Final Design Review of a 1 GHz LNA / Down-Converter Charles Baylis University of South Florida April 22, 2005
LNA Design Summary IBM SiGe Design Kit - 4 layers of metal Load resistance = 50 ohms (Filter) Feedback Resistor from collector to base stabilizes circuit, provides better matching For feedback configuration I C = 6 mA, R F = 460 ohms (initial – values were changed for final schematic.
LNA Design Summary Power Consumption: Current through gain transistor + 1 mA reference current through current mirror. LC Match on Input/Output “De-Q” Inductors with resistors to improve bandwidth.
LNA Schematic 9.3 pF 6.5 nH 83 pF 560 Ω 27 pF 1.4 kΩ 7.3 nH 4.5 pF 650 Ω Input Output Ground Vcc
LNA Gain
LNA Noise Figure
LNA Input IP3
LNA Input/Output Match
LNA Compliance Reqt.Spec. MinSpec. MaxMinimumMaximumPass/Fail DC Current-10 mA-9.8 mAPass Gain14.5 dB17.5 dB16.5 dB16.9 dBPass Noise Figure -2.5 dB2.3 dB2.8 dBFail Input IP3-20 dBm--2.7 dBm-Pass Uncond. Stability ----Pass Input Return Loss 15.0 dB-15.7 dB20.9 dBPass Output Return Loss 15.0 dB dBPass
LNA Compliance-Temperature Reqt.Spec. Min Spec. Max MinimumMaximumPass/Fai l DC Current-10 mA9.3 mA (-20˚)10.2 mA (70˚)Fail Gain14.5 dB17.5 dB16.0 dB (70˚)17.5 dB (-20˚)Pass Noise Figure -2.5 dB1.93 dB (-20˚)3.24 dB (70˚)Fail Uncond. Stability ----Pass Input Return Loss 15.0 dB-14.7 dB (-20˚)21.6 dB (70˚)Fail Output Return Loss 15.0 dB-14.0 dB (70˚)31.4 dB (-20˚)Fail
LNA Compliance - Bias Reqt.Spec.MinSpecMaxMinimumMaximumPass/Fail DC Current-10 mA8.1 mA (2.7 V)11.6 mA (3.3 V) Fail Gain14.5 dB17.5 dB14.9 dB (2.7 V) 18.0 dB (3.3V) Fail Noise Figure -2.5 dB2.3 dB (3.3 V)2.9 dB (2.7 V) Fail Uncond. Stability ----Pass Input ReturnLoss 15.0 dB-12.9 dB (3.3 V) 22.2 dB (3.3V) Fail Output ReturnLoss 15.0 dB-10.7 dB (2.7 V) 30.3 dB (3 V) Fail
LNA Layout LNA In Vcc LNA Out
Mixer Design Approach f RF = 1 GHz, f LO = 860 MHz, f IF = 140 MHz Conversion gain = 9 dB = 2.82 Output Resistance = 50 Ω R L = 25 Ω Solve conversion gain equation for g m (gives starting value for current I C1 ).. Use LC network for input matching.
Mixer Design Approach Noise figure improved by shrinking reference transistor for current mirror (and associated current). Also, beta helper transistor size was increased. As in LNA, “de-Q” inductors with shunt resistors to improve bandwidth.
Mixer Schematic Input Out +Out kΩ 7 kΩ Vcc Ground 7.8 nH 3.7 pF 250 Ω 83 pF LO+LO-
Mixer Conversion Gain
Mixer Input IP3
Mixer Input/Output Match Input Reflection CoefficientOutput Reflection Coefficient
Mixer Noise Figure
Mixer Compliance Specified Gain and Bandwidth Reqt.Spec. MinSpec. MaxMinimumMaximumPass/Fail DC Current-25 mA-12.4 mAPass Gain7.5 dB10.5 dB9.3 dB10.0 dBPass Noise Figure -11 dB9.0 dB10.7 dBPass Input IP3-15 dBm Pass Input Return Loss 15.0 dB-15.2 dB26.4Pass Output Return Loss 15.0 dB-31.5 dB31.2 dBPass
Mixer Compliance - Temperature Specified Gain and Bandwidth Reqt.Spec. MinSpec. MaxMinimumMaximumPass/Fail DC Current-25 mA11.47 mA13.3 mAPass Gain7.5 dB10.5 dB7.9 dB11.1 dBFail Noise Figure -11 dB7.1 dB11.59 dBFail Input Return Loss 15.0 dB- 31.7Fail Output Return Loss 15.0 dB-31.2 dB31.6 dBPass
Mixer Compliance - Bias Specified Gain and Bandwidth Reqt.Spec. MinSpec. MaxMinimumMaximumPass/Fail DC Current-25 mA9.9 mA15.1 mAPass Gain7.5 dB10.5 dB8.2 dB10.7 dBFail Noise Figure -11 dB7.9 dB10.9 dBPass Input Return Loss 15.0 dB-13.7 dB45.4Fail Output Return Loss 15.0 dB-27.8 dB40.2 dBPass
Mixer Layout Vcc Out - Out + LO - LO +- Mixer In
LNA DRC and LVS
Mixer DRC and LVS
Conclusion Only LNA noise figure does not meet specification at nominal temperature and bias. Design has been run through multiple simulations to test its robustness.