K4H560438E-GCCC Datasheet, PDF(17/18 Page) Samsung semiconductor – 256Mb E-die DDR 400 SDRAM Specification 60Ball FBGA (x4/x8)

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K4H560438E-GCCC Datasheet, PDF (17/18 Pages) Samsung semiconductor – 256Mb E-die DDR 400 SDRAM Specification 60Ball FBGA (x4/x8)

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DDR SDRAM 256Mb E-die (x4, x8)

DDR SDRAM

System Notes :

a. Pullup slew rate is characteristized under the test conditions as shown in Figure 1.

Output

Test point

50â¦

VSSQ

Figure 1 : Pullup slew rate test load

b. Pulldown slew rate is measured under the test conditions shown in Figure 2.

VDDQ

50â¦

Output

Test point

Figure 2 : Pulldown slew rate test load

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

Pulldown slew rate is measured between (VDDQ/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.

For Maximum slew rate, only one DQ is 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 Â°C (T Ambient), VDDQ = 2.6V, typical process

Minimum : 70 Â°C (T Ambient), VDDQ = 2.5V, slow - slow process

Maximum : 0 Â°C (T Ambient), VDDQ = 2.7V, 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. 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 VIH(AC) to VIL(AC) or

VIH(DC) to VIL(DC), similarly for rising transitions.

i. 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 VIH(AC) to VIL(AC) or VIH(DC) to VIL(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.

Rev. 1.1 September. 2003

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