1GB-AUTO-AS4C64M16D3 Datasheet, PDF(35/86 Page) Alliance Semiconductor Corporation – Supports JEDEC clock jitter specification

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1GB-AUTO-AS4C64M16D3 Datasheet, PDF (35/86 Pages) Alliance Semiconductor Corporation – Supports JEDEC clock jitter specification

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1Gb Auto-AS4C64M16D3

lï¬ Jitter Notes

NOTE 1. Unit âtCK(avg)â represents the actual tCK(avg) of the input clock under operation. Unit ânCKâ represents

one clock cycle of the input clock, counting the actual clock edges.ex) tMRD = 4 [nCK] means; if one

Mode Register Set command is registered at Tm, another Mode Register Set command may be

registered at Tm+4, even if (Tm+4 - Tm) is 4 x tCK(avg) + tERR(4per),min.

NOTE 2. These parameters are measured from a command/address signal (CKE, CS#, RAS#, CAS#, WE#,

ODT, BA0, A0, A1, etc.) transition edge to its respective clock signal (CK/CK#) crossing. The spec

values are not affected by the amount of clock jitter applied (i.e. tJIT(per), tJIT(cc), etc.), as the setup

and hold are relative to the clock signal crossing that latches the command/address. That is, these

parameters should be met whether clock jitter is present or not.

NOTE 3. These parameters are measured from a data strobe signal (DQS(L/U), DQS(L/U)#) crossing to its

respective clock signal (CK, CK#) crossing. The spec values are not affected by the amount of clock

jitter applied (i.e. tJIT(per), tJIT(cc), etc.), as these are relative to the clock signal crossing. That is,

these parameters should be met whether clock jitter is present or not.

NOTE 4. These parameters are measured from a data signal (DM(L/U), DQ(L/U)0, DQ(L/U)1, etc.) transition

edge to its respective data strobe signal (DQS(L/U), DQS(L/U)#) crossing.

NOTE 5. For these parameters, the DDR3 SDRAM device supports tnPARAM [nCK] = RU{ tPARAM [ns] /

tCK(avg) [ns] }, which is in clock cycles, assuming all input clock jitter specifications are satisfied.

NOTE 6. When the device is operated with input clock jitter, this parameter needs to be derated by the actual

tERR(mper),act of the input clock, where 2 <= m <= 12. (output deratings are relative to the SDRAM

input clock.)

NOTE 7. When the device is operated with input clock jitter, this parameter needs to be derated by the actual

tJIT(per),act of the input clock. (output deratings are relative to the SDRAM input clock.)

Table 21. Input clock jitter spec parameter

Parameter

Symbol

Clock period jitter

Clock period jitter during DLL locking period

Cycle to cycle clock period jitter

Cycle to cycle clock period jitter during DLL locking period

Cumulative error across 2 cycles

Cumulative error across 3 cycles

Cumulative error across 4 cycles

Cumulative error across 5 cycles

Cumulative error across 6 cycles

Cumulative error across 7 cycles

Cumulative error across 8 cycles

Cumulative error across 9 cycles

Cumulative error across 10 cycles

Cumulative error across 11 cycles

Cumulative error across 12 cycles

tJIT (per)

tJIT (per,lck)

tJIT (cc)

tJIT (cc,lck)

tERR (2per)

tERR (3per)

tERR (4per)

tERR (5per)

tERR (6per)

tERR (7per)

tERR (8per)

tERR (9per)

tERR (10per)

tERR (11per)

tERR (12per)

-12

Unit

Min.

Max.

-70

-60

140

120

-103

103

-122

122

-136

136

-147

147

-155

155

-163

163

-169

169

-175

175

-180

180

-184

184

-188

188

Cumulative error across n cycles, n=13...50, inclusive

tERR (nper)

tERR (nper)min = (1+0.68ln(n)) * tJIT (per)min

tERR (nper)max = (1+0.68ln(n)) * tJIT (per)max

Confidential

--35/86

Rev.1.0 June 2015

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