Datasheet
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MAX2042A
SiGe High-Linearity, 1600MHz to 3900MHz
Upconversion/Downconversion Mixer with LO Buffer
5.0V Supply, RF = 3100MHz to 3900MHz, LOW-SIDE LO INJECTION AC ELECTRICAL
CHARACTERISTICS (DOWNCONVERTER OPERATION)
(Typical Application Circuit with tuning elements outlined in Table 1. Typical values are for T
C
= +25NC, V
CC
= 5.0V, P
RF
= 0dBm,
P
LO
= 0dBm, f
RF
= 3500MHz, f
LO
= 3200MHz, f
IF
= 300MHz, unless otherwise noted.)
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
Small-Signal Conversion Loss L
C
8.2 dB
Loss Variation vs. Frequency
DL
C
f
RF
= 3450MHz to 3750MHz, any 100MHz band
Q0.085
dB
f
RF
= 3450MHz to 3750MHz, any 200MHz band
Q0.17
dB
Conversion Loss Temperature
Coefficient
TC
CL
T
C
= -40NC to +85NC
0.0091
dB/NC
Single Sideband Noise Figure NF
SSB
No blockers present 7.6 dB
Noise Figure Temperature
Coefficient
TC
NF
Single sideband, no blockers present,
T
C
= -40NC to +85NC
0.025
dB/NC
Input 1dB Compression Point IP
1dB
(Note 10) 20.6 dBm
Third-Order Input Intercept
Point
IIP3 f
RF1
- f
RF2
= 1MHz, P
RF1
= P
RF2
= 0dBm 31 dBm
IIP3 Variation with T
C
f
RF1
- f
RF2
= 1MHz, P
RF1
= P
RF2
= 0dBm,
T
C
= -40NC to +85NC
Q0.5
dB
2RF - 2LO Spur Rejection 2 x 2
f
RF
= 3500MHz,
f
LO
= 3200MHz,
f
SPUR
= 3350MHz
P
RF
= -10dBm 71
dBc
P
RF
= 0dBm 61
3RF - 3LO Spur Rejection 3 x 3
f
RF
= 3500MHz,
f
LO
= 3200MHz,
f
SPUR
= 3300MHz
P
RF
= -10dBm 87
dBc
P
RF
= 0dBm 67
RF Input Return Loss RL
RF
LO on and IF terminated into a matched
impedance
15 dB
LO Input Return Loss RL
LO
RF and IF terminated into a matched
impedance
20 dB
IF Output Impedance Z
IF
Nominal differential impedance at the
IC’s IF outputs
50
I
IF Return Loss RL
IF
RF terminated into 50I, LO driven by 50I
source, IF transformed to single-ended 50I
using external components shown in the
Typical Application Circuit
16.5 dB
RF-to-IF Isolation P
LO
= +3dBm 35 dB
LO Leakage at RF Port P
LO
= +3dBm -29.5 dBm
2LO Leakage at RF Port P
LO
= +3dBm -23 dBm
LO Leakage at IF Port P
LO
= +3dBm -31.5 dBm