mga-43328 Avago Technologies, mga-43328 Datasheet
mga-43328
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mga-43328 Summary of contents
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... QFN package. It also includes shutdown and switchable gain functions. A detector is also included on-chip. The compact footprint coupled with high gain and high efficiency make the MGA-43328 an ideal choice as a power amplifier for IEEE 802.16 (WiMAX) and WLL ap- plications. ...
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Absolute Maximum Rating T =25°C A Symbol Parameter Vdd, Vbias Supply voltages, bias supply voltage Vc Control Voltage Input Power in,max [3] P Total Power Dissipation diss T Junction Temperature j,MAX T Storage Temperature STG Electrical ...
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Product Consistency Distribution Charts LSL 28 29 Figure 1. Pout_5V; LSL = 27.7dBm, Nominal = 29.3dBm LSL Figure 3. Gain; LSL = 35dB, Nominal = 37.4dB Note: 1. Distribution data sample size is 2000 samples taken from ...
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... Unless otherwise stated, all modulated signal measurements are made with IEEE 802.16e format as stated in the notes to Figure 36. MGA-43328 typical over-temperature performance at Vdd = Vbias = 5.0V 2.1V (R2 = 1.0k 390 1.1k: as shown in Figure 36), Vbyp = 0V unless otherwise stated S21 S22 -5 -10 -15 S11 -20 -25 2 ...
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... MGA-43328 typical over-temperature performance at Vdd = Vbias = 5.0V 2.1V (R2 = 1.0k 390 1.1k: as shown in Figure 36), Vbyp = 0V unless otherwise stated. 6.0 85°C 5.5 25°C 5.0 -40°C 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 Pout/dBm Figure 11. Over-temperature EVM vs Pout @ 2.7GHz 3.0 2.8 85°C 2.6 25°C 2.4 -40°C 2.2 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 Pout/dBm Figure 13. Over-temperature Vdet vs Pout @ 2.5GHz 3.0 2.8 85°C 2.6 25°C 2.4 -40° ...
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... MGA-43328 typical over-temperature performance at Vdd = Vbias = 5.0V 2.1V (R2 = 1.0k 390 1.1k: as shown in Figure 36), Vbyp = 0V unless otherwise stated. -25 -20 -15 - Frequency offset/MHz Figure 17. Over-temperature ETSI SEM at 29dBm Pout @ 2.5GHz -25 -20 -15 - Frequency offset/MHz Figure 19. Over-temperature ETSI SEM at 29dBm Pout @ 2.7GHz 6 ETSI 85°C 25° ...
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... MGA-43328 typical over-temperature performance at Vdd = Vbias = 3.3V 2.1V (R2 = 1.0k 390 1.1k: as shown in Figure 36), Vbyp = 0V unless otherwise stated S22 -5 -10 -15 S11 -20 -25 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 Frequency/GHz Figure 20. Small-signal performance in high gain mode, Vbyp = 0V 5.0 85°C 4.5 25°C 4.0 -40°C 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 Pout/dBm Figure 22 ...
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... MGA-43328 typical over-temperature performance at Vdd = Vbias = 3.3V 2.1V (R2 = 1.0k 390 1.1k: as shown in Figure 36), Vbyp = 0V unless otherwise stated. 5.0 85°C 4.5 25°C 4.0 -40°C 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 Pout/dBm Figure 26. Over-temperature EVM vs Pout @ 2.7GHz 2.2 85°C 2.0 25°C 1.8 -40°C 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 Pout/dBm Figure 28 ...
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... MGA-43328 typical over-temperature performance at Vdd = Vbias = 3.3V 2.1V (R2 = 1.0k 390 1.1k: as shown in Figure 36), Vbyp = 0V unless otherwise stated. -25 -20 -15 - Frequency offset/MHz Figure 32. Over-temperature ETSI SEM at 26.5dBm Pout @ 2.5GHz -25 -20 -15 - Frequency offset/MHz Figure 34. Over-temperature ETSI SEM at 26.5dBm Pout @ 2.7GHz 9 ETSI 85°C 25° ...
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S-Parameter (Vdd = Vbias = 5.0V 2.1V Freq S11 S11 (GHz) (dB) (ang) 0.1 -5.33 174.42 0.2 -4.85 164.35 0.3 -4.70 152.36 0.4 -4.74 139.79 0.5 -5.18 126.58 0.6 -5.76 112.19 0.7 -6.56 96.27 0.8 -7.62 77.98 ...
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Freq S11 S11 (GHz) (dB) (ang) 4.1 -3.91 -143.66 4.2 -3.07 -154.67 4.3 -2.47 -164.94 4.4 -2.05 -174.00 4.5 -1.74 178.05 4.6 -1.48 171.02 4.7 -1.28 164.57 4.8 -1.12 158.68 4.9 -0.99 153.33 5.0 -0.87 148.79 5.1 -0.78 145.16 5.2 ...
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S-Parameter (Vdd = Vbias = 3.3V 2.1V Freq S11 S11 (GHz) (dB) (ang) 0.1 -5.27 173.78 0.2 -4.88 163.59 0.3 -4.74 151.80 0.4 -4.84 139.48 0.5 -5.24 126.53 0.6 -5.84 112.47 0.7 -6.60 96.97 0.8 -7.56 78.95 ...
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Freq S11 S11 (GHz) (dB) (ang) 4.1 -3.88 -142.30 4.2 -3.01 -153.64 4.3 -2.41 -164.09 4.4 -2.00 -173.45 4.5 -1.70 178.50 4.6 -1.44 171.23 4.7 -1.26 164.59 4.8 -1.10 158.61 4.9 -0.98 153.04 5.0 -0.86 148.57 5.1 -0.77 144.90 5.2 ...
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... Vbyp Vc 0V (normal gain) +2.1V +5V (low gain) Pins pointing out of the page (Unit is on top Figure 35. Demonstration board application circuit for MGA-43328 module 14 Vdd3 +5V C9 C10 C11 C8 C12 RFOUT C27a ...
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Application Schematic Figure 36. Application schematic in demonstration board Notes normal gain mode operation, Vbyp = 0V. Vc1, Vc2 and Vc3 are bias pins that are used to set the bias conditions to the 3 internal gain stages ...
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PCB Land Pattern and Stencil Outline 0.300 0.250 0.250 0.600 3.600 PCB Land Pattern (Top View) 0.250 0.250 C'fer 0.300 X 45° 0.675 1.520 3.240 Combined PCB Land Pattern and Stencil Outline 16 0.250 ø 0.300 C'fer 0.300 X 45° ...
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... Note : 1. All dimensions are in milimeters 2. Dimensions are inclusive of plating 3. Dimensions are exclusive of mold flash and metal burr. Part Number Ordering Information Part # Qty MGA-43328-BLKG 100 MGA-43328-TR1G 1000 17 0.203 Ref 0.000-0.05 0.85±0.05 Side View PIN #1 IDENTIFICATION CHAMFER 0.400 X 45° 0.40±0.050 3.60± ...
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Device Orientation REEL USER FEED DIRECTION COVER TAPE Tape Dimensions 18 USER FEED DIRECTION 43328 43328 YYWW YYWW CARRIER XXXX XXXX TAPE TOP VIEW 43328 YYWW XXXX END VIEW ...
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... BACK VIEW For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2010 Avago Technologies. All rights reserved. ...