lt5516euf-trpbf Linear Technology Corporation, lt5516euf-trpbf Datasheet - Page 9
lt5516euf-trpbf
Manufacturer Part Number
lt5516euf-trpbf
Description
800mhz To 1.5ghz Direct Conversion Quadrature Demodulator
Manufacturer
Linear Technology Corporation
Datasheet
1.LT5516EUF-TRPBF.pdf
(12 pages)
APPLICATIO S I FOR ATIO
The LT5516 is a direct I/Q demodulator targeting high
linearity receiver applications, including wireless infra-
structure. It consists of an RF amplifier, I/Q mixers, a
quadrature LO carrier generator and bias circuitry.
The RF signal is applied to the inputs of the RF amplifier
and is then demodulated into I/Q baseband signals using
quadrature LO signals. The quadrature LO signals are
internally generated by precision 90° phase shifters. The
demodulated I/Q signals are lowpass filtered internally
with a –3dB bandwidth of 265MHz. The differential out-
puts of the I-channel and Q-channel are well matched in
amplitude; their phases are 90° apart.
RF Input Port
Differential drive is highly recommended for the RF inputs
to minimize the LO feedthrough to the RF port and to
maximize gain. (See Figure 2.) A 1:4 transformer is used
on the demonstration board for wider bandwidth match-
ing. To assure good NF and maximize the demodulator
gain, a low loss transformer is employed. Shunt inductor
L1, with high resonance frequency, is required for proper
impedance matching. Single-ended to differential conver-
sion can also be implemented using narrow band, discrete
L-C circuits to produce the required balanced waveforms
at the RF
the RF inputs is listed in Table 1.
Table 1. RF Input Differential Impedance
FREQUENCY
(MHz)
800
900
1000
1100
1200
1300
1400
1500
The RF
2.44V. These two pins should be DC blocked when con-
nected to ground or other matching components. The RF
input equivalent circuit is shown in Figure 5.
+
and RF
+
and RF
DIFFERENTIAL INPUT
IMPEDANCE (Ω)
–
169.7-j195.2
156.1-j181.8
145.6-j170.0
137.3-j160.0
130.7-j152.1
124.9-j144.7
119.9-j138.3
115.7-j133.1
inputs (Pins 2, 3) are internally biased at
–
U
inputs.The differential impedance of
U
W
0.779
0.766
0.753
0.740
0.729
0.718
0.707
0.698
MAG
DIFFERENTIAL S11
ANGLE (°)
U
–16.9
–18.3
–19.6
–20.9
–21.9
–23.0
–24.0
–24.9
An external resistor (R1) is connected to Pin 6 (V
the optimum DC current for I/Q mixer linearity. The IIP3 can
be improved with a smaller R1 at a price of slightly higher
NF and I
R1 are shown in the Typical Performance Characteristics.
LO Input Port
The LO inputs (Pins 10,11) should be driven differentially
to minimize LO feedthrough to the RF port. This can be
accomplished by means of a single-ended to differential
conversion as shown in Figure 2. L4, the 27nH shunt
inductor, serves to tune out the capacitive component of
the LO differential input. The resonance frequency of the
inductor should be greater than the operating frequency.
A 1:4 transformer is used on the demo board to match the
200Ω on-chip resistance to a 50Ω source. Figure 6 shows
the LO input equivalent circuit and the associated match-
ing network.
Single-ended to differential conversion at the LO inputs
can also be implemented using a discrete L-C circuit to
produce a balanced waveform without a transformer.
An alternative solution is a simple single-ended termina-
tion. However, the LO feedthrough to RF may be degraded.
Either LO
with a matching circuit, while the other input is connected
to ground through a 100pF bypass capacitor.
Table 2 shows the differential input impedance of the LO
input port.
Table 2. LO Input Differential Impedance
FREQUENCY
(MHz)
800
900
1000
1100
1200
1300
1400
1500
CC
+
. The RF performances of NF, IIP3 and IIP2 vs
or LO
DIFFERENTIAL INPUT
IMPEDANCE (Ω)
–
118.4-j65.1
110.1-j66.7
102.2-j67.5
94.6-j67.2
87.5-j66.1
80.8-j64.4
74.7-j62.1
69.3-j59.4
input can be terminated to a 50Ω source
0.552
0.517
0.512
0.505
0.498
0.490
0.480
0.469
MAG
DIFFERENTIAL S11
LT5516
ANGLE (°)
CM
–22.5
–25.4
–28.5
–31.8
–35.0
–38.3
–42.0
–45.8
) to set
5516fa
9
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