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| Silicon Bipolar MMIC 5 GHz Active Double Balanced Mixer/ IF Amp Technical Data IAM-82028 Features * 15 dB RF-IF Conversion Gain from 0.05 - 5 GHz * IF Output from DC to 2 GHz * IF Output PldB up to +12 dBm * Single Polarity Bias Supply: VCC = 7 to 13 V * Load-Insensitive Performance * Conversion Gain Flat Over Temperature * Low LO Power Requirements: 0 dBm Typical * Low RF to IF Feedthrough, Low LO Leakage * Hermetic Ceramic Surface Mount Package Description The IAM-82028 is a complete moderate-power double-balanced active mixer housed in a miniature ceramic hermetic surface mount package. It is designed for narrow or wide bandwidth commercial, industrial and military applications having RF inputs up to 5 GHz and IF outputs from DC to 2 GHz. Operation at RF and LO frequencies less than 50 MHz can be achieved using optional external capacitors to ground. The IAM-82028 is particularly well suited for applications that require load-insensitive conversion gain and good spurious signal suppression and moderate dynamic range with minimum LO power. Typical applications include frequency 28 Package PIN 1 downconversion, modulation, demodulation and phase detection for fiber-optic, GPS satellite navigation, mobile radio, and communications receivers. The IAM series of Gilbert multiplier-based frequency converters is fabricated using HP's 10 GHz fT, 25 GHz fMAX ISOSATTM-I silicon bipolar process which uses nitride self-alignment, submicrometer lithography, trench isolation, ion implantation, gold metallization and polyimide inter-metal dielectric and scratch protection to achieve excellent performance, uniformity and reliability. Typical Biasing Configuration and Functional Block Diagram 7-131 5965-9114E Absolute Maximum Ratings Parameter Device Voltage Power Dissipation[2,3] RF Input Power LO Input Power Junction Temperature Storage Temperature Absolute Maximum[1] 15 V 1200 mW +14 dBm +14 dBm 200C -65C to 200C Thermal Resistance:[2,4] jc = 45C/W Notes: 1. Permanent damage may occur if any of these limits are exceeded. 2. TCASE = 25C. 3. Derate at 22.2 mW/C for TC >146C. 4. See MEASUREMENTS section "'Thermal Resistance" in Communications Components Catalog, for more information. IAM-82028 Electrical Specifications[1], TA = 25C Symbol GC f3dBRF f3dBIF P1dB IP3 NF VSWR Parameters and Test Conditions[2]: VCC = 10 V, Vee = 0 V, Vgc = 0 V, ZO = 50 Conversion Gain RF Bandwidth (GC 3 dB Down) IF Bandwidth (GC 3 dB Down) IF Output Power at 1 dB Gain Compression IF Output Third Order Intercept Point SSB Noise Figure RF Port VSWR LO Port VSWR IF Port VSWR RFif LOif LOrf ICC RF Feedthrough at IF Port LO Leakage at IF Port LO Leakage at RF Port Supply Current RF = 2 GHz, LO = 1.75 GHz IF = 250 MHzz LO = 2 GH RF = 2 GHz, LO = 1.75 GHz RF = 2 GHz, LO = 1.75 GHz RF = 2 GHz, LO = 1.75 GHz f = 0.05 to 5 GHz f = 0.05 to 5 GHz f < 2 GHz RF = 2 GHz, LO = 1.75 GHz LO = 1.75 GHz LO = 1.75 GHz dBc dBm dBm mA 40 Units dB GHz GHz dBm dBm dB Min. 13.5 Typ. 15 5.5 0.6 8 18 16 1.5:1 2:1 2.3:1 -30 -20 -30 55 65 Max. 16.5 Note: 1. The recommended operating voltage range for this device is 7 to 13 V. Typical performance as a function of voltage is on the following page. 7-132 Typical Performance, TA = 25C, VCC = 10 V RF: -20 dBm at 2 GHz, LO: 0 dBm at 1.75 GHz (unless otherwise noted) 20 20 ICC GC 15 IF P1 dB (dBm) GC (dB) 15 75 ICC (mA) GC (dB) 15 IF P1 dB (dBm) 10 GC P1 dB 5 60 70 ICC (mA) 5 100 20 15 80 10 10 50 10 ICC 0 50 5 5 P1 dB 25 5 0 0 0 4 8 12 16 VCC (V) 0 20 0 -5 -55 -25 +25 +85 40 +125 TEMPERATURE (C) Figure 1. Conversion Gain, IF P1 dB and ICC Current vs. VCC Bias Voltage. 20 4:1 RF LO IF 3:1 GC (dB) 10 Figure 2. Conversion Gain, IF P1 dB and ICC Current vs. Case Temperature. 16 IF = 70 MHz 15 14 GC (dB) VSWR 2:1 5 12 IF = 1 GHz 0 0.1 0.2 0.5 1.0 2.0 5.0 10 RF FREQUENCY (GHz) 1:1 0.1 1.0 FREQUENCY (GHz) 10 10 -10 -5 0 LO POWER (dBm) 10 Figure 3. Typical RF to IF Conversion Gain vs. RF Frequency, TA = 25C (Low Side LO). 20 LO = 2 GHz RF to IF (dBc) LO to RF and IF (dBm) 15 GC (dB) Figure 4. RF, LO and IF Port VSWR vs. Frequency. Figure 5. RF to IF Conversion Gain vs. LO Power. 0 RF to IF LO to IF LO to RF 0 HARMONIC LO ORDER -- 12 6 27 22 41 0 23 0 35 18 38 36 1 40 52 43 59 52 73 2 >75 60 >75 74 >75 74 3 >75 >75 >75 >75 >75 >75 4 >75 >75 >75 >75 >75 >75 5 -10 1 2 3 4 5 10 LO = 4 GHz -20 5 High Side LO Low Side LO 0 0.01 0.1 1.0 2.0 4.0 -30 -40 0.1 1.0 FREQUENCY (GHz) 10 FREQUENCY, RF-LO (GHz) Figure 6. RF to IF Conversion Gain vs. IF Frequency. Figure 7. RF Feedthrough Relative to IF Carrier, dBm LO to RF and IF Leakage vs. Frequency. HARMONIC RF ORDER Xmn = Pif - P(m*rf - n*lo) Figure 8. Harmonic Intermodulation Suppression (dB Below Desired Output) RF at 1 GHz, LO at 0.752 GHz, IF at 0.248 GHz. 7-133 Package Dimensions 28 Package 1 2 8 1.27 (0.050) TYP. 7 M820 3 4 6 5 TOP VIEW 4.57 0.13 (0.180 0.005 SQ) 5.33 0.25 (0.210 0.010) 8 MAX. 0.38 0.08 (0.015 0.003) 0.76 0.13 (0.030 0.005) 2.08 0.25 (0.082 0.010) END VIEW 0.13 0.05 (0.005 0.002) 2.54 0.25 (0.100 0.010) 10.16 0.25 (0.400 0.010) 0.08 0.08 (0.003 0.003) 1.78 0.25 (0.070 0.010) SIDE VIEW DIMENSIONS ARE IN MILLIMETERS (INCHES) 7-134 |
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