DATASHEET ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 General Description Features/Benefits The ICS9DB803D is compatible with the Intel DB800v2 Differential Buffer Specification. This buffer provides 8 PCI-Express Gen2 clocks. The ICS9DB803D is driven by a differential output pair from a CK410B+, CK505 or CK509B main clock generator. * Spread spectrum modulation tolerant, 0 to -0.5% down * Supports undriven differential outputs in PD# and SRC_STOP# modes for power management Key Specifications Recommended Application DB800v2 compatible part with PCIe Gen1 and Gen2 Support Output Features * * * * * spread and +/- 0.25% center spread * * * * Outputs cycle-cycle jitter < 50ps Output to Output skew <50ps Phase jitter: PCIe Gen1 < 86ps peak to peak Phase jitter: PCIe Gen2 < 3.0/3.1ps rms 8 - 0.7V current-mode differential output pairs Supports zero delay buffer mode and fanout mode Bandwidth programming available 50-100 MHz operation in PLL mode 50-400 MHz operation in Bypass mode Functional Block Diagram 8 OE_(7:0) SRC _I N SRC _I N # SPR EAD C OM PAT IBLE PLL M U X ST OP LOGIC 8 D IF(7:0)) SRC _ST OP# H IGH _BW # BYPASS#/PLL PD# C ON T R OL LOGI C IREF SDAT A SCLK LOC K Note: Polarities shown are for OE_INV=0. IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 1 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 ICS9DB803 (Same as ICS9DB108) SRC_DIV# VDDR GND SRC_IN SRC_IN# OE_0 OE_3 DIF_0 DIF_0# GND VDD DIF_1 DIF_1# OE_1 OE_2 DIF_2 DIF_2# GND VDD DIF_3 DIF_3# BYPASS#/PLL SCLK SDATA VDDA GNDA IREF LOCK OE_7 OE_4 DIF_7 DIF_7# OE_INV VDD DIF_6 DIF_6# OE_6 OE_5 DIF_5 DIF_5# GND VDD DIF_4 DIF_4# HIGH_BW# DIF_STOP# PD# GND SRC_DIV# VDDR GND SRC_IN SRC_IN# OE0# OE3# DIF_0 DIF_0# GND VDD DIF_1 DIF_1# OE1# OE2# DIF_2 DIF_2# GND VDD DIF_3 DIF_3# BYPASS#/PLL SCLK SDATA OE_INV = 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 ICS9DB803 (Same as ICS9DB801) Pin Configuration 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 VDDA GNDA IREF LOCK OE7# OE4# DIF_7 DIF_7# OE_INV VDD DIF_6 DIF_6# OE6# OE5# DIF_5 DIF_5# GND VDD DIF_4 DIF_4# HIGH_BW# DIF_STOP PD GND OE_INV = 1 Power Groups Pin Number VDD GND 2 3 6,11,19, 10,18, 25,32 31,39 N/A 47 48 47 Description SRC_IN/SRC_IN# DIF(7:0) IREF Analog VDD & GND for PLL core Polarity Inversion Pin List Table Pins 6 7 14 15 26 27 35 36 43 44 OE_INV 0 1 OE_0 OE_0# OE_3 OE_3# OE_1 OE_1# OE_2 OE_2# PD# PD DIF_STOP# DIF_STOP OE_5 OE_5# OE_6 OE_6# OE_4 OE_4# OE_7 OE_7# IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 2 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Pin Descriptions for OE_INV=0 PIN # PIN NAME PIN TYPE DESCRIPTION IN Active low Input for determining SRC output frequency SRC or SRC/2. 0 = SRC/2, 1= SRC 1 SRC_DIV# 2 VDDR PWR 3.3V power for differential input clock (receiver). This VDD should be treated as an analog power rail and filtered appropriately. 3 GND PWR Ground pin. 4 SRC_IN IN 0.7 V Differential SRC TRUE input 5 SRC_IN# IN 6 OE_0 IN 7 OE_3 IN 8 9 10 DIF_0 DIF_0# GND OUT OUT PWR 0.7 V Differential SRC COMPLEMENTARY input Active high input for enabling output 0. 0 =disable outputs, 1= enable outputs Active high input for enabling output 3. 0 =disable outputs, 1= enable outputs 0.7V differential true clock output 0.7V differential Complementary clock output Ground pin. 11 VDD PWR Power supply, nominal 3.3V 12 DIF_1 OUT 0.7V differential true clock output 13 DIF_1# OUT 14 OE_1 IN 15 OE_2 IN 0.7V differential Complementary clock output Active high input for enabling output 1. 0 =disable outputs, 1= enable outputs Active high input for enabling output 2. 0 =disable outputs, 1= enable outputs 16 DIF_2 OUT 0.7V differential true clock output 17 18 DIF_2# GND OUT PWR 0.7V differential Complementary clock output Ground pin. 19 VDD PWR Power supply, nominal 3.3V 20 DIF_3 OUT 0.7V differential true clock output 21 DIF_3# OUT 0.7V differential Complementary clock output 22 BYPASS#/PLL IN Input to select Bypass(fan-out) or PLL (ZDB) mode 0 = Bypass mode, 1= PLL mode 23 24 SCLK SDATA IN I/O Clock pin of SMBus circuitry, 5V tolerant. Data pin for SMBus circuitry, 5V tolerant. IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 3 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Pin Descriptions for OE_INV=0 (cont.) PIN # PIN NAME PIN TYPE DESCRIPTION 25 GND PWR Ground pin. 26 PD# IN 27 DIF_STOP# IN 28 HIGH_BW# PWR 29 DIF_4# OUT Asynchronous active low input pin used to power down the device. The internal clocks are disabled and the VCO and the crystal osc. (if any) are stopped. Active low input to stop differential output clocks. 3.3V input for selecting PLL Band Width 0 = High, 1= Low 0.7V differential Complementary clock output 30 DIF_4 OUT 0.7V differential true clock output 31 VDD PWR Power supply, nominal 3.3V 32 33 34 GND DIF_5# DIF_5 PWR OUT OUT 35 OE_5 IN 36 OE_6 IN 37 DIF_6# OUT Ground pin. 0.7V differential Complementary clock output 0.7V differential true clock output Active high input for enabling output 5. 0 =disable outputs, 1= enable outputs Active high input for enabling output 6. 0 =disable outputs, 1= enable outputs 0.7V differential Complementary clock output 38 DIF_6 OUT 0.7V differential true clock output 39 VDD PWR Power supply, nominal 3.3V 40 OE_INV IN 41 42 DIF_7# DIF_7 OUT OUT 43 OE_4 IN 44 OE_7 IN 45 LOCK OUT 46 IREF IN 47 48 GNDA VDDA PWR PWR This latched input selects the polarity of the OE pins. 0 = OE pins active high, 1 = OE pins active low (OE#) 0.7V differential Complementary clock output 0.7V differential true clock output Active high input for enabling output 4. 0 =disable outputs, 1= enable outputs Active high input for enabling output 7. 0 =disable outputs, 1= enable outputs 3.3V output indicating PLL Lock Status. This pin goes high when lock is achieved. This pin establishes the reference for the differential currentmode output pairs. It requires a fixed precision resistor to ground. 475ohm is the standard value for 100ohm differential impedance. Other impedances require different values. See data sheet. Ground pin for the PLL core. 3.3V power for the PLL core. IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 4 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Pin Descriptions for OE_INV=1 PIN # PIN NAME PIN TYPE IN DESCRIPTION Active low Input for determining SRC output frequency SRC or SRC/2. 0 = SRC/2, 1= SRC 1 SRC_DIV# 2 VDDR PWR 3.3V power for differential input clock (receiver). This VDD should be treated as an analog power rail and filtered appropriately. 3 GND PWR Ground pin. 4 SRC_IN IN 0.7 V Differential SRC TRUE input 5 SRC_IN# IN 6 OE0# IN 7 OE3# IN 8 9 10 DIF_0 DIF_0# GND OUT OUT PWR 0.7 V Differential SRC COMPLEMENTARY input Active low input for enabling DIF pair 0. 1 =disable outputs, 0 = enable outputs Active low input for enabling DIF pair 3. 1 =disable outputs, 0 = enable outputs 0.7V differential true clock output 0.7V differential Complementary clock output Ground pin. 11 VDD PWR Power supply, nominal 3.3V 12 DIF_1 OUT 0.7V differential true clock output 13 DIF_1# OUT 14 OE1# IN 15 OE2# IN 0.7V differential Complementary clock output Active low input for enabling DIF pair 1. 1 =disable outputs, 0 = enable outputs Active low input for enabling DIF pair 2. 1 =disable outputs, 0 = enable outputs 16 DIF_2 OUT 0.7V differential true clock output 17 18 DIF_2# GND OUT PWR 0.7V differential Complementary clock output Ground pin. 19 VDD PWR Power supply, nominal 3.3V 20 DIF_3 OUT 0.7V differential true clock output 21 DIF_3# OUT 0.7V differential Complementary clock output 22 BYPASS#/PLL IN Input to select Bypass(fan-out) or PLL (ZDB) mode 0 = Bypass mode, 1= PLL mode 23 24 SCLK SDATA IN I/O Clock pin of SMBus circuitry, 5V tolerant. Data pin for SMBus circuitry, 5V tolerant. IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 5 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Pin Descriptions for OE_INV=1 (cont.) PIN # PIN NAME PIN TYPE 25 GND PWR 26 PD IN 27 DIF_STOP IN DESCRIPTION Ground pin. Asynchronous active high input pin used to power down the device. The internal clocks are disabled and the VCO is stopped. Active High input to stop differential output clocks. 28 HIGH_BW# PWR 29 DIF_4# OUT 3.3V input for selecting PLL Band Width 0 = High, 1= Low 0.7V differential Complementary clock output 30 DIF_4 OUT 0.7V differential true clock output 31 VDD PWR Power supply, nominal 3.3V 32 33 34 GND DIF_5# DIF_5 PWR OUT OUT 35 OE5# IN 36 OE6# IN 37 DIF_6# OUT Ground pin. 0.7V differential Complementary clock output 0.7V differential true clock output Active low input for enabling DIF pair 5. 1 =disable outputs, 0 = enable outputs Active low input for enabling DIF pair 6. 1 =disable outputs, 0 = enable outputs 0.7V differential Complementary clock output 38 DIF_6 OUT 0.7V differential true clock output 39 VDD PWR Power supply, nominal 3.3V 40 OE_INV IN 41 42 DIF_7# DIF_7 OUT OUT 43 OE4# IN 44 OE7# IN 45 LOCK OUT 46 IREF IN 47 48 GNDA VDDA PWR PWR This latched input selects the polarity of the OE pins. 0 = OE pins active high, 1 = OE pins active low (OE#) 0.7V differential Complementary clock output 0.7V differential true clock output Active low input for enabling DIF pair 4 1 =disable outputs, 0 = enable outputs Active low input for enabling DIF pair 7. 1 =disable outputs, 0 = enable outputs 3.3V output indicating PLL Lock Status. This pin goes high when lock is achieved. This pin establishes the reference for the differential current-mode output pairs. It requires a fixed precision resistor to ground. 475ohm is the standard value for 100ohm differential impedance. Other impedances require different values. See data sheet. Ground pin for the PLL core. 3.3V power for the PLL core. IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 6 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Absolute Maximum Ratings Stresses above the ratings listed below can cause permanent damage to the ICS9DB803D. These ratings, which are standard values for IDT commercially rated parts, are stress ratings only. Functional operation of the device at these or any other conditions above those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods can affect product reliability. Electrical parameters are guaranteed only over the recommended operating temperature range. Symbol VDDA/R VDD VIL VIH Parameter 3.3V Core Supply Voltage 3.3V Logic Supply Voltage Input Low Voltage Input High Voltage Ts Storage Temperature Commerical Operating Range Industrial Operating Range Case Temperature Input ESD protection human body model Tambient Tcase ESD prot Min Max 4.6 4.6 GND-0.5 VDD+0.5V -65 0 -40 150 70 85 115 2000 Units V V V V C C C C V Electrical Characteristics-Clock Input Parameters TA = Tambient for the desired operating range, Supply Voltage VDD = 3.3 V +/-5% PARAMETER Input High Voltage DIF_IN Input Low Voltage DIF_IN Input Common Mode Voltage - DIF_IN SYMBOL VIHDIF VILDIF CONDITIONS Differential inputs (single-ended measurement) Differential inputs (single-ended measurement) MIN TYP MAX UNITS NOTES 600 800 1150 mV 1 VSS - 300 0 300 mV 1 VCOM Common Mode Input Voltage 300 1000 mV 1 Input Amplitude - DIF_IN VSWING Peak to Peak value (single-ended measurement) 300 1450 mV 1 Input Slew Rate - DIF_IN dv/dt Measured differentially 0.4 8 V/ns 1,2 Input Leakage Current Input Duty Cycle Input Jitter - Cycle to Cycle IIN dtin VIN = V DD , VIN = GND Measurement from differential wavefrom -5 45 5 55 uA % 1 1 J DIFIn Differential Measurement 0 125 ps 1 1 Guaranteed by design and characterization, not 100% tested in production. Slew rate measured through Vswing min centered around differential zero 2 IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 7 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Electrical Characteristics-Input/Supply/Common Output Parameters TA = Tambient for the desired operating range, Supply Voltage V DD = 3.3 V +/-5% PARAMETER SYMBOL Input High Voltage Input Low Voltage Input High Current VIHSE VILSE IIHSE Input Low Current -5 uA 1 IIL2 VIN = 0 V; Inputs with pull-up resistors Full Active, CL = Full load; Commerical Temp Range Full Active, CL = Full load; Industrial Temp Range all diff pairs driven, C-Temp all differential pairs tri-stated, C-Temp all diff pairs driven, I-temp all differential pairs tri-stated, I-temp Full Active, CL = Full load; Commerical Temp Range Full Active, CL = Full load; Industrial Temp Range all diff pairs driven, C-Temp all differential pairs tri-stated, C-Temp all diff pairs driven, I-Temp all differential pairs tri-stated, I-Temp PCIe Mode (Bypass#/PLL= 1) Bypass Mode ((Bypass#/PLL= 0) -200 uA 1 Logic Inputs, except SRC_IN SRC_IN differential clock inputs Output pin capacitance -3dB point in High BW Mode -3dB point in Low BW Mode Peak Pass band Gain From VDD Power-Up and after input clock stabilization or de-assertion of PD# to 1st clock Allowable Frequency (Triangular Modulation) DIF start after OE# assertion DIF stop after OE# deassertion DIF output enable after SRC_Stop# de-assertion DIF output enable after PD# de-assertion Fall time of PD# and SRC_STOP# Rise time of PD# and SRC_STOP# Maximum input voltage @ IPULLUP 1.5 1.5 IDD3.3PDC IDD3.3PDI IDD3.3OPC IDD3.3OPI Capacitance IDD3.3PDC IDD3.3PDI FiPLL FiBYPASS Lpin CIN CINSRC_IN COUT PLL Bandwidth BW PLL Jitter Peaking tJPEAK Clk Stabilization TSTAB Input SS Modulation Frequency fMODIN OE# Latency tLATOE# Tdrive_SRC_STOP# tDRVSTP Tdrive_PD# tDRVPD Single Ended Inputs, 3.3 V +/-5% Tfall tF Trise tR SMBus Voltage VMAX Low-level Output Voltage VOL Current sinking at VOL IPULLUP SCLK/SDATA (Max VIL - 0.15) to tRSMB Clock/Data Rise Time (Min VIH + 0.15) (Min VIH + 0.15) to SCLK/SDATA tFSMB (Max VIL - 0.15) Clock/Data Fall Time SMBus Operating Maximum SMBus operating frequency fMAXSMB Frequency 1 Guaranteed by design and characterization, not 100% tested in production. VDD + 0.3 0.8 5 UNITS NOTES VIN = 0 V; Inputs with no pull-up resistors 9DB403 Supply Current Pin Inductance MAX IIL1 IDD3.3OPI Input Frequency TYP VIN = V DD IDD3.3OPC 9DB403 Powerdown Current MIN 2 GND - 0.3 -5 9DB803 Supply Current 9DB803 Powerdown Current CONDITIONS V V uA 1 1 1 175 200 mA 1 190 225 mA 1 50 4 55 6 60 6 65 8 mA mA mA mA 1 1 1 1 105 125 mA 1 115 150 mA 1 25 2 30 3 30 3 35 4 100 400 7 5 2.7 6 4 1.4 2 mA mA mA mA MHz MHz nH pF pF pF MHz MHz dB 1 1 1 1 1 1 1 1 1,4 1 1 1 1 1 ms 1,2 30 33 kHz 1 1 3 cycles 1,3 10 ns 1,3 300 us 1,3 5 5 5.5 0.4 ns ns V V mA 1 2 1 1 1 1000 ns 1 300 ns 1 100 kHz 1,5 50 33 2 0.7 3 1 1.5 4 2 See timing diagrams for timing requirements. 3 Time from deassertion until outputs are >200 mV 4 SRC_IN input 5 The differential input clock must be running for the SMBus to be active IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 8 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Electrical Characteristics-DIF 0.7V Current Mode Differential Pair TA =Tambient; VDD = 3.3 V +/-5%; CL =2pF, RS=33, RP=49.9, RREF=475 PARAMETER SYMBOL Current Source Output Impedance Zo1 Voltage High VHigh Voltage Low VLow Max Voltage Min Voltage Crossing Voltage (abs) Vovs Vuds Vcross(abs) Crossing Voltage (var) d-Vcross Rise Time Fall Time Rise Time Variation Fall Time Variation tr tf d-tr d-tf Duty Cycle dt3 Skew, Output to Output tpdBYP tpdPLL tsk3 Jitter, Cycle to cycle tjcyc-cyc Skew, Input to Output tjphaseBYP Jitter, Phase t jphasePLL CONDITIONS MIN TYP MAX 3000 Statistical measurement on single ended signal using oscilloscope math function. Measurement on single ended signal using absolute value. 660 850 1 1,2 mV -150 150 1150 1,2 550 mV 1 1 1 140 mV 1 175 175 700 700 125 125 ps ps ps ps 1 1 1 1 45 55 % 1 2500 -250 4500 250 50 50 50 ps ps ps ps ps ps (pk2pk) 1 1 1 1,3 1,3 -300 250 Variation of crossing over all edges VOL = 0.175V, VOH = 0.525V VOH = 0.525V VOL = 0.175V Measurement from differential wavefrom Bypass Mode, VT = 50% PLL Mode VT = 50% VT = 50% PLL mode Additive Jitter in Bypass Mode PCIe Gen1 phase jitter (Additive in Bypass Mode) UNITS NOTES mV 7 10 1,4,5 PCIe Gen 2 Low Band phase jitter (Additive in Bypass Mode) 0 0.1 ps (rms) 1,4,5 PCIe Gen 2 High Band phase jitter (Additive in Bypass Mode) 0.3 0.5 ps (rms) 1,4,5 PCIe Gen 1 phase jitter 40 86 PCIe Gen 2 Low Band phase jitter 1.5 3 PCIe Gen 2 High Band phase jitter 2.7/ 2.2 3.1 ps 1,4,5 (pk2pk) ps 1,4,5 (rms) ps 1,4,5,6 (rms) 1 Guaranteed by design and characterization, not 100% tested in production. IREF = VDD/(3xRR). For RR = 475 (1%), IREF = 2.32mA. IOH = 6 x IREF and VOH = 0.7V @ ZO=50. 3 Measured from differential waveform 4 See http://www.pcisig.com for complete specs 5 Device driven by 932S421C or equivalent. 6 First number is High Bandwidth Mode, second number is Low Bandwidth Mode 2 IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 9 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Clock Periods-Differential Outputs with Spread Spectrum Enabled Measurement Window Symbol Signal Name Definition DIF 100 DIF 133 DIF 166 DIF 200 DIF 266 DIF 333 DIF 400 1 Clock LgAbsolute Period Minimum Absolute Period 9.87400 7.41425 5.91440 4.91450 3.66463 2.91470 2.41475 1us -SSC Short-term Average Minimum Absolute Period 9.99900 7.49925 5.99940 4.99950 3.74963 2.99970 2.49975 0.1s -ppm error Long-Term Average Minimum Absolute Period 9.99900 7.49925 5.99940 4.99950 3.74963 2.99970 2.49975 0.1s 0ppm Period 0.1s 1us + ppm error +SSC Long-Term Short-term Average Average 1 Clock Lg+ Period Nominal Maximum Maximum Maximum 10.00000 7.50000 6.00000 5.00000 3.75000 3.00000 2.50000 10.00100 7.50075 6.00060 5.00050 3.75038 3.00030 2.50025 10.05130 7.53845 6.03076 5.02563 3.76922 3.01538 2.51282 10.17630 7.62345 6.11576 5.11063 3.85422 3.10038 2.59782 Units ns ns ns ns ns ns ns Notes 1,2,3 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 Units ns ns ns ns ns ns ns Notes 1,2,3 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 1,2,4 Clock Periods-Differential Outputs with Spread Spectrum Disabled Measurement Window Symbol Signal Name Definition DIF 100 DIF 133 DIF 166 DIF 200 DIF 266 DIF 333 DIF 400 1 Clock LgAbsolute Period Minimum Absolute Period 9.87400 7.41425 5.91440 4.91450 3.66463 2.91470 2.41475 1us -SSC Short-term Average Minimum Absolute Period 0.1s -ppm error Long-Term Average Minimum Absolute Period 9.99900 7.49925 5.99940 4.99950 3.74963 2.99970 2.49975 0.1s 0ppm Period 0.1s 1us + ppm error +SSC Long-Term Short-term Average Average Nominal Maximum 10.00000 7.50000 6.00000 5.00000 3.75000 3.00000 2.50000 10.00100 7.50075 6.00060 5.00050 3.75038 3.00030 2.50025 Maximum 1 Clock Lg+ Period Maximum 10.17630 7.62345 6.11576 5.11063 3.85422 3.10038 2.59782 1 Guaranteed by design and characterization, not 100% tested in production. 2 All Long Term Accuracy specifications are guaranteed with the assumption that the input clock complies with CK409/CK410/CK505 accuracy requirements. The 9DB403/803 itself does not contribute to ppm error. 3 4 Driven by SRC output of main clock, PLL or Bypass mode Driven by CPU output of CK410/CK505 main clock, Bypass mode only IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 10 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 SRC Reference Clock Common Recommendations for Differential Routing Dimension or Value L1 length, route as non-coupled 50ohm trace 0.5 max L2 length, route as non-coupled 50ohm trace 0.2 max L3 length, route as non-coupled 50ohm trace 0.2 max Rs 33 Rt 49.9 Unit inch inch inch ohm ohm Figure 1 1 1 1 1 Down Device Differential Routing L4 length, route as coupled microstrip 100ohm differential trace 2 min to 16 max L4 length, route as coupled stripline 100ohm differential trace 1.8 min to 14.4 max inch inch 1 1 Differential Routing to PCI Express Connector L4 length, route as coupled microstrip 100ohm differential trace 0.25 to 14 max L4 length, route as coupled stripline 100ohm differential trace 0.225 min to 12.6 max inch inch 2 2 Figure 1: Down Device Routing L2 L1 Rs L4 L4' L2' L1' Rs HCSL Output Buffer Rt Rt L3' PCI Express Down Device REF_CLK Input L3 Figure 2: PCI Express Connector Routing L2 L1 Rs L4 L4' L2' L1' HCSL Output Buffer Rs Rt Rt L3' IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 PCI Express Add-in Board REF_CLK Input L3 11 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Alternative Termination for LVDS and other Common Differential Signals (figure 3) Vdiff Vp-p Vcm R1 R2 R3 R4 Note 0.45v 0.22v 1.08 33 150 100 100 0.58 0.28 0.6 33 78.7 137 100 0.80 0.40 0.6 33 78.7 none 100 ICS874003i-02 input compatible 0.60 0.3 1.2 33 174 140 100 Standard LVDS R1a = R1b = R1 R2a = R2b = R2 Figure 3 L2 L1 R3 R1a L4 R4 L4' L2' L1' R1b HCSL Output Buffer R2a R2b L3' Down Device REF_CLK Input L3 Cable Connected AC Coupled Application (figure 4) Component Value Note R5a, R5b 8.2K 5% R6a, R6b 1K 5% Cc 0.1 F Vcm 0.350 volts Figure 4 3.3 Volts R5a R5b R6a R6b Cc L4 L4' Cc IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 PCIe Device REF_CLK Input 12 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 General SMBus Serial Interface Information How to Write How to Read * * * * * * * * * * * * * * * * * * * * * Controller (host) sends a start bit Controller (host) sends the write address IDT clock will acknowledge Controller (host) sends the beginning byte location = N IDT clock will acknowledge Controller (host) sends the byte count = X IDT clock will acknowledge Controller (host) starts sending Byte N through Byte N+X-1 IDT clock will acknowledge each byte one at a time Controller (host) sends a Stop bit Index Block Write Operation Controller (Host) T Index Block Read Operation IDT (Slave/Receiver) Controller (Host) starT bit T Slave Address WR * * * Controller (host) will send a start bit Controller (host) sends the write address IDT clock will acknowledge Controller (host) sends the beginning byte location = N IDT clock will acknowledge Controller (host) will send a separate start bit Controller (host) sends the read address IDT clock will acknowledge IDT clock will send the data byte count = X IDT clock sends Byte N+X-1 IDT clock sends Byte 0 through Byte X (if X(H) was written to Byte 8) Controller (host) will need to acknowledge each byte Controller (host) will send a not acknowledge bit Controller (host) will send a stop bit IDT (Slave/Receiver) starT bit Slave Address WRite ACK WR WRite ACK Beginning Byte = N ACK Beginning Byte = N ACK Data Byte Count = X ACK RT Slave Address Beginning Byte N ACK O O RD ReaD ACK X Byte O Repeat starT O Data Byte Count=X O O ACK ACK ACK Beginning Byte N Byte N + X - 1 stoP bit O X Byte P O O O O O Read Address Write Address DD(H) DC(H) IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Byte N + X - 1 N Not acknowledge P stoP bit 13 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 SMBus Table: Frequency Select Register, READ/WRITE ADDRESS (DC/DD) Byte 0 Pin # Name Control Function Type PD_Mode PD# drive mode RW Bit 7 STOP_Mode DIF_Stop# drive mode RW Bit 6 Reserved Reserved RW Bit 5 Reserved Reserved RW Bit 4 Reserved Reserved RW Bit 3 PLL_BW# Select PLL BW RW Bit 2 BYPASS# BYPASS#/PLL RW Bit 1 SRC_DIV# SRC Divide by 2 Select RW Bit 0 0 1 driven Hi-Z driven Hi-Z Reserved Reserved Reserved High BW Low BW fan-out ZDB x/2 1x SMBus Table: Output Control Register Byte 1 Pin # Name DIF_7 Bit 7 DIF_6 Bit 6 DIF_5 Bit 5 DIF_4 Bit 4 DIF_3 Bit 3 DIF_2 Bit 2 DIF_1 Bit 1 DIF_0 Bit 0 Control Function Output Enable Output Enable Output Enable Output Enable Output Enable Output Enable Output Enable Output Enable Type RW RW RW RW RW RW RW RW 0 Disable Disable Disable Disable Disable Disable Disable Disable SMBus Table: OE Pin Control Register Byte 2 Pin # Name DIF_7 Bit 7 DIF_6 Bit 6 DIF_5 Bit 5 DIF_4 Bit 4 DIF_3 Bit 3 DIF_2 Bit 2 DIF_1 Bit 1 DIF_0 Bit 0 Control Register Control Function DIF_7 Stoppable with DIFSTOP DIF_6 Stoppable with DIFSTOP DIF_5 Stoppable with DIFSTOP DIF_4 Stoppable with DIFSTOP DIF_3 Stoppable with DIFSTOP DIF_2 Stoppable with DIFSTOP DIF_1 Stoppable with DIFSTOP DIF_0 Stoppable with DIFSTOP Type RW RW RW RW RW RW RW RW 0 Free-run Free-run Free-run Free-run Free-run Free-run Free-run Free-run Type RW RW RW RW RW RW RW RW 0 SMBus Table: Reserved Register Byte 3 Pin # Name Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Control Function Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 14 1 Enable Enable Enable Enable Enable Enable Enable Enable PWD 0 0 X X X 1 1 1 PWD 1 1 1 1 1 1 1 1 1 PWD Stoppable 0 Stoppable 0 Stoppable 0 Stoppable 0 Stoppable 0 Stoppable 0 Stoppable 0 Stoppable 0 1 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved ICS9DB803D PWD X X X X X X X X REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 SMBus Table: Vendor & Revision ID Register Byte 4 Pin # Name Control Function RID3 Bit 7 RID2 Bit 6 REVISION ID RID1 Bit 5 RID0 Bit 4 VID3 Bit 3 VID2 Bit 2 VENDOR ID VID1 Bit 1 VID0 Bit 0 Type R R R R R R R R 0 - 1 - PWD X X X X 0 0 0 1 SMBus Table: DEVICE ID Byte 5 Pin # Name Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Type RW RW RW RW RW RW RW RW 0 1 PWD 0 X X 0 0 0 1 1 Control Function Device ID 7 (MSB) Device ID 6 Device ID 5 Device ID 4 Device ID 3 Device ID 2 Device ID 1 Device ID 0 Device ID is 83 Hex for 9DB803 and 43 Hex for 9DB403 SMBus Table: Byte Count Register Byte 6 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Pin # - Name BC7 BC6 BC5 BC4 BC3 BC2 BC1 BC0 Control Function Type 0 1 PWD Writing to this register configures how many bytes will be read back. RW RW RW RW RW RW RW RW - - 0 0 0 0 0 1 1 1 IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 15 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Note: Polarities in timing diagrams are shown OE_INV = 0. They are similar to OE_INV = 1. PD#, Power Down The PD# pin cleanly shuts off all clocks and places the device into a power saving mode. PD# must be asserted before shutting off the input clock or power to insure an orderly shutdown. PD is asynchronous active-low input for both powering down the device and powering up the device. When PD# is asserted, all clocks will be driven high, or tri-stated (depending on the PD# drive mode and Output control bits) before the PLL is shut down. PD# Assertion When PD# is sampled low by two consecutive rising edges of DIF#, all DIF outputs must be held High, or tri-stated (depending on the PD# drive mode and Output control bits) on the next High-Low transition of the DIF# outputs. When the PD# drive mode bit is set to `0', all clock outputs will be held with DIF driven High with 2 x IREF and DIF# tri-stated. If the PD# drive mode bit is set to `1', both DIF and DIF# are tri-stated. PD# De-assertion Power-up latency is less than 1 ms. This is the time from de-assertion of the PD# pin, or VDD reaching 3.3V, or the time from valid SRC_IN clocks until the time that stable clocks are output from the device (PLL Locked). If the PD# drive mode bit is set to `1', all the DIF outputs must driven to a voltage of >200 mV within 300 us of PD# de-assertion. IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 16 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 SRC_STOP# The SRC_STOP# signal is an active-low asynchronous input that cleanly stops and starts the DIF outputs. A valid clock must be present on SRC_IN for this input to work properly. The SRC_STOP# signal is de-bounced and must remain stable for two consecutive rising edges of DIF# to be recognized as a valid assertion or de-assertion. SRC_STOP# - Assertion Asserting SRC_STOP# causes all DIF outputs to stop after their next transition (if the control register settings allow the output to stop). When the SRC_STOP# drive bit is `0', the final state of all stopped DIF outputs is DIF = High and DIF# = Low. There is no change in output drive current. DIF is driven with 6xIREF. DIF# is not driven, but pulled low by the termination. When the SRC_STOP# drive bit is `1', the final state of all DIF output pins is Low. Both DIF and DIF# are not driven. SRC_STOP# - De-assertion (transition from '0' to '1') All stopped differential outputs resume normal operation in a glitch-free manner. The de-assertion latency to active outputs is 2-6 DIF clock periods, with all DIF outputs resuming simultaneously. If the SRC_STOP# drive control bit is `1' (tri-state), all stopped DIF outputs must be driven High (>200 mV) within 10 ns of de-assertion. SRC_STOP_1 (SRC_Stop = Driven, PD = Driven) SRC_STOP_2 (SRC_Stop =Tristate, PD = Driven) IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 17 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 SRC_STOP_3 (SRC_Stop = Driven, PD = Tristate) SRC_STOP_4 (SRC_Stop = Tristate, PD = Tristate) IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 18 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Package Outline and Package Dimensions (48-pin TSSOP) Package dimensions are kept current with JEDEC Publication No. 95 48 Millimeters Symbol E1 INDEX AREA E 1 2 D A A2 Min A A1 A2 b c D E E1 e L aaa Max -1.20 0.05 0.15 0.80 1.05 0.17 0.27 0.09 0.20 12.40 12.60 8.10 BASIC 6.00 6.20 0.50 Basic 0.45 0.75 0 8 -0.10 Inches* Min Max -0.047 0.002 0.006 0.032 0.041 0.007 0.011 0.0035 0.008 0.488 0.496 0.319 BASIC 0.236 0.244 0.020 Basic 0.018 0.030 0 8 -0.004 *For reference only. Controlling dimensions in mm. A1 c - Ce b SEATING PLANE L aaa C IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 19 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Package Outline and Package Dimensions (48-pin SSOP) Package dimensions are kept current with JEDEC Publication No. 95 48 Millimeters Symbol E1 INDEX AREA E 1 2 D A A2 Min A A1 b c D E E1 e h L Inches* Max Min 2.41 2.80 0.20 0.40 0.20 0.34 0.13 0.25 15.75 16.00 10.03 10.68 7.40 7.60 0.635 BASIC 0.38 0.64 0.50 1.02 0 8 Max .095 .110 .008 .016 .008 .0135 .005 .010 .620 .630 .395 .420 .291 .299 0.025 BASIC .015 .025 .020 .040 0 8 *For reference only. Controlling dimensions in mm. A1 c - Ce b SEATING PLANE L aaa C Ordering Information Part / Order Number 9DB803DGLF 9DB803DGLFT 9DB803DGILF 9DB803DGILFT 9DB803DFLF 9DB803DFLFT 9DB803DFILF 9DB803DFILFT Marking 9DB803DGLF 9DB803DGLF 9DB803DGILF 9DB803DGILF 9DB803DFLF 9DB803DFLF 9DB803DFILF 9DB803DFILF Shipping Packaging Tubes Tape and Reel Tubes Tape and Reel Tubes Tape and Reel Tubes Tape and Reel Package 48-pin TSSOP 48-pin TSSOP 48-pin TSSOP 48-pin TSSOP 48-pin SSOP 48-pin SSOP 48-pin SSOP 48-pin SSOP Temperature 0 to +70 C 0 to +70 C -40 to +85 C -40 to +85 C 0 to +70 C 0 to +70 C -40 to +85 C -40 to +85 C "LF" suffix to the part number are the Pb-Free configuration and are RoHS compliant. "D" is the device revision designator (will not correlate with the datasheet revision). While the information presented herein has been checked for both accuracy and reliability, Integrated Device Technology (IDT) assumes no responsibility for either its use or for the infringement of any patents or other rights of third parties, which would result from its use. No other circuits, patents, or licenses are implied. This product is intended for use in normal commercial applications. Any other applications such as those requiring extended temperature range, high reliability, or other extraordinary environmental requirements are not recommended without additional processing by IDT. IDT reserves the right to change any circuitry or specifications without notice. IDT does not authorize or warrant any IDT product for use in life support devices or critical medical instruments. IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 20 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 Revision History Rev. A B C D E F G Issue Date 8/15/2006 H J Issuer 10/7/2009 1/27/2011 Description Updated electrical characteristics for final data sheet Added Input Clock Specs Updated Input Clock Specs Fixed typo in Input Clock Parameters Updated Electrical Char tables Updated Input Clock Specs Corrected part ordering information 1. Clarified that Vih and Vil values were for Single ended inputs 2. Added Differential Clock input parameters. 3. Updated Electrical Characteristics to add propagation delay and phase noise information. 4. Added SMBus electrical characteristics 5. Added foot note about DIF input running in order for the SMBus interface to work 6. Added foot note to Byte 1 about functionality of OE bits and OE pins. 7. Updated/Reformatted General Description Updated Termination Figure 4 Various 12 K L 5/9/2011 8/27/2012 1. Update pin 2 pin-name and pin description from VDD to VDDR. This highlights that optimal peformance is obtained by treating VDDR as in analog pin. This is a document update only, there is no silicon change. Updated Vswing conditions to include "single-ended measurement" Various 7 M 9/18/2012 N 7/10/2013 2/29/2008 3/18/2008 3/28/2008 4/10/2008 1/13/2009 R. Wei Page # - Updated Byte 2, bits 0~7 per char review. Outputs can be programmed with Byte 2 to be Stoppable or Free-Run with DIF_Stop pin, not the OE pins. Typo discovered on front page "Output Features" section. Was: "50 - 110MHz operation in PLL mode"; changed to: "50 - 100MHz operation in PLL mode" IDT(R) EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 21 14 1 ICS9DB803D REV N 071013 ICS9DB803D EIGHT OUTPUT DIFFERENTIAL BUFFER FOR PCIE GEN1 AND GEN2 SYNTHESIZERS Innovate with IDT and accelerate your future networks. Contact: www.IDT.com For Sales For Tech Support 800-345-7015 408-284-8200 Fax: 408-284-2775 www.idt.com/go/clockhelp pcclockhelp@idt.com Corporate Headquarters Integrated Device Technology, Inc. www.idt.com (c) 2013 Integrated Device Technology, Inc. All rights reserved. Product specifications subject to change without notice. IDT, ICS, and the IDT logo are trademarks of Integrated Device Technology, Inc. Accelerated Thinking is a service mark of Integrated Device Technology, Inc. All other brands, product names and marks are or may be trademarks or registered trademarks used to identify products or services of their respective owners. Printed in USA