AD8315
4
3
2
ERROR (dB)
–30°C
4
3
2
ERROR (dB)
+85°C
1
0
–1
–2
–3
–4
–80
+85°C
ERROR AT +85°C AND –30°C
BASED ON DEVIATION FROM
SLOPE AND INTERCEPT AT +25°C
01520-009
1
0
–1
–2
–3
–4
–80
–30°C
ERROR AT +85°C AND –30°C
BASED ON DEVIATION FROM
SLOPE AND INTERCEPT AT +25°C
01520-012
–70
–50
–40
–30
–20
RF INPUT AMPLITUDE (dBV)
(–47dBm)
–60
–10
(+3dBm)
0
–70
–60
–50
–40
–30
–20
RF INPUT AMPLITUDE (dBV)
–10
0
(–47dBm)
(+3dBm)
Figure 9. Distribution of Error at Temperature After Ambient Normalization vs.
Input Amplitude, 3 Sigma to Either Side of Mean, 0.1 GHz
4
3
2
1
0
–1
–2
–3
+85°C
ERROR AT +85°C AND –30°C
BASED ON DEVIATION FROM
SLOPE AND INTERCEPT AT +25°C
01520-010
Figure 12. Distribution of Error at Temperature After Ambient Normalization vs.
Input Amplitude, 3 Sigma to Either Side of Mean, 1.9 GHz
4
3
2
ERROR (dB)
–30°C
ERROR (dB)
1
0
–1
–2
–3
–30°C
ERROR AT +85°C AND –30°C
BASED ON DEVIATION FROM
SLOPE AND INTERCEPT AT +25°C
+85°C
(+3dBm)
Figure 10. Distribution of Error at Temperature After Ambient Normalization vs.
Input Amplitude, 3 Sigma to Either Side of Mean, 0.9 GHz
3000
2700
2400
2100
RESISTANCE (Ω)
Figure 13. Distribution of Error at Temperature After Ambient Normalization vs.
Input Amplitude, 3 Sigma to Either Side of Mean, 2.5 GHz
10
0
–200
–400
FREQUENCY MSOP CHIP SCALE (LFCSP)
R – jXΩ
R – jXΩ
(GHz)
–600
2900 – j1900 2700 – j1500
0.1
700 – j240
730 – j220
0.9
–800
130 – j80
460 – j130
1.9
170 – j70
440 – j110
2.5
–1000
R
X (MSOP)
R (LFCSP)
X
–1200
–1400
–1600
–1800
01520-011
8
SUPPLY CURRENT (mA)
REACTANCE (Ω)
1800
X (LFCSP)
1500
1200
900
600
300
0
0
0.5
6
4
DECREASING
V
ENBL
2
INCREASING
V
ENBL
R (MSOP)
1.0
1.5
FREQUENCY (GHz)
2.0
1.4
1.5
V
ENBL
(V)
1.6
1.7
Figure 11. Input Impedance
Figure 14. Supply Current vs. V
ENBL
Rev. C | Page 8 of 24
01520-014
–2000
2.5
0
1.3
01520-013
–4
–80
–70
–50
–40
–30
–20
–10
–60
RF INPUT AMPLITUDE (dBV)
(–47dBm)
(+3dBm)
0
–4
–80
–70
–50
–40
–30
–20
RF INPUT AMPLITUDE (dBV)
(–47dBm)
–60
–10
0