100 Davids Drive, Hauppauge, NY 11788 • TEL: (631) 436-7400 • FAX: (631) 436-7430 • www.miteq.com
MIXER PRODUCTS
MODEL: SYSMM3X2934
FEATURES
Mixer with active LO tripler
RF-to-IF conversion loss ................ 9 dB
LO-to-RF fundamental leakage ...... -70 dBm
Use as an up- or downconverter
Packaging ........................................ Hermetically sealed
X3 MULTIPLIER MIXER
ELECTRICAL SPECIFICATIONS
INPUT PARAMETERS CONDITION UNITS MIN. TYP. MAX.
RF frequency range GHz 29 34
RF VSWR 50 ohm reference Ratio 2.5:1
LO frequency range GHz 9.7 10.3
LO power dBm +13 +15
V+ bias voltage @ 275 mA typ. VDC 12
V- bias voltage @ 25 mA typ. VDC -12
TRANSFER CHARACTERISTICS CONDITION UNITS MIN. TYP. MAX.
RF-to-IF conversion loss dB 9 12
LO-to-RF leakage at 3LO dBm -25 -15
LO fundamental leakage at RF dBm -70 -55
2X fundamental LO at RF dBm -60 -40
Output power at 1 dB compression point dBm -5 -1
OUTPUT PARAMETERS CONDITION UNITS MIN. TYP. MAX.
IF frequency range GHz DC 3
IF VSWR 50 ohm reference Ratio 2.5:1
MAXIMUM RATINGS
Specification temperature................ +25°C
Operating temperature .................... -40 to +65°C
Storage temperature........................ -65 to +95°C
Additional options for:
RF,IF, LO amplifiers.................... Contact MITEQ
OUTLINE DRAWING
BLOCK DIAGRAM
Note 1: Unit’s mounting surface shall be attached to a heatsink capable of
dissipating the devices power consumption without exceeding the
operating temperature limits.
NOTE: All dimensions shown in brackets [ ] are in millimeters.
NOTE: Test data supplied at 25°C;
conversion loss and isolation.
KOR SMA FIELD
REPLACEABLE
CONNECTOR
(TYP. 3 PLACES)
MOUNTING SURFACE (SEE NOTE 1).
0.75
[19.05]
0.11 [2.79] TYP.
0.12 [3.05]
0.27
[6.86]
0.15 [3.81]
1.200
[30.48]
0.12 [3.05]
0.077 [19.56]
OPTIONAL SPACER PLATE
1.20
[30.48]
0.11
[2.79]
0.25 [6.35]
0.25
[6.35]
0.13 [3.30] 0.38
[9.65]
TYP,
0.700
[17.78] 0.980
[24.892]
RF
GND
-V
V+ IF
LO
0.35
[8.89]
TYP.
0.237
[6.019]
2X Ø0.104 [2.642]
0.35
[8.89]
0.55 [13.97]
1.030 [26.16]
LO
RF IF
X2
LO
RF IF
X2
LO
RF IF
L