SSTUG32866EC/G NXP [NXP Semiconductors], SSTUG32866EC/G Datasheet - Page 8

SSTUG32866EC/G

Manufacturer Part Number

SSTUG32866EC/G

Description

1.8 V 25-bit 1 : 1 or 14-bit 1 : 2 configurable registered buffer

Manufacturer

NXP [NXP Semiconductors]

Datasheet

1.SSTUG32866ECG.pdf (28 pages)

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7. Functional description

SSTUG32866_1

Product data sheet

Data outputs = Q2, Q3, Q5, Q6, Q8 to Q25 when C0 = 0 and C1 = 0.

Data outputs = Q2, Q3, Q5, Q6, Q8 to Q14 when C0 = 0 and C1 = 1.

Data outputs = Q1 to Q6, Q8 to Q10, Q12, Q13 when C0 = 1 and C1 = 1.

The SSTUG32866 is a 25-bit 1 : 1 or 14-bit 1 : 2 conﬁgurable registered buffer with parity,

designed for 1.7 V to 2.0 V V

All clock and data inputs are compatible with the JEDEC standard for SSTL_18. The

control and reset (RESET) inputs are LVCMOS. All data outputs are 1.8 V CMOS drivers

that have been optimized to drive the DDR2 DIMM load, and meet SSTL_18

speciﬁcations. The error (QERR) output is 1.8 V open-drain driver.

The SSTUG32866 operates from a differential clock (CK and CK). Data are registered at

the crossing of CK going HIGH, and CK going LOW.

The C0 input controls the pinout conﬁguration for the 1 : 2 pinout from A conﬁguration

(when LOW) to B conﬁguration (when HIGH). The C1 input controls the pinout

conﬁguration from 25-bit 1 : 1 (when LOW) to 14-bit 1 : 2 (when HIGH).

The SSTUG32866 accepts a parity bit from the memory controller on its parity bit

(PAR_IN) input, compares it with the data received on the DIMM-independent D-inputs

and indicates whether a parity error has occurred on its 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.

When used as a single device, the C0 and C1 inputs are tied LOW. In this conﬁguration,

parity is checked on the PAR_IN input which arrives one cycle after the input data to which

it applies. The Partial-Parity-Out (PPO) and QERR signals are produced three cycles after

the corresponding data inputs.

When used in pairs, the C0 input of the ﬁrst register is tied LOW and the C0 input of the

second register is tied HIGH. The C1 input of both registers are tied HIGH. Parity, which

arrives one cycle after the data input to which it applies, is checked on the PAR_IN input of

the ﬁrst device. The PPO and QERR signals are produced on the second device three

clock cycles after the corresponding data inputs. The PPO output of the ﬁrst register is

cascaded to the PAR_IN of the second register. The QERR output of the ﬁrst register is

left ﬂoating and the valid error information is latched on the QERR output of the second

If an error occurs and the QERR output is driven LOW, it stays latched LOW for two clock

cycles or until RESET is driven LOW. The DIMM-dependent signals (DCKE, DCS, DODT,

and CSR) are not included in the parity check computation.

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. The LVCMOS RESET input must always be held at a valid

logic HIGH or LOW level.

Rev. 01 — 29 June 2007

1.8 V DDR2-1G conﬁgurable registered buffer with parity

operation.

SSTUG32866

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SSTUG32866EC/G NXP [NXP Semiconductors], SSTUG32866EC/G Datasheet - Page 8

SSTUG32866EC/G

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