512MB, 1GB (x64)
200-PIN DDR SODIMM
Notes
1. All voltages referenced to VSS.
25°C, VOUT(DC) = VDDQ/2, VOUT (peak to peak) TA
2. Tests for AC timing, IDD, and electrical AC and DC
characteristics may be conducted at nominal ref-
erence/supply voltage levels, but the related spec-
ifications and device operation are guaranteed for
the full voltage range specified.
= 0.2V. DM input is grouped with I/O pins, reflect-
ing the fact that they are matched in loading.
12. Command/Address input slew rate = 0.5V/ns. For
-262, -26A, and -265 with slew rates 1V/ns and
t
t
faster, IS and IH are reduced to 900ps; for -335,
they are reduced to 750ps. If the slew rate is less
3. Outputs measured with equivalent load:
t
VTT
than 0.5 V/ns, timing must be derated: IS has an
additional 50ps per each 100mV/ns reduction in
50
Ω
t
slew rate from the 500mV/ns, while IH remains
constant. If the slew rate exceeds 4.5V/ns, func-
tionality is uncertain.
Reference
Output
Point
(VOUT
)
30pF
13. The CK/CK# input reference level (for timing ref-
erenced to CK/CK#) is the point at which CK and
CK# cross; the input reference level for signals
other than CK/CK# is VREF.
4. AC timing and IDD tests may use a VIL-to-VIH
swing of up to 1.5V in the test environment, but
input timing is still referenced to VREF (or to the
crossing point for CK/CK#), and parameter speci-
fications are guaranteed for the specified AC input
levels under normal use conditions. The mini-
mum slew rate for the input signals used to test
the device is 1V/ns in the range between VIL(AC)
and VIH(AC).
14. Inputs are not recognized as valid until VREF stabi-
lizes. Exception: during the period before VREF
stabilizes, CKE ? 0.3 x VDDQ is recognized as LOW.
15. The output timing reference level, as measured at
the timing reference point indicated in Note 3, is
VTT.
t
16. tHZ and LZ transitions occur in the same access
5. The AC and DC input level specifications are as
defined in the SSTL_2 Standard (i.e., the receiver
will effectively switch as a result of the signal
crossing the AC input level, and will remain in that
state as long as the signal does not ring back
above [below] the DC input LOW [HIGH] level).
6. VREF is expected to equal VDDQ/2 of the transmit-
ting device and to track variations in the DC level
of the same. Peak-to-peak noise (non-common
mode) on VREF may not exceed 2 percent of the
DC value. Thus, from VDDQ/2, VREF is allowed
25mV for DC error and an additional 25mV for
AC noise. This measurement is to be taken at the
nearest VREF bypass capacitor.
7. VTT is not applied directly to the device. VTT is a
system supply for signal termination resistors, is
expected to be set equal to VREF and must track
variations in the DC level of VREF.
8. IDD is dependent on output loading and cycle
rates. Specified values are obtained with mini-
mum cycle time at CL = 2 for -262, -26A, and -202,
CL = 2.5 for-335 and -265 with the outputs open.
9. Enables on-chip refresh and address counters.
10. IDD specifications are tested after the device is
properly initialized, and is averaged at the defined
cycle rate.
time windows as valid data transitions. These
parameters are not referenced to a specific voltage
level, but specify when the device output is no
longer driving (HZ) or begins driving (LZ).
17. The intent of the Don’t Care state after completion
of the postamble is the DQS-driven signal should
either be high, low, or high-Z and that any signal
transition within the input switching region must
follow valid input requirements. That is, if DQS
transitions high (above VIH DC (MIN) then it must
t
not transition low (below VIH DC) prior to DQSH
(MIN).
18. This is not a device limit. The device will operate
with a negative value, but system performance
could be degraded due to bus turnaround.
19. It is recommended that DQS be valid (HIGH or
LOW) on or before the WRITE command. The
case shown (DQS going from High-Z to logic
LOW) applies when no WRITEs were previously in
progress on the bus. If a previous WRITE was in
progress, DQS could be HIGH during this time,
depending on tDQSS.
t
20. MIN (tRC or RFC) for IDD measurements is the
smallest multiple of tCK that meets the minimum
t
absolute Value for the respective parameter. RAS
11. This parameter is sampled. VDD = +2.5V 0.2V,
VDDQ = +2.5V 0.2V, VREF = VSS, f = 100 MHz, =
(MAX) for IDD measurements is the largest multi-
09005aef80a646bc
DDF16C64_128x64HG_B.fm - Rev. B 7/03 EN
Micron Technology, Inc., reserves the right to change products or specifications without notice.
©2003 Micron Technology, Inc.
20