IS43/46TR16256A, IS43/46TR16256AL,
IS43/46TR85120A, IS43/46TR85120AL
9.5.5 Address / Command Setup, Hold and Derating
9.6.5.1 Nominal slew rate and tVAC for setup time tIS(left) and hold time t DH(right) – ADD/CMD with respect to clock
CK#
CK#
CK
CK
tIS tIH
tIS tIH
tIS tIH
tIS tIH
VDDQ
tVAC
VIH(ac)MIN
VIH(dc)MIN
VREF(dc)
Setup slew Rate @
Falling signal
=
[VREF(dc)-VIL(ac)max]
/ ΔTF
Normal
slew rate
Normal
slew rate
VIL(dc)MAX
VIL(ac)MAX
tVAC
Setup slew Rate @ Rising
signal
=
[VIH(ac)min-VREF(dc)]
/ ΔTR
VSS
∆TF
∆TR
VDDQ
VIH(ac)MIN
VIH(dc)MIN
VREF(dc)
VIL(dc)MAX
VIL(ac)MAX
Hold slew Rate @
Rising signal
=
[VREF(dc)-VIL(dc)max]
/ ΔTR
Normal
slew rate
Normal
slew rate
tVAC
Hold slew Rate @
Falling signal
=
[VIH(dc)min-VREF(dc)]
/ ΔTF
VSS
∆TR
∆TF
9.6.5.2 Tangent line for setup time tIS(left) and hold time tIH(right) - ADD/CMD with respect to clock
CK#
CK#
CK
CK
tIS tIH
tIS tIH
tIS tIH
tIS tIH
VDDQ
VIH(ac)MIN
VIH(dc)MIN
VREF(dc)
VIL(dc)MAX
Normal tVAC
Setup slew Rate @ slew rate
Falling signal
= tangent line
[VREF(dc)-VIL(ac)max]
/ ΔTF
tangent
line
tangent
line
Setup slew Rate @
Rising signal
= tangent line
[VIH(ac)min-VREF(dc)]
/ ΔTR
VIL(ac)MAX
Normal
slew rate
VSS
tVAC
∆TR
∆TF
VDDQ
VIH(ac)MIN
VIH(dc)MIN
VREF(dc)
VIL(dc)MAX
VIL(ac)MAX
VSS
Hold slew Rate @
Rising signal
= tangent line
[VREF(dc)-VIL(dc)max]
/ ΔTR
tangent
line
Normal
slew rate
tangent
line
∆TR
Normal
slew rate
Hold slew Rate @
Falling signal
= tangent line
[VIH(dc)min-VREF(dc)]
/ ΔTF
∆TF
Integrated Silicon Solution, Inc. – www.issi.com –
72
Rev. 00A
11/14/2012