Ssm2166, Rev. a –5, Figure 9. rotation point vs. r – Analog Devices SSM2166 User Manual
Page 5: Pin 11 to v+), Figure 10a. wideband output noise, Figure 10b. gbw curves vs. vca gain, Figure 10c. psrr vs. frequency, Figure 11. small signal transient response, Figure 12. large signal transient response
SSM2166
REV. A
–5–
ROTATION POINT – V rms
R
ROT PT
RESISTOR – k
⍀
1.0
0.1
0.01
0
45
5 10
35 40
15 20 25 30
50 55
T
A
= +25°C
V+ = 5V
R
L
= 100k
⍀
COMPRESSION RATIO = 1:1
NOISE GATE SETTING 550
V rms
GAIN ADJUST (PIN 2) = 1.25k
⍀
60 65 70 75 80 85 90
Figure 9. Rotation Point vs. R
ROT PT
(Pin 11 to V+)
10
0%
100
90
1s
5
V
T
A
= +25
C
COMPRESSION RATIO = 15:1
NOISE BW = 20kHz
Figure 10a. Wideband Output Noise
FREQUENCY – Hz
GAIN – dB
70
60
–20
1k
1M
10k
100k
50
40
0
30
20
10
–10
ROTATION POINT = 1.13V rms
NOISE GATE SETTING = 336
V rms
R
COMP
= 40k
⍀
V
IN
= 400
V rms
G = 60dB
G = 40dB
G = 20dB
Figure 10b. GBW Curves vs. VCA Gain
FREQUENCY – Hz
–10
–80
20
30k
100
1k
–20
–30
–40
–50
–60
–70
R
COMP
= 0
R
GAIN
= 1.24k
⍀
R
GATE
= 500k
⍀
R
ROT
= 1.74k
⍀
10k
V+ = 5±1V p-p
V+ = 5±0.5V p-p
PSRR – dB
Figure 10c. PSRR vs. Frequency
10
0%
100
90
20mV
10
s
T
A
= +25
C
C
AVG
= 2.2
F
SYSTEM GAIN = 0dB
R
L
= 10k
⍀
COMP RATIO = 1:1
Figure 11. Small Signal Transient Response
10
0%
100
90
10
s
200mV
T
A
= +25
C
C
AVG
= 2.2
F
SYSTEM GAIN = 0dB
R
L
= 10k
⍀
COMP RATIO = 1:1
Figure 12. Large Signal Transient Response