OUTLINE DIAGRAM
CHARACTERISTICS
TC
MODEL MC2393, MC2404, MC2405
TECHNOLOGIES INC.
Thin Film
Thin Film
Passives
Passives
RF Components
Electro-Optics
Subsystem
Subsystem
Electro-Optics
RF Components
Specifications are subject to change without notification. Consult Nanowave Technologies, Inc. for specific applications/requirements.
MODEL
MC2405
MC2404
MC2393
Frequency
5.850 – 6.425 GHz
5.850 – 6.425 GHz
5.850 – 6.425 GHz
Small Signal Gain
59 dB typ. at 25 °C
56 dB typ. at 25 °C
53 dB typ. at 25 °C
Gain Variation
Full Band
Per 2MHz
Per 40 MHz
Gain vs Temp.
Gain - 7.3 GHz
<2.0 dBp -p/575 MHz at P1dB
<0.1 dBp -p/2 MHz
<0.4 dBp -p/40 MHz
<2 dB change over –40°C to 75 °C at
any single freq. (temp. measured at
baseplate)
< 5 dB
<3.0 dBp -p/575 MHz at P1dB
<0.1 dBp -p/2 MHz
<0.4 dBp -p/40 MHz
<2 dB change over –40°C to 75 °C at
any si ngle freq. (temp. measured at
baseplate)
< 5 dB
<3.0 dBp -p/575 MHz at P1dB
<0.1 dBp -p/2 MHz
<0.4 dBp -p/40 MHz
<2 dB change over –40°C to 75 °C at
any single freq. (temp. measured at
baseplate)
< 5 dB
P1dB
Max Input Power
>20 W (+43.0 dBm)
at +75 °C bas eplate
+ 10 dBm
>10 W (+40.0 dBm)
at +75 °C baseplate
+ 10 dBm
>5 W (+37.0 dBm)
at +75 °C baseplate
+ 10 dBm
3
rd
Order Intercept Point
> +51 dBm measured for two +37
dBm carriers at +25 °C
> +48 dBm measured for two +34
dBm carriers at +25 °C
> +45 dBm me asured for two +31
dBm carriers at +25 °C
Voltage
Current (typ.)
Connector
DC Inp.Ripple
+12 to +13 VDC
12 A at +25 °C
Solder terminal feedthru capacitor
with ground terminal or lug.
Meets all specs with up to
100 mV p -p at 50 - 1200 kHz ac
input ri pple
+12 to +13 VDC
< 7.0 A at +25 °C
Solder terminal feedthru capacitor
with ground terminal or lug.
Meets all specs with up to
100 mV p -p at 50 - 1200 kHz ac
input ripple
+12 to +13 VDC
< 5.0 A at +25 °C
Solder terminal feedthru capacitor
with ground ter minal or lug.
Meets all specs with up to
100 mV p -p at 50 - 1200 kHz ac
input ripple
Input Return Loss
15 dBm min
15 dBm min
15 dBm min
Output Return Loss
15 dBm min
15 dBm min
18 dBm min
Inp. Connector
SMA-Female (N -Type Optional)
SMA -Female (N -Type O ptional)
SMA-Female (N -Type Optional)
Output Connector
SMA-Female (N -Type Optional)
SMA -Female (N -Type Optional)
SMA-Female (N -Type Optional)
RF Detector
-40 dBc ± 1.0 dB
-40 dBc ± 1.0 dB
-40 dBc ± 1.0 dB
DC Indicator
2.0 – 2.3 V
2.0 – 2.3 V
2.0 – 2.3 V
Noise Figure
10 dB max
10 dB max
10 dB max
Spurious
• -70 dBc 5.8 -6.4 GHz at P1dB -3dB
• -70 dBc at 10.95 -12.75 GHz
• -70 dBc at 3.7 -4.2 GHz
• -70 dBc 5.8 -6.4 GHz at P1dB -3dB
• -70 dBc at 10.95 -12.75 GHz
• -70 dBc at 3.7 -4.2 GHz
• -70 dBc 5.8 -6.4 GHz at P1dB -3dB
• -70 dBc at 10.95 -12.75 GHz
• -70 dBc at 3.7 -4.2 GHz
Harmonics
-50 dBc
-50 dBc
-50 dBc
Stability
Unconditionally stable into any
load/source condition
Unconditionally stable into any
load/source condition
Unconditionally stable into any
load/source condition
AM/PM Conversion
< 3°/dB at P1dB
< 3°/dB at P1dB
< 2°/dB at P1dB
Temperature
Operating
Storage
-40°C to +65 °C baseplate
-54°C to +85 °C
-40°C to +65 °C baseplate
-54°C to +85 °C
-40°C to +65 °C baseplate
-54°C to +85 °C
Humidity
5 to 9 5%
(housing is laser sealed)
5 to 95%
(housing is laser sealed)
5 to 95%
(housing is laser sealed)
Shock/vibration
No permanent damage after 2 ft drop
onto a ?” plywood surface on
concrete
No permanent damage after 2 ft drop
onto a ?” plywood surface on
concrete
No permanent damage after 2 ft drop
onto a ?” plywood surface on
concrete
MTBF
> 50 000 hrs
> 50 000 hrs
> 50 000 hrs