I curve lie within the inner bounding lines of the V-I curves of Figures 4 and 5.

3. The full variation in the ratio of the "typical" IBIS pullup to "typical" IBIS pulldown current should be unity +/- 10%, for device drain to

source voltages from 0.1 to1.0. This specification is a design objective only. It is not guaranteed.

160

Maximum

140

120

Typical High

100

80

Typical Low

Minimum

60

40

20

0

0.0

0.5

1.0

1.5

2.0

2.5

Vout(V)

Pulldown Characteristics for Full Strength Output Driver

0.0

1.0

2.0

0

-20

Minumum

Typical Low

-40

-60

-80

-100

-120

-140

-160

-180

-200

-220

Typical High

Maximum

Vout(V)

Pullup Characteristics for Full Strength Output Driver

Figure 4. I/V characteristics for input/output buffers:Pulldown(above) and pullup(below)

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Pulldown Current (mA)

pullup Current (mA)

Voltage

(V)

Typical

Low

Typical

Minimum

High

Typical

Low

Typical

High

Maximum

Minimum

Maximum

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

1.1

1.2

1.3

1.4

1.5

1.6

1.7

1.8

1.9

2.0

2.1

2.2

2.3

2.4

2.5

2.6

2.7

6.0

6.8

13.5

20.1

26.6

33.0

39.1

44.2

49.8

55.2

60.3

65.2

69.9

74.2

78.4

82.3

85.9

89.1

92.2

95.3

97.2

99.1

100.9

101.9

102.8

103.8

104.6

105.4

4.6

9.2

9.6

18.2

26.0

33.9

41.8

49.4

56.8

63.2

69.9

76.3

82.5

88.3

93.8

99.1

103.8

108.4

112.1

115.9

119.6

123.3

126.5

129.5

132.4

135.0

137.3

139.2

140.8

-6.1

-7.6

-14.5

-21.2

-27.7

-34.1

-40.5

-46.9

-53.1

-59.4

-65.5

-71.6

-77.6

-83.6

-89.7

-95.5

-101.3

-107.1

-112.4

-118.7

-124.0

-129.3

-134.6

-139.9

-145.2

-150.5

-155.3

-160.1

-4.6

-9.2

-10.0

-20.0

-29.8

-38.8

-46.8

-54.4

-61.8

-69.5

-77.3

12.2

18.1

24.1

29.8

34.6

39.4

43.7

47.5

51.3

54.1

56.2

57.9

59.3

60.1

60.5

61.0

61.5

62.0

62.5

62.9

63.3

63.8

64.1

64.6

64.8

65.0

-12.2

-18.1

-24.0

-29.8

-34.3

-38.1

-41.1

-41.8

-46.0

-47.8

-49.2

-50.0

-50.5

-50.7

-51.0

-51.1

-51.3

-51.5

-51.6

-51.8

-52.0

-52.2

-52.3

-52.5

-52.7

-52.8

13.8

18.4

23.0

27.7

32.2

36.8

39.6

42.6

44.8

46.2

47.1

47.4

47.7

48.0

48.4

48.9

49.1

49.4

49.6

49.8

49.9

50.0

50.2

50.4

50.5

-13.8

-18.4

-23.0

-27.7

-32.2

-36.0

-38.2

-38.7

-39.0

-39.2

-39.4

-39.6

-39.9

-40.1

-40.2

-40.3

-40.4

-40.5

-40.6

-40.7

-40.8

-40.9

-41.0

-41.1

-41.2

-85.2

-93.0

-100.6

-108.1

-115.5

-123.0

-130.4

-136.7

-144.2

-150.5

-156.9

-163.2

-169.6

-176.0

-181.3

-187.6

-192.9

-198.2

Table 8. Full Strength Driver Characteristics

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90

80

70

60

50

40

30

20

10

0

Maximum

Typical High

Typical Low

Minimum

0.0

1.0

2.0

Vout(V)

Pulldown Characteristics for Weak Output Driver

0.0

1.0

2.0

0

-10

-20

-30

-40

-50

-60

-70

-80

-90

Minumum

Typical Low

Typical High

Maximum

Vout(V)

Pullup Characteristics for Weak Output Driver

Figure 5. I/V characteristics for input/output buffers:Pulldown(above) and pullup(below)

Rev. 1.12 August 2008

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Pulldown Current (mA)

pullup Current (mA)

Voltage

(V)

Typical

Low

Typical

Minimum

High

Typical

Low

Typical

High

Maximum

Minimum

Maximum

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

1.1

1.2

1.3

1.4

1.5

1.6

1.7

1.8

1.9

2.0

2.1

2.2

2.3

2.4

2.5

2.6

2.7

3.4

6.9

3.8

7.6

2.6

5.2

7.8

5.0

9.9

-3.5

-6.9

-4.3

-8.2

-2.6

-5.2

-7.8

-5.0

-9.9

10.3

13.6

16.9

19.6

22.3

24.7

26.9

29.0

30.6

31.8

32.8

33.5

34.0

34.3

34.5

34.8

35.1

35.4

35.6

35.8

36.1

36.3

36.5

36.7

36.8

11.4

15.1

18.7

22.1

25.0

28.2

31.3

34.1

36.9

39.5

42.0

44.4

46.6

48.6

50.5

52.2

53.9

55.0

56.1

57.1

57.7

58.2

58.7

59.2

59.6

14.6

19.2

23.6

28.0

32.2

35.8

39.5

43.2

46.7

50.0

53.1

56.1

58.7

61.4

63.5

65.6

67.7

69.8

71.6

73.3

74.9

76.4

77.7

78.8

79.7

-10.3

-13.6

-16.9

-19.4

-21.5

-23.3

-24.8

-26.0

-27.1

-27.8

-28.3

-28.6

-28.7

-28.9

-29.0

-29.2

-29.3

-29.5

-29.6

-29.7

-29.8

-29.9

-12.0

-15.7

-19.3

-22.9

-26.5

-30.1

-33.6

-37.1

-40.3

-43.1

-45.8

-48.4

-50.7

-52.9

-55.0

-56.8

-58.7

-60.0

-61.2

-62.4

-63.1

-63.8

-64.4

-65.1

-65.8

-14.6

-19.2

-23.6

-28.0

-32.2

-35.8

-39.5

-43.2

-46.7

-50.0

-53.1

-56.1

-58.7

-61.4

-63.5

-65.6

-67.7

-69.8

-71.6

-73.3

-74.9

-76.4

-77.7

-78.8

-79.7

10.4

13.0

15.7

18.2

20.8

22.4

24.1

25.4

26.2

26.6

26.8

27.0

27.2

27.4

27.7

27.8

28.0

28.1

28.2

28.3

28.4

28.5

28.6

-10.4

-13.0

-15.7

-18.2

-20.4

-21.6

-21.9

-22.1

-22.2

-22.3

-22.4

-22.6

-22.7

-22.8

-22.9

-23.0

-23.1

-23.2

-23.3

Table 9. Weak Driver Characteristics

Rev. 1.12 August 2008

24 of 24


型号：	K4H560438J-LLB3
厂家：	SAMSUNG
描述：	DDR DRAM, 64MX4, 0.7ns, CMOS, PDSO66, 0.400 X 0.875 INCH, 0.65 MM, HALOGEN FREE AND ROHS COMPLIANT, TSOP2-66 动态存储器双倍数据速率光电二极管
文件：	总24页 (文件大小：358K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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