1 第 4 章 oscillators presenter : 吳壬竹 adviser : dr.chih-kuo liang date: 96.1.9
DESCRIPTION
3 4.1 Oscillator Fundamentals Amplification Positive feedback Frequency determining network Amplifier Frequency Selective circuit Frequency Selective circuit Output Input Positive feedback Single frequency Output signalTRANSCRIPT
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第 4 章Oscillators
Presenter :吳壬竹Adviser : Dr.Chih-Kuo Liang
Date: 96.1.9
![Page 2: 1 第 4 章 Oscillators Presenter : 吳壬竹 Adviser : Dr.Chih-Kuo Liang Date: 96.1.9](https://reader036.vdocuments.mx/reader036/viewer/2022081505/5a4d1ae37f8b9ab0599783ef/html5/thumbnails/2.jpg)
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Outline
4.1 Oscillator Fundamentals
4.2 WIEN-BRIDGE Oscillator
4.3 Voltage-Controlled Oscillator
![Page 3: 1 第 4 章 Oscillators Presenter : 吳壬竹 Adviser : Dr.Chih-Kuo Liang Date: 96.1.9](https://reader036.vdocuments.mx/reader036/viewer/2022081505/5a4d1ae37f8b9ab0599783ef/html5/thumbnails/3.jpg)
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4.1 Oscillator Fundamentals
Amplification Positive feedback Frequency determining network
AmplifierFrequencySelectivecircuit
OutputInput
Positive feedback
Single frequencyOutput signal
![Page 4: 1 第 4 章 Oscillators Presenter : 吳壬竹 Adviser : Dr.Chih-Kuo Liang Date: 96.1.9](https://reader036.vdocuments.mx/reader036/viewer/2022081505/5a4d1ae37f8b9ab0599783ef/html5/thumbnails/4.jpg)
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4.2 WIEN-BRIDGE Oscillator 4.2.1
• OperationRI 510Ω
RF 510Ω
741
R1 6.8kΩ
C1 0.01μF
C2 0.01μF
R2 6.8kΩ
RG 470kΩ
CG 0.1μF
D1
1N914A
MPF102 Q1
Half-waverectifier/filter
Noninverting amplifier
Frequencyselection
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4.2.2• Practical Design Techniques
4.2 WIEN-BRIDGE Oscillator
1. Frequency of oscillation 10.5 kHz
2.Available FET MPF102
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4.2 WIEN-BRIDGE Oscillator
VGS(off)
IDSS(max)= RI
(4.2) = 8 V
20 mA
(4.3)
4.2.2• Compute RF and RI.
RF = RI
= 400 Ω
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4.2 WIEN-BRIDGE Oscillator
4.2.2• Compute Rectifier and Filter Components.
= RGCG
100
fo(4.4)
= RGCG
100
10.5 kHz= 9.52 ms
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4.2 WIEN-BRIDGE Oscillator
4.2.2• Select the Op Amp.
Slew rate(min) = πfo [ ]VGS(off)2
+ 0.7 (4.8)
= 3.14 x 10.5 kHz [ ]8 V2
+ 0.7 V
= 0.155 V /μs
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4.2 WIEN-BRIDGE Oscillator 4.2.1( 課外補充 )
• Operation RF
R
R
C
C
RA V-
V+
Vo
Z1 Z2
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4.2.2• Numerical Analysis
4.2 WIEN-BRIDGE Oscillator
Z1V+ = Vo Z1 + Z2
=s2(RC)2 + 3sRC + 1
RCsVo
VoV- = 1 + RF/RA
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4.2.2• Numerical Analysis
4.2 WIEN-BRIDGE Oscillator
˙˙˙
V+ = V- ﹐ s = jω ﹐ RC = τ
11 + RF/RA
= -ωτj(1 - ω2τ2)-3ωτ
1 - ω2τ2 = 0
![Page 12: 1 第 4 章 Oscillators Presenter : 吳壬竹 Adviser : Dr.Chih-Kuo Liang Date: 96.1.9](https://reader036.vdocuments.mx/reader036/viewer/2022081505/5a4d1ae37f8b9ab0599783ef/html5/thumbnails/12.jpg)
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4.2.2• Numerical Analysis
4.2 WIEN-BRIDGE Oscillator
11 + RF/RA
= -3ωτωτ
RF = 2RA
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4.3 Voltage-Controlled Oscillator
741741
741
R1
C1
A1
A2
A3R2
R4 D4
R6
R5
R3D3
D1
D2
D5
D6+Vm
volts
1-520kΩ
2kΩ
10kΩ
5.1kΩ
10kΩ
10kΩ 1N914A
1N914A
1N4735A1N4735A
0.001μF
4.3.1• Operation
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4.3 Voltage-Controlled Oscillator
4.3.2• Numerical Analysis
VUT = VZD2 + VFD1 (4.9)
VLT = - VZD1 - VFD2 (4.10)
VUT = 6.2 V + 0.6 V = 6.8 V
VLT = - 6.2 V - 0.6 V = - 6.8 V
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4.3 Voltage-Controlled Oscillator
t = C1 × Δ VC1
I(4.12)
0.001 μF × 13.6 V50 μA
t+1 = = 272μs, and
0.001 μF × 13.6 V250 μA
t+5 = = 54.4μs
4.3.2• Numerical Analysis
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4.3 Voltage-Controlled Oscillator
4.3.2• Numerical Analysis
fo =2R1C1(VUT - VLT)
+ VIN(4.14)
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4.3 Voltage-Controlled Oscillator
4.3.3• Practical Design Techniques
1. Input voltage range 0 to 6 volts DC
2.Ramp output voltage ±4 volts (±3 volts minimum)
3.Frequency range 0 to 5.0 kHz
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4.3 Voltage-Controlled Oscillator
4.3.3• Select the Zener Diodes.
VD1 = - VRAMP + 0.6
VD2 = + VRAMP - 0.6
(4.15)
(4.16)
VD1 = - 4 V + 0.6 V = - 3.3V, and
VD2 = + 4 V - 0.6 V = + 3.3V
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4.3 Voltage-Controlled Oscillator
4.3.3• Compute R1 and C1.
R1C1 = (4.19)VIN (max)
2fHIVRAMP
=2 × 5 kHz × 8 V
6 V
= 75 μs
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4.3 Voltage-Controlled Oscillator
4.3.3• Select the Op Amp.
slew rate = 40fMAX[ + VSAT - ( - VSAT)] (4.21)
=40 × 5 kHz[ + 13 V - ( - 13 V)]
= 5.2 V/μs
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4.3 Voltage-Controlled Oscillator
R3
R1
R2
V1
Vb
V2
VCC
-VCC
V3
R
C
V4 I
4.3.1( 課外補充 )• Operation
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4.3 Voltage-Controlled Oscillator
R3
R1
R2
V1
Vb
V2
VCC
-VCC
V3
R
C
V4
A
I
A :反向觸發史密特觸發器
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4.3 Voltage-Controlled Oscillator
R3
R1
R2
V1
Vb
V2
VCC
-VCC
V3
R
C
V4
B
I
B :數位式控制開關
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4.3 Voltage-Controlled Oscillator
R3
R1
R2
V1
Vb
V2
VCC
-VCC
V3
R
C
V4
C
I
C :電壓隨偶器
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4.3 Voltage-Controlled Oscillator
R3
R1
R2
V1
Vb
V2
VCC
-VCC
V3
R
C
V4
D
I
D :反向米勒積分器
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4.3 Voltage-Controlled Oscillator Analysis
1. 設輸出 V1 為正值, V1= + L , V3 = V2 = - VCC , V4 線性增加,到= V4 + L ×
R2
R1 + R2
,觸發電壓 V1 轉換, V1 則 = - L
2. 設輸出 V1 為負值, V1= - L , V3 = V2 = VCC , V4 線性減少,到= V4 - L ×
R2
R1 + R2
,觸發電壓 V1 轉換, V1 則 = + L
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4.3 Voltage-Controlled Oscillator Output wave
Vmax
Vmin
+ L
- L
t
V
V1
T1 T2
V4
T1 期間斜率為 , T2 期間斜率為VCC
RC
- VCC
RC
= 1.Vmin - L ×R2
R1 + R2
= Vmax L ×R2
R1 + R2
2.Vmin = VCC
RC+ × T1 Vmax
T1 = (R1 + R2)VCC
2RCR2L , T1 = T2
3. f = T1 + T2
1= 4RCR1Vo
R1 + R2 VCC
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Thank you for your attention