:
( )
:
,
, , ,
4. ( , , , )
5.
4- . .606 (. 17) . . , , .
1
1.1 .
1.2 .
, . , , 1 , 1 .
, , , . .
1.
K=R2/(R1+R2) Ri=0 R=¥
2.
K=C1/(C1+C2) Ri=0 R=¥
3.
K=w2/(w1+w2) C=0
4.
K=w2/w1 R=¥
5.
K=U/Ex=(R1+R2)/R1 ¥
6.
K=I2/I1=R2/(R1+R2+R)
7.
K=I2/I1=j(1/wC2)/[j(1/wC1)+j(1/wC2)+R]
8.
K=I2/I1=w1/w2 R=0
9.
K=I2/I1=(R1+R2)/R2 ¥
10.
K=f2/f1=1/K
11.
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K=f2/f1=K
, . , , 10-6. 1 0, ~ 106.
,
* .
1. .
Workbench 5.0 1.1.
1.1
:
1) Ri;
2) R (RL);
3) R1 R2.
Ri [1].
Analysis/Parameter Sweep. . :
Component | Ri |
Parameter | Resistance |
Start Value | (n+5) |
End Value | 1000(n+5) |
Sweep Type | Linear |
Increment Size | 10 |
Output node |
n .
Sweep for: DC Operation point. Simulate. . .
, Ri 1%. .
R (RL) :
Component | RL |
Parameter | Resistance |
Start Value | (n+5) |
End Value | (n+5) |
Sweep Type | Linear |
Increment Size | 1 |
n
* . , RL 1%.
R1 R2 :
Component | R1 (R2) |
Parameter | Resistance |
Start Value | 0.01n |
End Value | 10n |
Sweep Type | Linear |
Increment Size | 0.01 |
n
.
1
1. ?
2. ?
3. .
4. ?
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2
1.1 .
1.2 .
. () , , , , .
.
( 2.1). , , , . p-n , , , - , . , .
2.1
( 2.2). x k=j||, @ x k, = j(), y=j-1(xk). , . : f f1 x x, .. f1f (x)= x.
, , , x k= j() . : , p-n , , . , :
1) , , arcsin(x) 0...p/2;
2) , ;
3) .
. ,
y=f(x,y).
y , . . . :
1) ( 2.2):
) ; ) ; ) ; ) .
2.2
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2) ( 2.2) -:
3) - ( 2.2).
, ,
- , , .
4) - :
:
1) ;
2) ;
3) , , sin a -p +p.
, 2.1, : , , , , , , , , .
. (...) , - , . , , ,
; ; ,
, ( 2.2) Uy=KÖUx.
, , . , , , , , , .
, , , . , Ix=Ux/R T Ib=Ub/R Tx Uc=0 Tx=f(Ux). Ub=f(t) , . , Tx=KÖUx, Ux =K1T2x. Ub=kt. ,
.
.
, . Ub=Kt2.
Tx=ekUx, Ux=kln(Tx). Ub=k/t.
. , 2.3
2.3
V2 V4 V1*V1 (E) 1 ( ). V3 V1=1 (B) V2=-1 (C) (E) ( ).
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[2].
Analysis/Parameter Sweep. . :
Component | V1 |
Parameter | Voltage |
Start Value | -5(n+5), V |
End Value | 5(n+5), V |
Sweep Type | Linear |
Increment Size | 0.1V |
Output node | V2 |
n
Sweep for: DC Operation point.
Simulate. V2 V1.
.
V3 V1.