AS4C128M16D3A-12BIN
- Single-ended requirements for differential signals
Each individual component of a differential signal (CK, CK#, LDQS, UDQS, LDQS#, or UDQS#) has also to comply
with certain requirements for single-ended signals.
CK and CK# have to approximately reach VSEHmin / VSELmax (approximately equal to the ac-levels (VIH(ac) /
VIL(ac)) for ADD/CMD signals) in every half-cycle. LDQS, UDQS, LDQS#, UDQS# have to reach VSEHmin /
VSELmax (approximately the ac-levels (VIH(ac) / VIL(ac)) for DQ signals) in every half-cycle proceeding and
following a valid transition.
Note that the applicable ac-levels for ADD/CMD and DQ’s might be different per speed-bin etc. E.g., if
VIH150(ac)/VIL150(ac) is used for ADD/CMD signals, then these ac-levels apply also for the single-ended signals
CK and CK#.
Table 28. Single-ended levels for CK, DQSL, DQSU, CK#, DQSL# or DQSU#
Min.
(VDD / 2) + 0.175
(VDD / 2) + 0.175
Note 3
Max.
Symbol
Parameter
Unit Note
Single-ended high level for strobes
Single-ended high level for CK, CK#
Single-ended low level for strobes
Single-ended low level for CK, CK#
Note 3
V
V
V
V
1,2
1,2
1,2
1,2
VSEH
Note 3
(VDD / 2) - 0.175
(VDD / 2) - 0.175
VSEL
Note 3
NOTE 1: For CK, CK# use VIH/VIL(ac) of ADD/CMD; for strobes (DQSL, DQSL#, DQSU, DQSU#) use VIH/VIL(ac) of DQs.
NOTE 2: VIH(ac)/VIL(ac) for DQs is based on VREFDQ; VIH(ac)/VIL(ac) for ADD/CMD is based on VREFCA; if a reduced
ac-high or ac-low level is used for a signal group, then the reduced level applies also here.
NOTE 3: These values are not defined, however the single-ended signals CK, CK#, DQSL, DQSL#, DQSU, DQSU# need
to be within the respective limits (VIH(dc) max, VIL(dc)min) for single-ended signals as well as the limitations
for overshoot and undershoot.
- Differential Input Cross Point Voltage
To guarantee tight setup and hold times as well as output skew parameters with respect to clock and strobe, each
cross point voltage of differential input signals (CK, CK# and DQS, DQS#) must meet the requirements in the
following table. The differential input cross point voltage Vix is measured from the actual cross point of true and
complete signal to the midlevel between of VDD and VSS.
Table 29. Cross point voltage for differential input signals (CK, DQS)
Symbol
VIX(CK)
VIX(DQS)
Parameter
Min.
- 150
- 175
Max.
150
Unit Note
Differential Input Cross Point Voltage
relative to VDD/2 for CK, CK#
mV
mV
2
1
175
Differential Input Cross Point Voltage
relative to VDD/2 for DQS, DQS#
- 150
150
mV
2
NOTE 1: Extended range for Vix is only allowed for clock and if single-ended clock input signals CK and CK# are monotonic
with a single-ended swing VSEL / VSEH of at least VDD/2 +/-250 mV, and when the differential slew rate of CK
- CK# is larger than 3 V/ns.
NOTE 2: The relation between Vix Min/Max and VSEL/VSEH should satisfy following.
(VDD/2) + Vix (Min) - VSEL ≧25mV
VSEH - ((VDD/2) + Vix (Max)) ≧25mV
Confidential
-53/83-
Rev. 1.0 May 2016