at TA = 25°C, VDD = 3.3 V,
single-ended input with RS = 50 Ω, differential output with ZL
= 100 Ω (unless otherwise noted)
Figure 6-1 Power Gain Across Temperature
Figure 6-3 Return Loss Across Temperature
Figure 6-5 Reverse Isolation Across Temperature
|
Pout / tone = −5 dBm, 10‑MHz tone
spacing |
|
Figure 6-7 OIP3 Across Temperature
|
At (2f1-f2) frequency; f2 > f1,
Pout / tone = −5 dBm, 10‑MHz tone spacing |
|
Figure 6-9 IMD3 Lower Frequency
|
At (f2-f1) frequency; f2 > f1, Pout
/ tone = −5 dBm, 10‑MHz tone spacing |
|
Figure 6-11 OIP2 Lower Frequency Across Temperature
|
At (f2+f1) frequency; f2 > f1, Pout
/ tone = −5 dBm, 10‑MHz tone spacing |
|
Figure 6-13 OIP2 Higher Frequency Across Temperature
Figure 6-15 HD2 Across Temperature
Figure 6-17 HD3 Across Temperature
Figure 6-19 HD2 vs Output Power
Figure 6-21 Output P1 dB Across Temperature
Figure 6-23 NF Across Temperature
Figure 6-25 Gain Imbalance
Figure 6-27 CMRR Across Temperature
Figure 6-29 Saturation Voltage
Figure 6-2 Power Gain Across VDD
Figure 6-4 Return Loss Across VDD
Figure 6-6 Reverse Isolation Across VDD
|
Pout / tone = −5 dBm, 10‑MHz tone
spacing |
|
Figure 6-8 OIP3 Across VDD
|
At (2f2-f1) frequency; f2 > f1,
Pout / tone = −5 dBm, 10‑MHz tone spacing |
|
Figure 6-10 IMD3 Higher Frequency
|
At (f2-f1) frequency; f2 > f1, Pout
/ tone = −5 dBm, 10‑MHz tone spacing |
|
Figure 6-12 OIP2 Lower Frequency Across VDD
|
At (f2+f1) frequency; f2 > f1, Pout
/ tone = −5 dBm, 10‑MHz tone spacing |
|
Figure 6-14 OIP2 Higher Frequency Across VDD
Figure 6-16 HD2 Across VDD
Figure 6-18 HD3 Across VDD
Figure 6-20 HD3 vs Output Power
Figure 6-22 Output P1 dB Across VDD
Figure 6-24 NF Across VDD
Figure 6-26 Phase Imbalance
Figure 6-28 CMRR Across VDD
Figure 6-30 Single-Ended S11