Áèáëèîòåêà SPECIAL.SLB
| Èìÿ,
íàçíà÷åíèå | Ñèìâîë | Àòðèáóòû | |||
|
| |||||
| CD4000_PWR,
èñòî÷íèê ïèòàíèÿ CD4000 |  | REFDES=X?
PART=CD4000_PWR MODEL=CD4000_PWR TEMPLATE=X^@REFDES %AGND %VDD %VSS @MODEL PARAMS:VOLTAGE=@VOLTAGE REFERENCE=@REFERENCE VOLTAGE=5V REFERENCE=0V IPIN(AGND)=0 ipin(VDD)=<VDD_Node> ipin(VSS)=<VSS_Node> | |||
| DIGIFPWR,
èñòî÷íèê ïèòàíèÿ àíàëîãî-öèôðîâîãî èíòåðôåéñà |  | REFDES=X?
PART=DIGIFPWR MODEL= DIGIFPWR TEMPLATE=X^@REFDES %AGND %PWR %GND @MODEL PARAMS:VOLTAGE=@VOLTAGE REFERENCE=@REFERENCE VOLTAGE=5V REFERENCE=0V IPIN(AGND)=0 ipin(PWR)=<Pwr_Node> ipin(GND)=<Gnd_Node> | |||
| ECL_100K_PWR, èñòî÷íèê ïèòàíèÿ àíàëîãî-öèôðîâîãî èíòåðôåéñà c ÝÑ– ëîãèêîé |  | REFDES=X?
PART=DECL_100K_PWR MODEL= DECL_100K_PWR TEMPLATE=X^@REFDES %AGND %VEE %VCC1 %VCC2 %VTT @MODEL PARAMS:VEE=@VEE VCC1=@VCC1 VCC2=@VCC2 VTT=@VTT VEE=-4.5V VCC1=0V VCC2=0V VTT=-2V IPIN(AGND)=0 ipin(VEE)=<VEE_Node> ipin(VCC1)=<VCC1_Node> ipin(VCC2)=<VCC2_Node> ipin(VTT)=<VTT_Node) | |||
| ECL_10K_PWR, èñòî÷íèê ïèòàíèÿ àíàëîãî-öèôðîâîãî èíòåðôåéñà c ÝÑ–ëîãèêîé |  | REFDES=X?
PART=DECL_10K_PWR MODEL= DECL_10K_PWR TEMPLATE=X^@REFDES %AGND %VEE %VCC1 %VCC2 %VTT @MODEL PARAMS:VEE=@VEE VCC1=@VCC1 VCC2=@VCC2 VTT=@VTT VEE=-5.2V VCC1=0V VCC2=0V VTT=-2V IPIN(AGND)=0 ipin(VEE)=<VEE_Node> ipin(VCC1)=<VCC1_Node> ipin(VCC2)=<VCC2_Node> ipin(VTT)=<VTT_Node) | |||
| IC1,
íàçíà÷åíèå íà÷àëüíîãî çíà÷åíèÿ ïîòåíöèàëà óçëà |  | REFDES=IC?
VALUE=0 TEXT=IC= TEMPLATE=.IC V([%+])=@VALUE | |||
| IC2,
íàçíà÷åíèå íà÷àëüíîãî çíà÷åíèÿ ðàçíîñòè ïîòåíöèàëîâ äâóõ óçëîâ |  | REFDES=IC?
VALUE=0 TEXT=IC= TEMPLATE=.IC V(%+,%-)=@VALUE | |||
| IPROBE,
èçìåðèòåëü òîêà âåòâè |  | REFDES=V?
BIASVALUE= TEXT=IC= TEMPLATE=V^@REFDES %+ %_ 0 | |||
| NODESET1,
íà÷àëüíîå ïðèáëèæåíèå ïîòåíöèàëà óçëà |  | REFDES=NS?
VALUE=0 TEXT=NODESET= TEMPLATE=.NODESET V([ %+]) =@VALUE | |||
| NODESET2,
íà÷àëüíîå ïðèáëèæåíèå ðàçíîñòè ïîòåíöèàëîâ äâóõ óçëîâ |  | REFDES=NS?
VALUE=0 TEXT=NODESET= TEMPLATE=.NODESET V( %+,%-) =@VALUE | |||
| OPTPARAM,
ñïåöèôèêàöèÿ îò 1 äî 8 îïòèìèçèðóåìûõ ïàðàìåòðîâ |  | REFDES=PM?
NAME1= – èìÿ 1-ãî ïàðàìåòðà ENABLE=Y – ðàçðåøåíèå âàðèàöèè 1-ãî ïàðàìåòðà INITIAL1= – íà÷àëüíîå çíà÷åíèå 1-ãî ïàðàìåòðà CURVAL1= – òåêóùåå çíà÷åíèå 1-ãî ïàðàìåòðà LOVAL1= – ìèíèìàëüíîå çíà÷åíèå 1-ãî ïàðàìåòðà HIVAL1= – ìàêñèìàëüíîå çíà÷åíèå 1-ãî ïàðàìåòðà TOL1= – ðàçáðîñ 1-ãî ïàðàìåòðà NAME2= – èìÿ 2-ãî ïàðàìåòðà . . . . . TOL8= – ðàçáðîñ 8-ãî ïàðàìåòðà | |||
| PARAM,
ñïåöèôèêàöèÿ îò 1 äî 3 ïðåäâàðèòåëüíî çàäàâàåìûõ ïàðàìåòðîâ |  | REFDES=PM?
TEMPLATE=.PARAM @NAME1=@VALUE1 #NAME2/@NAME2=@VALUE2/ ?NAME3/@NAME3=@VALUE3/ NAME1= – èìÿ 1-ãî ïàðàìåòðà VALUE1= – çíà÷åíèå 1-ãî ïàðàìåòðà NAME2= – èìÿ 2-ãî ïàðàìåòðà VALUE2= – çíà÷åíèå 2-ãî ïàðàìåòðà NAME3= – èìÿ 3-ãî ïàðàìåòðà VALUE3= – çíà÷åíèå 3-ãî ïàðàìåòðà | |||
| PRINT1,
âûâîä íà ïå÷àòü ïî äèðåêòèâå .PRINT ïîòåíöèàëà îäíîãî óçëà |  | REFDES=PRINT?
ANALYSIS= TEMPLATE=.PRINT ?ANALYSIS|@ANALYSIS|~ANALYSIS |TRAN| V([%1]) | |||
| PRINTDGTLCHG,
âûâîä íà ïå÷àòü ïî äèðåêòèâå .PRINT âûõîäíîé ïåðåìåííîé öèôðîâîãî óñòðîéñòâà |  | REFDES=PRINT?
ANALYSIS= TEMPLATE=.PRINT/DGTLCHG ?ANALYSIS|@ANALYSIS|~ANALYSIS |TRAN| %1 | |||
| UNKNOWN,
íåèçâåñòíûé ñèìâîë |  | REFDES=*??
TEMPLATE=*X^@refdes is a result of an unknown symbol | |||
| VECTOR,
âåêòîðíûé ìàðêåð äëÿ ñîõðàíåíèÿ ñîñòîÿíèé öèôðîâûõ óçëîâ |  | REFDES=VEC?
TEMPLATE=.VECTOR %#*1 ?FILE=“FILE” ?POS/POS=@POS/ ?RADIX/RADIX=@RADIX/ ?SIGNAMES/SIGNAMES=@SIGNAMES/ ?BIT/BIT=@BIT/ POS= FILE= RADIX= BIT= SIGNAMES= | |||
| VIEWPOINT,
òî÷êà ïðîñìîòðà íàïðÿæåíèÿ |  | BIASVALUE= | |||
| WATCH1,
ìåòêà ïåðåìåííîé, âêëþ÷àåìîé â äèðåêòèâó .WATCH (1-ÿ ôîðìà) |  | REFDES=WATCH?
TEMPLATE=.WATCH ?ANALYSIS|@ANALYSIS| ~ANALYSIS |TRAN| V([%1]) ?LO|@LO,@HI| ANALYSIS= LO= HI= | |||
| VPRINT1,
âûâîä ïîòåíöèàëà óçëà ïî äèðåêòèâå .PRINT |  | REFDES=PRINT?
TEMPLATE=~AC|~DC/~TRAN! ?PRINT*\n @PRINT* TRAN V([%1])!/ |?TRAN| ?PRINT/\n @PRINT/DC V([%1])| ?AC/?PRINT|AC ?MAG|\n+ VM([%1])| ?PHASE|\n+ VP([%1])| . . . PART=VPRINT1 PRINT=.PRINT DC= AC= TRAN= MAG= PHASE= REAL= IMAG= DB= | |||
| VPRINT2,
âûâîä ðàçíîñòè ïîòåíöèàëîâ óçëîâ ïî äèðåêòèâå .PRINT |  | REFDES=PRINT?
TEMPLATE=~AC|~DC/~TRAN! ?PRINT*\n @PRINT* TRAN V([%1],[%2])!/ |?TRAN| ?PRINT/\n @PRINT/DC V([%1],[%2])| ?AC/?PRINT|AC ?MAG|\n+ VM([%1],[%2])| ?PHASE|\n+VP([%1])|... PART=VPRINT2 PRINT=.PRINT DC= AC= TRAN= MAG= PHASE= REAL= IMAG= DB= | |||
| VPLOT1,
âûâîä ïîòåíöèàëà óçëà ïî äèðåêòèâå .PLOT |  | REFDES=PLOT?
TEMPLATE=~AC|~DSC/~TRAN! ?PRINT*\n @PRINT* TRAN V([%1])!/ |?TRAN| ?PRINT/\n @PRINT/DC V([%1])| ?AC/?PRINT|AC ?MAG|\n+ VM([%1])| ?PHASE|\n+ VP([%1])| . . . PART=VPLOT1 PRINT=.PLOT DC= AC= TRAN= MAG= PHASE= REAL= IMAG= DB= | |||
| IPRINT,
âûâîä òîêà âåòâè ïî äèðåêòèâå .PRINT |  | REFDES=PRINT?
TEMPLATE=V^@REFDES %1 %2 0V\n ~AC|~DC/~TRAN! ?PRINT*\n @PRINT* TRAN I(V^@REFDES)!/ |?TRAN| ?PRINT/\n @PRINT/DC I(V^@REFDES)| ?AC/?PRINT|AC ?MAG|\n+ IM(V^@REFDES)| ?PHASE|\n+ IP(V^@REFDES)| . . . PART=IPRINT PRINT=.PRINT DC= AC= TRAN= MAG= PHASE= REAL= IMAG= DB= | |||
| IPLOT,
âûâîä òîêà âåòâè ïî äèðåêòèâå .PLOT |  | REFDES=PLOT?
TEMPLATE=V^@REFDES %1 %2 0V\n ~AC|~DC/~TRAN! ?PRINT*\n @PRINT* TRAN I(V^@REFDES)!/ |?TRAN| ?PRINT/\n @PRINT/DC I(V^@REFDES)| ?AC/?PRINT|AC ?MAG|\n+ IM(V^@REFDES)| ?PHASE|\n+ IP(V^@REFDES)| . . . PART=IPLOT PRINT=.PLOT DC= AC= TRAN= MAG= PHASE= REAL= IMAG= DB= | |||
| INCLUDE,
çàäàíèå èìåíè ôàéëà, âêëþ÷àåìîãî â çàäàíèå íà ìîäåëèðîâàíèå |  | REFDES=IN?
TEMPLATE=.INCLUDE “@FILENAME” FILENAME= – èìÿ ïîäêëþ÷àåìîãî ôàéëà | |||
| LIB,
çàäàíèå èìåíè ïðîñìàòðèâàå-ìûõ áèáëèîòå÷íûõ ôàéëîâ |  | REFDES=LIB?
TEMPLATE=.LIB “@FILENAME” FILENAME= – èìÿ ôàéëà áèáëèîòåêè ìàòåìàòè÷åñêèõ ìîäåëåé | |||
| TITLEBLK,
îñíîâíàÿ íàäïèñü íà ïðèíöè-ïèàëüíûõ ñõåìàõ (ìîæåò áûòü ðóñèôèöèðîâàíà) |  | Revision=
PageTitle=Mixed Analog/Digital PageNO=1 PageCount=1 PageSize=A CompanyName=MicroSim Corporation Line1=20 Fairbanks Line2=Irvine, CA 92718 Line3=714-770-3022 RevText=Revision: Date=January 1, 2000 PageText=Page of SizeText=Page Size: |
ÏÐÈËÎÆÅÍÈÅ 2. ÑÎÎÁÙÅÍÈß ÏÐÎÃÐÀÌÌÛ PSpice
Ïðèâåäåì êðàòêóþ ñâîäêó âàæíåéøèõ ñîîáùåíèé ïðîãðàììû PSpice è èõ ïåðåâîä.
Èíôîðìàöèîííûå ñîîáùåíèÿ
Bias point calculated – çàâåðøåí ðàñ÷åò ðåæèìà ïî ïîñòîÿííîìó òîêó.
Calculating bias point – ðàññ÷èòûâàåòñÿ ðåæèì ïî ïîñòîÿííîìó òîêó.
Calculating of DC (AC, Transient) finished – çàâåðøåí ðàñ÷åò ïåðåäàòî÷íûõ ôóíêöèé ïî ïîñòîÿííîìó òîêó (ðàñ÷åò â ÷àñòîòíîé îáëàñòè, ïåðåõîäíûõ ïðîöåññîâ).
Circuit has errors ... run aborted, see output file for details – â ñõåìå èìåþòñÿ îøèáêè, âûïîëíåíèå ïðîãðàììû ïðåêðàùåíî, ñì. ïîäðîáíîñòè â âûõîäíîì ôàéëå ñ ðàñøèðåíèåì .OUT.
Computing impulse response for <...> is non-causal. It should be delayed by at least <...> sec – â óêàçàííîì êîìïîíåíòå íå âûïîëíÿåòñÿ ïðèíöèï ïðè÷èííîñòè; íåîáõîäèìî ââåñòè çàäåðæêó íå ìåíåå ÷åì íà <...> ñåêóíä.
Library file has changed since index file was created – ïîñëå ñîçäàíèÿ èíäåêñíîãî ôàéëà ôàéë áèáëèîòåêè èçìåíèëñÿ.
Making new index file for library file – ñîçäàíèå èíäåêñíîãî ôàéëà äëÿ áèáëèîòå÷íîãî ôàéëà.
No errors – â ñõåìå íåò îøèáîê.
Only xx columns can be printed at one listing – íà îäíîì ëèñòå ìîæíî ïå÷àòàòü òîëüêî xx
êîëîíîê.
PSpice aborted – âûïîëíåíèå ïðîãðàììû PSpice ïðåêðàùåíî.
Reading and checking circuit – ÷òåíèå âõîäíîãî ôàéëà è ïðîâåðêà ñõåìû.
This evaluation copy of xxx has past its expiration date – ïðîñðî÷åíî âðåìÿ ïîëüçîâàíèÿ äåìîíñòðàöèîííîé (evaluation) âåðñèåé.
Two library files used by this circuit have the same index file – äâà ôàéëà áèáëèîòåêè èìåþò îäèí è òîò æå èíäåêñíûé ôàéë.
Îøèáêè ïðè ìîäåëèðîâàíèè
All terminals are grounded in the circuit – â ñõåìå çàçåìëåíû âûâîäû âñåõ êîìïîíåíòîâ.
Bad characters in func name – íåâåðíûé ñèìâîë â èìåíè ôóíêöèè.
Bad digital data format – íåâåðåí ôîðìàò öèôðîâûõ äàííûõ.
Bad logic state – íåâåðíîå ëîãè÷åñêîå ñîñòîÿíèå.
Bad expression – îøèáî÷íîå âûðàæåíèå.
Can't find parameter index – íå íàéäåí èíäåêñ ïàðàìåòðà.
Can' t use LIST with DEC or OCT sweeps – ïðè âàðèàöèè â ìàñøòàáå DEC èëè OCT êëþ÷åâîå ñëîâî LIST íåäîïóñòèìî.
Character 'xx' not allowed – óêàçàííûå ñèìâîëû íåäîïóñòèìû.
Convergence problem in Power supplies cut back to ... – âîçíèêëà ïðîáëåìà ñõîäèìîñòè ðåæèìà ïî ïîñòîÿííîìó òîêó ïðè íàðàùèâàíèè íàïðÿæåíèÿ ïèòàíèÿ.
Coupling coefficient out of range: 0<K<1 – êîýôôèöèåíò ñâÿçè íå íàõîäèòñÿ â äîïóñòèìûõ ïðåäåëàõ.
CPU Time limit exceeded – ïðåâûøåíî îãðàíè÷åíèå íà âðåìÿ ðàáîòû öåíòðàëüíîãî ïðîöåññîðà.
Duplicate Name: xx – óêàçàííîå èìÿ êîìïîíåíòà âñòðå÷àåòñÿ äâàæäû.
Expression must fit on one line – âûðàæåíèå äîëæíî ðàçìåùàòüñÿ íà îäíîé ñòðîêå.
Expression too complicated – âûðàæåíèå î÷åíü ñëîæíîå.
File name too long – èìÿ ôàéëà ñëèøêîì äëèííîå.
Filter order too high – ïîðÿäîê ôèëüòðà î÷åíü áîëüøîé.
Func expansion too large – âûðàæåíèå ôóíêöèè î÷åíü âåëèêî.
Illegal name to func – íåäîïóñòèìîå èìÿ ôóíêöèè.
Invalid analysis type – íåâåðåí òèï àíàëèçà.
Invalid global parameter name – íåâåðíîå èìÿ ãëîáàëüíîãî ïàðàìåòðà.
Invalid filter type – íåâåðåí òèï ôèëüòðà.
Invalid Range – íåâåðåí äèàïàçîí.
Invalid Option – íåâåðíà îïöèÿ.
Laplace expression for filter too large – âûðàæåíèå äëÿ ïåðåäàòî÷íîé ôóíêöèè ôèëüòðà ñëèøêîì äëèííîå.
Less then 2 connection at node xx – ê óêàçàííîìó óçëó ïîäêëþ÷åíî ìåíåå äâóõ êîìïîíåíòîâ.
Less than two states defined for DINPUT model – â ìîäåëè DINPUT óêàçàíî ìåíåå äâóõ ëîãè÷åñêèõ ñîñòîÿíèé.
Missing or missmatched ( ) – ïðîïóùåíû èëè íå ñîãëàñîâàíû ñêîáêè.
Model type unknown – òèï ìîäåëè íåèçâåñòåí.
Must be 'I' or 'V' – äîëæåí áûòü êîìïîíåíò òèïà I èëè V.
Must be a voltage source name – äîëæíî áûòü èìÿ èñòî÷íèêà íàïðÿæåíèÿ.
Mutual inductance out of range – íåäîïóñòèìîå çíà÷åíèå âçàèìíîé èíäóêòèâíîñòè.
No model had tolerances (.MC or .WCASE ignored) – ðåæèìû .MC èëè .WCASE èãíîðèðóþòñÿ, òàê êàê íè â îäíîé ìîäåëè êîìïîíåíòà íå óêàçàí ðàçáðîñ ïàðàìåòðîâ.
No more than 10 args allowed – íåäîïóñòèìî áîëåå 10 àðãóìåíòîâ.
Node xx is not present in the circuit file – â ñõåìå îòñóòñòâóåò óçåë ñ óêàçàííûì èìåíåì.
Node xx is floating -–óêàçàííûé óçåë “ïëàâàþùèé”.
Node Table Overflow – òàáëèöà óçëîâ ïåðåïîëíåíà.
Not valid for .WCASE (.MC) – íå ìîæåò èñïîëüçîâàòüñÿ ïðè íàëè÷èè äèðåêòèâû .WCASE (.MC).
Number of harmonics must be less then xx
– êîëè÷åñòâî ãàðìîíèê ïðåâûøàåò óêàçàííûé ïðåäåë.
Only A-Z permitted – ðàçðåøåíû òîëüêî ñèìâîëû A–Z.
Only one circuit allowed per file xx when using Parallel Analog/Digital Simulation – ïðè âûïîëíåíèè àíàëîãî-öèôðîâîãî ìîäåëèðîâàíèÿ âî âõîäíîì ôàéëå ìîæåò áûòü îïèñàíèå òîëüêî îäíîé ñõåìû.
Only one .PROBE and .PROBE/CSDF allowed per circuit file – â ôàéëå ñõåìû ìîæåò áûòü òîëüêî îäíà äèðåêòèâà .PROBE èëè .PROBE/CSDF.
Only one .TEMP value allowed with .STEP – ïðè íàëè÷èè äèðåêòèâû .STEP â äèðåêòèâå .TEMP ìîæíî óêàçàòü çíà÷åíèå òîëüêî îäíîé òåìïåðàòóðû.
Pivot not in DC – ïðè èòåðàöèîííîì ðàñ÷åòå ðåæèìà ïî ïîñòîÿííîìó òîêó íåò âåäóùåãî ýëåìåíòà ïðè ðåøåíèè ñèñòåìû ëèíåéíûõ óðàâíåíèé.
Resistor has zero value – ðåçèñòîð èìååò íóëåâîå ñîïðîòèâëåíèå.
Symbol Table Overflow – òàáëèöà ñèìâîëîâ ïåðåïîëíåíà.
Subcircuits xx is undefined – óêàçàííàÿ ïîäñõåìà íå îïðåäåëåíà.
Text value must fit on one line – òåêñòîâàÿ ïåðåìåííàÿ äîëæíà ðàçìåùàòüñÿ íà îäíîé ñòðîêå.
Time must not be negative – âðåìÿ äîëæíî áûòü ïîëîæèòåëüíûì.
Time must be increasing – âðåìÿ äîëæíî óâåëè÷èâàòüñÿ.
The circuit matrix is singular and can't be solved. The diagonal entry fit xx is 0 – íå ìîæåò áûòü íàéäåíà îáðàòíàÿ ìàòðèöà äëÿ ñèíãóëÿðíîé ìàòðèöû ñõåìû. Äèàãîíàëüíûé ýëåìåíò ìàòðèöû ðàâåí íóëþ.
There are no devices in this circuit – â ñõåìå íåò êîìïîíåíòîâ.
Too many inductors – ñëèøêîì ìíîãî èíäóêòèâíîñòåé.
Too many parameters (limit=49) – ñëèøêîì ìíîãî ïàðàìåòðîâ (ìàêñèìàëüíîå çíà÷åíèå ðàâíî 49).
Too many PWL corners – â îïèñàíèè ôóíêöèè PWL ñëèøêîì ìíîãî òî÷åê èçëîìà.
Transient Analysis must be at least 1/frequency second long.
Fourier analysis aborted – äëèòåëüíîñòü ïåðåõîäíîãî ïðîöåññà äîëæíà áûòü ïî êðàéíåé ìåðå áîëüøå ïåðèîäà ïåðâîé ãàðìîíèêè ñïåêòðà. Ïðåîáðàçîâàíèå Ôóðüå íåâîçìîæíî.
Transfer function too complicated – ïåðåäàòî÷íàÿ ôóíêöèÿ î÷åíü ñëîæíàÿ.
Unable to finish bias point calculation (DC Analyses, AC Analyses, Transient Analyses) – íåâîçìîæíî çàâåðøèòü ðàñ÷åò ïî ïîñòîÿííîìó òîêó (èëè äðóãèå âèäû àíàëèçà).
Unable to create mailbox to communicate with digital simulator – íåâîçìîæíî ñîçäàòü áóôåðíûé áëîê äëÿ ïåðåäà÷è äàííûõ öèôðîâîìó ìîäåëèðîâùèêó.
Undefined parameter – íåîïðåäåëåííûé ïàðàìåòð.
Value may not be 0 – çíà÷åíèå íå ìîæåò áûòü ðàâíûì íóëþ.
Values must be monotonic increasing – çíà÷åíèÿ äîëæíû óâåëè÷èâàòüñÿ ìîíîòîííî.
Voltage loop involving <èìÿ êîìïîíåíòà> – óêàçàííûé êîìïîíåíò âõîäèò â ñîñòàâ êîíòóðà èç èñòî÷íèêîâ íàïðÿæåíèÿ (ñì. íèæå).
Voltage source and/or inductor loop involving. You may break the loop by addind a series resistance – èñòî÷íèêè íàïðÿæåíèÿ è/èëè èíäóêòèâíîñòè îáðàçóþò çàìêíóòûé êîíòóð. Åãî ìîæíî ðàçîðâàòü âêëþ÷åíèåì ïîñëåäîâàòåëüíîãî ñîïðîòèâëåíèÿ.
ÏÐÈËÎÆÅÍÈÅ 3. ÂÛÕÎÄÍÎÉ ÔÀÉË ÐÅÇÓËÜÒÀÒÎÂ ÌÎÄÅËÈÐÎÂÀÍÈß
Ïðèâåäåì îñíîâíûå ôðàãìåíòû âûõîäíîãî ôàéëà band.out èç ïðèìåðà ðàçä. 3.4.1.  íà÷àëå ïîâòîðÿåòñÿ ñîäåðæàíèå ôàéëîâ çàäàíèÿ íà ìîäåëèðîâàíèå, êîòîðîå çäåñü îïóñòèì, à äàëåå ïðèâåäåíà èíôîðìàöèÿ î ìîäåëÿõ êîìïîíåíòîâ è ðåçóëüòàòû ìîäåëèðîâàíèÿ.
BANDPASS FILTER
(Çàãëàâèå ñõåìû)
**** RESISTORS (ìîäåëè âñåõ ðåçèñòîðîâ)
NAME NODES MODEL VALUE TC1 TC2 TCE
(Èìÿ) (Óçëû) (Ìîäåëü) (Çíà÷åíèå) (Òåìïåðàòóðíûå êîýôôèöèåíòû)
RG IN 10 1.00E+03
R1 2 1 MRES 4.50E+03 1.00E-02 0.00E+00 0.00E+00
R2 1 0 MRES 1.30E+03 1.00E-02 0.00E+00 0.00E+00
R3 2 3 1.00E+02
R4 4 0 MRES 2.00E+02 1.00E-02 0.00E+00 0.00E+00
RK1 5 0 2.31E+03
RK2 6 0 2.31E+03
RLOAD 9 0 1.00E+02
**** INDEPENDENT SOURCES (íåçàâèñèìûå èñòî÷íèêè)
NAME NODES DC VALUE AC VALUE AC PHASE
(Èìÿ) (Óçëû) (Ðåæèì DC) (Ðåæèì AC, ìîäóëü è ôàçà)
VS 2 0 6.00E+00 0.00E+00 0.00E+00 degrees
VIN 10 0 0.00E+00 1.00E+00 0.00E+00 degrees
TRANSIENT: SIN
(Ïåðåõîäíûå ïðîöåññû, èñòî÷íèê òèïà SIN)
Offset 0.00E+00 (Ïîñòîÿííàÿ ñîñòàâëÿþùàÿ)
Amplitude 5.00E-02 (Àìïëèòóäà)
Freq 3.60E+07 (×àñòîòà)
Delay 0.00E+00 (Çàäåðæêà)
Damping 0.00E+00 (Çàòóõàíèå)
Phase 0.00E+00 (Íà÷àëüíàÿ ôàçà)
**** BIPOLAR JUNCTION TRANSISTORS (áèïîëÿðíûå òðàíçèñòîðû)
NAME C B E S MODEL AREA
Q1 3 1 4 0 KT315A 1.00E+00
**** TEMPERATURE-ADJUSTED VALUES TEMPERATURE = -37.000 DEG C
(Òåìïåðàòóðíî-çàâèñèìûå ïàðàìåòðû, òåìïåðàòóðà -37
**** RESISTORS (ðåçèñòîðû)
NAME VALUE
(Èìÿ) (Ñîïðîòèâëåíèå)
R1 1.620E+03
R2 4.680E+02
R4 7.200E+01
**** BJT MODEL PARAMETERS (ïàðàìåòðû ìîäåëè áèïîëÿðíîãî òðàíçèñòîðà)
NAME BF ISE VJE CJE RE RB
BR ISC VJC CJC RC RBM
IS ISS VJS CJS
KT315A 3.83E+01 4.14E-12 8.58E-01 8.06E-12 0.00E+00 0.000E+00
4.50E-01 0.00E+00 8.58E-01 1.60E-11 0.00E+00 0.00E+00
1.22E-20 0.00E+00 8.58E-01 0.00E+00
**** CURRENT MODEL PARAMETERS FOR DEVICES REFERENCING MRES
R1 R2 R4
R 1.0000E+00 1.0000E+00 1.0000E+00
**** DC TRANSFER CURVES TEMPERATURE = -37.000 DEG C
MONTE CARLO NOMINAL
(Ïåðåäàòî÷íàÿ ôóíêöèÿ ïî ïîñòîÿííîìó òîêó ïðè íîìèíàëüíûõ çíà÷åíèÿõ ñëó÷àéíûõ ïàðàìåòðîâ)
VS V(1,4) I(R3) IB(Q1)
5.000E-01 1.121E-01 1.361E-12 3.817E-11
5.500E+00 8.253E-01 4.088E-03 2.600E-04
1.050E+01 8.596E-01 1.488E-02 9.709E-04
1.550E+01 8.752E-01 2.470E-02 1.885E-03
2.050E+01 8.854E-01 3.368E-02 2.953E-03
**** SMALL SIGNAL BIAS SOLUTION TEMPERATURE = -37.000 DEG C
MONTE CARLO NOMINAL
(Êàðòà óçëîâûõ ïîòåíöèàëîâ ïî ïîñòîÿííîìó òîêó)
NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE
(Èìÿ) (Íàïðÿæåíèå) (Èìÿ) (Íàïðÿæåíèå) (Èìÿ) (Íàïðÿæåíèå) (Èìÿ) (Íàïðÿæåíèå)
( 1) 1.2284 ( 2) 6.0000 ( 3) 5.4803 ( 4) .3973
( 5) 0.0000 ( 6) 0.0000 ( 9) 0.0000 ( 10) 0.0000
( IN) 0.0000
VOLTAGE SOURCE CURRENTS (Òîêè èñòî÷íèêîâ íàïðÿæåíèÿ)
NAME CURRENT
(Èìÿ) (Òîê)
VS -8.142E-03
VIN 0.000E+00
TOTAL POWER DISSIPATION 4.89E-02 WATTS
(Îáùàÿ ïîòðåáëÿåìàÿ ìîùíîñòü)
**** SMALL-SIGNAL CHARACTERISTICS
(Ìàëîñèãíàëüíûå õàðàêòåðèñòèêè)
V(3)/VS = 7.781E-01 (Ïåðåäàòî÷íàÿ ôóíêöèÿ)
INPUT RESISTANCE AT VS = 3.669E+02 (Âõîäíîå ñîïðîòèâëåíèå)
OUTPUT RESISTANCE AT V(3) = 1.000E+02 (Âûõîäíîå ñîïðîòèâëåíèå)
**** DC SENSITIVITY ANALYSIS TEMPERATURE = -37.000 DEG C
MONTE CARLO NOMINAL
(Ôóíêöèÿ ÷óâñòâèòåëüíîñòè ïî ïîñòîÿííîìó òîêó)
DC SENSITIVITIES OF OUTPUT VBE(Q1) (×óâñòâèòåëüíîñòü âûõîäíîãî íàïðÿæåíèÿ VBE(Q1) ïî ïîñòîÿííîìó òîêó)
ELEMENT ELEMENT ELEMENT NORMALIZED
NAME VALUE SENSITIVITY SENSITIVITY
(VOLTS/UNIT) (VOLTS/PERCENT)
(Èìÿ (Çíà÷åíèå (×óâñòâèòåëüíîñòü, (Íîðìèðîâàííàÿ
ýëåìåíòà) ïàðàìåòðà) Â/åä. èçì.) ÷óâñòâèòåëüíîñòü, Â/%)
RG 1.000E+03 0.000E+00 0.000E+00
R1 1.620E+03 -3.132E-05 -5.073E-04
. . .
VS 6.000E+00 1.063E-02 6.376E-04
VIN 0.000E+00 0.000E+00 0.000E+00
Q1
RB 3.000E+00 1.516E-04 4.549E–06
BF 3.838E+01 9.363E-05 3.594E–05
. . .
**** AC ANALYSIS TEMPERATURE = -37.000 DEG C
MONTE CARLO NOMINAL
(Ðàñ÷åò óðîâíÿ âíóòðåííåãî øóìà)
FREQ INOISE ONOISE
(×àñòîòà) (Âõ. øóì) (Âûõ. øóì)
1.600E+07 5.514E-08 1.490E-10
1.700E+07 4.943E-08 1.632E-10
1.800E+07 4.449E-08 1.790E-10
. . .
*** OPERATING POINT INFORMATION TEMPERATURE = -37.000 DEG C
MONTE CARLO NOMINAL
**** BIPOLAR JUNCTION TRANSISTORS
(Ïàðàìåòðû ëèíåàðèçîâàííîé ìîäåëè òðàíçèñòîðà)
NAME Q1
MODEL KT315A
IB .21E-04
IC 5.20E-03
VBE 8.31E-01
VBC -4.25E+00
VCE 5.08E+00
BETADC 1.62E+01
GM 2.09E-01
RPI 8.61E+01
RX 0.00E+00
RO 6.40E+05
CBE 2.26E-10
CBC 8.85E-12
CBX 0.00E+00
CJS 0.00E+00
BETAAC 1.80E+01
FT 1.41E+08
**** FOURIER ANALYSIS TEMPERATURE = -37.000 DEG C
MONTE CARLO NOMINAL
(Ñïåêòðàëüíûé àíàëèç)
FOURIER COMPONENTS OF TRANSIENT RESPONSE V(9)
(Ñïåêòðàëüíûå êîìïîíåíòû íàïðÿæåíèÿ V(9))
DC COMPONENT = 3.065800E-06
(Ïîñòîÿííàÿ ñîñòàâëÿþùàÿ)
HARMONIC FREQUENCY FOURIER NORMALIZED PHASE NORMALIZED
NO (HZ) COMPONENT COMPONENT (DEG) PHASE (DEG)
(Íîìåð (×àñòîòà, (Àìïëèòóäà (Íîðìèðîâàí- (Ôàçà, (Íîðìèðîâàííàÿ
ãàðìîíèêè) Ãö) ñïåêòðà) íàÿ àìïëèòóäà) ãðàä.) ôàçà, ãðàä.)
1 3.600E+07 6.503E-03 1.000E+00 -4.969E+00 0.000E+00
2 7.200E+07 1.036E-05 1.593E-03 1.152E+02 1.202E+02
3 1.080E+08 1.180E-05 1.814E-03 8.382E+01 8.878E+01
4 1.440E+08 6.456E-06 9.928E-04 1.879E+01 2.376E+01
5 1.800E+08 1.321E-05 2.031E-03 2.880E+01 3.376E+01
6 2.160E+08 3.721E-06 5.723E-04 4.638E+01 5.135E+01
7 2.520E+08 4.957E-06 7.622E-04 -1.222E+02 -1.172E+02
8 2.880E+08 1.244E-06 1.912E-04 1.641E+02 1.691E+02
9 3.240E+08 3.742E-06 5.754E-04 -8.227E-01 - 4.146E+00
TOTAL HARMONIC DISTORTION = 3.495378E-01 PERCENT
(Êîýôôèöèåíò ãàðìîíèê, %)
**** SORTED DEVIATIONS OF V(9) TEMPERATURE = -37.000 DEG C
MONTE CARLO SUMMARY
(Ñòàòèñòè÷åñêèé àíàëèç íàïðÿæåíèÿ V(9))
Mean Deviation = 583.8000E-06 (Ñðåäíåå çíà÷åíèå)
Sigma = 664.1100E-06 (Ñðåäíåêâàäðàòè÷íîå îòêëîíåíèå)
RUN MAX DEVIATION FROM NOMINAL
(Íîìåð ( Ìàêñèìàëüíîå îòêëîíåíèå îò íîìèíàëüíîãî çíà÷åíèÿ)
èñïûòàíèÿ)
Pass 3 1.6134E-03 (2.43 sigma) higher at F = 30.0000E+06
( 102.66% of Nominal)
Pass 5 600.3200E-06 ( .90 sigma) higher at F = 32.0000E+06
( 100.61% of Nominal)
Pass 2 340.6000E-06 ( .51 sigma) higher at F = 31.0000E+06
( 100.43% of Nominal)
Pass 4 219.1200E-06 ( .33 sigma) lower at F = 32.0000E+06
( 99.779% of Nominal)
JOB CONCLUDED (Çàäàíèå çàâåðøåíî)
**** JOB STATISTICS SUMMARY
(Ñòàòèñòèêà âûïîëíåíèÿ çàäàíèÿ)
NUNODS NCNODS NUMNOD NUMEL DIODES BJTS JFETS MFETS GASFETS
10 10 10 21 0 1 0 0 0
NDIGITAL NSTOP NTTAR NTTBR NTTOV IFILL IOPS PERSPA
0 15 42 45 41 3 76 80.000
NUMTTP NUMRTP NUMNIT DIGTP DIGEVT DIGEVL MEMUSE
1353 467 4566 0 0 0 74296
SECONDS ITERATIONS
(Âðåìÿ, ñ) (×èñëî èòåðàöèé)
MATRIX SOLUTION .77 16
MATRIX LOAD 5.00
READIN .38
SETUP .06
DC SWEEP .22 106
BIAS POINT .06 56
AC and NOISE .71 41
TRANSIENT ANALYSIS 23.34 4566
OUTPUT 3.24
MONTE CARLO 1.70
OVERHEAD .06
TOTAL JOB TIME 29.77
