TSH110-TSH111-TSH112-TSH113-TSH114
(fig.1) Closed Loop Gain vs. Frequency
AV=+1, Rfb=2.2kΩ, Cfb=2pF, RL=100Ω, Vin=100mVp
(fig.2) Closed Loop Gain vs. Frequency
AV=-1, Rfb=2.2kΩ, Cfb=2pF, RL=100Ω, Vin=100mVp
2
0
-2
-4
-6
-8
-10
1
gain
phase
Vcc=±2.5V
Vcc=±6V
10
Frequency (MHz)
40
Vcc=±6V
20
0
Vcc=±2.5V
-20
-40
-60
-80
-100
-120
100
(fig.3) Closed Loop Gain vs. Frequency
AV=+2, Rfb=680Ω, Cfb=2pF, RL=100Ω, Vin=100mVp
2
0
-2
-4
-6
-8
-10
1
Vcc=±2.5V
-140
-160
Vcc=±6V
-180
Vcc=±2.5V
Vcc=±6V
-200
-220
-240
-260
-280
10
Frequency (MHz)
-300
100
(fig.4) Closed Loop Gain vs. Frequency
AV=-2, Rfb=680kΩ, Cfb=2pF, RL=100Ω, Vin=100mVp
40
6
gain
Vcc=±6V 20
4
Vcc=±2.5V
0
phase
-20
2
Vcc=±2.5V
-40
0
Vcc=±6V
-60
-2
-80
-100
-4
-120
1
10
100
Frequency (MHz)
(fig.5) Closed Loop Gain vs. Frequency
AV=+10, Rfb=510Ω, RL=100Ω, Vin=30mVp
-140
6
gain
Vcc=±2.5V
-160
4
Vcc=±6V
-180
phase
-200
2
Vcc=±2.5V
Vcc=±6V
-220
0
-240
-2
-260
-280
-4
-300
1
10
100
Frequency (MHz)
(fig.6) Closed Loop Gain vs. Frequency
AV=-10, Rfb=510Ω, RL=100Ω, Vin=30mVp
22
40
22
-140
gain
20
20
20
Vcc=±6V
0
18
Vcc=±2.5V
18
phase
-20
16
Vcc=±2.5V
-40
16
Vcc=±6V
-60
14
14
-80
12
12
-100
gain
phase
Vcc=±2.5V
Vcc=±6V
Vcc=±2.5V
Vcc=±6V
-160
-180
-200
-220
-240
-260
-280
10
-120
10
-300
1
10
100
1
10
100
Frequency (MHz)
Frequency (MHz)
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