Datasheet
TYPICAL CHARACTERISTICS
THS6184
www.ti.com
................................................................................................................................................. SLLS635D – AUGUST 2005 – REVISED JANUARY 2009
Table 3. Table of Graphs: ± 12-V Operation
GRAPH TITLE CONDITIONS FIGURE
Small Signal Single-Ended Frequency G = 10, R
L
= 50 Ω , V
O
= 200 mV
PP
4
Response
G = 10, R
L
= 100 Ω , V
O
= 200 mV
PP
5
Large Signal Single-Ended Output Response, G = 10, R
L
= 50 Ω 6
vs Frequency
Full Bias
G = 5, R
L
= 50 Ω 7
Small Signal Differential Frequency Response G = 5, R
L
= 50 Ω , V
O
= 200 mV
PP
8
G = 10, R
L
= 100 Ω 9
Large Signal Differential Output Response, Full
vs Frequency
Bias
G = 5, R
L
= 100 Ω 10
G = 5, R
L
= 100 Ω , V
O
= 2V
PP
, R
F
= 3 k Ω ,
11
R
G
= 1.5k Ω
G = 5, R
L
= 50 Ω , V
O
= 2V
PP
, R
F
= 3 k Ω ,
12
R
G
= 1.5 k Ω
G = 10, R
L
= 100 Ω , V
O
= 2V
PP
, R
F
= 3 k Ω ,
13
R
G
= 665 Ω
Differential Harmonic Distortion vs Frequency
G = 10, R
L
= 50 Ω , V
O
= 2 V
PP
, R
F
= 3 k Ω ,
14
R
G
= 665 Ω
G = 10, R
L
= 100 Ω , V
O
= 2 V
PP
, R
F
= 5 k Ω ,
15
R
G
= 1.1 k Ω
G = 10, R
L
= 50 Ω , V
O
= 2 V
PP
, R
F
= 5 k Ω ,
16
R
G
= 1.1 k Ω
Single-Ended 2nd-Order Harmonic Distortion G = 5, R
L
= 50 Ω , V
O
= 2 V
PP
17
vs Frequency
Single-Ended 3rd-Order Harmonic Distortion 18
Single-Ended 2nd-Order Harmonic Distortion G = 10, R
L
= 50 Ω , V
O
= 2 V
PP
19
vs Frequency
Single-Ended 3rd-Order Harmonic Distortion 20
Differential Crosstalk — Gain = 10 V/V G = 10, R
F
= 4 k Ω , R
G
= 884 Ω , V
S
= ± 12 V 21
Single-Ended Crosstalk — Gain = 10 V/V G = 10, R
F
= 4 k Ω , R
G
= 442 Ω , V
S
= ± 12 V 22
Single-Ended Crosstalk — Gain = 1 V/V G = 1, R
F
= 4 k Ω , V
S
= ± 12 V 23
Transimpedance Gain and Phase vs Frequency R
L
= 100 Ω 24
Input Referred Noise vs Frequency 25
Small Signal Single-Ended Transient Response vs Time G = 5, R
L
= 100 Ω , V
O
= 200 mV
PP
27
Large Signal Single-Ended Transient Response vs Time G = 5, R
L
= 100 Ω , V
O
= 5 V
PP
27
Overdrive Recovery vs Time G = 5, R
L
= 100 Ω 28
Single-Ended Transition Rate vs Output Voltage G = 5, R
L
= 100 Ω 29
Differential Transition Rate vs Output Voltage G = 5, R
L
= 100 Ω 30
Positive Output Voltage Headroom vs Temperature R
L
= 100 Ω 31
Negative Output Voltage Headroom vs Temperature R
L
= 100 Ω 32
vs Supply Voltage 33
vs Free-Air Temperature 34
Input Offset Voltage
vs Input Common-Mode 35
Range
Input Bias Current vs Supply Voltage 36
Single-Ended Rejection Ratios vs Frequency G = 2, R
L
= 50 Ω 37
Differential Rejection Ratio vs Frequency G = 10, R
L
= 100 Ω 38
Output Impedance vs Frequency G = 10 39
G = 5 40
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