Rev. 5/1 6 TO 26 MHz, 15 WATTS HIGH POWER GaNPak B AMPLIFIER Typical Values Broadband....................................... High Gain....................................... High Saturated Power, Psat......................... High Third Order I.P................................ Small Hermetic Package, Cougar GaNPakB 6 MHz + db 17 Watts + dbm CougarGaNPak B SPECIFICATIONS * Guaranteed Parameter Typical to C 5 to Frequency (Min.) 6 MHz 66 MHz 66 MHz Small Signal Gain (Min.). db. db. db Gain Flatness (Max.) ± db ±2.5 db ±3. db Noise Figure (Max.) 3.5 db 4. db 5. db SWR (Max.) Input/Output <1.8:1 :1 :1 Power Output (Min.) @Psat, 62 MHz +. dbm +.5 dbm +.5 dbm +2 W +14 W +11.2 W @Psat, 6 MHz +. dbm +. dbm +. dbm +15.8 W +1 W +7.94W @4 db compression +. dbm +. dbm +. dbm 66 MHz +12.6 W +6.3 W +6.3 W Reverse Isolation 7. db 65. db 6. db DC Current (Max.) 1st Stg: +12V 2 ma 215 ma ma Linear Oper. 2nd Stg: +28V 12 ma 1 ma 16 ma Psat w/+5 dbm Input 2nd Stage: +28V 2 ma 26 ma ma Switching Speed (Max.) 2 ms 4 ms 5 ms % TTL to 9% Rise time or 1% Fall Time^ * Measured in a -ohm system at +12/+28V. ^ Faster switching speed option available upon request. INTERMODULATION PERFORMANCE Typical @ C Second Order Harmonic Intercept Point.............. Second Order Two Tone Intercept Point............... Third Order Two Tone Intercept Point................. ABSOLUTE MAXIMUM RATINGS +76 dbm +7 dbm + dbm Storage Temperature.............................. 2 to +1 C Maximum Case Temperature, +28V/+32V.............. +9 C/+75 C Maximum DC Voltage.............................. + Volts Maximum Continuous RF Input Power................ +12 dbm 1 Maximum Short Term Input Power (1 Minute Max.)...... +14 dbm Maximum Peak Power (3 µsec Max.).................. +16 dbm Burn-in Temperature, +28V......................... Thermal Resistance 2 (θjc).......................... +5. C/Watt Junction Temperature Rise Above Case (Tjc), +28V 3.... +6 C 1 If no load or a short on output; decrease input power by +1 dbm. 2 Thermal resistance is based on total power dissipation including 28 V and 12 V supply lines. 3 Junction temperature is measured by using thermal scan method. HEAT SINK WARNING: This amplifier requires an adequate heat sink to prevent damage. Maximum case temperature must not be exceeded. The package is designed to provide adequate heat transfer to proper aluminum heat sink. The amplifier provides nominal output power of 15 Watts. Each amplifier uses control circuitry to ensure safe startup and automatic thermal shutdown and recovery. The amplifiers have an external pin for TTL on/off control. On/Off Low or High can be specified; standard is Off/Low. The uses the preamp and driver stages to provide ~ db of overall gain. Heat sinking is required to keep the case temperatures within a safe operating range. A thin layer of thermal grease or HiTherm (for example the HT series) helps provide a low resistance thermal path between the case and the mounting surface. The mounting surface should be metal with heat conduction of aluminum or better. Heat sink size depends on whether fan-driven air cooling is used, or if only convection is used. Maximum Tj of amplifier is 2 C. DIMENSIONS ARE IN INCHES [MILLIMETERS]
GAIN - db GAIN - db Gain vs Supply Voltage Vcc = 24/28/32 6 8 1 12 1 16 18 2 22 2 26 Gain vs Temperature C @ 24V C @ 28V C @ 32V 36 6 8 1 12 1 16 18 2 22 2 26 IP3 - dbm NOISE FIGURE - db 4.5 4. 3.5 3. 2.5 Noise Figure 6 8 1 12 1 16 18 2 22 2 26 52 6 8 1 12 1 16 18 2 22 2 26 1 9 Third Order Intercept Point Second Order Intercept Point IP2 - dbm 8 7 6 6 8 1 12 1 16 18 2 22 2 26 2nd Harmonics - dbm 1 9 8 7 6 Second Order Harmonics 6 8 1 12 1 16 18 2 22 2 26 DC CURRENT @ +28 V LINE (ma) 26 2 22 2 18 16 1 12 DC Current vs Pin 6 MHz 8 MHz 1 MHz 12 MHz 1 MHz 16 MHz 18 MHz 2 MHz 22 MHz 2 MHz 26 MHz 1
(cont.) SATURATION POWER - dbm Power Output at 4 db Compression 6 8 1 12 1 16 18 2 22 2 26 Power Saturation at 2 dbm Vcc = 28/32 6 8 1 12 1 16 18 2 22 2 26 Pin Vs. Pout at 6 MHz Pout Pout Compress Compress 1 2 Pin Vs. Pout at 1 MHz Pout Pout Compress Compress 1 5-14 3 2 1 1 2 3 2 4 5 NOTE: Pin vs Pout at other frequencies available upon request. Pin Vs. Pout at 1 MHz Pout Pout Compress Compress 1 2 Pin Vs. Pout at 18 MHz Pout Pout Compress Compress 1 2 Pin Vs. Pout at 22 MHz Pout Pout Compress Compress 1 2 Pin Vs. Pout at 26 MHz Pout Pout Compress Compress 1 2
(cont.) INPUT VSWR OUTPUT VSWR PAE% PAE% 3 2 15 1 5 2 15 1 5 PAE (%) Vcc = 12/28 6 4 2 2 4 6 8 POWER IN - dbm 1.8 1.6 1.4 1.2 1.8 1.6 1.4 1.2 6 MHz 8 MHz 1 MHz 12 MHz 1 MHz PAE (%) Vcc = 12/28 16 MHz 18 MHz 2 MHz 22 MHz 2 MHz 26 MHz 6 4 2 2 4 6 8 POWER IN - dbm Input VSWR vs Frequency Output VSWR vs Frequency 1. 6 8 1 12 1 16 18 2 22 2 26 28 1. 6 8 1 12 1 16 18 2 22 2 26 28 Model: Vcc=+12V / +28V Temp = + C.4.19 6.55 119.65 64..3.2. 81.12.5. 3.56 1..87.3 32.11.15 85.8.6. 6.76 13. 3.86.3 71.. 112..7. 28. 121.69..3 128.15. 91.18.8.19 55.18 116.7 175.51.2 86.16. 67.15.9.16 73.98 114.15 1.96.2 51..26. 1.14 174.36 114.3 72.78.3 17.21.2 28.26 1.1.14 163. 115.59 21.86.3 -.19.13 24.1 1.2.15 1.71 118.54 8.79.3 9.55.1.83 1.3.16 13. 1.5.11.3 5..11 49.18 1.4.15 11. 132.26.4.3.93.12. 1.5.16 11.66 1.99 174..3 73.3.12.87 1.6.17 8.9 16.26 117.94.3 1.24.15 55.1 1.7.16 58. 175. 57.71.4 78.22.21.11 1.8.14. 184.18..4.9. 12.97 1.9.13.2 187.26 8.77.4 3.32.17.2 2.11.1 178. 34..4..2 82.49 2.1.8 3.73 16.63 16.82.3 19.18.18 62.22 2.2.9 2 1.72 98.82.4 58.2.26 26. 2.3.1 9 1.21.1.4 154.36.24.21 2.4.13 26.75 1.78 8.13.4 113.6.16 6.69 2.5.14 177.94 1.76 8.83.5.67.15 7.8 2.6.12 1.64 12.8 74..5.8..34 2.7.15 1.8 16.82 98.7.5 3.11.14 -.96 2.8.17 78.99 66.12 6.79.3 72.83.14.951 Model: Vcc=+12V / +28V Temp =.4.19 6. 14.83 61.93.4.. 83.91.5.24 3.64 115.95 1.89.3 3.56.16 94..6. 7.22 11.14 6.74.4 72.82. 112.15.7.24 28.57 12..96.3 1.87.32 9..8.2 54.72 97.85 172.82.3 95.61.32 66.17.9.17 73.8 96.13 121.8.3...98 1.15 174.88 95.82 69.67.3 15.3.2. 1.1.16 162.57 97.11 18.49.2 2.6.13.22 1.2.17 1.57 99.2 2..3 7.6.11 36.3 1.3.18 128.32 14. 3.88.3 4.74.12.8 1.4.19 19.6 111.9 36.55.3..12.81 1.5.18 89.14 119.63 168.71.3 76..11.11 1.6.19 73.83 1.85 112.56.4 1..14 6. 1.7.18 51.2 1. 51.75.5 91.91.22 49.1 1.8.16.8 1.61.58.5.51.26 16.14 1.9.14 15.8 1. 4.62.4 4.26.17 5. 2.12.21 136.83.75.4 9.77.3 57.62 2.1.1 5.6 121.22 156.1.5 22..18 58. 2.2.1 -.82 16.51 94.64.4.99.. 2.3.11 5.66 97..32.3 167..24.71 2.4.12.3 9.62.24.3 113..17 7.2 2.5.13 17.28 83.92 6.91.4.17.13.98 2.6.11 128. 77.93 66.1.4 6.55.19 2. 2.7.9 118. 73.65 116.72.5 3.57.19 3. 2.8.11 88.36 57.5 26.6.5.2.15 8. Model: Vcc=+12V / +28V Temp = 55 C.4.19 4.89 1.53 69..3 7.74. 79.9.5.22 1.72 16.34.16.2 34..14 79.84.6.24 5.7 156.19.12.3 77.99.22 115..7.22.69 1.22 28..2 1.95. 93.12.8.18 56.15 1.89 178.18.2 94.83. 67.66.9.14 76.59 1.97 126.57.2...6 1.12 172.57 1.24 75.49.2 22.54.2 24.89 1.1.11 164.73 136.98 24.8.2 -.11.14 17.19 1.2.12 153.76 1.13 5.58.2 5..9. 1.3.12 1.89 1.56 6..2 3..1. 1.4.13 1.16 158.68.82.2 53..12.69 1.5.14 111.16 175.52 178.81.2 165.4.13.87 1.6.15 9.68 195.99 122.54.3 128.6.16. 1.7.14 68.88 218.1 62.65.3 72.71.21 36.21 1.8.12 54.5 2.76.34.3.79. 8. 1.9.12.8 2.66 4.65.3 3.98.16 -.51 2.9 14. 6.86..3 7.15.2 76.7 2.1.7 12.24 217. 162.79.3 17.99.18 6.92 2.2.9.75 198.85 99.58.3 72.95.26. 2.3.11 -.14 193. 36..3 1.91.24. 2.4.14 5.11 2.26 2.24.3 93.85.15 4.2 2.5.14 56.7.58 1.6.4.68.18 8.36 2.6.17 75.58 184.12 162.32.4 -.8.21 -.6 2.7.28 1.91 1.7 67.22.4 22.87.1 1.22 2.8.24 8.54 65.74 8.26.3 1..14 5.94
OUTLINE DRAWING - COUGAR GaNPak B (cont.)