SL2035
IF2
NC
GND
GND
GND
GND
RFIN
RFIN
1
2
3
4
5
6
7
8
16
15
14
IF1
NC
V
CC
/VCO
LO2
LO1
V
CC
/VCO
PRSC1
V
CC
/LNA
SL
2035
13
12
11
10
9
MP16
Figure 2 Pin connections - top view
Quick Reference Data
All data applies with circuit component values given in Table 1
Characteristic
RF input operating frequency range
Input noise Figure, SSB
Conversion gain
IIP3 input referred
P1dB input referred
LO phase noise at 10 kHz offset, f
RF
1 to 1·3GHz, application as in Figure 5
Value
1000-1300
12
11
118
106
,290
Units
MHz
dB
dB
dBµV
dBc
dBc/Hz
Electrical Characteristics
Tamb =
240°C
to
185°C,
V
CC
= 5V
65%,
V
EE
= 0V. These characteristics are guaranteed by either production test or
design. They apply within the specified ambient temperature and supply voltage ranges unless otherwise stated.
Value
Characteristic
Supply current
Pin
9,11,14
Min.
Typ.
Max.
99
Units
mA
Conditions
IF output pins 1 and 16 will be nominally
connected to V
CC
through the differential
balun load as in Figure 5
Input frequency range
Composite peak input signal
Input impedance
Input return loss
Input noise figure
7,8
7,8
7,8
7,8
1000
97
27
9
1300
10
Conversion gain
8
11
Gain variation within channel
Through gain
116
IIP3
LO operating range
12,13 0·9
295
LO phase noise, 10kHz offset
LO phase noise floor
30
IF output frequency range
1,16
118
290
Operating condition only
See Figure 3
dB
See Note 1
221
dB
T
AMB
= 27°C, with input matching network
13
as in Figure 5.
dB
With differential load
12
Differential voltage gain to 50Ω load on
14
output of impedance transformer as in
Figure 5
dB
Channel bandwidth 8MHz within operating
0·5
frequency range
dB
995-1305MHz
220
125 dBµV See Note 1
GHz
Application as Figure 5. See Note 2
1·4
288
dBc/Hz Application as Figure 5
TBA dBc/Hz Application as Figure 5
MHz
Compatible with all standard IF frequencies,
60
determined by application
cont…
MHz
dBµV
NOTES
1. Any two tones within RF operating range at 92dBµV with output load as in Figure 5.
2. Use low side LO injection.
2