NANOWAVE Technologies Inc. is a fully
ISO 9001:2008 and AS 9100:2009 C qualified design and manufacturing company.                               

Traveling Wave Tube Amplifier (TWTA) Replacements

Nanowave Technologies Inc. is offering highly reliable Solid-State Power Power Amplifiers (SSPA) based on leading edge technologies like GaAs, LDMOS and GaN. These SSPAs are specialized for Traveling Wave Tube Amplifier (TWTA) Replacements. Custom designed and based on Nanowave's Eutectic Hybrid Technology we offer state-of-the-art power amplifier modules, which enable longer lift-time and less maintenance compared to classical TWTA solutions.


250 - 500 W X-band Pulsed SSPA Airborne Radar Applications
(10.4 - 11 GHz: Model NW105109-55)


output power:
pulse droop:
frequency:
input pulse width:
duty cycle:
pulse rate (PRF):
spurious:

 


54 / 57 dBm (250/500 Watt) minimum
< 0.5 dB
10.4 - 11.0 GHz (in 400 MHz bands)
0.2 - 15 µsec (variable)
3 % (typ) - 25 % (max)
0 - 240 kHz (variable)
-70 dBc @ rated power

full data sheet here or see below!

 


NW105109-55

250 - 500 W X-band Pulsed SSPA Ground Radar Applications
(9.2 - 9.5 GHz: Model NW9295-54)


output power:
pulse droop:
frequency:
input pulse width:
duty cycle:
rf turn on/off time:
pulse rate (PRF):
spurious:

 


54 / 57 dBm (250/500 Watt) minimum
< 0.5 dB
9.2 - 9.5 GHz
1 - 80 µsec (variable)
3 % (typ) - 5 % (max)
100 ns ON, 100 ns OFF
0 - 2,500 pps (Hz, variable)
-60 dBc @ rated power

full data sheet here or see below!


NW9295-54

 

Further Product Information:
Nanowave can provide you with similar or modified products on request. Please contact sales@nanowavetech.com for further information or use below download links!

 

NW105109-55: Airborne 250 - 500 W X-Band Pulsed Power Amplifier (TWTA Replacement)
10.4 - 11.0 GHz in 400 MHz bands, high peak powers, low pulse droop, high efficiency

NW9295-54: Ground Fixed 250 - 500 W X-Band Pulsed Power Amplifier (TWTA Replacement)
9.2 - 9.5 GHz, high peak power, low pulse droop, 100ns ON/OFF switching times, low spurious, short pulse overshoot recovery, sophisticated microprocessor based Monitoring&Control, high efficiency

   
   last update: Dec 11th, 2014
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