GaAs High Linearity Noise Amplifier Avago Technologies AMMC-6222

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GaAs High Linearity Noise Amplifier Avago Technologies AMMC-6222

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AMMC-6222
GaAs High Linearity Noise Amplifier
Avago Technologies AMMC-6222 easy-to-use broadband, high gain, high linearity Noise Amplifier that operates from 21GHz. wide band unconditionally stable performance makes this MMIC ideal primary sub-sequential noise block transmitter driver. MMIC gain stages requires 120mA power supply optimal performance. selectable switch between high current, corresponding with high output power linearity. DC-block capacitors integrated input output stages. Since this MMIC covers several bands, reduce part inventory increase volume purchase options MMIC fabricated using PHEMT technology provide exceptional noise, gain power performance. backside chip both ground which helps simplify assembly process reduce assembly related performance variations cost.
Features
2000m 800m Size Single Positive Bias Supply Selectable Output Power Linearity Negative Gate Bias Frequencies: High Output IP3: 29dBm High Small-Signal Gain: 25dB Typical Noise Figure: 2.4dB Input, Output Match: -10dB
Specifications (Vdd 4.0V, 120mA)
Applications
Microwave Radio systems Satellite VSAT, Up/Down Link LMDS Pt-Pt Long Haul Broadband Wireless Access (including 802.16 802.20 WiMax) MMDS loops Commercial grade military
Note: This MMIC uses depletion mode pHEMT devices.
Chip Size: 2000m (31.5 78.74 mils) Chip Size Tolerance: (±0.4 mils) Chip Thickness: ±0.4 mils) Dimensions: mils)
Attention: Observe precautions handling electrostatic sensitive devices.
Machine Model (60V) Human Body Model (150V) Refer Avago Application Note A004R: Electrostatic Discharge Damage Control
Absolute Maximum Ratings
Parameters/Condition Drain Ground Voltage Gate-Drain Voltage Drain Current Input Power channel temperature Storage temperature Maximum Assembly Temp Symbol Tstg Tmax Unit
Operation excess these conditions result permanent damage this device. absolute maximum ratings Vdd, Vgd, were determined ambient temperature 25°C unless noted otherwise.
Specifications/ Physical Properties
Parameter Test Condition Drain Supply Current under power drive temp. (Vd=4.0 Drain Supply Voltage Thermal Resistance(3) Symbol Unit °C/W
Ambient operational temperature TA=25°C unless noted Channel-to-backside Thermal Resistance (Tchannel 34°C) measured using infrared microscopy. Thermal Resistance backside temp. (Tb) 25°C calculated from measured data.
AMMC-6222 Specifications
25°C, Idd=120mA, Zo=50 Freq Parameters Test Conditions Drain Current Small-Signal Gain[4] Noise Figure into
High Output Power Configuration Typical
Output Power Configuration Typical
Symbol Gain
Unit
(GHz)
Output Power Gain Compression Output Third Order Intercept Point Isolation Input Return Loss Output Return Loss
P-dB OIP3 RLin RLout
tested parameters guaranteed with measurement accuracy gain PdB, ±0.8dB ±5dBm OPI3 high output power configuration.
Typical distribution Gain, Noise Figure P1dB based 1500 parts AMMC-6222 Typical Performance High Current, High Output Power Configuration
25°C, Vdd=4V, Idd=120mA, Zout on-wafer unless noted)
Noise Figure (dB)
(dB) Frequency (GHz)
Frequency (GHz)
Figure Small-signal Gain
Figure Noise Figure
OP1dB (dBm)
(dB)
Frequency (GHz)
Frequency (GHz)
Figure Input Return Loss
Frequency (GHz)
Figure Output P-1dB
Frequency (GHz)
Figure Output Return Loss
Note: Noise Figure measured with 3-dB input
Figure Output
OIP3 (dBm)
(dB)
AMMC-6222 Typical Performance High Current, High Output Power Configuration (Cont)
25°C, Vdd=4V, Idd=120mA, Zout on-wafer unless noted)
(dB) Frequency (GHz)
(mA)
Figure Isolation
Figure over
Noise Figure (dB)
(dB)
Frequency (GHz)
Frequency (GHz)
Figure Small-signal Gain Over
Figure 10a. Noise Figure Over
(dB)
(dB)
Frequency (GHz)
Frequency (GHz)
Figure 11a. Input Return Loss Over
Figure 12a. Output Return Loss Over
AMMC-6222 Typical Performance High Current, High Output Power Configuration (Cont)
25°C, Vdd=4V, Idd=120mA, Zout on-wafer unless noted)
OP1dB (dBm) Frequency (GHz)
Frequency (GHz)
Figure 13a. Output P1dB over
Figure 14a. Output over
Noise Figure (dB)
-40C +85C
(dB) Frequency (GHz)
-40C
OIP3 (dBm)
Frequency (GHz)
Figure 15a. Small-signal Gain Over Temp
(dB)
-40C
Figure 16a. Noise Figure Over Temp
(dB)
-40C
Frequency (GHz)
Frequency (GHz)
Figure 17a. Input Return Loss Over Temp
Figure 18a. Output Return Loss Over Temp
AMMC-6222 Typical Performance Current, Output Power Configuration
25°C, Vdd=4V, Idd=95mA, Zout on-wafer unless noted)
Noise Figure (dB)
(dB) Frequency (GHz)
Frequency (GHz)
Figure Small-signal Gain
Figure Noise Figure
OP1dB (dBm)
(dB) Frequency (GHz)
Frequency (GHz)
Figure Input Return Loss
Figure Output P-1dB
OIP3 (dBm)
(dB) Frequency (GHz)
Frequency (GHz)
Figure Output Return Loss
Figure Output
Note: Noise Figure measured with 3-dB input
AMMC-6222 Typical Performance Current, Output Power Configuration (Cont)
25°C, Vdd=4V, Idd=95mA, Zout on-wafer unless noted)
(dB)
Frequency (GHz)
Figure Isolation
Figure over
Noise Figure (dB)
(dB)
Frequency (GHz)
Frequency (GHz)
Figure Small-signal Gain Over
Figure 10b. Noise Figure Over
(dB)
(dB)
Frequency (GHz)
Frequency (GHz)
Figure 11b. Input Return Loss Over
Figure 12b. Output Return Loss Over
AMMC-6222 Typical Performance Current, Output Power Configuration (Cont)
25°C, Vdd=4V, Idd=95mA, Zout on-wafer unless noted)
OP1dB (dBm)
OIP3 (dBm)
Frequency (GHz)
Frequency (GHz)
Figure 13b. Output P1dB over
Figure 14b. Output over
Noise Figure (dB)
-40C +85C
(dB)
-40C
Frequency (GHz)
Frequency (GHz)
Figure 15b. Small-signal Gain Over Temp
Figure 16b. Noise Figure Over Temp
(dB)
-40C
-40C
(dB)
Frequency (GHz)
Frequency (GHz)
Figure 17b. Input Return Loss Over Temp
Figure 18b. Output Return Loss Over Temp
AMMC-6222 Typical S-parameters High Current, High Output Power Configuration
25°C, Vdd=4V, Idd=120mA, Zout unless noted) Freq Phase 0.958 -0.369 -42.585 0.943 -0.5 -85.30 0.887 -.043 -30.30 0.826 -.662 -79.572 0.79 -2.870 6.375 0.656 -3.668 45.862 0.420 -7.537 -30.344 0.343 -9.30 -5.489 0.304 -0.335 -64.87 0.303 -0.38 -73.299 0.308 -0.222 -84.57 0.35 -0.039 -93.242 0.324 -9.788 -03.763 0.39 -9.930 -3.583 0.307 -0.269 -22.903 0.288 -0.809 -33.557 0.265 -.537 -37.70 0.245 -2.2 -4.574 0.220 -3.36 -42.48 0.205 -3.764 -38.25 0.206 -3.72 -32.747 0.226 -2.908 -3.557 0.26 -.657 -32.953 0.276 -35.309 0.33 -0.0 -42.068 0.336 -9.482 -48.98 0.342 -9.37 -60.32 0.326 -9.744 -77.532 0.296 -0.585 67.220 0.233 -2.639 40.958 0.43 -6.874 97.489 -7.030 2.792 20.0 0.254 -.903 -34.484 20.5 0.379 -8.437 -63.459 0.488 -6.234 -85.656 0.566 -4.95 -0.220 22.0 0.593 -4.540 -2.747 22.5 0.645 -3.85 -22.787 23.0 0.656 -3.656 -3.798 23.5 0.68 -3.339 -38.376 24.0 0.69 -3.26 -44.409 24.5 0.695 -3.58 -49.584 25.0 0.704 -3.049 -54.35 26.0 0.722 -2.825 -60.57 27.0 0.795 -.996 -66.749 28.0 0.857 -.337 -74.436 29.0 0.885 -.059 76.306 30.0 0.905 -0.869 68.094 0.909 -0.833 60.078 32.0 0.98 -0.747 53.846 33.0 0.90 -0.82 48.083 34.0 0.90 -0.88 42.295 35.0 0.909 -0.828 37.375 36.0 0.92 -0.7 3.566 37.0 0.922 -0.704 26.8 38.0 0.937 -0.566 22.092 39.0 0.924 -0.690 8.056 40.0 0.942 -0.58 Note: S-parameters measured wafer. 0.025 0.00 0.003 0.053 4.79 5.38 8.583 8.736 8.763 8.899 9.030 9.083 9.224 9.22 9.292 9.363 9.463 9.556 9.673 9.794 9.869 9.87 9.85 9.99 20.247 20.408 20.96 2.356 2.803 2.72 20.980 9.075 6.444 3.85 .582 9.807 8.56 7.385 6.505 5.863 5.37 4.876 4.092 .300 0.738 0.364 0.58 0.059 0.023 0.00 0.00 0.00 0.005 0.00 -32.45 -40.003 -50.353 -25.575 3.478 23.740 25.382 25.453 25.466 25.529 25.589 25.627 25.63 25.677 25.676 25.708 25.740 25.784 25.825 25.878 25.93 25.964 25.965 25.956 26.07 26.27 26.96 26.40 26.590 26.770 26.737 26.436 25.609 24.320 22.829 2.276 9.83 8.650 7.367 6.265 5.362 4.54 3.762 2.239 9.872 6.497 2.276 -2.633 -8.780 -6.027 -24.624 -32.903 -58.256 -57.084 -57.443 -39.503 -45.942 -56.827 Phase 5.098 -72.0 74.224 -79.948 75.55 -.209 -09.904 -50.670 73.863 42.049 2.342 84.660 58.470 33.33 9.250 -3.988 -36.29 -58.686 -80.428 -0.794 -22.955 -43.907 -64.95 74.722 53.950 33.650 2.800 9.502 68.726 45.77 9.448 -7.647 -34.822 -60.575 -84.844 -05.068 -23.629 -42.328 -60.69 -77.420 65.48 47.899 28.607 87.007 40.634 -5.679 -50.078 -93.382 -36.356 -69.736 6.65 55.942 -4.538 40.788 -59.263 -62.868 -42.066 78.467 0.002 0.002 0.003 0.003 0.003 0.003 0.003 0.002 0.00 0.00 0.00 0.003 0.005 0.002 0.002 0.004 0.003 0.003 0.00 0.003 0.008 0.002 0.003 0.004 0.004 0.004 0.007 0.003 0.002 0.009 0.006 0.02 0.009 0.003 0.006 0.006 0.00 0.004 0.006 0.006 0.008 0.008 0.008 0.008 0.006 0.003 0.005 0.005 0.005 0.004 0.004 0.003 0.006 0.007 0.005 0.005 0.00 0.004 -54.039 -54.74 -50.867 -49.320 -5.960 -50.074 -50.560 -54.592 -58.379 -59.85 -57.070 -49.88 -46.085 -53.29 -53.74 -48.760 -5.033 -49.3 -57.620 -50.277 -42.043 -56.446 -50.8 -47.466 -47.24 -47.034 -43.39 -49.606 -52.996 -4.85 -44.362 -38.649 -4.290 -49.93 -44.264 -44.04 -40.39 -47.699 -44.248 -44.247 -4.53 -4.678 -4.650 -4.764 -43.80 -49.3 -45.75 -46.303 -45.860 -48.67 -48.546 -49.944 -43.933 -43.392 -45.49 -46.74 -39.684 -47.008 Phase 60.95 -6.47 -7.95 -68.29 50.230 6.653 -75.569 -3.725 6.675 -69.98 -42.568 -54.952 55.948 58.396 40.482 78.92 07.309 52.693 -54.808 3.366 99.356 72.978 -20.805 06.783 5.39 6.950 23.98 -6.727 -2.233 -37.409 -74.67 -74.66 -20.892 -28.373 -42.938 79.334 63.488 90.728 -47.408 34.235 27.333 92.935 05.56 89.928 36.999 7.556 -0.362 2.057 -50.824 -2.5 -63.827 -48.678 6.000 -67.365 66.34 -87.366 -27.659 2.278 0.955 0.842 0.567 0.309 0.250 0.300 0.300 0.287 0.269 0.252 0.233 0.88 0.74 0.56 0.43 0.03 0.097 0.088 0.05 0.02 0.03 0.24 0.60 0.96 0.264 0.38 0.366 0.42 0.46 0.408 0.383 0.37 0.35 0.330 0.37 0.30 0.293 0.298 0.33 0.35 0.265 0.87 0.247 0.406 0.494 0.555 0.557 0.560 0.563 0.550 0.555 0.557 0.555 -0.396 -.493 -4.929 -0.88 -2.034 -0.464 -0.464 -0.842 -.404 -.984 -2.655 -3.57 -4.529 -5.70 -6.5 -6.87 -8.374 -8.863 -9.72 -20.294 -2.59 -9.595 -8.680 -9.837 -9.759 -9.08 -8.6 -5.98 -4.64 -.573 -9.952 -8.728 -7.692 -7.69 -7.782 -8.342 -8.623 -9.095 -9.637 -9.987 -0.422 -0.66 -0.503 -0.096 -0.03 -.549 -4.567 -2.42 -7.822 -6.22 -5.8 -5.078 -5.033 -4.984 -5.96 -5.4 -5.09 -5.3 Phase -45.564 -92.392 -36.05 -50.923 -43.827 -52.735 -70.564 -78.43 73.53 67.378 60.84 55.593 5.330 47.947 48.89 43.635 45.33 47.252 53.79 64.35 57.630 69.074 7.50 72.930 74.29 -74.350 -67.29 -66.639 -60.533 -69.45 -77.505 69.46 54.876 4.729 3.465 2.924 3.370 06.498 02.785 97.77 93.52 90.399 87.296 8.462 65.876 52.73 58.879 80.544 70.378 49.792 29.589 4.55 0.044 -3.52 -24.690 -36.643 -48.7 -57.836
AMMC-6222 Typical S-parameters Current, Output Power Configuration
25°C, Vdd=4V, Idd=95mA, Zout unless noted) Freq Phase 0.962 -0.335 -42.538 0.94 -0.527 -85.37 0.89 -.003 -30.90 0.83 -.608 -79.625 0.72 -2.836 6.552 0.654 -3.690 46.0 0.424 -7.46 -29.583 0.338 -9.44 -50.638 0.307 -0.270 -63.069 0.303 -0.380 -72.706 0.308 -0.225 -83.72 0.36 -0.04 -93.00 0.32 -9.859 -03.836 0.320 -9.904 -3.899 0.32 -0.27 -23.73 0.289 -0.77 -3.699 0.257 -.785 -37.29 0.236 -2.54 -42.226 0.29 -3.202 -42.287 0.207 -3.667 -39.80 0.25 -3.352 -33.45 0.224 -2.985 -30.90 0.254 -28.739 0.283 -0.967 -34.375 -0.46 -40.893 0.333 -9.548 -49.070 0.345 -9.247 -6.595 0.333 -9.553 -75.383 0.35 -0.035 69.38 0.237 -2.499 44.360 0.52 -6.345 07.475 0.29 -7.787 25.65 20.0 0.244 -2.246 -34.057 20.5 0.375 -8.528 -6.94 0.499 -6.029 -86.20 0.564 -4.967 -0.033 22.0 0.589 -4.604 -2.66 22.5 0.642 -3.843 -22.733 23.0 0.656 -3.656 -3.87 23.5 0.685 -3.285 -38.570 24.0 0.69 -3.26 -44.450 24.5 0.695 -3.65 -49.994 25.0 0.707 -3.04 -54.592 26.0 0.72 -2.838 -60.577 27.0 0.790 -2.048 -66.566 28.0 0.844 -.475 -75.40 29.0 0.882 -.090 75.982 30.0 0.900 -0.94 67.809 0.908 -0.837 59.90 32.0 0.97 -0.757 54.299 33.0 -0.83 47.702 34.0 0.92 -0.803 42.026 35.0 0.93 -0.795 36.930 36.0 0.98 -0.746 3.653 37.0 0.95 -0.769 26.060 38.0 0.934 -0.595 22.598 39.0 0.926 -0.666 7.822 40.0 0.942 -0.56 .706 Note: S-parameters measured wafer. 0.025 0.02 0.002 0.052 4.287 4.29 7.03 7.206 7.25 7.35 7.456 7.542 7.55 7.670 7.640 7.744 7.779 7.849 7.945 8.006 8.094 8.39 8.69 8.37 8.592 8.720 9.262 9.750 20.22 20.264 9.80 5.744 3.273 .064 9.349 8.49 7.033 6.87 5.556 5.04 4.68 3.856 2.943 .995 .236 0.709 0.352 0.06 0.02 0.00 0.00 0.006 0.008 0.008 0.004 -32.087 -38.676 -55.364 -25.68 2.642 23.002 24.66 24.74 24.736 24.787 24.839 24.882 24.886 24.945 24.930 24.98 24.998 25.032 25.079 25.09 25.50 25.62 25.72 25.86 25.257 25.387 25.446 25.694 25.9 26.6 26.35 25.934 25.78 23.943 22.459 20.878 9.45 8.222 6.942 5.829 4.895 4.050 3.290 .724 9.376 5.999 .839 -2.988 -9.068 -6.400 -24.234 -33.727 -57.68 -40.306 -44.992 -4.82 -4.834 -46.946 Phase 3.69 -75.007 05.29 -85.000 75.992 -0.999 -09.868 -50.74 73.82 4.969 2.36 84.762 58.569 33.33 9.278 -3.825 -36.099 -58.439 -80.7 -0.409 -22.564 -43.379 -64.060 75.628 55.06 34.94 4.240 93.283 70.555 47.222 2.779 -5.343 -32.72 -59.023 -83.955 -04.92 -22.85 -4.499 -59.49 -76.904 65.978 48.467 29.048 87.69 4.838 -4.502 -48.826 -92.320 -34.770 -70.422 62.859 48.879 47.445 60.92 -53.650 -59.627 -73.776 -42.305 0.003 0.00 0.004 0.003 0.002 0.00 0.000 0.003 0.002 0.003 0.00 0.002 0.002 0.00 0.003 0.002 0.004 0.006 0.004 0.002 0.002 0.004 0.006 0.002 0.009 0.003 0.006 0.005 0.007 0.007 0.006 0.007 0.006 0.005 0.004 0.004 0.008 0.008 0.006 0.009 0.006 0.005 0.008 0.008 0.006 0.006 0.004 0.004 0.005 0.005 0.006 0.007 0.004 0.002 0.006 0.002 0.003 0.004 -50.752 -57.595 -48.792 -50.22 -53.846 -56.923 -73.579 -5.024 -53.734 -50.70 -57.257 -55.035 -56.389 -58.86 -50.66 -56.38 -47.33 -44.798 -48.37 -54.607 -54.422 -47.28 -44.923 -52.83 -40.453 -49.22 -44.063 -46.68 -42.547 -42.627 -44.94 -43.522 -44.462 -45.997 -48.3 -49.093 -42.056 -42.454 -44.84 -4.9 -44.03 -46.248 -4.965 -4.539 -44.504 -44.247 -47.299 -47.858 -46.229 -46.66 -44.888 -42.683 -47.25 -52.995 -44.896 -53.072 -49.402 -48.57 Phase -74.263 57.55 3.277 -73.499 05.846 -0.206 -9.666 -9.770 4.876 -60.705 -02.26 -46.430 92.603 23.654 99.52 96.394 84.320 49.303 8.850 -32.746 04.834 3.838 49.948 42.270 30.790 -32.075 -6.002 5.335 -43.074 -44.587 -73.089 -37.245 -20.749 65.659 40.20 -62.59 -47.348 55.78 24.778 28.276 8.649 53.29 40.248 -8.090 -7.422 6.674 -4.92 87.363 4.876 -36.025 8.635 56.837 -80.908 -63.060 -09.02 -95.37 0.95 0.840 0.564 0.307 0.249 0.299 0.30 0.292 0.270 0.256 0.240 0.220 0.207 0.93 0.83 0.62 0.47 0.40 0.38 0.39 0.46 0.47 0.50 0.37 0.53 0.69 0.234 0.279 0.346 0.400 0.446 0.453 0.429 0.44 0.47 0.390 0.374 0.359 0.340 0.336 0.337 0.349 0.346 0.307 0.228 0.265 0.407 0.499 0.558 0.568 0.559 0.573 0.568 0.568 0.566 0.574 -0.436 -.53 -4.967 -0.255 -2.087 -0.484 -0.437 -0.680 -.360 -.82 -2.390 -3.45 -3.663 -4.288 -4.75 -5.89 -6.653 -7.057 -7.232 -7.9 -6.728 -6.625 -6.49 -6.470 -7.279 -6.332 -5.436 -4.363 -2.63 -.089 -9.207 -7.958 -7.05 -6.882 -7.357 -7.660 -7.596 -8.80 -8.535 -8.894 -9.36 -9.486 -9.442 -9.38 -9.26 -0.245 -2.833 -.542 -7.798 -6.032 -5.068 -4.92 -5.052 -4.829 -4.920 -4.906 -4.945 -4.823 Phase -45.66 -9.967 -35.409 -49.880 -4.969 -49.268 -65.84 -73.367 79.478 74.288 68.073 64.23 62.236 58.893 57.30 57.504 56.676 57.74 6.962 66.776 68.536 67.87 7.426 69.847 65.829 73.852 76.457 -78.727 -74.029 -79.874 74.465 62.697 48.464 37.895 25.24 7.78 08.35 02.329 97.683 92.576 89.423 86.583 82.386 75.59 60.597 47.676 49.752 66.6 60.434 42.76 24.243 0.668 -3.636 -6.469 -27.330 -38.03 -48.328 -58.602
AMMC-6222 Application Usage
supply
Biasing Operation
AMMC-6222 normally biased with positive drain supply connected pads through bypass capacitor shown Figures recommended drain supply voltage general usage corresponding drain current approximately 120mA. important have least 100pF bypass capacitor capacitor should placed close component possible. Aspects amplifier performance improved over narrower bandwidth application additional conjugate, linearity, noise (Topt) matching. receiver front noise applications where high power linearity often required, AMMC6222 current state when SELECT open shown Figure this configuration, bias current approximately 85mA, 95mA 105mA respectively. applications where high output power linearity often required such transmitter drivers, AMMC-6222 selected operate highest output power grounding SELECT shown Figure amplifier provide Psat about 20dBm. bias current this configuration 115mA, 120mA 125mA respectively. both cases, bonding wires input output range 0.15nH would likely improve overall Noise Figure input, output match most frequencies. ground wires needed because ground connections made with plated through-holes backside substrate. Refer Absolute Maximum Ratings table allowed thermal condition.
Capacitor
OUTPUT
INPUT
AMMC-6222 Open
Gold Plated Shim (Optional)
Figure Current, Output Power State
supply
Capacitor
OUTPUT
INPUT
AMMC-6222
Gold Plated Shim (Optional)
Figure High Current, High Output Power State
Figure Simplified High Linearity Schematic
Assembly Techniques
backside MMIC chip ground. microstrip applications chip should attached directly ground plane (e.g. circuit carrier heatsink) using electrically conductive epoxy best performance, topside MMIC should brought same height circuit surrounding This accomplished mounting gold plated metal shim (same length MMIC) under chip which correct thickness make chip adjacent circuit same height. amount epoxy used chip shim attachment should just enough provide thin fillet around bottom perimeter chip. ground plane should free residue that jeopardize electrical mechanical attachment. connections should kept short reasonable minimize performance degradation undesirable series inductance. single bond wire normally sufficient signal connections, however double bonding with 0.7mil gold wire will reduce series inductance. Gold thermo-sonic wedge bonding preferred method wire attachment bond pads. recommended wire bond stage temperature 150°c 2°c. 1280 Caution should taken exceed Absolute Maximum Rating assembly temperature time. chip 100um thick should handled with care. This MMIC exposed bridges surface should handled edges with custom collet pick with vacuum center). Bonding pads chip backside metallization gold. This MMIC also static sensitive precautions should taken more detailed information Avago Technolgies' application note "GaAs MMIC assembly handling guidelines"
Notes: Ablebond silver epoxy recommended
Ordering Information:
AMMC-6222-W10 devices tray AMMC-6222-W50 devices tray 1400 2000
RFin 1610 SELECT Figure Bond Locations 1740 RFout
product information complete list distributors, please site:
www.avagotech.com
Avago, Avago Technologies, logo trademarks Avago Technologies, Limited United States other countries. Data subject change. Copyright 2006 Avago Technologies Limited. rights reserved. AV0-0439EN November 2006

GaAs High Linearity Noise Amplifier Avago Technologies AMMC-6222

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