DATASHEET 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 Description ICSSSTUAF32868A 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. 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 ICSSSTUAF32868A 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 ICSSSTUAF32868A must ensure that the outputs will remain low, thus ensuring no glitches on the output. 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. The ICSSSTUAF32868A 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 ICSSSTUAF32868A 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 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 CONFIDENTIAL 1 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Features Applications • 28-bit 1:2 registered buffer with parity check functionality • Supports SSTL_18 JEDEC specification on data inputs • DDR2 Memory Modules • Provides complete DDR DIMM solution with and outputs ICS98ULPA877A or IDTCSPUA877A • Supports LVCMOS switching levels on CSGEN and • Ideal for DDR2 400, 533, and 667 RESET inputs • Low voltage operation: VDD = 1.7V to 1.9V • Available in 176-ball LFBGA package Block Diagram M2 RESET CLK CLK L1 M1 VREF A5, AB5 DCKE0, DCKE1 D1, C1 2 F2, E2 QCKE0A, QCKE1A H8, F8 QCKE0B, QCKE1B D 2 2 CK Q R DODT0, DODT1 N1, P1 2 CK Q K1 D CK L2 DCS1 J1 M7, M8 QODT0B, QODT1B D CK K2 QCS0A L7 QCS0B J2 QCS1A L8 QCS1B Q R CSGEN QODT0A, QODT1A 2 R DCS0 N2, P2 D 2 Q R One of 22 Channels D1 A2 A7 CE D CK R Q1A Q A8 Q1B TO 21 OTHER CHANNELS (D2-D5, D7, D9-D12, D17-D28) 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 2 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Parity Logic Diagram M2 RESET CLK CLK L1 M1 D1-D5, D7, D9-D12, D17-D28 VREF 22 D1-D5, D7, D9-D12, D17-D28 D1-D5, D7, D9-D12, D17-D28 22 A5, AB5 D 22 CK R PAR_IN Q1A-Q5A, Q7A, Q9A-Q12A, Q17A-Q28A 22 Q CE 22 Q1B-Q5B, Q7B, Q9B-Q12B, Q17B-Q28B 22 D1-D5, D7, D9-D12, D17-D28 L3 D CK R DCS0 Parity Generator and Error Check Q M3 CE K1 K2 D CK L2 DCS1 J1 R 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 L7 D CK 3 QCS0A Q R CSGEN QERR QCS0B J2 QCS1A L8 QCS1B Q ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Block Diagram M2 RESET CLK CLK L1 M1 VREF A5, AB5 DCKE0, DCKE1 W1, Y1 2 U2, V2 QCKE0A, QCKE1A R8, U8 QCKE0B, QCKE1B D 2 2 CK Q R DODT0, DODT1 K1, J1 2 CK Q R DCS0 N1 D CK L2 DCS1 P1 QODT0A, QODT1A L7, L8 QODT0B, QODT1B D CK 2 N2 QCS0A M7 QCS0B P2 QCS1A M8 QCS1B Q R CSGEN K2, J2 D 2 Q R One of 22 Channels D1 A2 A7 D CE CK R Q1A Q A8 Q1B TO 21 OTHER CHANNELS (D2-D12, D17-D20, D22, D24-D28) 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 4 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Parity Logic Diagram M2 RESET CLK CLK L1 M1 D1-D12, D17-D20, D22, D24-D28 VREF 22 D1-D12, D17-D20, D22, D24-D28 D1-D12, D17-D20, D22, D24-D28 22 A5, AB5 D 22 CK R PAR_IN Q1A-Q12A, Q17A-Q20A, Q22A, Q24A-Q28A 22 Q Q1B-Q12B, Q17B-Q20B, Q22B, Q24B-Q28B 22 CE 22 D1-D12, D17-D20, D22, D24-D28 L3 D CK R DCS0 Parity Generator and Error Check Q M3 CE N1 N2 D CK L2 DCS1 P1 R 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 M7 D CK 5 QCS0A Q R CSGEN QERR QCS0B P2 QCS1A M8 QCS1B Q ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Pin Configuration 1 2 3 4 5 6 7 8 A B C D E F G H J K L M N P R T U V W Y AA AB 176 BALL BGA TOP VIEW 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 6 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Pin Configuration A D2 D1 C GND VREF GND Q1A Q1B A D2 D1 C GND VREF GND Q1A Q1B B D4 D3 VDD VDD VDD VDD Q2A Q2B B D4 D3 VDD VDD VDD VDD Q2A Q2B C D6 (DCKE1) D5 GND GND GND GND Q3A Q3B D D8 (DCKE0) D7 D7 VDD VDD VDD VDD Q4A Q4B D9 Q6A (QCKE1A) GND GND GND GND Q5A Q5B F D10 Q8A (QCKE0A) VDD VDD VDD VDD VDD VDD VDD Q7A Q6B G D11 Q10A GND GND H D12 Q12A VDD J DCS1 QCS1 GND E K D5 DCS0 QCS0 GND VDD GND VDD GND VDD GND VDD GND Q3A Q4A VDD C Q3B D Q4B E D6 D8 D9 Q6A Q5A Q5B VDD Q7A Q6B (QCKE0B) F D10 GND GND Q9A Q7B G D11 Q10A GND GND GND GND Q9A Q7B VDD VDD VDD Q11A Q8B (QCKE0B) H D12 Q12A VDD VDD VDD VDD Q11A Q8B GND GND GND Q10B Q9B J D13 (DODT1) Q13A (QODT1A) GND GND GND GND Q10B Q9B K D14 (DODT0) Q14A (QODT0A) VDD VDD VDD VDD Q12B Q11B Q13B (QODT1B) GND VDD GND VDD GND VDD Q12B Q11B Q13B (QCS1B) L Q8A PAR_IN GND GND GND Q14B (QODT0B) RESET QERR VDD VDD VDD Q15B (QCS0B) Q16B (QCS1B) D15 (DCS0) Q15A (QCS0A) GND GND GND GND Q17B Q18B Q16A (QCS1A) VDD VDD VDD VDD Q19B Q20B Q17A GND GND GND GND Q18A Q21B (QCKE0B) L CLK CSGEN PAR_IN GND GND GND Q14B (QCS0B) M CLK RESET QERR VDD VDD VDD Q15B (QODT0B) Q16B (QODT1B) M CLK N D15 (DODT0) Q15A (QODT0A) GND GND GND GND Q17B Q18B N CLK CSGEN P D16 (DODT1) Q16A (QODT1A) VDD VDD VDD VDD Q19B Q20B P D16 (DCS1) R D17 Q17A GND GND GND GND Q18A Q21B R D17 T D18 Q19A VDD VDD VDD VDD Q20A Q22B T D18 Q19A VDD VDD VDD VDD Q20A Q22B GND GND GND GND Q22A Q23B (QCKE1B) U D19 Q21A GND GND GND GND Q22A Q23B U D19 Q21A (QCKE0A) V D20 Q23A VDD VDD VDD VDD Q24A Q24B V D20 Q23A (QCKE1A) VDD VDD VDD VDD Q24A Q24B W D21 D22 GND GND GND GND Q25A Q25B W D21 (DCKE0) D22 GND GND GND GND Q25A Q25B Y D23 D24 VDD VDD VDD VDD Q26A Q26B Y D23 (DCKE1) D24 VDD VDD VDD VDD Q26A Q26B AA D25 D26 GND GND GND GND Q27A Q27B AA D25 D26 GND GND GND GND Q27A Q27B AB D27 D28 NC VDD VREF VDD Q28A Q28B AB D27 D28 NC VDD VREF VDD Q28A Q28B 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1:2 REGISTER B (C = 1) 1:2 REGISTER A (C = 0) NOTE: NC denotes a no-connect (ball present but not connected to the die). 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 7 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Function Table Inputs1 Outputs RESET DCS0 DCS1 CSGEN CLK CLK Dx, DODT, DCKE Qn H L L X ↑ ↓ L L H L L X ↑ ↓ H H H L L X L or H L or H X Q 02 H L H X ↑ ↓ L L H L H X ↑ ↓ H H H L H X L or H L or H X Q 02 H L L X ↑ ↓ L L H L L X ↑ ↓ H H H L L X L or H L or H X Q 02 H H H L ↑ ↓ L L H H H L ↑ ↓ H H H H H L L or H L or H X Q 02 H H H H ↑ ↓ L Q 02 H H H H ↑ ↓ H Q 02 H H H H L or H L or H X L X or Floating X or Floating X or Floating 1 2 X or X or X or Floating Floating Floating QCS0 QCS1 QODT, QCKE Q 02 Q 02 Q02 Q 02 Q 02 Q02 Q 02 Q 02 Q02 Q 02 Q 02 Q02 Q 02 Q 02 Q 02 Q02 L L L L H = HIGH Voltage Level L = LOW Voltage Level X = Don’t Care ↑ = LOW to HIGH ↓ = HIGH to LOW Output Level before the indicated steady-state conditions were established. 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 8 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Parity and Standby Function Table Inputs1 Outputs RESET DCS0 DCS1 CLK CLK Σ of Inputs = H (D1 - D28) PAR_IN2 H L X ↑ ↓ Even L H H L X ↑ ↓ Odd L L H L X ↑ ↓ Even H L H L X ↑ ↓ Odd H H H X L ↑ ↓ Even L H H X L ↑ ↓ Odd L L H X L ↑ ↓ Even H L H X L ↑ ↓ Odd H H H H H ↑ ↓ X X QERR04 H X X ↑ ↓ X X QERR0 L X or Floating X or Floating X or Floating X or Floating X or Floating X or Floating H QERR3 1 H = HIGH Voltage Level L = LOW Voltage Level X = Don’t Care ↑ = LOW to HIGH ↓ = HIGH to LOW 2 PAR_IN arrives one clock cycle after the data to which it applies. 3 This transition assumes QERR is HIGH at the crossing of CLK going HIGH and CLK going LOW. If QERR is LOW, it stays latched LOW for two clock cycles or until RESET is driven LOW. 4 If DCS0, DCS1, and CSGEN are driven HIGH, the device is placed in low-power mode (LPM). If a parity error occurs on the clock cycle before the device enters the LPM and the QERR output is driven LOW, it stays latched LOW for the LPM plus two clock cycles or until RESET is driven LOW. 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 9 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Absolute Maximum Ratings Stresses greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. Item Rating Supply Voltage, VDD -0.5V to 2.5V 1 -0.5V to VDD + 2.5V VO1,2 -0.5V to VDDQ + 0.5V Input Voltage Range, VI Output Voltage Range, 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 (θja)3 0m/s Airflow 40.4°C/W 1m/s Airflow 29.1°C/W Storage Temperature -65 to +150°C 1 The input and output negative voltage ratings may be exceeded if the ratings of the I/P and O/P clamp current are observed. 2 This current will flow only when the output is in the high state level VO > VDDQ. 3 The package thermal impedance is calculated in accordance with JESD 51. Output Buffer Characteristics Output edge rates over recommended operating free-air temperature range VDD = 1.8V ± 0.1V Parameter dV/dt_r dV/dt_f dV/dt_Δ 1 1 Min. Max. Units 1 4 V/ns 1 4 V/ns 1 V/ns Difference between dV/dt_r (rising edge rate) and dV/dt_f (falling edge rate). 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 10 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Terminal Functions Terminal Name Electrical Characteristics GND Ground Input Ground VDD 1.8V nominal Power Supply Voltage VREF 0.9V nominal Input Reference Clock CLK Differential Input Positive Master Clock Input CLK Differential Input Negative Master Clock Input C LVCMOS Input Configuration Control Inputs - Register A or Register B RESET LVCMOS Input Asynchronous Reset Input. Resets registers and disables Vref data and clock differential-input receivers. CSGEN LVCMOS Input Chip select gate enable – When high, D1-D28 inputs will be latched only when at least one chip select input is low during the rising edge of the clock. When low, the D1-D28 inputs will be latched and redriven on every rising edge of the clock. D1 - D28 SSTL_18 Input Data Input. Clocked in on the crossing of the rising edge of CLK and the falling edge of CLK. DCS0, DCS1 SSTL_18 Input Chip select inputs – These pins initiate DRAM address/command decodes, and as such at least one will be low when a valid address/command is present. The Register can be programmed to redrive all D inputs (CSGEN high) only when at least one chip select input is low. If CSGEN, DCS0, and DCS1 inputs are high, D1-D28 inputs will be disabled. DCKE0, DCKE1 SSTL_18 Input The outputs of this register bit will not be suspended by the DCS0 and DCS1 controls DODT0, DODT1 SSTL_18 Input The outputs of this register bit will not be suspended by the DCS0 and DCS1 controls PAR_IN SSTL_18 Input Parity Input arrives one cycle after corresponding data input Q1 - Q28 1.8V CMOS Data Outputs that are suspended by the DCS0 and DCS1 controls QCS0, QCS1 1.8V CMOS Data Output that will not be suspended by the DCS0 and DCS1 controls QCKE0, QCKE1 1.8V CMOS Data Output that will not be suspended by the DCS0 and DCS1 controls QODT0, QODT1 1.8V CMOS Data Output that will not be suspended by the DCS0 and DCS1 controls QERR Open Drain Output NC 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 Description Output Error bit, generated one cycle after the corresponding data output No Connection 11 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Operating Characteristics, TA = 25°C The RESET and Cn inputs of the device must be held at valid levels (not floating) to ensure proper device operation. The differential inputs must not be floating unless RESET is Low. Symbol Parameter Min. Typ. Max. Units VDD I/O Supply Voltage 1.7 1.8 1.9 V VREF Reference Voltage 0.49 * VDD 0.5 * VDD 0.51 * VDD V VTT Termination Voltage VREF - 0.04 VREF VREF + 0.04 V VDD V VI Input Voltage VIH AC High-Level Input Voltage VIL AC Low-Level Input Voltage VIH DC High-Level Input Voltage VIL DC Low-Level Input Voltage VIH High-Level Input Voltage VIL Low-Level Input Voltage 0 Data CSR and PAR_IN inputs RESET, C0, C1 VREF + 0.25 VREF - 0.25 VREF + 0.125 VREF - 0.125 0.65 * VDDQ 0.35 * VDDQ VICR Common Mode Input Range VID Differential Input Voltage IOH High-Level Output Current -6 IOL Low-Level Output Current 6 TA Operating Free-Air Temperature 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 CLK, CLK 0.675 1.125 600 0 12 V V V mV +70 ICSSSTUAF32868A mA °C 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE DC Electrical Characteristics Over Operating Range Following Conditions Apply Unless Otherwise Specified: Operating Condition: TA = 0°C to +70°C, VDDQ/VDD = 2.5V ± 0.2V. Symbol Parameter Test Conditions VOH Output HIGH Voltage IOH = -6mA, VDDQ = 1.7V VOL Output LOW Voltage IOL = 6mA, VDDQ = 1.7V All Inputs VI = VDD or GND; VDD = 1.9V Static Standby IIL IDD IDDD CI Static Operating Min. Typ. Max. 1.2 Units V 0.5 V +5 μA IO = 0, VDD = 1.9V, RESET = GND 200 μA IO = 0, VDD = 1.9V, RESET = VDD, VI = VIH(AC) or VIL(AC), CLK = CLK = VIH(AC) or VIL(AC) 10 -5 IO = 0, VDD = 1.9V, RESET = VDD, VI = VIH(AC) or VIL(AC), CLK = VIH(AC), CLK = VIL(AC) mA 200 Dynamic Operating (clock only) IO = 0, VDD = 1.8V, RESET = VDD, VI = VIH(AC) or VIL(AC), CLK and CLK switching 50% duty cycle 260 μA/Clock MHz Dynamic Operating (per each data input) 1:2 mode IO = 0, VDD = 1.8V, RESET = VDD, VI = VIH(AC) or VIL(AC), CLK and CLK switching 50% duty cycle. One data input switching at half clock frequency, 50% duty cycle. 75 μA/Clock MHz/ Data Data Inputs VI = VREF ± 250mV CLK and CLK VICR = 0.9V, VIPP = 600mV RESET VI = VDD or GND 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 2 3.5 2.5 4 pF 5 13 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Timing Requirements Over Recommended Operating Free-Air Temperature Range VDD = 1.8V ± 0.1V Symbol fCLOCK tW t ACT Clock Frequency Pulse Duration, CLK, CLK HIGH or LOW 1,2 tINACT Min. Parameter 1,3 tSU tH Max. Units 410 MHz 1 ns Differential Inputs Active Time 10 ns Differential Inputs Inactive Time 15 ns Setup Time Hold Time DCS0 before CLK↑, CLK↓, DCS1 and CSGEN HIGH; DCS1 before CLK↑, CLK↓, DCS0 and CSGEN HIGH; 0.7 ns DCS0 before CLK↑, CLK↓, DCS1 LOW and CSGEN HIGH or LOW; DCS1 before CLK↑, CLK↓, DCS0 LOW and CSGEN HIGH or LOW 0.5 ns DODTn, DCKEn, PAR_IN, and data before CLK↑, CLK↓ 0.5 ns DCSn, DODT,n DCKEn, and data after CLK↑, CLK↓ 0.5 ns PAR_IN after CLK↑, CLK↓ 0.5 ns 1 This parameter is not production tested. 2 VREF must be held at a valid input voltage level and data inputs must be held at valid voltage levels for a minimum time of tACT (max) after RESET is taken HIGH. 3 VREF data and clock inputs must be held at valid input voltage levels (not floating) for a minimum time of tINACT (max) after RESET is taken LOW. Switching Characteristics Over Recommended Free Air Operating Range (unless otherwise noted) VDD = 1.8V ± 0.1V Parameter Min. fMAX Max Input Clock Frequency 410 tPDM Propagation Delay, single bit switching, CLK↑ to CLK↓ to Qn 1.3 Symbol tPDMSS Propagation Delay, simultaneous switching, CLK↑ to CLK↓ to Qn Max. Units MHz 1.9 ns 2 ns tLH LOW to HIGH Propagation Delay, CLK↑ to CLK↓ to QERR 1.2 3 ns tHL HIGH to LOW Propagation Delay, CLK↑ to CLK↓ to QERR 1 2.4 ns tPLH HIGH to LOW Propagation Delay, RESET↓ to Qn↓ 3 ns tPHL LOW to HIGH Propagation Delay, RESET↓ to QERR↑ 3 ns 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 14 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Register Timing RESET CSGEN DCS0 DCS1 n n +1 n+2 n+3 n+4 CLK CLK tACT tH tSU Dn, DODTn, DCKEn tPDM, tPDMSS CLK to Q Qn, QODTn, QCKEn tSU tH PARIN tPHL CLK to QERR tPHL, tPLH CLK to QERR Data to QERR Latency QERR H, L, or X H or L NOTES: 1.After RESET is switched from LOW to HIGH, all data and PAR_IN inputs signals must be set and held LOW for a minimum time of tACTMAX, to avoid false error. 2.If the data is clocked in on the n clock pulse, the QERR output signal will be generated on the n+2 clock pulse, and it will be valid on the n+3 clock pulse. 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 15 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Register Timing NOTE: 1.If the data is clocked in on the n clock pulse, the QERR output signal will be generated on the n+2 clock pulse, and it will be valid on the n+3 clock pulse. 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. 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 16 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Register Timing RESET tINACT CSGEN DCS0 DCS1 CLK CLK Dn, DODTn, DCKEn tRPHL RESET to Q Qn, QODTn, QCKEn PARIN QERR tRPLH RESET to QERR H, L, or X H or L NOTE: 1.After RESET is switched from LOW to HIGH, all data and clock inputs signals must be set and held at valid logic levels (not floating) for a minimum time of tINACTMAX. 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 17 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Test Circuits and Waveforms (VDD = 1.8V ± 0.1V) VDD/2 VDD DUT R L = 1KΩ TL = 50Ω CLK CLK CLK Inputs ZO = 50Ω Test Point ZO = 50Ω Test Point CLK Inputs Test Point CL = 30 pF Test Point CLK TL = 350ps, 50Ω Out DUT RL = 50Ω ZO = 50Ω Out CLK R L = 1KΩ Test Point RL = 100Ω Test Point Production-Test Load Circuit Simulation Load Circuit CLK tPLH VDD LVCMOS RESET Input VDD/2 V ICR V ICR CLK V ID tPHL V OH Output VDD/2 V TT V TT V OL 0V tACT tINACT Voltage Waveforms - Propagation Delay Times 90% IDD 10% LVCMOS RESET Input Voltage and Current Waveforms Inputs Active and Inactive Times VIH VDD/2 VIL tRPHL VOH Output VTT VOL tW Input VICR VICR Voltage Waveforms - Propagation Delay Times VID NOTES: 1. CL includes probe and jig capacitance. 2. IDD tested with clock and data inputs held at VDD or GND, and Io = 0mA 3. All input pulses are supplied by generators having the following characteristics: PRR ≤10MHz, Zo = 50Ω, input slew rate = 1 V/ns ±20% (unless otherwise specified). 4. The outputs are measured one at a time with one transition per measurement. 5. VTT = VREF = VDD/2 6. VIH = VREF + 250mV (AC voltage levels) for differential inputs. VIH = VDD for LVCMOS input. 7. VIL = VREF - 250mV (AC voltage levels) for differential inputs. VIL = GND for LVCMOS input. 8. VID = 600mV. 9. tPLH and tPHL are the same as tPDM. Voltage Waveforms - Pulse Duration CLK VID VICR CLK tSU tH VIH Input VREF VREF VIL Voltage Waveforms - Setup and Hold Times 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 18 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Test Circuits and Waveforms (VDD = 1.8V ± 0.1V) VDD DUT VDD DUT RL = 50Ω Out RL = 1KΩ Out Test Point Test Point CL = 10 pF CL = 10 pF Load Circuit: Error Output Measurements Load Circuit: High-to-Low Slew-Rate Adjustment Output LVCMOS RESET Input VOH 80% VCC VCC/2 0V tPLH VOH 20% dv_f 0.15V Output Waveform 2 VOL 0V dt_f Voltage Waveforms: Open Drain Output Low-to-High Transition Time (with respect to RESET input) Voltage Waveforms: High-to-Low Slew-Rate Adjustment Timing Inputs DUT VICR VICR VI(PP) tHL Out Test Point CL = 10 pF VCC/2 VOL Voltage Waveforms: Open Drain Output High-to-Low Transition Time (with respect to clock inputs) Load Circuit: Low-to-High Slew-Rate Adjustment Timing Inputs dt_r VOH dv_r VCC Output Waveform 1 RL = 50Ω 80% VICR VICR VI(PP) tHL VOH Output Waveform 2 20% Output VOL 0.15V 0V Voltage Waveforms: Open Drain Output Low-to-High Transition Time (with respect to clock inputs) Voltage Waveforms: Low-to-High Slew-Rate Adjustment NOTES: 1. CL includes probe and jig capacitance. 2. All input pulses are supplied by generators having the following characteristics: PRR ≤10MHz, Zo = 50Ω, input slew rate = 1 V/ns ±20% (unless otherwise specified). 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 19 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Package Outline and Package Dimensions - BGA Package dimensions are kept current with JEDEC Publication No. 95 C SEATING PLANE Numeric Designations for Horizontal Grid A1 b REF T 4 3 2 1 A B C D Alpha Designations for Vertical Grid (Letters I, O, Q, and S not used) D d TYP D1 -e- TYP TOP VIEW E c REF -e- TYP h TYP E1 0.12 C ALL DIMENSIONS IN MILLIMETERS BALL GRID d T Min/Max e D E Horiz Vert Total Min/Max 15.00 Bsc 6.00 Bsc 0.94/1.20 0.65 Bsc 8 22 176 0.35/0.45 h Min/Max 0.25/0.35 REF. DIMS D1 E1 b c 13.65 Bsc 4.55 Bsc 0.675 0.725 *** NOTE: Ball grid total indicates maximum ball count for package. Lesser quantity may be used. * Source Ref.: JEDEC Publication 95, MO-205*, MO-255**, MO-246*** 10-0055 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 20 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Ordering Information ICSSSTUAF XX Family XX XXX Device Type Package X Shipping Carrier T 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 Tape and Reel HLF Low Profile, Fine Pitch, Ball Grid Array - Lead-Free 868A 28-Bit Configurable Registered Buffer for DDR2 32 Double Density 21 ICSSSTUAF32868A 7094/14 ICSSSTUAF32868A 28-BIT CONFIGURABLE REGISTERED BUFFER FOR DDR2 COMMERCIAL TEMPERATURE GRADE Innovate with IDT and accelerate your future networks. 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