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Mais de Tsuyoshi Horigome (20)
Device modeling : pulse transformer
- 2. パルストランスの等価回路図
K K1
K_ Li nea r
COUPLING = 0.999
L6 10 .4 542 uH L1 = L 3
L2 = L 1
E1 R1 3 IN R2 3.42 909 k C4 Pulse Transformer
IN+ OUT + OUT 1
IN- OUT - 1u
C216 .3 685 p 17 .3 536 p
EVA LUE
V(A,0) R1 L3 L1
C8 C1 R8 C5
C7 44 .4 49p 41 .8 751 k C3
0 41 .9 823 p 6.35 14m 38 .9 312 k 42 .0 223 p RL
A
6.36 421 m
10 u 50
V1 = -0.8 V4 1 44 .4 466 p
V2 = 0 .8 R1 2
OUT 2
TD = 0
TR = 5n 30
TF = 5 n R1 0
PW = 0.05 m
PER = 0 .1 m 10 0G
0
Source 0 0
周波数特性モデルを採用している
モデリング可能な周波数帯域は、100Hz~100MHz
All Rights Reserved copyright (C) Bee Technologies Inc. 2011
- 3. リーケージ・インダクタンス
Leakage Inductance K K1
K_ Li ne ar
COUPLING = 0 .999
L6 10 .4 54 2uH L1 = L3
L2 = L1
R2 3.42 90 9k C4 Pulse Transformer
C216 .3 68 5p 17 .3 53 6p
R1 L3 L1
C8 C1 R8 C5
44 .4 49 p 41 .8 75 1k C3
41 .9 82 3p 6.35 14 m 38 .9 31 2k 42 .0 22 3p
6.36 42 1m
44 .4 46 6p
100Hz~100MHz
All Rights Reserved copyright (C) Bee Technologies Inc. 2011
- 4. インダクタンス : pin Ps , pin Pf
K K1
K_ Li ne ar
CO UPL ING = 0.999
L6 10 .454 2u H L1 = L3
L2 = L1
R2 3.4 290 9k C4 Pulse Transformer
Ps Ss
C216 .368 5p 17 .353 6p
L3 L1
C8 R1 R8 C5
C1 C3
41 .982 3p 44 .449 p 6.3 514 m 38 .931 2k 42 .022 3p
41 .875 1k 6.3 642 1m
44 .446 6p
Pf Sf
Inductance : pin Ps & pin Pf
100Hz~1MHz
All Rights Reserved copyright (C) Bee Technologies Inc. 2011
- 5. インダクタンス : pin Ss , pin Sf
K K1
K_ Li ne ar Pulse Transformer
CO UPL ING = 0.999
L6 10 .454 2u H L1 = L3
L2 = L1
R2 3.4 290 9k C4
Ps Ss
C216 .368 5p 17 .353 6p
L3 L1
C8 R1 R8 C5
C1 C3
41 .982 3p 44 .449 p 6.3 514 m 38 .931 2k 42 .022 3p
41 .875 1k 6.3 642 1m
44 .446 6p
Pf Sf
Inductance : pin Ss & pin Sf
100Hz~1MHz
All Rights Reserved copyright (C) Bee Technologies Inc. 2011
- 6. 1kHzにおける過渡解析
K K1
K_ Li nea r
COUPLING = 0.999
L6 10 .4 542 uH L1 = L 3
L2 = L 1
E1 R1 3 IN R2 3.42 909 k C4 Pulse Transformer
IN+ OUT + OUT 1
IN- OUT - 1u
C216 .3 685 p 17 .3 536 p
EVA LUE
V(A,0) R1 L3 L1
C8 C1 R8 C5
C7 44 .4 49p 41 .8 751 k C3
0 41 .9 823 p 6.35 14m 38 .9 312 k 42 .0 223 p RL
A
6.36 421 m
10 u 50
V1 = -0.8 V4 1 44 .4 466 p
V2 = 0 .8 R1 2
OUT 2
TD = 0
TR = 5n 15
TF = 5 n R1 0
PW = 0.5m
PER = 1 m 10 0G
0
Source 0 0
2.0V
0V
VOUT1-VOUT2
SEL>>
-2.0V Ch1-Ch2
V(OUT1)- V(OUT2)
2.0V
0V
VOUT1
-2.0V
V(OUT1)
2.0V
Input
0V
VIN
-2.0V
1.0ms 1.5ms 2.0ms
V(IN)
Time
All Rights Reserved copyright (C) Bee Technologies Inc. 2011
- 7. 10kHzにおける過渡解析
K K1
K_ Li nea r
COUPLING = 0.999
L6 10 .4 542 uH L1 = L 3
L2 = L 1
E1 R1 3 IN R2 3.42 909 k C4 Pulse Transformer
IN+ OUT + OUT 1
IN- OUT - 1u
C216 .3 685 p 17 .3 536 p
EVA LUE
V(A,0) R1 L3 L1
C8 C1 R8 C5
C7 44 .4 49p 41 .8 751 k C3
0 41 .9 823 p 6.35 14m 38 .9 312 k 42 .0 223 p RL
A
6.36 421 m
10 u 50
V1 = -0.8 V4 1 44 .4 466 p
V2 = 0 .8 R1 2
OUT 2
TD = 0
TR = 5n 30
TF = 5 n R1 0
PW = 0.05 m
PER = 0 .1 m 10 0G
0
Source 0 0
2.0V
VOUT1-VOUT2
0V
Ch1-Ch2
-2.0V
V(OUT1)-V(OUT2)
2.0V
0V
VOUT1
SEL>>
-2.0V
Input
V(OUT1)
2.0V
0V
VIN
-2.0V
100us 150us 200us 250us
V(IN)
Time
All Rights Reserved copyright (C) Bee Technologies Inc. 2011
- 8. 100kHzにおける過渡解析
K K1
K_ Li nea r
COUPLING = 0.999
L6 10 .4 542 uH L1 = L 3
L2 = L 1
E1
IN+ OUT +
( V (%IN1) R4 IN R2 3.42 909 k C4 Pulse Transformer
+V (%IN2) )
IN- OUT - OUT 1
EVA LUE 1u
C216 .3 685 p 17 .3 536 p
V(A,0)
R1 L3 L1
C7 C8 C1 R8 C5
0 44 .4 49p 41 .8 751 k C3
A
R3 41 .9 823 p 6.35 14m 38 .9 312 k 42 .0 223 p RL
3n
V1 = -0.8 V4 1 1G 6.36 421 m
V2 = 0 .8 R1 2 44 .4 466 p 50
TD = 0
15 OUT 2
TR = 5n
TF = 5 n
PW = 5u R1 0
PER = 1 0u
10 0G
0
Source
0 0
1.0V
VOUT1-VOUT2
0V
SEL>>
-1.0V
Ch1-Ch2
V(OUT1)-V(OUT2)
2.0V
0V
VOUT1
-2.0V
4.0V
V(OUT1) Input
0V VIN
-4.0V
10us 15us 20us 25us
V(IN)
Time
All Rights Reserved copyright (C) Bee Technologies Inc. 2011
- 9. 1MHzにおける過渡解析
K K1
K_ Li nea r
COUPLING = 0.999
L6 10 .4 542 uH L1 = L 3
L2 = L 1
E1
IN+ OUT +
( V (%IN1) R4 IN R2 3.42 909 k C4 Pulse Transformer
+V (%IN2) )
IN- OUT - OUT 1
EVA LUE 1u
C216 .3 685 p 17 .3 536 p
V(A,0)
R1 L3 L1
C7 C8 C1 R8 C5
0 44 .4 49p 41 .8 751 k C3
A
R3 41 .9 823 p 6.35 14m 38 .9 312 k 42 .0 223 p RL
8n
V1 = -0.8 V4 1 1G 6.36 421 m
V2 = 0 .8 R1 2 44 .4 466 p 50
TD = 0
15 OUT 2
TR = 5n
TF = 5 n
PW = 0.5u R1 0
PER = 1 u
10 0G
0
Source
0 0
1.0V
VOUT1-VOUT2
0V
SEL>>
Ch1-Ch2
-1.0V
V(OUT1)-V(OUT2)
2.0V
0V
VOUT1
-2.0V
V(OUT1)
Input
4.0V
0V
VIN
-4.0V
1.0us 1.5us 2.0us 2.5us
V(IN)
Time
All Rights Reserved copyright (C) Bee Technologies Inc. 2011