Features: • 25-bit 1:1 or 14-bit 1:2 registered buffer with parity check functionality• Supports SSTL_18 JEDEC specification on data inputs and outputs• Supports LVCMOS switching levels on C0, C1, andRESET inputs• Low voltage operation: VDD = 1.7V to 1.9V• Drop-in rep...
ICSSSTUAF32866C: Features: • 25-bit 1:1 or 14-bit 1:2 registered buffer with parity check functionality• Supports SSTL_18 JEDEC specification on data inputs and outputs• Supports LVCMOS switching l...
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Features: • 25-bit 1:1 or 14-bit 1:2 configurable registered buffer• Supports SSTL_18 ...
Features: • 14-bit 1:2 registered buffer with parity check functionality• Supports SST...
Features: • 28-bit 1:2 registered buffer with parity check functionality• Supports SST...
Item | Rating | |
Supply Voltage, VDD | -0.5V to 2.5V | |
Input Voltage Range, VI1 | -0.5V to 2.5V | |
Output Voltage Range, VO1,2 | -0.5V to VDD + 0.5V | |
Input Clamp Current, IIK | ±50mA | |
Output Clamp Current, IOK | ±50mA | |
Continuous Output Clamp Current, IO | ±50mA | |
Continuous Current through each VDD or GND | ±100mA | |
Package Thermal Impedance (ja)3 | 0m/s Airflow | 70.9/W |
1m/s Airflow | 65/W | |
Storage Temperature | -65 to +150 |
This 25-bit 1:1 or 14-bit 1:2 configurable registered buffer of the ICSSSTUAF32866C is designed for 1.7-V to 1.9-V VDD operation.
All clock and data inputs are compatible with the JEDEC standard for SSTL_18. The control inputs are LVCMOS. All outputs are 1.8-V CMOS drivers that have been optimized to drive the DDR-II DIMM load. ICSSSTUAF32866C operates from a differential clock (CLK and CLK). Data are registered at the crossing of CLK going high, and CLK going low.
The C0 input of the ICSSSTUAF32866C controls the pinout configuration of 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).
A - Pair Configuration (C01 = 0, C11 = 1 and C02 = 0, C12 = 1)
Parity that arrives one cycle after the data input to which it applies is checked on the PAR_IN of the first register. The second register produces to PPO and QERR signals. The QERR of the first register is left floating. The valid error information is latched on the QERR output of the second register. If an error occurs QERR is latched low for two cycles or until RESET is low.
B - Single Configuration (C0 = 0, C1 = 0)
The ICSSSTUAF32866C supports low-power standby operation. When the RESET input (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 and Cn 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 DDR-II RDIMM application of the ICSSSTUAF32866C, RESET is specified to be completely asynchronous with respect to CLK and CLK. Therefore, no timing relationship can be guaranteed between the two. When entering reset, the register will be cleared and the 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 ICSSSTUAF32866C must ensure that the outputs will remain low, thus ensuring no glitches on the output.
The ICSSSTUAF32866C monitors both DCS and CSR inputs and will gate the Qn outputs from changing states when both DCS and CSR inputs are high. If either DCS and CSR input is low, the Qn outputs will function normally. The RESET input has priority over the DCS and CSR control and will force the outputs low. If the DCS-control functionality is not desired, then the CSR input can be hardwired to ground, in which case, the setup-time requirement for DCS would be the same as for the other D data inputs. Package options include 96-ball LFBGA (MO-205CC).