m395t5160cz4-cd56/e66/f76 Samsung Semiconductor, Inc., m395t5160cz4-cd56/e66/f76 Datasheet - Page 20

m395t5160cz4-cd56/e66/f76

Manufacturer Part Number

m395t5160cz4-cd56/e66/f76

Description

Ddr2 Fully Buffered Dimm

Manufacturer

Samsung Semiconductor, Inc.

Datasheet

1.M395T5160CZ4-CD56E66F76.pdf (28 pages)

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Table 11 : V

Table 12 : Reference Clock Input Specifications

Note :

1.133MHz for PC2-4200, 166MHz for PC2-5300 and 200MHz for PC2-6400.

2. Measured with SSC disabled.

3. Measured differentially through the range of 0.175V to 0.525V.

4. The crossing point must meet the absolute and relative crossing point specification simultaneously.

5. V

6. Measured with a single-ended input voltage of 1V.

7. Applies to reference clocks SCK and SCK.

8. Difference between SCK and SCK input.

9. T1 = [Tdatapath-Tclockpath](excluding PLL loop delays). This parameter is not a direct clock output parameter but in indirectly determines the clock

10. The net transport delay is the difference in time of flight between associated data and clock paths. The data path is defined from the reference clock

11. Direct measurement of phase jitter records over 1016 periods is impractical. It is expected that the jitter will be measured over a smaller, yet statistically

12. Measured with SSC enabled on reference clock generator.

13. As measured after the phase jitter filter. This number is separate from the receiver jitter budget that is defined by the TRXTotal - MIN parameters.

FBDIMM

Idle current, DDR2 SDRAM device power down

Active power, 50% DDR2 SDRAM BW

Reference clock frequency @3.2 Gb/s (nominal 133.33 MHz)

Reference clock frequency @4.0 Gb/s (nominal 166.67 MHz)

Reference clock frequency @4.8 Gb/s (nominal 200 MHz)

Rise time, fall time

Voltage high

Voltage low

Absolute crossing point

Relative crossing

Percent mismatch between rise and fall times

Duty cycle of reference clock

Clock leakage current

Clock input capacitance

Clock input capacitance delta

Transport delay

Phase jitter sample size

Reference clock jitter, filtered

where Vhavg is the average of V

output parameter T

source, through the TX, to data arrival at the data dampling point in the RX. The clock path is defined from the reference clock source to clock arrival

at the same sampling point. The path delays are caused by copper trace routes. on-chip routing, on-chip buffering, etc. They include the time-of flight

of interpolators or other clock adjustment mechanisms. They do not include the phase delays caused by finite PLL loop bandwidth because these de-

lays are modeled by the PLL transfer functions.

significant, sample size and the total jitter at 10

CROSS_REL_(MIN)

Currents

and V

REF-JITTER.

Parameter

CROSS_REL(MAX)

SCK-HIGHM.

Description

are derived using the following calculation : Min = 0.5(V

samples extrapolated from an estimate of the sigma of the random jitter components.

SCK-RISE-FALL-MATCH

SCK-RISE

SCK-DUTYCYCLE

20 of 28

fRefclk-3.2

fRefclk-4.0

fRefclk-4.8

NSAMPLE

CROSS-ABS

CROSS-REL

REF-JITTER

Symbol

SCK-HIGH

SCK-LOW

I_CK(D)

I-CK

, T

SCK-FALL

calculated

Symbol

126.67

158.33

190.00

-0.25

-150

havg

MIN

175

660

250

ITT1

ITT2

-10

0.5

-0.710)+0.250;and Max=0.5(V

Values

calculated

133.40

166.75

200.10

MAX

0.25

Typ

700

850

550

500

Rev. 1.52 April 2008

DDR2 SDRAM

MAX

700

Periods

havg

Units

MHz

-0.710)+0.550,

Units

12,13

Note

9, 10

1.2

4,5

6,7

m395t5160cz4-cd56/e66/f76 Samsung Semiconductor, Inc., m395t5160cz4-cd56/e66/f76 Datasheet - Page 20

m395t5160cz4-cd56/e66/f76

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