Detailed description, Table 1. lna typical s-parameters (v, 3v, t – Rainbow Electronics MAX2685 User Manual
Page 7: 25°c)
Detailed Description
The MAX2685 consists of five major components: a
low-noise amplifier (LNA), an LNA bypass switch, a
downconverter mixer, a local-oscillator (LO) buffer, and
a power-management block.
Low-Noise Amplifier (LNA)
The LNA is a wideband, single-ended cascode amplifi-
er that operates over a wide range of frequencies. The
input of the LNA (LNAIN) requires an appropriate
matching network and a DC-blocking capacitor. The
typical operating circuit shown in Figure 1 is optimized
for frequencies around 880MHz, requiring only a 0.1µF
capacitor in series with a 12nH inductor. See Table 1
for the LNA “S” parameters for matching to other fre-
quencies.
The output of the LNA (LNAOUT) is internally biased to
V
CC
. It is internally matched to 50
Ω and incorporates
an internal DC-blocking capacitor.
LNA Bypass Switch
and Gain Control
When a large input signal is present, enable the LNA
bypass function to increase linearity and reduce supply
current. Set GAIN low to enable the LNA bypass func-
tion.
Receive Mixer
The downconverter mixer is a wideband, single-bal-
anced design with a low noise figure and high linearity.
The RF signal at the MIXIN port is mixed with the signal
at the LO port, and is downconverted to an IF frequen-
cy at the differential IF port.
RF Input
The MIXIN input requires a simple external matching
network and a series DC-blocking capacitor. See
Figure 1 for a matching network example, optimized for
880MHz operation. Table 2 lists mixer “S” parameters
for matching to other frequencies.
MAX2685
Low-Cost, 900MHz, Low-Noise Amplifier
and Downconverter Mixer
_______________________________________________________________________________________
7
Table 1. LNA Typical S-Parameters (V
CC
= +3V, T
A
= +25°C)
|
S11
|
MAG
FREQUENCY
(MHz)
800
0.761
S11
PHASE
(degrees)
-64.5
|
S21
|
MAG
S21
PHASE
(degrees)
177.9
4.98
|
S12
|
MAG
S12
PHASE
(degrees)
-163.7
|
S22
|
MAG
S22
PHASE
(degrees)
-107.3
0.376
0.018
-68.6
167.2
5.06
-167.1
840
0.753
-107.0
0.264
0.022
-73.2
156.6
5.07
-171.3
880
0.747
-94.6
0.172
0.026
-78.0
146.6
4.91
-175.7
920
0.733
-62.9
0.149
0.030
-82.8
137.7
4.68
178.0
960
0.719
-42.4
0.200
0.035
-87.5
130.3
4.40
171.0
1000
0.693
-38.8
0.263
0.039
-45.6
73.0
0.188
71.9
800
0.625
-91.3
0.483
0.191
-48.1
65.5
0.195
64.2
840
0.621
-91.3
0.423
0.198
-50.9
58.1
0.199
56.7
880
0.619
-89.9
0.370
0.201
-53.3
51.6
0.200
50.3
920
0.611
-86.1
0.337
0.202
-55.5
46.1
0.200
44.7
960
0.608
-80.9
0.322
0.201
-57.5
41.2
0.200
40.0
1000
0.607
-76.7
0.317
0.200
High-Gain Mode (GAIN = VCC)
Low-Gain Mode (GAIN = GND)