LTC5542IUH#PBF Linear Technology, LTC5542IUH#PBF Datasheet - Page 12
LTC5542IUH#PBF
Manufacturer Part Number
LTC5542IUH#PBF
Description
IC, DOWN CONVERTING MIXER 2.7GHZ, QFN-20
Manufacturer
Linear Technology
Datasheet
1.LTC5542IUHPBF.pdf
(16 pages)
Specifications of LTC5542IUH#PBF
Frequency Range
1.6GHz To 2.7GHz
Supply Voltage Range
3.3V To 5V
Rf Ic Case Style
QFN
No. Of Pins
20
Operating Temperature Range
-40°C To +85°C
Rf Type
CDMA, GSM, TD-SCDMA, WCDMA
Operating Supply Voltage
3.3V
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Operating Temperature Classification
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Manufacturer
Quantity
Price
LTC5542
APPLICATIONS INFORMATION
The nominal LO input level is 0dBm although the limiting
amplifi ers will deliver excellent performance over a ±6dB
input power range. LO input power greater than 6dBm
may cause conduction of the internal ESD diodes. Series
capacitors C3 and C4 optimize the input match and provide
DC blocking.
The LO1 input impedance and input refl ection coeffi cient,
versus frequency, is shown in Table 3. The LO2 port
is identical due to the symmetric device layout and
packaging.
Table 3. LO1 Input Impedance vs Frequency
(at Pin 11, No External Matching, LOSEL = Low)
IF Output
The IF amplifi er, shown in Figure 7, has differential open-
collector outputs (IF
(IFGND), and a pin for modifying the internal bias (IFBIAS).
The IF outputs must be biased at the supply voltage (V
which is applied through matching inductors L1 and L2.
Alternatively, the IF outputs can be biased through the
center tap of a transformer. Each IF output pin draws
approximately 50mA of DC supply current (100mA total).
IFGND (pin 16) must be grounded or the amplifi er will not
draw DC current. Grounding through inductor L3 may
improve LO-IF and RF-IF leakage performance in some
applications, but is otherwise not necessary. High DC
resistance in L3 will reduce the IF amplifi er supply current,
which will degrade RF performance.
For optimum single-ended performance, the differential
IF outputs must be combined through an external IF
12
FREQUENCY
(GHz)
1.0
1.2
1.4
1.6
1.8
2.0
2.2
2.4
2.6
2.8
3.0
+
and IF
IMPEDANCE
53.3 – j15.4
30.5 + j10.5
32.3 + j13.4
33.6 + j15.7
34.7 + j17.8
35.7 + j19.7
36.4 + j21.4
36.7 + j22.9
36.3 – j9.7
29.9 – j1.6
29.0 + j5.7
INPUT
–
), a DC ground return pin
MAG
0.15
0.19
0.25
0.27
0.27
0.27
0.27
0.27
0.28
0.29
0.30
S11
ANGLE
–138.2
–174.4
+160.3
+144.1
+133.4
+125.3
+118.7
+112.8
+108.6
+105.3
–69.3
CCIF
),
transformer or discrete IF balun circuit. The evaluation
board (see Figures 1 and 2) uses a 4:1 ratio IF transformer
for impedance transformation and differential to single-
ended transformation. It is also possible to eliminate the
IF transformer and drive differential fi lters or amplifi ers
directly.
The IF output impedance can be modeled as 300Ω in
parallel with 2.1pF at IF frequencies. An equivalent small-
signal model (including bondwire inductance) is shown in
Figure 8. Frequency-dependent differential IF output
impedance is listed in Table 4. This data is referenced
to the package pins (with no external components) and
includes the effects of IC and package parasitics.
Figure 7. IF Amplifi er Schematic with Bandpass Match
DC POWER)
(OPTION TO
REDUCE
IFBIAS
R1
V
CC
Figure 8. IF Output Small-Signal Model
20
BIAS
4mA
19
19
IF
0.9nH
V
IF
CCIF
+
+
L1
AMP
T1
IF
R IF
C IF
C8
C10
L2
4:1
IF
–
18
LTC5542
18
100mA
IF
16
IF
0.9nH
OUT
–
IFGND
LTC5542
L3 (OR SHORT)
5542 F07
5542 F08
5542f
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