PULSE POWER AMPLIFIERS 0.8 GHz To 2.5 GHz - ATECorp
PULSE POWER AMPLIFIERS 0.8 GHz to 2.5 GHz Up to 10 KW output power USER BENEFITS AREAS OF APPLICATION High power, high and flat gain EMC tests Solid state amplifiers Radar systems High VSWR operation Communications (CDMA,W-CDMA,GSM ) High reliability TWT replacement Wide RF bandwidth Particules accelerators Low harmonic distorsions Worldwide services Low MAIN CECHARACTERISTICS compliant SSPxG-0.8G2.5-x Models are self-contained, forced air cooled (Water cooling on W option), broadband GaN amplifiers The front panel digital display shows forward and reflected pulsed power and system status information’s. Standard features include a built-in IEEE-488 and Ethernet interface. Standard 19’’ Operating temperature 0 C to 35 C (-10 C to 50 C on T option) Storage temperature -10 C à 50 C (-20 C to 70 C on T option) Humidity until 95% (non-condensing) OVERVIEW Model Rated Power (*) Pulse width Duty cycle SSP1-0.8G2.5-A 1 kW 0.1-100 µs 5% SSP2-0.8G2.5-A 2 kW 0.1-100 µs 5% SSP5-0.8G2.5-A 5 kW 0.1-100 µs 5% SSP10-0.8G2.5-A 10 kW 0.1-100 µs 5% (*): Minimum mean power in the pulse, measured on 50 Ohms load, VSWR 1.3:1 SSPx-0.8G2.5-x Rev 1503 www.gerac.com p1/3
SPECIFICATIONS . SSP1-0.8G2.5-A SSP2-0.8G2.5-A SSP5-0.8G2.5-A SSP10-0.8G2.5-A Pulsed saturated output power Minimum (Watts) 1 000 2 000 5 000 10 000 Typical (Watts) 1 200 2 400 5 600 11 500 Mini.@3dB compression (Watts) 900 1 800 4 500 9 000 Mini.@1dB compression (Watts) 700 1 400 3 500 7 000 (dBm) 0 0 0 0 67 min 60 min 15 15 Input for rated output 0.8 -2.5 Instantaneous frequency response (GHz) 60 min 63 min Gain (dB) Flatness (small signal to saturation) (dB) /- 2 max Gain adjustment (dB) 20 Harmonic distortion at -1 dB compression Noise figure Spurious Typical phase linearity -20 dBc (dBc) (dB) 12 12 -60 dBc (dBc) /- 4 ( /100MHz) Input impedance (Ω) 50 Output impedance (Ω) 50 Infinite for any phase, with adjustable foldback protection Mismatch VSWR tolerance Output RF sample ports (forward & reverse) (dB) 50 50 50 60 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-0.8G2.5-x Rev 1503 www.gerac.com p2/3
SSP1-0.8G2.5-A SSP2-0.8G2.5-A SSP5-0.8G2.5-A SSP10-0.8G2.5-A Pulse Capability 0.1 to 100 Pulse width (µs) Pulse Rate (KHz) 0 to 50 Duty cycle (%) 1 max. RF rise and fall (ns) 30 ns max Pulse off isolation (dB) 80 minimum TTL Pulse input Primary power voltage Primary power frequency Power consumption (Vac) Single phase Single phase Single phase three phases 100-264 100-264 100-264 100-264 500 1 100 3 200 6 000 CEI320 DS3 47 to 63 (Hz) (W max.) Air Cooling Working temperature ( C) 0 to 35 Storage temperature ( C) -10 to 50 RF input connector (Front) N fem RF output connector (Rear) 7/16 fem RF output sample ports (Rear) N fem Pulse input connector (Rear) N fem Interface connectors (Rear) IEEE488 & Ethernet Primary power connector (Rear) CEI320 CEI320 4 6 15 35 Size (WxHxD) (cm) 50.3x18x58 50.3x27x58 50.3x75x720 50.3x170x90 Weight (Kg) 36 65 170 380 Number of unities (U) x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-0.8G2.5-x Rev 1503 www.gerac.com p3/3
PULSE POWER AMPLIFIERS 1.2 GHz to 1.4 GHz Up to 140 KW output power USER BENEFITS High power, high and flat gain Solid state amplifiers High VSWR operation High reliability Wide RF bandwidth Low harmonic distorsions Worldwide services AREAS OF APPLICATION EMC tests Radar systems Communications (CDMA,W-CDMA,GSM ) TWT replacement Particules accelerators MAIN CHARACTERISTICS SSxPG-1.2G1.4-x Models are self-contained, forced air cooled (Water cooling on W option), broadband GaN amplifiers The front panel digital display shows forward and reflected pulsed power and system status information’s. Standard features include a built-in IEEE-488 and Ethernet interface. Standard 19’’ Operating temperature 0 C to 35 C (-10 C to 50 C on T option) Storage temperature -10 C à 50 C (-20 C to 70 C on T option) Humidity until 95% (non-condensing) OVERVIEW Model Rated Power (*) Pulse width Duty cycle SSP1-1.2G1.4-A 1kW 0.1-30µs 1% SSP1-1.2G1.4-B 1kW 0.1-300µs 12% SSP2-1.2G1.4-A 2kW 0.1-30µs 1% SSP5-1.2G1.4-A 5kW 0.1-30µs 1% SSP5-1.2G1.4-B 5kW 0.1-300µs 12% SSP10-1.2G1.4-A 10kW 0.1-30µs 1% SSP10-1.2G1.4-B 10kW 0.1-300µs 12% SSP20-1.2G1.4-A 20kW 0.1-30µs 1% SSP50-1.2G1.4-A 50kW 0.1-30µs 1% SSP80-1.2G1.4-A 80kW 0.1-30µs 1% SSP140-1.2G1.4-A 140kW 0.1-30µs 1% (*): Minimum mean power in the pulse, measured on 50 Ohms load, VSWR 1.3:1 SSPx-1.2G1.4-x Rev 1503 www.gerac.com p1/3
SPECIFICATIONS . SSP1-1.2G1.4-A SSP1-1.2G1.4-B SSP2-1.2G1.4-A SSP5-1.2G1.4-A SSP5-1.2G1.4-B SSP10-1.2G1.4-A SSP10-1.2G1.4-B SSP20-1.2G1.4-A SSP50-1.2G1.4-A SSP80-1.2G1.4-A SSP140-1.2G1.4-A Pulsed saturated output power Minimum (Watts) 1 000 1 000 2 000 5 000 5 000 10 000 10 000 20 000 50 000 80 000 140 000 Typical (Watts) 1 200 1 200 2 300 5 400 5 400 12 500 12 500 23 000 52 000 83 000 146 000 Mini.@3dB compression (Watts) 930 930 1 820 4 550 4 550 9 400 9 400 18 000 45 000 72 000 126 000 Mini.@1dB compression (Watts) 700 700 1 400 3 600 3 600 7 000 7 000 14 000 36 000 58 000 100 000 (dBm) 0 0 0 0 0 10 10 10 10 10 10 60 min 63 min 67 min 69 min 71,5 min 70 70 70 Input for rated output 1.2 – 1.4 Instantaneous frequency response (GHz) 60 min. 60 min 63 min 63 min 67 min 60 min Gain (dB) Flatness (small signal to saturation) (dB) /-2 max. Gain adjustment (dB) 20 Harmonic distortion at -1 dB compression -30 max (dBc) Noise figure 15 (dBc) -60 ( /100MHz) /- 4 Spurious Typical phase linearity 12 (dB) Input impedance (Ω) 50 Output impedance (Ω) 50 Infinite for any phase, with adjustable foldback protection Mismatch VSWR tolerance Output RF sample ports (forward & reverse) (dB) 50 50 50 60 60 60 60 70 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-1.2G1.4-x Rev 1503 www.gerac.com p2/3
SSP1-1.2G1.4-A SSP1-1.2G1.4-B SSP2-1.2G1.4-A SSP5-1.2G1.4-A SSP5-1.2G1.4-B SSP10-1.2G1.4-A SSP10-1.2G1.4-B SSP20-1.2G1.4-A SSP50-1.2G1.4-A SSP80-1.2G1.4-A SSP140-1.2G1.4-A Pulse Capability 0.1 to 30 0.1 to 300 0.1 to 30 0.1 to 30 0.1 to 300 0.1 to 30 Pulse width (µs) Pulse Rate (KHz) Duty cycle (%) RF rise and fall (ns) 30 max. Pulse off isolation (dB) 80 minimum Primary power frequency Power consumption 0.1 to 30 0.1 to 30 0.1 to 30 1 max. 12 max. 1 max. 1 max. 12 max. 1 max. 12 max. 1 max. 1 max. 1 max. 1 max. TTL (Vac) Single phase Single phase Single phase Single phase Single phase Single phase Single phase Single phase Single phase three phase three phase 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 47 to 63 (Hz) (W max.) Cooling 150 1 200 200 500 6 000 1 000 1 200 2 000 5 000 8 000 14 000 Air Air Air Air Air Air Air Air Air Air water 7/16 fem EIA flange EIA flange EIA flange EIA flange Working temperature ( C) 0 to 35 Storage temperature ( C) -10 to 50 N fem RF input connector (Front) RF output connector (Rear) RF output sample ports (Rear) N fem Pulse input connector (Rear) N fem Interface connector (Rear) Primary power connectors (Rear) Number of unities 0.1 to 30 0 to 50 Pulse input Primary power voltage 0.1 to 300 (U) 7/16 fem 7/16 fem 7/16 fem 7/16 fem 7/16 fem 7/16 fem IEEE488 & Ethernet CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 DS3 DS3 3 4 4 8 12 16 20 26 2 x 30 2 X 46 3 x 46 Size (WxHxD) (cm) 50.3x13x58 50.3x18x58 50.3x18x58 50.3x35x58 50.3x53x58 50.3x71x72 50.3x89x72 50.3x115x90 100x133x90 100x205x90 100x205x90 Weight (Kg) 16 150 25 50 150 100 280 200 500 800 1200 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-1.2G1.4-x Rev 1503 www.gerac.com p3/3
PULSE POWER AMPLIFIERS 1 GHz to 2 GHz Up to 50 KW output power USER BENEFITS High power, high and flat gain Solid state amplifiers High VSWR operation High reliability Wide RF bandwidth Low harmonic distorsions Worldwide services AREAS OF APPLICATION EMC tests Radar systems Communications (CDMA,W-CDMA,GSM ) TWT replacement Particules accelerators MAIN CHARACTERISTICS SSPxG-1G2-x Models are self-contained, forced air cooled (Water cooling on W option), broadband GaN amplifiers The front panel digital display shows forward and reflected pulsed power and system status information’s. Standard features include a built-in IEEE-488 and Ethernet interface. Standard 19’’ Operating temperature 0 C to 35 C (-10 C to 50 C on T option) Storage temperature -10 C à 50 C (-20 C to 70 C on T option) Humidity until 95% (non-condensing) OVERVIEW Model Rated Power (*) Pulse width Duty cycle SSP1-1G2-A 1kW 0.1-50µs 5% SSP2-1G2-A 2kW 0.1-50µs 5% SSP2-1G2-B 2kW 0.1-100µs 10% SSP5-1G2-A 5kW 0.1-50µs 5% SSP6-1G2-A 6kW 0.1-100µs 10% SSP7-1G2-A 7kW 0.1-10µs 1% SSP10-1G2-A 10kW 0.1-50µs 5% SSP20-1G2-A 20kW 0.1-10µs 1% SSP20-1G2-B 20kW 0.1-50µs 5% SSP50-1G2-A 50kW 0.1-50µs 5% (*): Minimum mean power in the pulse, measured on 50 Ohms load, VSWR 1.3:1 SSPx-1G2x Rev 1503 www.gerac.com p1/3
SPECIFICATIONS . SSP1-1G2-A SSP2-1G2-A SSP2-1G2-B SSP5-1G2-A SSP6-1G2-A SSP7-1G2-A SSP10-1G2-A SSP20-1G2-A SSP20-1G2-B SSP50-1G2-A Pulsed saturated output power Minimum (Watts) 1000 2000 2000 5000 6000 7000 10 000 20 000 20 000 50 000 Typical (Watts) 1200 2300 2300 5400 6600 7500 12 500 23 000 23 000 52 000 Mini.@3dB compression (Watts) 930 1820 1820 4550 5470 6430 9 400 18 000 18 000 45 000 Mini.@1dB compression (Watts) 700 1400 1400 3600 4300 5 000 7 000 14 000 14 000 36 000 (dBm) 0 0 0 0 0 0 10 10 10 10 68.5 min 60 min 70 min 70 min 77 min Input for rated output Instantaneous frequency response 0.9-2 (GHz) 60 min. 63 min 63 min 67 min 67.8 min Gain (dB) Flatness (small signal to saturation) (dB) /-2 max. Gain adjustment (dB) 20 Harmonic distortion at -1 dB compression Noise figure (dB) -22 max. -22 max -22 max -20 max -20 max -20 max -20 max -20max -20 max -20 max 12 12 12 15 15 15 15 15 15 15 60 60 70 70 70 (dBc) -60 ( /100MHz) /- 4 Spurious Typical phase linearity (dBc) Input impedance (Ω) 50 Output impedance (Ω) 50 Mismatch VSWR tolerance Output RF sample ports (forward & reverse) (dB) 50 50 50 60 60 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-1G2x Rev 1503 www.gerac.com p2/3
SSP1-1G2-A SSP2-1G2-A SSP2-1G2-B SSP5-1G2-A SSP6-1G2-A SSP7-1G2-A SSP10-1G2-A SSP20-1G2-A SSP20-1G2-B SSP50-1G2-A 0.1 to 10 0.1 to 50 0.1 to 10 0.1 to 50 0.1 to 50 1 max. 5 max. 1 max. 5 max. 5 max. Pulse Capability 0.1 to 50 0.1 to 50 0.1 to 100 0.1 to 50 0.1 to 100 Pulse width (µs) Pulse Rate (KHz) Duty cycle (%) RF rise and fall (ns) 30 max. Pulse off isolation (dB) 80 minimum 0 to 50 5 max. 5 max. 10 max. 5 max. 10 max. TTL Pulse input Primary power voltage Primary power frequency Power consumption (Vac) Single phase Single phase Single phase Single phase Single phase Single phase Single phase Single phase three phases three phases 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 47 to 63 (Hz) (W max.) Cooling 500 1000 1800 2200 3900 1000 4500 2600 10 000 22 000 Air Air Air Air Air Air Air Air Air water 7/16 fem TBD TBD TBD TBD Working temperature ( C) 0 to 35 Storage temperature ( C) -10 to 50 N fem RF input connector (Front) RF output connector (Rear) RF output sample ports (Rear) N fem Pulse input connector (Rear) N fem Interface connectors (Rear) Primary power connector (Rear) Number of unities (U) 7/16 fem 7/16 fem 7/16 fem 7/16 fem 7/16 fem IEEE488 CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 DS3 DS3 4 5 5 12 15 10 24 15 42 2 x 42 Size (WxHxD) (cm) 50.3x18x58 50.3x22x58 50.3x22x58 50.3x53x72 50.3x75x72 50.3x55x72 50.3x120x72 50.3x75x90 50.3x205x90 50.3x205x90 Weight (Kg) 26 44 52 160 280 150 420 280 650 2 x 650 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-1G2x Rev 1503 www.gerac.com p3/3
PULSE POWER AMPLIFIERS 2.2 GHz to 2.7 GHz Up to 60 KW output power USER BENEFITS High power, high and flat gain Solid state amplifiers High VSWR operation High reliability Wide RF bandwidth Low harmonic distorsions Worldwide services AREAS OF APPLICATION EMC tests Radar systems Communications (CDMA,W-CDMA,GSM ) TWT replacement Particules accelerators MAIN CHARACTERISTICS SSPxG-2.2G2.7-x Models are self-contained, forced air cooled (Water cooling on W option), broadband GaN amplifiers The front panel digital display shows forward and reflected pulsed power and system status information’s. Standard features include a built-in IEEE-488 and Ethernet interface. Standard 19’’ Operating temperature 0 C to 35 C (-10 C to 50 C on T option) Storage temperature -10 C à 50 C (-20 C to 70 C on T option) Humidity until 95% (non-condensing) OVERVIEW Model Rated Power (*) Pulse width Duty cycle SSP1-2.2G2.7-A 2 kW 1-20 µs 1% SSP3-2.2G2.7-A 3 kW 1-20 µs 1% SSP7-2.2G2.7-A 7 kW 1-20 µs 1% SSP10-2.2G2.7-A 10 kW 1-20 µs 1% SSP20-2.2G2.7-A 20 kW 1-20 µs 1% SSP60-2,2G2.7-A 60 kW 1-20 µs 1% (*): Minimum mean power in the pulse, measured on 50 Ohms load, VSWR 1.3:1 SSPx-2.2G2.7-x Rev 1503 www.gerac.com p1/3
SPECIFICATIONS . SSP1-2.2G2.7-A SSP3-2.2G2.7-A SSP7-2.2G2.7-A SSP10-2.2G2.7-A SSP20-2.2G2.7-A SSP60-2.2G2.7-A Pulsed saturated output power Minimum (Watts) 1 000 3 000 7 000 10 000 20 000 60000 Typical (Watts) 1 200 3 500 7 500 12 500 23 000 65000 Mini.@3dB compression (Watts) 930 2 600 6 430 9 400 18 000 55 000 Mini.@1dB compression (Watts) 700 2 000 5 000 7 000 14 000 42 000 (dBm) 0 0 0 10 10 10 60 min 63 min 68.2 min Input for rated output Instantaneous frequency response 2.2 – 2.7 (GHz) 60 min. 65 min 68.5 min Gain (dB) Flatness (small signal to saturation) (dB) /-2 max. Gain adjustment (dB) 20 Harmonic distortion at -1 dB compression Noise figure (dB) 22 max. 22 max 22 max 20 max 20 max 20 max 12 12 12 15 15 15 70 70 (dBc) -60 ( /100MHz) /- 4 Spurious Typical phase linearity (dBc) Input impedance (Ω) 50 Output impedance (Ω) 50 Infinite for any phase, with adjustable foldback protection Mismatch VSWR tolerance Output RF sample ports (forward & reverse) (dB) 50 50 50 60 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-2.2G2.7-x Rev 1503 www.gerac.com p2/3
SSP1-2.2G2.7-A SSP3-2.2G2.7-A SSP7-2.2G2.7-A SSP10-2.2G2.7-A SSP20-2.2G2.7-A SSP50-2.6G3.3-A Pulse Capability Pulse width (µs) 1 to 20 Pulse Rate (KHz) 0 to 50 Duty cycle (%) 1 max. RF rise and fall (ns) 30 max Pulse off isolation (dB) 80 min TTL Pulse input Primary power voltage Primary power frequency Power consumption (Vac) Single phase Single phase Single phase Single phase Single phase Three phase 100-264 100-264 100-264 100-264 100-264 100-264 1300 2800 7200 7/16 fem EIA flange EIA flange 47 to 63 (Hz) (W max.) 150 450 720 Air Cooling Working temperature ( C) 0 to 35 Storage temperature ( C) -10 to 50 N fem RF input connector (Front) RF output connector (Rear) RF output sample ports (Rear) N fem Pulse input connector (Rear) N fem Interface connectors (Rear) Primary power connector (Rear) Number of unities (U) 7/16 fem 7/16 fem 7/16 fem IEEE 488 & Ethernet CEI320 CEI320 CEI320 CEI320 CEI320 DS3 3 6 10 16 26 2x43 Size (WxHxD) (cm) 50.3x13x58 50.3x26x58 50.3x45x72 50.3x71x72 50.3x115x90 100x190x90 Weight (Kg) 16 36 90 180 320 870 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-2.2G2.7-x Rev 1503 www.gerac.com p3/3
PULSE POWER AMPLIFIERS 2.6 GHz to 3.3 GHz Up to 50 KW output power USER BENEFITS High power, high and flat gain Solid state amplifiers High VSWR operation High reliability Wide RF bandwidth Low harmonic distorsions Worldwide services AREAS OF APPLICATION EMC tests Radar systems Communications (CDMA,W-CDMA,GSM ) TWT replacement Particules accelerators MAIN CHARACTERISTICS SSPxG-2.6G3.3-x Models are self-contained, forced air cooled (Water cooling on W option), broadband GaN amplifiers The front panel digital display shows forward and reflected pulsed power and system status information’s. Standard features include a built-in IEEE-488 and Ethernet interface. Standard 19’’ Operating temperature 0 C to 35 C (-10 C to 50 C on T option) Storage temperature -10 C à 50 C (-20 C to 70 C on T option) Humidity until 95% (non-condensing) OVERVIEW Model Rated Power (*) Pulse width Duty cycle SSP1-2.6G3.3-A 2kW 1-20µs 1% SSP3-2.6G3.3-A 3kW 1-20µs 1% SSP7-2.6G3.3-A 7kW 1-20µs 1% SSP10-2.6G3.3-A 10kW 1-20µs 1% SSP20-2.6G3.3-A 20kW 1-20µs 1% SSP50-2.6G3.3-A 50kW 1-20µs 1% (*): Minimum mean power in the pulse, measured on 50 Ohms load, VSWR 1.3:1 SSPx-2.6G3.3-x Rev 1503 www.gerac.com p1/3
SPECIFICATIONS . SSP1-2.6G3.3-A SSP3-2.6G3.3-A SSP7-2.6G3.3-A SSP10-2.6G3.3-A SSP20-2.6G3.3-A SSP50-2.6G3.3-A Pulsed saturated output power Minimum (Watts) 2 000 3 000 7 000 10 000 20 000 50 000 Typical (Watts) 2 300 3 500 7 500 12 500 23 000 52 000 Mini.@3dB compression (Watts) 1 820 2 600 6 700 9 400 18 000 45 000 Mini.@1dB compression (Watts) 1 400 2 000 5 200 7 000 14 000 36 000 (dBm) 0 0 0 10 10 10 60 min 63 min 67 min 15 15 15 60 60 70 Input for rated output Instantaneous frequency response 2.6 – 3.3 (GHz) 63 min. 65 min 68.5 Gain (dB) Flatness (small signal to saturation) (dB) /-2 max. Gain adjustment (dB) 20 Harmonic distortion at -1 dB compression Noise figure (dB) 12 12 12 (dBc) -60 ( /100MHz) /- 4 Spurious Typical phase linearity -30 (dBc) Input impedance (Ω) 50 Output impedance (Ω) 50 Mismatch VSWR tolerance Output RF sample ports (forward & reverse) (dB) 50 50 50 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-2.6G3.3-x Rev 1503 www.gerac.com p2/3
SSP1-2.6G3.3-A SSP3-2.6G3.3-A SSP7-2.6G3.3-A SSP10-2.6G3.3-A SSP20-2.6G3.3-A SSP50-2.6G3.3-A Single phase Single phase three phase 100-264 100-264 100-264 1300 2800 7200 7/16 fem EIA flange EIA flange Pulse Capability Pulse width (µs) 1 to 20 Pulse Rate (KHz) 0 to 50 Duty cycle (%) 1 max. RF rise and fall (ns) 30 max Pulse off isolation (dB) 80 min TTL Pulse input Primary power voltage Primary power frequency Power consumption (Vac) Single phase Single phase Single phase 100-264 100-264 100-264 47 to 63 (Hz) (W max.) 150 450 720 Air Cooling Working temperature ( C) 0 to 35 Storage temperature ( C) -10 to 50 N fem RF input connector (Front) RF output connector (Rear) RF output sample ports (Rear) N fem Pulse input connector (Rear) N fem Interface connectors (Rear) IEEE488 & Ethernet Primary power connector (Rear) Number of unities (U) 7/16 fem 7/16 fem 7/16 fem CEI320 CEI320 CEI320 CEI320 CEI320 DS3 3 6 10 16 26 2x43 Size (WxHxD) (cm) 50.3x13x58 50.3x26x58 50.3x45x72 50.3x71x72 50.3x115x90 100x190x90 Weight (Kg) 16 36 90 180 320 870 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPx-2.6G3.3-x Rev 1503 www.gerac.com p3/3
PULSE POWER AMPLIFIERS 2 GHz to 4 GHz Up to 80 KW output power USER BENEFITS High power, high and flat gain Solid state amplifiers High VSWR operation High reliability Wide RF bandwidth Low harmonic distorsions Worldwide services AREAS OF APPLICATION EMC tests Radar systems Communications (CDMA,W-CDMA,GSM ) TWT replacement Particules accelerators MAIN CHARACTERISTICS SSPxG-2G4-x Models are self-contained, forced air cooled (Water cooling on W option), broadband GaN amplifiers The front panel digital display shows forward and reflected pulsed power and system status information’s. Standard features include a built-in IEEE-488 and Ethernet interface. Standard 19’’ Operating temperature 0 C to 35 C (-10 C to 50 C on T option) Storage temperature -10 C à 50 C (-20 C to 70 C on T option) Humidity until 95% (non-condensing) OVERVIEW Model Rated Power (*) Pulse width Duty cycle SSP1-2G4-A 1 kW 0.1-50 µs 4% SSP2-2G4-A 2 kW 0.1-50 µs 4% SSP2-2G4-B 2 kW 0.1-100 µs 10 % SSP5-2G4-A 5 kW 0.1-50 µs 4% SSP6-2G4-A 6 kW 0.1-100 µs 10 % SSP10-2G4-A 10 kW 0.1-50 µs 4% SSP10-2G4-B 10 kW 0.1-100 µs 10 % SSP20-2G4-A 20 kW 0.1-50 µs 4% SSP25-2G4-A 25 kW 0.1-5 µs 1% SSP80-2G4-A 80 kW 0.1-5 µs 1% (*): Minimum mean power in the pulse, measured on 50 Ohms load, VSWR 1.3:1 SSPX-2G4-X-1503 www.gerac.com p1/3
SPECIFICATIONS . SSP1-2G4-A SSP2-2G4-A SSP2-2G4-B SSP5-2G4-A SSP6-2G4-A SSP10-2G4-A SSP10-2G4-B SSP20-2G4-A SSP25-2G4-A SSP80-2G4-A Pulsed saturated output power Minimum (Watts) 1 000 2 000 2 000 5 000 6 000 10 000 10 000 20 000 25 000 80 000 Typical (Watts) 1 200 2 300 2 300 5 400 6 600 12 500 12 500 23 000 27 000 84 000 Mini.@3dB compression (Watts) 930 1 820 1 820 4 550 5 470 9 400 9 400 18 000 21 000 74 000 Mini.@1dB compression (Watts) 700 1 400 14 00 3 600 4 300 7 000 7 000 14 000 18 000 62 000 (dBm) 0 0 0 0 0 10 10 10 10 10 60 min 60 min 63 min 64 min 70 min Input for rated output Instantaneous frequency response 2-4 (GHz) 60 min. 63 min 63 min 67 min 67.8 min Gain (dB) Flatness (small signal to saturation) (dB) /-2 max. Gain adjustment (dB) 20 Harmonic distortion at -1 dB compression Noise figure (dB) -22 max. -22 max -22 max -20 max -20 max -20 max -20 max -20max -20 max -20 max 12 12 12 15 15 15 15 15 15 15 60 60 70 70 70 (dBc) -60 ( /100MHz) /- 4 Spurious Typical phase linearity (dBc) Input impedance (Ω) 50 Output impedance (Ω) 50 Mismatch VSWR tolerance Output RF sample ports (forward & reverse) (dB) 50 50 50 60 60 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPX-2G4-X-1503 www.gerac.com p2/3
SSP1-2G4-A SSP2-2G4-A SSP2-2G4-B SSP5-2G4-A SSP6-2G4-A SSP10-2G4-A SSP10-2G4-B SSP20-2G4-A SSP25-2G4-A SSP80-2G4-A Pulse Capability 0.1 to 50 0.1 to 50 0.1 to 100 0.1 to 50 0.1 to 100 0.1 to 50 0.1 to 100 0.1 to 50 0.1 to 5 0.1 to 5 4 max. 10 max. 4 max. 1 max. 1 max. Pulse width (µs) Pulse Rate (KHz) Duty cycle (%) RF rise and fall (ns) 30 max. Pulse off isolation (dB) 80 minimum 0 to 50 4 max. 4 max. 10 max. 4 max. 10 max. TTL Pulse input Primary power voltage Primary power frequency Power consumption (Vac) Single phase Single phase Single phase Single phase Single phase Single phase Single phase Single phase Single phase three phase 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 100-264 47 to 63 (Hz) (W max.) Cooling 600 1000 1900 2400 4500 4700 11 000 9200 4300 16 000 Air Air Air Air Air Air water water Air water 7/16 fem 7/16 fem EIA flange EIA flange EIA flange Working temperature ( C) 0 to 35 Storage temperature ( C) -10 to 50 N fem RF input connector (Front) RF output connector (Rear) RF output sample ports (Rear) N fem Pulse input connector (Rear) N fem Interface connectors (Rear) Primary power connector (Rear) Number of unities (U) 7/16 fem 7/16 fem 7/16 fem 7/16 fem 7/16 fem IEEE488 CEI320 CEI320 CEI320 CEI320 CEI320 CEI320 DS3 DS3 CEI320 DS3 4 6 8 15 26 30 35 2 x 35U 42 3 x 42 Size (WxHxD) (cm) 18x58 26x58 35x58 75x72 130x72 150x72 150x72 170x90 205x90 205x90 Weight (Kg) 36 65 82 160 280 150 420 280 650 3 x 650 x CHAHBAZIAN – max.chahbazian@gerac.com – Tél : 33 5 56 88 80 88 – www.gerac.com SSPX-2G4-X-1503 www.gerac.com p3/3
Pulse width 0.(µs) 1 to 300.1 to 3000.1 to 30 Pulse Rate (KHz) 0 to 50 Duty cycle (%) 1 max. 12 max.1 max. 1 max. 1 max. 1 max. 1 max. RF rise and fall (ns) 30 max. Pulse off isolation (dB) 80 minimum Pulse input TTL Primary power voltage (Vac) Single phase 100-264 Single phase 100-264 Single phase 100-264 Single phase 100-264 Single phase
RF/IF Differential Amplifiers 5 Low Noise Amplifiers 7 Low Phase Noise Amplifiers 10 Gain Blocks 11 Driver Amplifiers 13 Wideband Distributed Amplifiers 13 Power Amplifiers 15 GaN Power Amplifiers 18 Variable Gain Amplifiers 19 Analog Controlled VGAs 19 Digitally Controlled VGAs 20 Baseband Programmable VGA Filters 21 Attenuators 22
RF/IF Differential Amplifiers 9 Low Noise Amplifiers 9 Gain Blocks and Driver Amplifiers 10 Wideband Distributed Amplifiers 11 Linear and Power Amplifiers 12 GaN Power Amplifiers 13 Active Bias Controllers 13. Variable Gain Amplifiers 14. Analog Controlled VGAs 14 Digitally Controlled VGAs 14 Baseband Programmable VGA Filters 14. Attenuators 15
Semiconductor optical amplifiers (SOAs) Fiber Raman and Brillouin amplifiers Rare earth doped fiber amplifiers (erbium – EDFA 1500 nm, praseodymium – PDFA 1300 nm) The most practical optical amplifiers to date include the SOA and EDFA types. New pumping methods and materials are also improving the performance of Raman amplifiers. 3
51.3 Types of Semiconductor Optical Amplifiers SOAs can be classified as either subthreshold or gain clamped. Subthreshold amplifiers are lasers operated below threshold, and gain-clamped amplifiers are lasers operated above threshold but used as amplifiers. Subthreshold SOAs can be further classified according to whether optical feedback .
Optical Amplifiers vs Regenerators (1 of 2) Transparent: Regenerators specific to bit rate and modulation format used; O-Amps are insensitive Easily upgraded: A system with optical amplifiers can be more easily upgraded to higher bit rate without replacing the amplifiers Optical amplifiers
sistor amplifiers. Thirty years ago, transistor amplifiers were all the rage and valve amplifiers had become passe. Anybody who was anybody was discarding their large, hot and fragile valve amplifiers for small, cool, and — generally far more expensive — transistor amplifiers. Mullard and Philips had released their OC16's, which
6000 7000 RMS Pulse Power (watts) into a 50 8000 Ω Load Typical RMS Pulse Power of High Power RAM-0.5-5 Specified RMS Pulse Power of High Power RAM-0.5-5 Typical RMS Pulse Power of Standard RAM-0.25-17.5 Specified RMS Pulse Power of Standard RAM-0.25-17.5 Figure 4 Available powers as a fun
Affected Publication: API Recommended Practice 2GEO/ISO 19901-4, Geotechnical and Foundation Design Considerations, 1st Edition, April 2011 ADDENDUM 1 Page 1, 1 Scope, replace the final bullet, and insert an additional bullet as follows: design of pile foundations, and soil-structure interaction for risers, flowlines, and auxiliary subsea structures. Page 1, 2 Normative References .
