W9751G6JB-3 Winbond, W9751G6JB-3 Datasheet - Page 48

W9751G6JB-3

Manufacturer Part Number

W9751G6JB-3

Description

Manufacturer

Winbond

Type

DDR2 SDRAMr

Datasheet

1.W9751G6JB-3.pdf (86 pages)

Specifications of W9751G6JB-3

Organization

32Mx16

Density

512Mb

Address Bus

14b

Access Time (max)

450ps

Maximum Clock Rate

667MHz

Operating Supply Voltage (typ)

1.8V

Package Type

WBGA

Operating Temp Range

0C to 85C

Operating Supply Voltage (max)

1.9V

Operating Supply Voltage (min)

1.7V

Supply Current

150mA

Pin Count

Mounting

Surface Mount

Operating Temperature Classification

Commercial

Lead Free Status / RoHS Status

Compliant

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11. There are two sets of values listed for Command/Address input hold time: tIH(base) and tIH(ref). The tIH(ref) value (for

12. The maximum limit for the tWPST parameter is not a device limit. The device operates with a greater value for this

13. tDQSQ: Consists of data pin skew and output pattern effects, and p-channel to n-channel variation of the output drivers as

14. tRPST end point and tRPRE begin point are not referenced to a specific voltage level but specify when the device output is

15. tHZ and tLZ transitions occur in the same access time as valid data transitions. These parameters are referenced to a

16. Input waveform timing tDS with differential data strobe enabled MR[bit10]=0. There are two sets of values listed for DQ and

17. Input waveform timing tDH with differential data strobe enabled MR[bit10]=0. There are two sets of values listed for DQ and

tRPST end point

reference only) is equivalent to the baseline value of tIH(base) at VREF when the slew rate is 1.0 V/nS. The baseline value

tIH(base) is the JEDEC defined value, referenced from the input signal crossing at the VIL(dc) level for a rising signal and

VIH(dc) for a falling signal applied to the device under test. See Figure 17. If the Command/Address slew rate is not equal to

1.0 V/nS, then the baseline values must be derated by adding the values from table tIS/tIH derating values for DDR2-667,

DDR2-800 and DDR2-1066 (page 55).

parameter, but system performance (bus turnaround) will degrades accordingly.

well as output Slew Rate mismatch between DQS / DQS and associated DQ in any given cycle.

no longer driving (tRPST), or begins driving (tRPRE). Figure 18 shows a method to calculate these points when the device

is no longer driving (tRPST), or begins driving (tRPRE) by measuring the signal at two different voltages. The actual voltage

measurement points are not critical as long as the calculation is consistent.

specific voltage level which specifies when the device output is no longer driving (tHZ), or begins driving (tLZ). Figure 18

shows a method to calculate the point when device is no longer driving (tHZ), or begins driving (tLZ) by measuring the

signal at two different voltages. The actual voltage measurement points are not critical as long as the calculation is

consistent. tLZ(DQ

treated as single-ended signal.

DM input setup time: tDS(base) and tDS(ref). The tDS(ref) value (for reference only) is equivalent to the baseline value

tDS(base) at VREF when the slew rate is 2.0 V/nS, differentially. The baseline value tDS(base) is the JEDEC defined value,

referenced from the input signal crossing at the VIH(ac) level to the differential data strobe crosspoint for a rising signal, and

from the input signal crossing at the VIL(ac) level to the differential data strobe crosspoint for a falling signal applied to the

device under test. DQS, DQS signals must be monotonic between VIL(dc)max and VIH(dc)min. See Figure 19. If the

differential DQS slew rate is not equal to 2.0 V/nS, then the baseline values must be derated by adding the values from

table of DDR2-667, DDR2-800 and DDR2-1066 tDS/tDH derating with differential data strobe (page 60).

DM input hold time: tDH(base) and tDH(ref). The tDH(ref) value (for reference only) is equivalent to the baseline value

tDH(base) at VREF when the slew rate is 2.0 V/nS, differentially. The baseline value tDH(base) is the JEDEC defined value,

referenced from the differential data strobe crosspoint to the input signal crossing at the VIH(dc) level for a falling signal and

from the differential data strobe crosspoint to the input signal crossing at the VIL(dc) level for a rising signal applied to the

device under test. DQS, DQS signals must be monotonic between VIL(dc)max and VIH(dc)min. See Figure 19. If the

differential DQS slew rate is not equal to 2.0 V/nS, then the baseline values must be derated by adding the values from

table of DDR2-667, DDR2-800 and DDR2-1066 tDS/tDH derating with differential data strobe (page 60).

tHZ,tRPST end point = 2 x T1 - T2

Figure 18

tHZ

T1 T2

)

–

refers to tLZ of the DQ’s and tLZ(DQS) refers to tLZ of the (UDQS, LDQS, UDQS and LDQS ) each

Method for calculating transitions and endpoints

VOH - x mV

VOH - 2x mV

VOL + 2x mV

VOL + x mV

VTT + 2x mV

VTT - 2x mV

VTT + x mV

VTT - x mV

tLZ,tRPRE begin point = 2 x T1 - T2

- 48 -

T1 T2

Publication Release Date: Jun. 18, 2010

tLZ

tRPRE begin point

W9751G6JB

Revision A03

W9751G6JB-3 Winbond, W9751G6JB-3 Datasheet - Page 48

W9751G6JB-3

Specifications of W9751G6JB-3

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