Avantek Products HEWLETT PACKARD LG Thin-Film Cascadable Amplifier 5 to 1000 MHz Technical Data Features e Frequency Range: 5 to 1000 MHz High Gain: 24 dB (Typ) * Low Noise Figure: 3.5 dB (Typ) -Volt Supply High Dynamic Range Temperature Compensated Applications IF/RF Amplification 5 Volt Systems Schematic 5963-2508E Description The 1054 Series is a 5-volt two- stage, thin-film RF amplifier using active bias and resistive feedback for temperature compensation and increased immunity to bias voltage variations. Low VSWR is maintained by inductive tuning while the RF is coupled through the amplifier by internal blocking capacitors. The 1054 Series amplifiers are available in either the TO-8 hermetic case or connectored TC-1 package. UTO/UTC 1054 Series Pin Configuration UTOTO-8T GROUND RF ig CASE GROUND Ve REIN iit | | | i Four { ' | 1 Loo - ve UTCTC-1 (See Section 5 for detailed case drawings. ) Maximum Ratings Parameter Maximum DC Voltage +10.0 Volts Continuous RF Input Power +13 dBm Operating Case Temperature -55 to +125C Storage Temperature -62 to +150C R Series Burn-In Temperature +125C Thermal Characteristics Oy. 105/75C/W? Active Transistor Power Dissipation 48/109 mW? Junction Temperature Above Case Temperature 5/8C* MTBF (MIL-HDBK-217E, A, @ 90C) 575,700 Hrs. Notes: 1, For further information, see Reliability Screening, Section 6. 2. Values refer to first and second stages, respectively. Weight: (typical) UTO2.1 grams, UTC21.5 grams 1-234 Electrical Specifications (Measured in 50 0 system @ +5 VDC nominal unless otherwise noted) Symbol Characteristic r yp nn clT. ou aranteed Tee 5B to 185C Unit BW Frequency Range 5-1000 5-1000 5-1000 MHz GP Small Signal Gain (Min. )} 24.0 23.5 23.0 dB Gain Flatness (Max.) +0.3 +0.7 +0.7 dB NF Noise Figure (Max.) 3.5 40 4.5 dB Piap | Power Output @ +1 dB Comp. (Min.) +10.5 +9.5 +9.0 dBm Input VSWR (Max. ) <L5:l 2.0:1 2.0:1 Output VSWR (Max.) <1.5:1 2.0:1 2.0:1 _ IP3 Two Tone 3rd Order Intercept Point +21.0 _ _ dBm IP2 Two Tone 2nd Order Intercept Point +38.0 _ ~ dBm HP2 | One Tone 2nd Harmonic Intercept Point| +44.0 _ dBm Ip DC Current 40 _ mA Typical Performance Over Temperature Key: +25C +85C 5 _ Power Output @ 1B Gain Compression, dBm P,, dBm Gain, dB Gain 5 200 400 600 800 Power Output Frequency, MHz Input VSWR 200 4400 #6600 8=6800 = 1000 1200 s 200 400~(600 Frequency, MHz Third-Order tntercept Point Second-Order Intercept Point 60 IP, dBm 2 & 3 8 Frequency, MHz 2 200 400 600 800 1000 1200 5 200 4400 = 600 Frequency, MHz Frequency, MHz 1-235 (@ +5 VDC unless otherwise noted) Noise Figure Noise Figure, dB oe = wm nN 1000 1200 on 200 6400 600 800 1000 1200 Frequency, MHz B00 1000 1200 200 400 600 g00 = 1000-1200 5 200 400 600 Output VSWR 800 61000 1200 Frequency, MHz Second-Harmonic Intercept Point 800 =61000 1200 Frequency, MHz Automatic Network Analyzer Measurements (Typical production unit @ +25C ambient) Numerical Readings Bias = 5.00 Volts FREQ GPDEL PHASE FREQ GPDEL PHASE GHz ns DEG GHz ns DEG .050 .78 525 73 2.76 O75 78 550 73 3.11 100 17 ATH 73 3.46 125 17 -600 74 3.64 .150 15 625 05 3.79 75 TA 650 1H 3.90 200 74 675 76 3.91 225 74 700 17 3.80 250 71 725 79 3.56 275 72, 750 80 3.20 300 73 775 82 2.71 325 72 800 83 2.05 350 73 825 85 1,25 375 72 850 .B7 25 400 71 825 80 -.86 425 70 900 92 ~2.29 450 73 925 93 3.88 ATH 72 950 06 ~H.59 500 72 975 .08 ~TAT 1,000 96 9.28 Linearization Range: .05 to 1.00 GHz S-Parameters Bias = 5.00 Volts FREQUENCY Sno S21 Siz S22 MHz Mag Ang aB Ang dB Ang Mag Ang 005 OT -178.1 24.6 20.5 -34.0 21.1 21 166.95 010 05 -179.7 24.6 78 -34.0 9.8 9 172.71 020 04 175.4 24.6 | 33.9 3.6 18 174.29 030 04 -17L.7 24.6 -44 33.9 1.0 18 174.63 040 Od -167.7 24.6 79 8 18 174.60 050 04 -164.4 24.6 -IL1 2.4 18 174.50 100 06 -152.2 24.6 -25,4 34.0 7.5 18 173.04 .150 07 -148.8 24.5 ~38.7 -34.0 114 18 171.17 .200 09 -150.3 24.5 -5L8 -34.0 -15.4 18 168.66 250 Al ~154.5 24.4 64.8 34.1 -19.7 18 166.00 300 13 -159.8 24.4 -77.7 Ja 23.3 19 162.32 350 14 -165.6 24.4 -90.6 34.2 27.4 AD 157.86 400 16 -172.5 24.4 -103.5 Seb.2 -31.0 18 152.91 450 LG ~179.3 24,4 -116.5 34.3 34.5 18 147.27 500 AT 171.3 24.4 -129.6 44 38.6 17 141.05 550 AT 162.0 24.5 142.8 34.3, 42.6 AG 134.50 600 AS 1514 24.5 -156.3 34.4 46.5 wld 127.49 .650 18 139.9 24.6 ~169.9 34.4 -50.5 12 121.05 700 A9 127.6 24.6 176.1 -34.4 -54.6 10 115.30 .750 .19 114.9 24.7 161.8 34.4 -59.5 .08 111.99 .800 19 10L4 24.8 146.9 34.6 64.1 .05 116.92 .850 19 86.8 24.8 131.4 34.6 -69.3 .03 152.00 900 AZ 69.5 24.8 115.2 34.8 74.2 06 ~158.75 950 au) 47.1 24.7 98.1 -35.1 ~79.1 ll -149.77 1,000 12 15.1 24.4 80.4 -35.5 -3.9 AZ 153.20 1.100 14 63.7 23.3 44.8 -36.8 ~91.3 28 -168.85 1.200 22 -105.7 21.5 11.6 -37.6 91.7 33 173.92 1.250. 24 -117.8 20.4 3.5 37.6 -89.5 33 165.62 1.300 25 -126.5 19.3 -17.9 BTA 89.8 31 157.44 1.400 23 -139.1 17.1 -44.8 36.5 ~92.0 26 139.07 1.500 AT ~144.5 14.9 -70.1 -3BH.5 -102.1 A9 115.14 2.000 26 -97.6 4.2 -175.1 34.8 159.0 ll -83.31 3.000 16 171.8 -164 45.9 -36.5 105.7 Al 136.14 1-236