|*************************************************************************** | National Semiconductor Corporation | Interface Products Group | IBIS Model of Channel Link Receiver | 100VJD TQFP |*************************************************************************** | [IBIS Ver] 2.1 [Comment char] |_char [File name] cf388vjd.ibs [File Rev] 2.1 [Date] 8/29/2001 [Source] File originated at National Semiconductor Corporation. Interface Group/Analog Division. All data based on Empirical Measurements(Bench). [Notes] File created by CW. Revision 1: The original model Revision 2: Change "vdiff" values from "NA" to 0.1 Revision 2.1: redo RIN GND_clamp data, bad values around 0 volts---milt [Disclaimer] (C) Copyright National Semiconductor Corporation 1999 All rights reserved National Semiconductor Corporation hereby grants the user of this IBIS model a non-exclusive, nontransferable license to use this IBIS model under the following terms. 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Contact National at ATTN:INTERFACE APPLICATIONS/IBIS MODELS. 2900 Semiconductor Drive, M/S A2595, Santa Clara, CA 95052-8090 | | |**************************************************************************** [Copyright] Copyright 1999, National Semiconductor, All Rights Reserved [Component] DS90CF388VJD [Manufacturer] National Semiconductor Corp [Package] | typ min max R_pkg 64.20m NA NA L_pkg 2.491nH NA NA C_pkg 0.3380pF NA NA | |**************************************************************************** | [Pin] signal_name model_name R_pin L_pin C_pin | 1 PLLGND GND 70.72m 2.917n 0.3789p 2 PLLVCC POWER 70.51m 2.771n 0.3776p 3 PLLGND GND 68.62m 2.713n 0.3658p 4 DESKEW DS90CF388VJD_PDIN 67.20m 2.650n 0.3568p 5 PLLSEL DS90CF388VJD_PDIN 65.58m 2.545n 0.3467p 6 BAL DS90CF388VJD_PDIN 64.85m 2.496n 0.3421p 7 GND GND 63.40m 2.419n 0.3328p 8 RxOUTR10 DS90CF388VJD_ROUT 62.50m 2.437n 0.3272p 9 RxOUTR11 DS90CF388VJD_ROUT 61.19m 2.376n 0.3192p 10 RxOUTR12 DS90CF388VJD_ROUT 60.16m 2.276n 0.3127p 11 RxOUTR13 DS90CF388VJD_ROUT 59.45m 2.239n 0.3083p 12 RxOUTR14 DS90CF388VJD_ROUT 58.73m 2.205n 0.3038p 13 VCC POWER 59.19m 2.179n 0.3067p 14 RxOUTR15 DS90CF388VJD_ROUT 58.73m 2.205n 0.3038p 15 RxOUTR16 DS90CF388VJD_ROUT 59.45m 2.239n 0.3083p 16 GND GND 60.16m 2.276n 0.3127p 17 RxOUTR17 DS90CF388VJD_ROUT 61.19m 2.376n 0.3192p 18 RxOUTG10 DS90CF388VJD_ROUT 62.50m 2.437n 0.3272p 19 RxOUTG11 DS90CF388VJD_ROUT 63.40m 2.419n 0.3328p 20 RxOUTG12 DS90CF388VJD_ROUT 64.85m 2.496n 0.3421p 21 RxOUTG13 DS90CF388VJD_ROUT 65.58m 2.545n 0.3467p 22 RxOUTG14 DS90CF388VJD_ROUT 67.20m 2.650n 0.3568p 23 VCC POWER 68.62m 2.713n 0.3658p 24 RxOUTG15 DS90CF388VJD_ROUT 70.51m 2.771n 0.3776p 25 GND GND 70.72m 2.917n 0.3789p 26 RxOUTG16 DS90CF388VJD_ROUT 70.72m 2.917n 0.3789p 27 RxOUTG17 DS90CF388VJD_ROUT 70.51m 2.771n 0.3776p 28 RxOUTB10 DS90CF388VJD_ROUT 68.62m 2.713n 0.3658p 29 RxOUTB11 DS90CF388VJD_ROUT 67.20m 2.650n 0.3568p 30 RxOUTB12 DS90CF388VJD_ROUT 65.58m 2.545n 0.3467p 31 RxOUTB13 DS90CF388VJD_ROUT 64.85m 2.496n 0.3421p 32 RxOUTB14 DS90CF388VJD_ROUT 63.40m 2.419n 0.3328p 33 VCC POWER 62.50m 2.437n 0.3272p 34 RxOUTB15 DS90CF388VJD_ROUT 61.19m 2.376n 0.3192p 35 GND GND 60.16m 2.276n 0.3127p 36 RxOUTB16 DS90CF388VJD_ROUT 59.45m 2.239n 0.3083p 37 RxOUTB17 DS90CF388VJD_ROUT 58.73m 2.205n 0.3038p 38 RxOUTR20 DS90CF388VJD_ROUT 59.19m 2.179n 0.3067p 39 RxOUTR21 DS90CF388VJD_ROUT 58.73m 2.205n 0.3038p 40 RxOUTR22 DS90CF388VJD_ROUT 59.45m 2.239n 0.3083p 41 RxOUTR23 DS90CF388VJD_ROUT 60.16m 2.276n 0.3127p 42 CLKOUT DS90CF388VJD_ROUT 61.19m 2.376n 0.3192p 43 RxOUTR24 DS90CF388VJD_ROUT 62.50m 2.437n 0.3272p 44 GND GND 63.40m 2.419n 0.3328p 45 VCC POWER 64.85m 2.496n 0.3421p 46 RxOUTR25 DS90CF388VJD_ROUT 65.58m 2.545n 0.3467p 47 RxOUTR26 DS90CF388VJD_ROUT 67.20m 2.650n 0.3568p 48 RxOUTR27 DS90CF388VJD_ROUT 68.62m 2.713n 0.3658p 49 RxOUTG20 DS90CF388VJD_ROUT 70.51m 2.771n 0.3776p 50 RxOUTG21 DS90CF388VJD_ROUT 70.72m 2.917n 0.3789p 51 RxOUTG22 DS90CF388VJD_ROUT 70.72m 2.917n 0.3789p 52 RxOUTG23 DS90CF388VJD_ROUT 70.51m 2.771n 0.3776p 53 RxOUTG24 DS90CF388VJD_ROUT 68.62m 2.713n 0.3658p 54 GND GND 67.20m 2.650n 0.3568p 55 RxOUTG25 DS90CF388VJD_ROUT 65.58m 2.545n 0.3467p 56 VCC POWER 64.85m 2.496n 0.3421p 57 RxOUTG26 DS90CF388VJD_ROUT 63.40m 2.419n 0.3328p 58 RxOUTG27 DS90CF388VJD_ROUT 62.50m 2.437n 0.3272p 59 RxOUTB20 DS90CF388VJD_ROUT 61.19m 2.376n 0.3192p 60 RxOUTB21 DS90CF388VJD_ROUT 60.16m 2.276n 0.3127p 61 RxOUTB22 DS90CF388VJD_ROUT 59.45m 2.239n 0.3083p 62 RxOUTB23 DS90CF388VJD_ROUT 58.73m 2.205n 0.3038p 63 GND GND 59.19m 2.179n 0.3067p 64 RxOUTB24 DS90CF388VJD_ROUT 58.73m 2.205n 0.3038p 65 RxOUTB25 DS90CF388VJD_ROUT 59.45m 2.239n 0.3083p 66 VCC POWER 60.16m 2.276n 0.3127p 67 RxOUTB26 DS90CF388VJD_ROUT 61.19m 2.376n 0.3192p 68 RxOUTB27 DS90CF388VJD_ROUT 62.50m 2.437n 0.3272p 69 DE DS90CF388VJD_ROUT 63.40m 2.419n 0.3328p 70 VSYNC DS90CF388VJD_ROUT 64.85m 2.496n 0.3421p 71 HSYNC DS90CF388VJD_ROUT 65.58m 2.545n 0.3467p 72 GND GND 67.20m 2.650n 0.3568p 73 STOPCLK DS90CF388VJD_ROUT 68.62m 2.713n 0.3658p 74 CNTLF DS90CF388VJD_ROUT 70.51m 2.771n 0.3776p 75 CNTLE DS90CF388VJD_ROUT 70.72m 2.917n 0.3789p 76 LVDSGND GND 70.72m 2.917n 0.3789p 77 RF_DE DS90CF388VJD_PDIN 70.51m 2.771n 0.3776p 78 PD* DS90CF388VJD_PDIN 68.62m 2.713n 0.3658p 79 A7P DS90CF388VJD_RIN 67.20m 2.650n 0.3568p 80 A7M DS90CF388VJD_RIN 65.58m 2.545n 0.3467p 81 LVDSVCC POWER 64.85m 2.496n 0.3421p 82 A6P DS90CF388VJD_RIN 63.40m 2.419n 0.3328p 83 A6M DS90CF388VJD_RIN 62.50m 2.437n 0.3272p 84 A5P DS90CF388VJD_RIN 61.19m 2.376n 0.3192p 85 A5M DS90CF388VJD_RIN 60.16m 2.276n 0.3127p 86 A4P DS90CF388VJD_RIN 59.45m 2.239n 0.3083p 87 A4M DS90CF388VJD_RIN 58.73m 2.205n 0.3038p 88 LVDSGND GND 59.19m 2.179n 0.3067p 89 A3P DS90CF388VJD_RIN 58.73m 2.205n 0.3038p 90 A3M DS90CF388VJD_RIN 59.45m 2.239n 0.3083p 91 CLKP DS90CF388VJD_RIN 60.16m 2.276n 0.3127p 92 CLKM DS90CF388VJD_RIN 61.19m 2.376n 0.3192p 93 LVDSVCC POWER 62.50m 2.437n 0.3272p 94 A2P DS90CF388VJD_RIN 63.40m 2.419n 0.3328p 95 A2M DS90CF388VJD_RIN 64.85m 2.496n 0.3421p 96 A1P DS90CF388VJD_RIN 65.58m 2.545n 0.3467p 97 A1M DS90CF388VJD_RIN 67.20m 2.650n 0.3568p 98 A0P DS90CF388VJD_RIN 68.62m 2.713n 0.3658p 99 A0M DS90CF388VJD_RIN 70.51m 2.771n 0.3776p 100 LVDSGND GND 70.72m 2.917n 0.3789p | [Diff_pin] inv_pin vdiff tdelay_typ tdelay_min tdelay_max | | The '+' pin is Diff_pin and the '-' pin is the inv_pin | 79 80 0.1 0 0 0 82 83 0.1 0 0 0 84 85 0.1 0 0 0 86 87 0.1 0 0 0 89 90 0.1 0 0 0 91 92 0.1 0 0 0 94 95 0.1 0 0 0 96 97 0.1 0 0 0 98 99 0.1 0 0 0 | |**************************************************************************** | RECEIVER INPUT MODEL |**************************************************************************** | [Model] DS90CF388VJD_RIN Model_type Input |Signals A0M ~ A7M, A0P ~ A7P, CLKP, CLKM Vinh = 2.0 Vinl = 0.8 | typ min max C_comp 5.830pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 3.3V 3.0V 3.6V | |**************************************************************************** | | [Power_clamp] |------------------------------------------------------------- | Note that the [POWER_clamp] voltage table is referenced to Vcc | and is calculated using Vtable = Vcc - Vmeasured. |------------------------------------------------------------- |Voltage I(typ) I(min) I(max) | 0.000000 0.00mA NA NA -3.00 0.00mA NA NA | [GND_clamp] |Voltage I(typ) I(min) I(max) | -3.3000000000 -1.35632 NA NA -1.0000000000 -0.12098 NA NA -0.9430000000 -0.09117 NA NA -0.8000000000 -0.02046 NA NA -0.6338720920 -0.00152 NA NA -0.6122348900 -0.00133 NA NA -0.5925646420 -0.00113 NA NA -0.5719109770 -0.00104 NA NA -0.5517489910 -0.00089 NA NA -0.5310953260 -0.00075 NA NA -0.5115000000 -0.00065 NA NA -0.4902796450 -0.00065 NA NA -0.4701176880 -0.00036 NA NA -0.4543000000 -0.00029 NA NA -0.4311000000 -0.00022 NA NA -0.4065000000 -0.00015 NA NA -0.3889781240 -1.18E-04 NA NA -0.3678326610 -9.24E-05 NA NA -0.3476707340 -6.48E-05 NA NA -0.3270170090 -3.84E-05 NA NA -0.3075000000 -2.00E-05 NA NA -0.2857095900 -7.86E-06 NA NA -0.2655476630 -4.62E-06 NA NA -0.2453857060 -2.62E-06 NA NA -0.2247319970 -1.94E-06 NA NA -0.2045700400 -1.24E-06 NA NA -0.1844080840 -1.20E-06 NA NA -0.1647378950 -1.05E-06 NA NA -0.1032685340 -3.24E-07 NA NA -0.0821230710 -3.04E-07 NA NA -0.0629446280 -2.24E-07 NA NA -0.0417991690 -2.01E-07 NA NA -0.0216372160 -1.05E-07 NA NA 0.0000000000 -1.01E-07 NA NA 3.3000000000 -5.07E-08 NA NA | |**************************************************************************** | RECEIVER PWRDWN* INPUT MODEL |**************************************************************************** | [Model] DS90CF388VJD_PDIN Model_type Input |Signals PD*, PLLSEL, DESKEW, RF_DE, BAL Vinh = 2.0 Vinl = 0.8 | typ min max C_comp 5.832pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 3.3V 3.0V 3.6V | |**************************************************************************** | | [Power_clamp] |------------------------------------------------------------- | Note that the [POWER_clamp] voltage table is referenced to Vcc | and is calculated using Vtable = Vcc - Vmeasured. |------------------------------------------------------------- |Voltage I(typ) I(min) I(max) | 0.0 0.00mA 0.00mA 0.00mA -3.3000 0.00mA 0.00mA 0.00mA | [GND_clamp] |Voltage I(typ) I(min) I(max) | -3.3 -0.576320957 NA NA -1.001212955 -0.042988699 NA NA -0.981051028 -0.038311012 NA NA -0.961380839 -0.034062371 NA NA -0.939743638 -0.029960236 NA NA -0.919089913 -0.026130181 NA NA -0.898927987 -0.022729177 NA NA -0.878766 -0.019579323 NA NA -0.858112335 -0.01665969 NA NA -0.837950349 -0.014047078 NA NA -0.816313148 -0.011639891 NA NA -0.797134697 -0.009469493 NA NA -0.775989234 -0.007546886 NA NA -0.756319046 -0.005883596 NA NA -0.735665321 -0.004404708 NA NA -0.714519858 -0.003211329 NA NA -0.69484967 -0.002507602 NA NA -0.673704207 -0.00205 NA NA -0.654034019 -0.00171 NA NA -0.633872092 -0.00152 NA NA -0.61223489 -0.00133 NA NA -0.592564642 -0.00113 NA NA -0.571910977 -0.00104 NA NA -0.551748991 -0.00089 NA NA -0.531095326 -0.00075 NA NA -0.5115 -0.00065 NA NA -0.490279645 -0.00046 NA NA -0.470117688 -0.00036 NA NA -0.449463993 -0.00031 NA NA -0.429302037 -0.00022 NA NA -0.40914008 -0.00015 NA NA -0.388978124 -1.38E-04 NA NA -0.367832661 -0.000136206 NA NA -0.347670734 -6.9151E-05 NA NA -0.327017009 -3.30039E-05 NA NA -0.306855053 -1.72877E-05 NA NA -0.28570959 -7.85807E-06 NA NA -0.265547663 -4.61936E-06 NA NA -0.245385706 -2.61936E-06 NA NA -0.224731997 -1.94E-06 NA NA -0.20457004 -1.24E-06 NA NA -0.184408084 -1.20E-06 NA NA -0.164737895 -1.05E-06 NA NA -0.143592432 -5.23871E-07 NA NA -0.122446969 -4.24E-07 NA NA -0.103268534 -3.24E-07 NA NA -0.082123071 -3.04E-07 NA NA -0.062944628 -2.24E-07 NA NA -0.041799169 -2.01E-07 NA NA -0.021637216 -1.05E-07 NA NA 0 -1.01E-07 NA NA 3.3 -5.07E-08 NA NA | |**************************************************************************** | RECEIVER OUTPUT MODEL |**************************************************************************** | [Model] DS90CF388VJD_ROUT Model_type 3-state |Signals RxOUTR10 ~ RxOUTR17, RxOUTR20 ~ RxOUTR27, RxOUTG10 ~ RxOUTG17, | RxOUTG20 ~ RxOUTG27, RxOUTB10 ~ RxOUTB17, RxOUTB20 ~ RxOUTB27, | DE, HSYNC, VSYNC, CNTLE, CNTLF, STOPCLK, CLKOUT | Vmeas = 1.5V |This is 0.0v differential on ouput Cref = 8pF |Timing specification test load capacitance value Vref = 0 |Timing specification test load voltage; GND |variable typ min max | C_comp 6.070pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 3.3V 3.0V 3.6V | |**************************************************************************** | [Pulldown] |Voltage I(typ) I(min) I(max) -3.3 -0.14435745 NA NA -0.500606477 -0.017737547 NA NA -0.407664806 -0.013533684 NA NA -0.312756121 -0.010416652 NA NA -0.226207256 -0.007519121 NA NA -0.133265585 -0.004624734 NA NA -0.041307412 -0.001751825 NA NA 0.050650757 0.001091223 NA NA 0.143100679 0.003861977 NA NA 0.234567091 0.006552055 NA NA 0.326525271 0.009149931 NA NA 0.419958681 0.011653512 NA NA 0.51093334 0.014009359 NA NA 0.602399766 0.016220177 NA NA 0.693866193 0.018281709 NA NA 0.785824358 0.020123484 NA NA 0.877782524 0.021829218 NA NA 0.969740689 0.023336126 NA NA 1.061698794 0.024633739 NA NA 1.152673483 0.02572206 NA NA 1.245123386 0.026663877 NA NA 1.336589813 0.027438261 NA NA 1.428547978 0.028076602 NA NA 1.520506144 0.028568439 NA NA 1.61197257 0.028955631 NA NA 1.704422474 0.02924864 NA NA 1.796380639 0.029489327 NA NA 1.887847066 0.029646296 NA NA 1.978821754 0.029813731 NA NA 2.071271658 0.0299707 NA NA 2.163721561 0.030043952 NA NA 2.255187988 0.030190457 NA NA 2.346162558 0.03024278 NA NA 2.438120842 0.030284639 NA NA 2.530079126 0.030357892 NA NA 2.622037172 0.030431144 NA NA 2.712520123 0.03046 NA NA 2.804478168 0.0305 NA NA 2.898403406 0.030525325 NA NA 2.989377975 0.03058 NA NA 3.08133626 0.0306 NA NA 3.173294544 0.030661365 NA NA 3.263777256 0.030755548 NA NA 3.357210875 0.030860193 NA NA 3.447693586 0.03114274 NA NA 3.540635347 0.032063626 NA NA 3.631609917 0.033853076 NA NA 3.72405982 0.037861031 NA NA 3.816018105 0.045018837 NA NA 3.907484531 0.052019674 NA NA 3.998950958 0.058957726 NA NA 4.5 0.103902116 NA NA 6.6 0.337217728 NA NA | [Pullup] |------------------------------------------------------------- | Note that the [Pullup] voltage table is referenced to Vcc | and is calculated using Vtable = Vcc - Vmeasured. |------------------------------------------------------------- |Voltage I(typ) I(min) I(max) | 6.6 -0.060825954 NA NA 3.3 -0.051015072 NA NA 3.233121331 -0.050816242 NA NA 3.165750909 -0.050617415 NA NA 3.097396973 -0.050429054 NA NA 3.030518311 -0.050198831 NA NA 2.963147897 -0.049989536 NA NA 2.89626922 -0.049759317 NA NA 2.828407037 -0.049487237 NA NA 2.761036623 -0.04924655 NA NA 2.693666208 -0.048964005 NA NA 2.626787531 -0.048660528 NA NA 2.559417117 -0.048325662 NA NA 2.493030179 -0.048001256 NA NA 2.425168025 -0.047603603 NA NA 2.356814075 -0.047205947 NA NA 2.28944366 -0.046797827 NA NA 2.222564983 -0.046305988 NA NA 2.15470283 -0.045803685 NA NA 2.087332416 -0.045259524 NA NA 2.019962001 -0.044642113 NA NA 1.952099848 -0.04400377 NA NA 1.88571291 -0.04330264 NA NA 1.818342495 -0.04255965 NA NA 1.75097208 -0.041753873 NA NA 1.683601665 -0.040885311 NA NA 1.616231132 -0.039974887 NA NA 1.548860717 -0.038991213 NA NA 1.482473898 -0.037955213 NA NA 1.414119887 -0.036814567 NA NA 1.347733068 -0.035652995 NA NA 1.280362654 -0.034428634 NA NA 1.212500381 -0.03311009 NA NA 1.144638348 -0.031749688 NA NA 1.077759552 -0.030326497 NA NA 1.010389137 -0.028840519 NA NA 0.94351058 -0.02728129 NA NA 0.875648308 -0.025638344 NA NA 0.808277893 -0.023943074 NA NA 0.741399097 -0.022216409 NA NA 0.67452054 -0.0203851 NA NA 0.607150126 -0.018543324 NA NA 0.539779711 -0.016628297 NA NA 0.471917439 -0.0146401 NA NA 0.403563547 -0.012613767 NA NA 0.33668499 -0.010554953 NA NA 0.270298052 -0.0084338 NA NA 0.20194416 -0.006266546 NA NA 0.135065365 -0.004067859 NA NA 0.066219616 -0.00181888 NA NA -0.000167084 0.000457863 NA NA -3.3 0.095325855 NA NA | [GND_clamp] |------------------------------------------------------------- | Outputs in Tri-state. |------------------------------------------------------------- |Voltage I(typ) I(min) I(max) | | Receiver output is non-tristable 3.00 0.00mA NA NA -3.00 0.00mA NA NA | [POWER_clamp] | |------------------------------------------------------------- | Note that the [POWER_clamp] voltage table is referenced to Vcc | and is calculated using Vtable = Vcc - Vmeasured. | Outputs in Tri-state. |------------------------------------------------------------- |Voltage I(typ) I(min) I(max) | | Receiver output is non-tristable 0.00 0.00mA NA NA -3.00 0.00mA NA NA | |**************************************************************************** | [Ramp] | typ min max | dV/dt_r 1.98/1.520n NA NA dV/dt_f 1.98/1.700n NA NA | | R_load = 1MOhm | Represent Hi-Z |------------------------------------------------------------------- | [End]