SSTUG32868 NXP Semiconductors, SSTUG32868 Datasheet - Page 12
SSTUG32868
Manufacturer Part Number
SSTUG32868
Description
Sstug32868 1.8 V 28-bit 1 2 Configurable Registered Buffer With Parity For Ddr2-1g Rdimm Applications
Manufacturer
NXP Semiconductors
Datasheet
1.SSTUG32868.pdf
(29 pages)
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SSTUG32868_1
Product data sheet
during the time from the LOW-to-HIGH transition of RESET until the input receivers are
fully enabled, the design of the SSTUG32868 must ensure that the outputs will remain
LOW, thus ensuring no glitches on the output.
The SSTUG32868 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 SSTUG32868 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 to D5, D7, D9 to D12, D17 to D28 when C = 0; or D1 to D12, D17 to D20, D22, D24 to
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, that is, 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 Mode (LPM) and the QERR
output is driven LOW, then it stays latched LOW for the LPM duration plus two clock cycles
or until RESET is driven LOW. The DIMM-dependent signals (DCKE0, DCKE1, DODT0,
DODT1, DCS0, DCS1, DCS2 and DCS3) 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 hard-wired 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, DCS1, DCS2 and DCS3) and CSGEN inputs and will gate the Qn outputs
from changing states when CSGEN, DCS0 and DCS1 inputs are HIGH. If CSGEN or the
DCSn inputs are LOW, the Qn outputs will function normally. Also, if all DCSn inputs are
HIGH, the device will gate the QERR output from changing states. If any of the DCSn are
LOW, the QERR output will function normally. The RESET input has priority over the
DCSn 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 (GND), in which case the set-up time requirement for DCSn would
be the same as for the other D data inputs. To control the Low-power mode with DCSn
only, the CSGEN input should be pulled up to V
The two VREF pins (A5 and AB5) are connected together internally by approximately
150 . However, it is necessary to connect only one of the two VREF pins to the external
V
capacitor.
The SSTUG32868 is available in a TFGBA176 package.
ref
power supply. An unused VREF pin should be terminated with a V
Rev. 01 — 23 April 2007
1.8 V DDR2-1G configurable registered buffer with parity
DD
through a pull-up resistor.
SSTUG32868
ref
© NXP B.V. 2007. All rights reserved.
coupling
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