at TA = 25°C, temperature
curves specify ambient temperature, single-supply operation with VDD =
5V, 100nF ac-coupling capacitors at input and output, differential input with
RS = 100Ω, and output with RL = 50Ω (unless otherwise
noted)
3-port VNA measurement, –20dBm power/port |
Figure 5-1 Gain
Across Temperature
3-port VNA measurement, –20dBm power/port |
Figure 5-3 Input Return Loss Across
Temperature
3-port VNA measurement, –20dBm power/port |
Figure 5-5 Output Return Loss Across
Temperature
3-port VNA measurement, –20dBm power/port |
Figure 5-7 Reverse Isolation Across
Temperature
Differential input with 100Ω impedance |
Figure 5-9 Gain Across Input
Power
3-port VNA measurement, –20dBm power/port |
Figure 5-11 Power Down Forward Gain
and Reverse Isolation
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-13 OIP3 Across
Temperature
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-15 IMD3 Lower Across
Temperature
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-17 IMD3 Higher Across
TemperatureFigure 5-19 IMD3 Lower Across Output
Power
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-21 OIP2 Lower Across Temperature
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-23 OIP2 Higher Across Temperature
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-25 IMD2 Lower Across Temperature
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-27 IMD2 Higher Across TemperatureFigure 5-29 IMD2 Lower Across Output
Power Figure 5-31 HD2 Across Temperature Figure 5-33 HD3 Across Temperature Figure 5-35 HD2 Across Output
Power Figure 5-37 OP1dB Across Temperature Figure 5-39 NF Across Temperature Figure 5-41 Gain Imbalance Across Temperature Figure 5-43 Phase Imbalance Across Temperature Figure 5-45 CMRR Across Temperature
f =
500MHz, 100nF ac-coupling capacitors |
Figure 5-47 Turn On Time
f =
500MHz, 22pF ac-coupling capacitors |
Figure 5-49 Turn On TimeFigure 5-51 Overload Recovery Figure 5-53 Step Response Figure 5-55 Input Return Loss, Sdd11
3-port VNA measurement, –20dBm power/port |
Figure 5-2 Gain Across Supply
Voltage
3-port VNA measurement, –20dBm power/port |
Figure 5-4 Input Return Loss Across
Supply Voltage
3-port VNA measurement, –20dBm power/port |
Figure 5-6 Output Return Loss Across
Supply Voltage
3-port VNA measurement, –20dBm power/port |
Figure 5-8 Reverse Isolation Across
Supply Voltage
Differential input with 100Ω impedance |
Figure 5-10 Input Return Loss Across
Input Power
3-port VNA measurement, –20dBm power/port |
Figure 5-12 Power Down Input and
Output Return Loss
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-14 OIP3 Across Supply
Voltage
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-16 IMD3 Lower Across Supply
Voltage
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-18 IMD3 Higher Across Supply VoltageFigure 5-20 IMD3 Higher Across Output Power
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-22 OIP2 Lower Across Supply Voltage
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-24 OIP2 Higher Across Supply Voltage
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-26 IMD2 Lower Across Supply Voltage
Pout = –4dBm/tone, 10MHz spacing |
Figure 5-28 IMD2 Higher Across Supply VoltageFigure 5-30 IMD2 Higher Across Output Power Figure 5-32 HD2 Across Supply Voltage Figure 5-34 HD3 Across Supply Voltage Figure 5-36 HD3 Across Output Power Figure 5-38 OP1dB Across Supply Voltage Figure 5-40 NF Across Supply Voltage Figure 5-42 Gain Imbalance Across Supply Voltage Figure 5-44 Phase Imbalance Across Supply Voltage Figure 5-46 CMRR Across Supply Voltage
f =
500MHz, 100nF ac-coupling capacitors |
Figure 5-48 Turn Off Time
f =
500MHz, 22pF ac-coupling capacitors |
Figure 5-50 Turn Off TimeFigure 5-52 Overload Recovery Figure 5-54 Additive (Residual) Phase
Noise Figure 5-56 Output Return Loss, Sss22