R Back to Amplifier Systems Ultra Low Noise LNAs C-band LNAs X-band LNAs Ku-band LNAs 100 Davids Drive Hauppauge NY 11788 631-436-7400 Fax: 631-436-7431 www.miteq.com
AMFW SATCOM AMPLIFIER SERIES ULTRA LOW NOISE LNAs C-BAND X-BAND Ku-BAND
CIRCUIT DESCRIPTIONS MITEQ's AMF Series SATCOM amplifiers capitalize on technology developed at MITEQ during the past 25 years. This technology had been mainly in support of the radiometry community providing state-of-the-art low noise amplifier designs. Based upon a hybrid Microwave-Integrated-Circuit (MIC) approach, MITEQ utilizes chip-and-wire-construction to minimize losses to the input stage as well as supporting the subtle adjustments needed to achieve the optimum match for VSWR and noise figure. MITEQ s SATCOM amplifiers are offered with and without the use of input isolators. In both cases, feedback is the technique used in the input stage to facilitate impedance matching for an optimum balance of power (VSWR) and noise figure. SHUNT FEEDBACK SERIES FEEDBACK FEEDBACK AMPLIFIER STAGE detailed knowledge of the transistor and impedance matching circuits to achieve the best performance. MITEQ is not the only company using feedback approach to achieve low noise figures; however, many of our competitors must utilize input and interstage isolators to allow them to provide good VSWR performance in the presence of the best noise match. Although isolators are sometimes used for special applications, MITEQ has proven an ability to achieve both a good power match and an optimum noise match without isolators. This gives us a great advantage over our competition by providing the lowest noise figures available. FEEDBACK AMPLIFIER NOISE TEMPERATURE VERSUS NOISE FIGURE FEEDBACK DESIGNS Feedback based designs use a single transistor in each stage. The impedance of the FET is matched to the input or output source and load impedance by means of coupling a portion of the output signal back into the input with frequency dependent elements. Two basic types of feedback are applied, series or parallel. Series feedback is also known as "lossless" feedback because there is no additional lossy circuits added to the input of the FET. Although difficult to optimize, a lossless feedback design provides the lowest noise figures available today. In implementing this design, the engineer must pay particular attention when impedance matching the input stages. The interaction of power and noise match of the transistor must be optimized over the specified band. This optimization of a feedback amplifier design involves a tradeoff exercise between input VSWR and noise figure performance. The matching techniques utilized are best accomplished in "chip and wire" construction where subtle tuning can be realized. It is an area that requires extensive experience and a NOISE TEMPERATURE (Kelvin) 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 NOISE FIGURE (db) 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 NOISE TEMPERATURE (Kelvin) 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 NOISE FIGURE (db) 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3
FEATURES Noise Temperatures from 30 K Weatherproof Housing 3-Year Product Warranty ULTRA LOW NOISE C-BAND LNA OPTIONS Integrated 110/220 VAC Power Supply Integrated Fault Alarm Outputs Low Input/Output VSWR DC Power Connections Negative Voltage Higher Output Power Lower Gain Variation vs. Temperature AMFW SERIES AMPLIFIERS MITEQ s AMFW catalog line of waveguide amplifiers utilizes the lowest PHEMTs available offering extremely low noise figures over a variety of frequencies in the satellite communication C band. This high-reliability design allows MITEQ to offer a standard three-year warranty on amplifiers that consistently experience the harsh environments of satellite base-station operation. ELECTRICAL SPECIFICATIONS INPUT PARAMETERS Output frequency (available options) Noise temperature at +25 C (available options) Gain (available options) Gain flatness versus full bandwidth Gain flatness in 40 MHz segments over the full band Gain variation vs. temperature (-40/+60 C) Input VSWR Output VSWR Linear group delay per 40 MHz segments over the full band Parabolic group delay per 40 MHz segments over the full band Group delay ripple per 40 MHz segments over the full band Output power at 1 db compression at +23 C Output third order intercept point at +23 C Operating DC power (VDC = +12 to +28 V) SPECIFICATIONS 3.4 to 4.2 GHz 3.6 to 4.2 GHz 3.65 to 4.2 GHz 3.7 to 4.2 GHz 30 K max. 35 K max. 40 K max. 50 K max. 60 K max. 40 db min. 50 db min. 60 db min. ±0.5 db max. ±0.2 db max. 5.0 db max. 1.25:1 max. 1.5:1 max. 0.01 ns/mhz max. 0.001 ns/mhz 2 max. 0.3 ns p-p max. +10 dbm min. +20 dbm min. 180 ma nom. 1 100 Davids Drive Hauppauge, NY 11788 Tel: (516) 436-7400 Fax: (516) 436-7430
ULTRA LOW NOISE C-BAND LNA TYPICAL TEST DATA MODEL AMFW-7S-340420-30 66 GAIN 1.6:1 INPUT VSWR GAIN (db) 65 64 1.4:1 1.2:1 NOISE TEMP. ( K) 3.4 3.6 3.8 4.0 4.2 3.4 3.6 3.8 4.0 4.2 NOISE TEMPERATURE AT +23 C OUTPUT VSWR 32 1.6:1 30 1.4:1 28 1.2:1 3.4 3.6 3.8 4.0 4.2 1.0:1 3.4 3.6 3.8 4.0 4.2 ADDITIONAL OPTIONS Fault alarm circuits... Add suffix F* Bias through the output connector (+14 to +28 VDC operation)... Add suffix C Solder bias pin... Add suffix B 110/220 VAC operation... Add suffix O* DC power supply at -24 VDC... Add suffix N +15 dbm output power at 1 db compression (IP 3 = +25 dbm)... Add suffix P1 +20 dbm output power at 1 db compression (IP 3 = +30 dbm)... Add suffix P2 Gain variation vs. temp 3 db p-p... Add suffix TC * Available only to -15 C ORDERING INFORMATION Nominal Gain Designation (db) 5S = 40 6S = 50 7S = 60 Frequency Designation (GHz) 340420 = 3.40 4.20 360420 = 3.60 4.20 365420 = 3.65 4.20 370420 = 3.70 4.20 Noise Temperature (K) 30 = 30 35 = 35 40 = 40 50 = 50 60 = 60 AMFW-xx-xxxxxx-xx OUTLINE DRAWING 2.75 4.98 1.37 2.09.49.67 A 1.94 1.32 1.16 2.01.61 3.88 2.66 C L CONFORMS TO CPR229G (MIL-F-3922/52-034).25 RF OUTPUT TYPE N FEMALE CONNECTOR.89 DC POWER MS3112E10-6P MATES WITH MS3116E10-6S 1.37 1.62 DASH NUMBER TABLE DASH NO. DIM.A DESCRIPTION -1 1.15 STANDARD OR MONITOR ALARM BOARD OPTION -2 2.26 OPTIONAL MONITOR AND/OR OPTIONAL POWER SUPPLY For additional information, please contact Phil Kalisiak at extension 291, or Mark Albert at extension 389. 2 100 Davids Drive Hauppauge, NY 11788 Tel: (516) 436-7400 Fax: (516) 436-7430
FEATURES Noise Temperatures from 45 K Weatherproof Housing 3-Year Product Warranty ULTRA LOW NOISE X-BAND LNA OPTIONS Integrated 110/220 VAC Power Supply Integrated Fault Alarm Outputs Low Input/Output VSWR DC Power Connections Negative Voltage Higher Output Power Lower Gain Variation vs. Temperature ELECTRICAL SPECIFICATIONS AMFW SERIES AMPLIFIERS MITEQ s AMFW catalog line of waveguide amplifiers utilizes the lowest PHEMTs available offering extremely low noise figures over a variety of frequencies in the satellite communication X band. This high reliability design allows MITEQ to offer a standard three-year warranty on amplifiers that consistently experience the harsh environments of satellite earth-station operation. INPUT PARAMETERS Output frequency (available options) SPECIFICATIONS 7.25 to 7.75 GHz 7.1 to 8.4 GHz 8.0 to 8.4 GHz Noise temperature at +25 C (available options) 45 K max. (Note 1) 50 K max. 55 K max. 60 K max. 65 K max. Gain (available options) 40 db min. 50 db min. 60 db min. Gain flatness versus full bandwidth ±1.0 db max. Gain flatness in 40 MHz/500 MHz segments over full the band ±0.2 db/±0.5 db max. Gain variation vs. temperature (-40/+60 C) 5.0 db max. Input VSWR 1.50:1/1.25:1 max. (Note 2) Output VSWR 1.5:1 max. Linear group delay per 40 MHz segments over the full band Parabolic group delay per 40 MHz segments over the full band Group delay ripple per 40 MHz segments over the full band Output power at 1 db compression at +23 C Output third order intercept point at +23 C Operating DC power (VDC = +12 to +28 V) Note 1: 45 K noise temperature available from 7.25 to 7.75 GHz only. Note 2: VSWR specified over 7.25 to 7.75 GHz. 0.01 ns/mhz max. 0.001 ns/mhz 2 max. 0.3 ns p-p max. +10 dbm min. +20 dbm min. 130 ma nom. 1 100 Davids Drive Hauppauge, NY 11788 Tel: (516) 436-7400 Fax: (516) 436-7430
ULTRA LOW NOISE X-BAND LNA TYPICAL TEST DATA MODEL AMFW-7S-710840-50 69 GAIN 1.6:1 INPUT VSWR GAIN (db) 67 65 1.4:1 1.2:1 7.0 7.4 7.8 8.2 8.6 7.0 7.4 7.8 8.2 8.6 NOISE TEMPERATURE AT +23 C OUTPUT VSWR 65 1.6:1 KELVIN 55 45 1.4:1 1.2:1 7.0 7.4 7.8 8.2 8.6 7.0 7.4 7.8 8.2 8.6 ADDITIONAL OPTIONS Fault alarm circuits... Add suffix F* Bias through the output connector... Add suffix C Solder bias pin... Add suffix B 110/220 VAC operation... Add suffix O* DC power supply at -24 VDC... Add suffix N +15 dbm output power at 1 db compression (IP 3 = +25 dbm)... Add suffix P1 +20 dbm output power at 1 db compression (IP 3 = +30 dbm)... Add suffix P2 Gain variation vs. temp 3 db p-p... Add suffix TC * Available only to -15 C ORDERING INFORMATION Nominal Gain Designation (db) 5S = 40 6S = 50 7S = 60 Frequency Designation (GHz) 725775 = 7.25 7.75 710840 = 7.1 8.4 800840 = 8.0 8.4 Noise Temperature (K) 45 = 45 (7.25 to 7.75 GHz only) 50 = 50 55 = 55 60 = 60 65 = 65 OUTLINE DRAWING AMFW-xx-xxxxxx-xx RF OUTPUT FIELD REPLACEABLE TYPE SMA FEMALE CONNECTOR.51 [12.95].88 [22.35].910 [23.11].19 [4.83].425 [10.80].910 [23.11] "A" 2.50 [63.50] 1.25 [31.75] 1.75 [44.45] DC POWER MS3112E10 6P MATES WITH MS3116E10-6S.76 [19.30] 1.74 [44.20] 3.63 [92.20] 2.523 [64.08] 2.473 [62.81].75 [19.05].87 [22.10] 3.03 [76.96] CONFORMS TO CPR112G FLANGE.65 [16.51].200 [5.08] 2.260 [57.40] 2.66 [67.56].38 [9.65] 6 32 TAP X.25 [6.35] DEEP (TYP. 6 PLACES) DASH NUMBER TABLE DASH NO. DIM.A DESCRIPTION -1 1.69 STANDARD AND OPTIONAL [40.89] MONITOR ALARM -2 2.40 OPTIONAL POWER SUPPLY [60.96] AND/OR OPTIONAL MONITOR ALARM For additional information, please contact Phil Kalisiak at extension 291, or Mark Albert at extension 389. 2 100 Davids Drive Hauppauge, NY 11788 Tel: (516) 436-7400 Fax: (516) 436-7430
FEATURES Noise Temperatures from 65 K Weatherproof Housing 3-Year Product Warranty ULTRA LOW NOISE Ku-BAND LNA OPTIONS Integrated 110/220 VAC Power Supply Integrated Fault Alarm Outputs Low Input/Output VSWR DC Power Connections Negative Voltage Higher Output Power Lower Gain Variation vs. Temperature ELECTRICAL SPECIFICATIONS AMFW SERIES AMPLIFIERS MITEQ s AMFW catalog line of waveguide amplifiers utilizes the lowest PHEMTs available offering extremely low noise figures over a variety of frequencies in the satellite communication Ku band. This high-reliability design allows MITEQ to offer a standard three-year warranty on amplifiers that consistently experience the harsh environments of satellite earth-station operation. INPUT PARAMETERS SPECIFICATIONS Output frequency (available options) 10.7 to 12.75 GHz 11.4 to 12.2 GHz 10.95 to 11.7 GHz 11.4 to 12.75 GHz 10.95 to 12.2 GHz 11.7 to 12.75 GHz 10.95 to 12.75 GHz 12.25 to 12.75 GHz Noise temperature at +25 C (available options) 65 K max. (Note 1) 70 K max. 80 K max. 85 K max. 100 K max. Gain (available options) 40 db min. 50 db min. 60 db min. Gain flatness versus full bandwidth ±1.0 db max. Gain flatness in 40 MHz/500 MHz segments over the full band ±0.2/±0.5 db max. Gain variation vs. temperature (-40/+60 C) 5.0 db max. Input VSWR 1.25:1 max. Output VSWR Linear group delay per 40 MHz segments over the full band Parabolic group delay per 40 MHz segments over the full band Group delay ripple per 40 MHz segments over the full band Output power at 1 db compression at +23 C Output third order intercept point at +23 C Operating DC power (VDC = +12 to +28 V) Note 1: 65 K noise temperature not available on 10.7 to 12.75 GHz option. 1.5:1 max. 0.01 ns/mhz max. 0.001 ns/mhz 2 max. 0.3 ns p-p max. +10 dbm min. +20 dbm min. 130 ma nom. 1 100 Davids Drive Hauppauge, NY 11788 Tel: (516) 436-7400 Fax: (516) 436-7430
ULTRA LOW NOISE Ku-BAND LNA 59 GAIN TYPICAL TEST DATA MODEL AMFW-6S-109128-65 1.4:1 INPUT VSWR GAIN (db) 57 55 1.3:1 1.2:1 53 11 11.5 12 12.5 NOISE TEMPERATURE AT +23 C 69 1.1:1 1.9:1 11 11.5 12 12.5 OUTPUT VSWR KELVIN 67 65 1.7:1 1.5:1 63 11 11.5 12 12.5 1.3:1 11 11.5 12 12.5 ADDITIONAL OPTIONS Fault alarm circuits... Add suffix F* Bias through the output connector... Add suffix C Solder bias pin... Add suffix B 110/220 VAC operation... Add suffix O* DC power supply at -24 VDC... Add suffix N +15 dbm output power at 1 db compression (IP 3 = +25 dbm)... Add suffix P1 +20 dbm output power at 1 db compression (IP 3 = +30 dbm)... Add suffix P2 Gain variation vs. temp 3 db p-p... Add suffix TC * Available only to -15 C 1.122.19.31 RF INPUT FLANGE CONFORMS WR75 COVER FLANGE 2.673 OUTLINE DRAWING.250.200.75 ORDERING INFORMATION Nominal Gain Designation (db) 5S = 40 db 6S = 50 db 7S = 60 db Frequency Designation (GHz) 107128 = 10.7 12.75 109117 = 10.95 11.7 109122 = 10.95 12.2 109128 = 10.95 12.75 114122 = 11.4 12.2 114128 = 11.4 12.75 117128 = 11.7 12.75 122128 = 12.25 12.75 Noise Temperature (K) 65 = 65 (Not available 10.7 12.75 GHz) 70 = 70 80 = 80 85 = 85 100 = 100 RF OUTPUT FIELD REPLACEABLE TYPE SMA FEMALE CONNECTOR 1.75 AMFW-xx-xxxxxx-xx 3.17.38 2.66 1.58 1.04 6 32 TAP THRU (TYP 4 PLACES) 2.423 2.260.52.88 1.90 "x" 1.50.55 DC POWER MS3112E10 6P MATES WITH MS3116E10-6S (TYP. 6 PLACES) 6 32 TAP x.25 DEEP 2.67.25.49 DASH NUMBER TABLE DASH NO. DIM.A DESCRIPTION -1 1.68 STANDARD OR OPTIONAL [42.67] MONITOR ALARM -2 2.38 OPTIONAL POWER SUPPLY [60.55] AND/OR OPTIONAL MONITOR ALARM For additional information, please contact Phil Kalisiak at extension 291, or Mark Albert at extension 389. 2 100 Davids Drive Hauppauge, NY 11788 Tel: (516) 436-7400 Fax: (516) 436-7430
ADDITIONAL SATCOM AMPLIFIER MODELS OPERATING GAIN NOISE OUTPUT VSWR DC POWER MODEL FREQUENCY GAIN FLATNESS FIGURE POWER IN/OUT @ +15 V OUTLINE NUMBER (GHz) (db, Min.) (±db, Max.) (db, Max.) (dbm, Min.) (Max.) (ma, Nom.) DRAWING LOW NOISE AMPLIFIERS AMF-1F-009015-06-10P 0.95 1.45 16 1.00 0.60 +10 2.00 :1 100 122686 AMF-2F-009015-04-10P 0.95 1.45 30 1.00 0.35 +10 2.00 :1 150 122686 AMF-3F-009015-04-13P 0.95 1.45 43 0.50 0.35 +13 2.00 :1 200 121622 AMF-4F-009015-04-13P 0.95 1.45 55 0.50 0.35 +13 2.00 :1 250 121623-4 AMF-1F-015018-06-10P 1.5 1.8 15 1.00 0.60 +10 2.00 :1 100 122686 AMF-2F-015018-04-10P 1.5 1.8 30 0.50 0.35 +10 1.50 :1 150 122686 AMF-3F-015018-04-13P 1.5 1.8 43 0.50 0.35 +13 1.50 :1 200 121622 AMF-4F-015018-04-13P 1.5 1.8 55 0.50 0.35 +13 1.50 :1 250 121623-4 AMF-1F-022023-06-10P 2.2 2.3 14 1.00 0.60 +10 2.00 :1 100 122686 AMF-2F-022023-04-10P 2.2 2.3 28 0.50 0.35 +10 1.50 :1 125 122686 AMF-3F-022023-04-13P 2.2 2.3 43 0.50 0.35 +13 1.25/1.5 175 121622 AMF-4F-022023-04-13P 2.2 2.3 55 0.50 0.35 +13 1.25/1.5 200 121623-4 AMF-1F-030035-07-8P 3 3.5 13 1.00 0.70 +8 2.00 :1 100 122686 AMF-2F-030035-04-10P 3 3.5 26 0.50 0.35 +10 1.50 :1 125 122686 AMF-3F-030035-04-13P 3 3.5 38 0.50 0.35 +13 1.25/1.5 175 121622 AMF-4F-030035-04-13P 3 3.5 50 0.50 0.35 +13 1.25/1.5 200 121623-4 AMF-1F-034042-07-8P 3.4 4.2 13 1.00 0.70 +8 2.00 :1 75 122686 AMF-2F-034042-04-10P 3.4 4.2 26 0.50 0.40 +10 1.50 :1 125 122686 AMF-3F-034042-04-13P 3.4 4.2 38 0.50 0.40 +13 1.25/1.5 175 121622 AMF-4F-034042-04-13P 3.4 4.2 50 0.50 0.40 +13 1.25/1.5 200 121623-4 AMF-1F-058065-10-5P 5.8 6.5 11 1.00 1.00 +5 2.00 :1 60 122686 AMF-2F-058065-06-10P 5.8 6.5 22 0.50 0.60 +10 1.50 :1 100 122686 AMF-3F-058065-06-13P 5.8 6.5 29 0.50 0.60 +13 1.3/1.5 125 121622 AMF-4F-058065-06-13P 5.8 6.5 38 0.50 0.60 +13 1.3/1.5 150 121623-4 AMF-1F-059064-10-5P 5.9 6.4 11 1.00 1.00 +5 2.00 :1 60 122686 AMF-2F-059064-06-10P 5.9 6.4 22 0.50 0.60 +10 1.50 :1 100 122686 AMF-3F-059064-06-13P 5.9 6.4 30 0.50 0.60 +13 1.3/1.5 125 121622 AMF-4F-059064-06-13P 5.9 6.4 38 0.50 0.60 +13 1.3/1.5 150 121623-4 AMF-1F-072078-11-5P 7.25 7.75 10 1.00 1.10 +5 2.00 :1 60 122686 AMF-2F-072078-07-10P 7.25 7.75 20 0.50 0.65 +10 1.50 :1 100 122686 AMF-3F-072078-07-13P 7.25 7.75 28 0.50 0.65 +13 1.3/1.5 125 121622 AMF-4F-072078-07-13P 7.25 7.75 36 0.50 0.65 +13 1.3/1.5 150 121623-4 AMF-1F-073084-12-5P 7.3 8.4 10 1.00 1.20 +5 2.00 :1 60 122686 AMF-2F-073084-09-10P 7.3 8.4 19 0.75 0.90 +10 1.50 :1 100 121622 AMF-3F-073084-08-13P 7.3 8.4 25 0.50 0.80 +13 1.50 :1 125 121623-4 AMF-4F-073084-08-13P 7.3 8.4 34 0.50 0.80 +13 1.50 :1 160 121623-4 AMF-1F-079084-12-5P 7.9 8.4 10 1.00 1.20 +5 2.00 :1 60 122686 AMF-2F-079084-08-10P 7.9 8.4 18 0.50 0.80 +10 1.50 :1 75 122686 AMF-3F-079084-08-13P 7.9 8.4 25 0.50 0.80 +13 1.3/1.5 100 121622 AMF-4F-079084-08-13P 7.9 8.4 34 0.50 0.80 +13 1.3/1.5 150 121623-4 AMF-2F-107127-13-5P 10.7 12.7 15 1.50 1.30 +5 2.00 :1 80 122686 AMF-3F-107127-10-12P 10.7 12.7 24 1.00 1.00 +12 1.50 :1 100 121622 AMF-4F-107127-10-12P 10.7 12.7 32 1.00 1.00 +12 1.50 :1 150 121623-4 AMF-5F-107127-10-12P 10.7 12.7 38 1.00 1.00 +12 1.50 :1 175 121623-5 AMF-2F-122128-13-5P 12.2 12.8 15 0.50 1.30 +5 2.00 :1 80 122686 AMF-3F-122128-10-12P 12.2 12.8 24 0.50 1.00 +12 1.50 :1 100 121622 AMF-4F-122128-10-12P 12.2 12.8 32 0.50 1.00 +12 1.50 :1 150 121623-4 AMF-5F-122128-10-12P 12.2 12.8 38 0.50 1.00 +12 1.50 :1 175 121623-5
ADDITIONAL SATCOM AMPLIFIER MODELS OPERATING GAIN NOISE OUTPUT VSWR DC POWER MODEL FREQUENCY GAIN FLATNESS FIGURE POWER IN/OUT @ +15 V OUTLINE NUMBER (GHz) (db, Min.) (±db, Max.) (db, Max.) (dbm, Min.) (Max.) (ma, Nom.) DRAWING LOW NOISE AMPLIFIERS AMF-2F-127133-14-5P 12.7 13.3 15 0.50 1.40 +5 2.00 :1 80 122686 AMF-3F-127133-12-12P 12.7 13.3 23 0.50 1.20 +12 1.50 :1 100 121622 AMF-4F-127133-12-12P 12.7 13.3 30 0.50 1.20 +12 1.50 :1 150 121623-4 AMF-5F-127133-12-12P 12.7 13.3 37 0.50 1.20 +12 1.50 :1 175 121623-5 AMF-2F-132140-14-5P 13.2 14 15 0.50 1.40 +5 2.00 :1 80 122686 AMF-3F-132140-13-12P 13.2 14 23 0.50 1.30 +12 1.50 :1 100 121622 AMF-4F-132140-13-12P 13.2 14 30 0.50 1.30 +12 1.50 :1 150 121623-4 AMF-5F-132140-13-12P 13.2 14 37 0.50 1.30 +12 1.50 :1 175 121623-5 AMF-2F-140145-14-5P 14 14.5 15 0.50 1.40 +5 2.00 :1 80 122686 AMF-3F-140145-13-10P 14 14.5 23 0.50 1.30 +10 1.50 :1 125 121622 AMF-4F-140145-13-10P 14 14.5 30 0.50 1.30 +10 1.50 :1 150 121623-4 AMF-5F-140145-13-10P 14 14.5 37 0.50 1.30 +10 1.50 :1 175 121623-5 AMF-2F-145155-15-5P 14.5 15.5 15 0.50 1.50 +5 2.00 :1 80 122686 AMF-3F-145155-13-10P 14.5 15.5 23 0.50 1.30 +10 1.50 :1 125 121622 AMF-4F-145155-13-10P 14.5 15.5 30 0.50 1.30 +10 1.50 :1 150 121623-4 AMF-5F-145155-13-10P 14.5 15.5 35 0.50 1.30 +10 1.50 :1 175 121623-5 AMF-2F-177197-20-5P 17.7 19.7 12 1.50 2.00 +5 2.00 :1 80 122686 AMF-3F-177197-17-8P 17.7 19.7 20 1.00 1.70 +8 2.00 :1 100 121622 AMF-4F-177197-15-10P 17.7 19.7 28 1.00 1.50 +10 2.00 :1 150 121623-4 AMF-5F-177197-15-10P 17.7 19.7 35 1.00 1.50 +10 2.00 :1 175 121623-5 AMF-2F-180200-20-5P 18 20 12 1.50 2.00 +5 2.00 :1 80 122686 AMF-3F-180200-17-8P 18 20 20 1.00 1.70 +8 2.00 :1 100 121622 AMF-4F-180200-15-10P 18 20 27 1.00 1.50 +10 2.00 :1 150 121623-4 AMF-5F-180200-15-10P 18 20 34 1.00 1.50 +10 2.00 :1 175 121623-5 AMF-3D-265330-40-12P 26.5 33 18 1.50 4.00 +12 2.00 :1 135 127197 AMF-4D-265330-40-12P 26.5 33 24 1.50 4.00 +12 2.00 :1 180 127198 POWER AMPLIFIERS AMF-2F-005010-13-27P 0.5 1 30 1.00 1.30 +27 2.00 :1 425 118987-2 AMF-3F-007017-25-26P 0.7 1.7 30 1.00 2.50 +26 2.00 :1 380 118987-3 AMF-2F-010020-13-25P 1 2 28 1.00 1.30 +25 2.00 :1 280 118987-2 AMF-2F-012025-15-27P 1.2 2.5 22 1.50 1.50 +27 2.00 :1 325 118987-2 AMF-3B-012014-34P 1.2 1.4 30 1.00 6.00 +34 2.0/1.5 2000 117558-2 AMF-6B-025027-30-40P 2.5 2.7 40 1.00 3.00 +40 1.5 :1 5000 127402 AMF-6B-027029-40-37P 2.7 2.9 40 1.00 4.00 +37 1.5 :1 4000 127402 AMF-5B-044050-33P 4.4 5 30 1.00 5.00 +33 2.0/1.5 1500 117558-3 AMF-5B-054059-37P 5.4 5.9 35 1.00 5.00 +37 2.0/1.5 3500 118214 AMF-4B-059064-33P 5.9 6.4 30 1.00 5.00 +33 2.0/1.5 1500 116879-1 AMF-6B-079084-33P 7.9 8.4 35 1.00 5.00 +33 2.0/1.5 1500 115420-1 AMF-5B-097102-33P 9.7 10.2 30 1.00 6.00 +33 2.0/1.5 1600 115420-1 AMF-9B-140145-37P-WG 14 14.5 50 1.00 7.00 +37 1.50 :1 7000 118209 AMF-7B-140160-30P 14 16 30 1.50 8.00 +30 2.00 :1 2300 115420-1 AMF-7B-180215-23P 18 21.5 30 1.50 8.00 +23 2.00 :1 900 117469-6 AMF-6B-275300-19P 27.5 30 23 1.50 12.00 +19 2.00 :1 1100 117469-7
Davids Drive Hauppauge, NY Oser Avenue Hauppauge, NY 100 Davids Drive, Hauppauge, NY 11788 TEL.: (516) 436-7400 FAX: (516) 436-7430 D-181