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AD8363_09 Datasheet, PDF (11/36 Pages) Analog Devices – 50 Hz to 6 GHz, 50 dB TruPwr™ Detector | |||
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6
3
INHI INPUT
VTCM1 = 0.54V, VTCM2 = 1.1V
5
2
4
1
3
0
2
â1
1
â2
0
â60
â50 â40
â30
â20
â10
0
PIN (dBm)
â3
10
Figure 15. VOUT and Log Conformance Error with Respect to 25°C Ideal Line
over Temperature vs. Input Amplitude at 2.6 GHz, CW, Typical Device
6
3
INHI INPUT
VTCM1 = 0.54V, VTCM2 = 1.1V
5
REPRESENTS 35 DEVICES
2
FROM 3 LOTS
4
1
3
0
2
â1
1
â2
0
â60
â50 â40
â30
â20
â10
0
PIN (dBm)
â3
10
Figure 16. Distribution of VOUT and Error with Respect to 25°C Ideal Line over
Temperature vs. Input Amplitude at 2.6 GHz, CW
3
INHI INPUT
VTCM1 = 0.54V, VTCM2 = 1.1V
2
REPRESENTS 35 DEVICES
FROM 3 LOTS
1
0
â1
â2
â3
â60
â50 â40
â30
â20
â10
0
10
PIN (dBm)
Figure 17. Distribution of Error with Respect to 25°C over Temperature vs.
Input Amplitude at 2.6 GHz, CW
AD8363
3.0
3
INLO INPUT
VTCM1 = 0.56V, VTCM2 = 1.0V
2.5
2
2.0
1
1.5
0
1.0
â1
0.5
â2
0
â60
â50 â40
â30
â20
â10
0
PIN (dBm)
â3
10
Figure 18. VOUT and Log Conformance Error with Respect to 25°C Ideal Line
over Temperature vs. Input Amplitude at 3.8 GHz, CW, Typical Device
3.0
3
INLO INPUT
VTCM1 = 0.56V, VTCM2 = 1.0V
2.5
REPRESENTS 35 DEVICES
FROM 3 LOTS
2
2.0
1
1.5
0
1.0
â1
0.5
â2
0
â60
â50 â40
â30
â20
â10
0
PIN (dBm)
â3
10
Figure 19. Distribution of VOUT and Error with Respect to 25°C Ideal Line over
Temperature vs. Input Amplitude at 3.8 GHz, CW
3
INLO INPUT
VTCM1 = 0.56V, VTCM2 = 1.0V
2
REPRESENTS 35 DEVICES
FROM 3 LOTS
1
0
â1
â2
â3
â60
â50 â40
â30
â20
â10
0
10
PIN (dBm)
Figure 20. Distribution of Error with Respect to 25°C over Temperature vs.
Input Amplitude at 3.8 GHz, CW
Rev. 0 | Page 11 of 36
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