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ICSSSTUAF32868B

28-BIT CONFIGURABLE REGISTERED BUFFER



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DATASHEET
28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2
ICSSSTUAF32868B
Description
This 28-bit 1:2 configurable registered buffer is designed for
1.7V to 1.9V VDD operation. All inputs are compatible with
the JEDEC standard for SSTL_18, except the chip-select
gate-enable (CSGEN), control (C), and reset (RESET)
inputs, which are LVCMOS. All outputs are edge-controlled
circuits optimized for unterminated DIMM loads, and meet
SSTL_18 specifications, except the open-drain error
(QERR) output.
The ICSSSTUAF32868B operates from a differential clock
(CLK and CLK). Data are registered at the crossing of CLK
going high and CLK going low. The device supports
low-power standby operation. When RESET is low, the
differential input receivers are disabled, and undriven
(floating) data, clock, and reference voltage (Vref) inputs
are allowed. In addition, when RESET is low, all registers
are reset and all outputs are forced low except QERR. The
LVCMOS RESET and C inputs must always be held at a
valid logic high or low level. To ensure defined outputs from
the register before a stable clock has been supplied,
RESET must be held in the low state during power up. In
the DDR2 RDIMM application, RESET is specified to be
completely asynchronous with respect to CLK and CLK.
Therefore, no timing relationship can be ensured between
the two. When entering reset, the register will be cleared
and the data outputs will be driven low quickly, relative to
the time to disable the differential input receivers. However,
when coming out of reset, the register will become active
quickly, relative to the time to enable the differential input
receivers. As long as the data inputs are low, and the clock
is stable during the time from the low-to-high transition of
RESET until the input receivers are fully enabled, the
design of the ICSSSTUAF32868B must ensure that the
outputs will remain low, thus ensuring no glitches on the
output.
The ICSSSTUAF32868B includes a parity checking
function. Parity, which arrives one cycle after the data input
to which it applies, is checked on the PAR_IN input of the
device. The corresponding QERR output signal for the data
inputs is generated two clock cycles after the data, to which
the QERR signal applies, is registered. The
ICSSSTUAF32868B accepts a parity bit from the memory
controller on the parity bit (PAR_IN) input, compares it with
the data received on the DIMM-independent D-inputs
(D1-D5, D7, D9-D12, D17-D28 when C = 0; or D1-D12,
D17-D20, D22, D24-D28 when C = 1) and indicates
whether a parity error has occurred on the open-drain
QERR pin (active low). The convention is even parity, i.e.,
valid parity is defined as an even number of ones across the
DIMM-independent data inputs combined with the parity
input bit. To calculate parity, all DIMM-independent D-inputs
must be tied to a known logic state. If an error occurs and
the QERR output is driven low, it stays latched low for a
minimum of two clock cycles or until RESET is driven low. If
two or more consecutive parity errors occur, the QERR
output is driven low and latched low for a clock duration
equal to the parity error duration or until RESET is driven
low. If a parity error occurs on the clock cycle before the
device enters the low-power (LPM) and the QERR output is
driven low, then it stays lateched low for the LPM duration
plus two clock cycles or until RESET is driven low. The
DIMM-dependent signals (DCKE0, DCKE1, DODT0,
DODT1, DCS0 and DCS1) are not included in the parity
check computation.
The C input controls the pinout configuration from
register-A configuration (when low) to register-B
configuration (when high). The C input should not be
switched during normal operation. It should be hardwired to
a valid low or high level to configure the register in the
desired mode. The device also supports low-power active
operation by monitoring both system chip select (DCS0 and
DCS1) and CSGEN inputs and will gate the Qn outputs
from changing states when CSGEN, DCS0, and DCS1
inputs are high. If CSGEN, DCS0 orDCS1 input is low, the
Qn outputs will function normally. Also, if both DCS0 and
DCS1 inputs are high, the device will gate the QERR output
from changing states. If either DCS0 orDCS1 is low, the
QERR output will function normally. The RESET input has
priority over the DCS0 and DCS1 control and when driven
low will force the Qn outputs low, and the QERR output
high. If the chip-select control functionality is not desired,
then the CSGEN input can be hard-wired to ground, in
which case, the setup-time requirement for DCS0 and
DCS1 would be the same as for the other D data inputs. To
control the low-power mode with DCS0 and DCS1 only,
then the CSGEN input should be pulled up to Vdd through a
pullup resistor. The two VREF pins (A1 and V1) are
connected together internally by approximately 150.
However, it is necessary to connect only one of the two
VREF pins to the external VREF power supply. An unused
VREF pin should be terminated with a VREF coupling
capacitor.
28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2
1
ICSSSTUAF32868B
7102/2



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ICSSSTUAF32868B pdf
ICSSSTUAF32868B
28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2
COMMERCIAL TEMPERATURE GRADE
Features
28-bit 1:2 registered buffer with parity check functionality
Supports SSTL_18 JEDEC specification on data inputs
and outputs
Supports LVCMOS switching levels on CSGEN and
RESET inputs
Low voltage operation: VDD = 1.7V to 1.9V
Available in 176-ball LFBGA package
Applications
DDR2 Memory Modules
Provides complete DDR DIMM solution with
ICS98ULPA877A or IDTCSPUA877A
Ideal for DDR2 400, 533, and 667
Block Diagram
M2
RESET
CLK L1
CLK M1
VREF A5, AB5
DCKE0, D1, C1
DCKE1
2
DODT0, N1, P1
DODT1
2
DCS0
K1
2
D
F2, E2 QCKE0A,
QCKE1A
CK Q
2
R H8, F8 QCKE0B,
QCKE1B
2
D
N2, P2 QODT0A,
QODT1A
CK Q
2
R M7, M8 QODT0B,
QODT1B
D
CK
R
Q
K2 QCS0A
L7 QCS0B
CSGEN L2
DCS1
J1
D
CK
R
Q
J2 QCS1A
L8 QCS1B
D1 A2
One of 22 Channels
D CE
CK Q
R
A7
Q1A
A8
Q1B
TO 21 OTHER CHANNELS
(D2-D5, D7, D9-D12, D17-D28)
28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2
2
ICSSSTUAF32868B
7102/2



Part Number ICSSSTUAF32868B
Description 28-BIT CONFIGURABLE REGISTERED BUFFER
Maker IDT - IDT
Total Page 22 Pages
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