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AMMP-5620
6 - 20 GHz High Gain Amplifier in SMT Package
Data Sheet
Description
The AMMP-5620 MMIC is a GaAs wide-band amplifier in a surface mount package designed for medium output power and high gain over the 6-20 GHz frequency range. The 3 cascaded stages provide high gain while the single bias supply offers ease of use. It is fabricated using a PHEMT integrated circuit process. The RF input and output ports have matching circuitry for use in 50-ohms environments. The MMIC is a cost effective alternative to hybrid (discrete FET) amplifiers that require complex tuning and assembly processes.
Features
* Surface Mount Package, 5.0 x 5.0 x 1.25 mm * Wide Frequency Range 6-20 GHz * High Gain: 17.5 dB Typical * * * * Medium Output P1dB: 14.8 dBm Typical Input and Output Return Loss: <-10 dB Typical 50 Ohm Input and Output Match Single Supply Bias: 5V @ 95 mA Typical
Pin Connections (Top View) Vd 0.1uF
3 100pF
Applications
* General purpose, wide band amplifier in communication systems or microwave instrumentation * High Gain Amplifier
1
2
Attention: Observe precautions for handling electrostatic sensitive devices. RFout
ESD Machine Model (= 40 V) ESD Human Body Model (= 150 V) Refer to Avago Application Note A004R: Electrostatic Discharge Damage and Control
RFin
8
7
6
5
AMMP-5620
Note: Package base: GND
4
Table 1. Absolute Maximum Ratings [1]
Symbol Parameters and Test Conditions Unit Minimum Maximum
Vdd Idd Pdc Pin Tch Tstg Tmax
Positive Drain Voltage Total Drain Current DC Power Dissipation RF CW Input Power Operating Channel Temperature Storage Case Temperature Maximum Assembly Temperature (20 sec max)
V mA W dBm C C C
-65 -
7.5 35 .0 20 +50 +50 +260
Notes: 1. Operation in excess of any one of these conditions may result in permanent damage to this device. The absolute maximum ratings for Vdd, Idd, Pdc and Pin were determined at an ambient temperature of 25C unless noted otherwise.
Table 2. DC Specifications [1]
Symbol Parameters and Test Conditions Unit Minimum Typical Maximum
Vdd Idd qch-b
Recommended Drain Supply Voltage Total Drain Supply Current Thermal Resistance [2]
V mA C/W
70 -
5 95 28
30 -
Notes: 1. Ambient operation temperature TA = 25C unless otherwise noted. 2. Channel-to-board Thermal Resistance is measured using Infrared Microscopy method.
Table 3. RF Specifications [2,3] (TA = 25C, Freq = 18GHz, Vdd = 5V, Idd = 95mA)
Symbol Parameters and Test Conditions Unit Minimum Typical Maximum
|S2|2 RLin RLout |S2|2 PdB OIP3 NF
Small signal Gain [,4] Input Return Loss Output Return Loss Reverse Isolation Output Power at dB Gain Compression Output 3rd Order Intercept Point Noise Figure [,4]
dB dB dB dB dBm dBm dB
5.5 -
7.5 .5 .6 -43.0 4.8 22.5 5.
9.5 7.0
Notes: 1. Typical value determined from a sample size of 500 parts from 2 wafers. 2. Small/large signal data measured in a fully de-embedded test fixture at TA = 25 degree Celsius. 3. Specifications are derived from measurements in a 50 Ohm test environment. Aspects of the amplifier performance may be improved over a narrower bandwidth by application of additional conjugate, linearity, or low noise matching. 4. All tested parameters guaranteed with measurement accuracy 0.5 dB for NF and 1.0 dB for gain.
2
AMMP-5620 Typical Performance vs. Frequency (TA = 25C, Vdd = 5V, Idd = 95mA, Zin = Zo = 50W)
20 16 Isolation (dB) Gain (dB) 12 8 4 0 0 -10 -20 -30 -40 -50 -60 -70 4 7 10 13 16 Frequency (GHz) 19 22 4 7 10 13 16 Frequency (GHz) 19 22 Input RL (dB) -10 -20 -30 -40 0
4
7
10
13
16
19
22
Frequency (GHz)
Figure 1. Gain
Figure 2. Isolation
Figure 3. Input Return Loss
0 -5 -10
8 7 6 OP1dB (dBm) 4 7 10 13 16 Frequency (GHz) 19 22 5 NF (dB) 4 3 2 1 4 7 10 13 16 19 22 0
20 16 12 8 4 0
Output RL (dB)
-15 -20 -25 -30 -35
4
7
10
13
16
19
22
Frequency (GHz)
Frequency (GHz)
Figure 4. Output Return Loss
Figure 5. Noise Figure
Figure 6. P1dB
20 18 GHz 15 10 Pout (dBm) 5 0 -5 -10 -20 -15 -10 -5 0 5 10 Pin (dBm) 13 GHz 7 GHz
120 115 110 105 100 95 90 Idd (mA)
Figure 7. Pout and Idd vs. Pin
Note: These measurements are obtained using demo board with 50 Ohm traces at input and output. Aspects of the amplifier performance may be improved over a narrower bandwidth by application of additional conjugate, linearity or low noise matching.
3
AMMP-5620 Typical Performance vs. Supply Voltage (TA = 25C, Zin = Zo = 50W) T , 50
20 16 Isolation (dB) 12 8 Vdd=4V 4 0 Vdd=5V Vdd=6V 4 7 10 13 16 19 22 Frequency (GHz) 0 -10 -20 -30 -40 -50 -60 -70 4 7 10 13 16 19 22
Vdd=4V Vdd=5V Vdd=6V
Gain (dB)
Frequency (GHz)
Figure 8. Gain and Voltage
Figure 9. Isolation and Voltage
0
0 -5
-10 Input RL (dB) Output RL (dB) -20 Vdd=4V Vdd=5V Vdd=6V 4 7 10 13 16 Frequency (GHz) 19 22
-10 -15 -20 -25 -30 -35 4 7 10 13 16 Frequency (GHz) Vdd=4V Vdd=5V Vdd=6V 19 22
-30 -40
Figure 10. Input Return Loss and Voltage
Figure 11. Output Return Loss and Voltage
8 7 6 OP1dB (dBm) 5 NF (dB) 4 3 2 1 0 4 7 10 13 16 Vdd=4V Vdd=5V Vdd=6V 19 22
20 16 12 8 Vdd=4V 4 0 Vdd=5V Vdd=6V 4 7 10 13 16 19 22
Frequency (GHz)
Frequency (GHz)
Figure 12. Noise Figure and Voltage
Figure 13. P1dB and Voltage
Note: These measurements are obtained using demo board with 50 Ohm traces at input and output. Aspects of the amplifier performance may be improved over a narrower bandwidth by application of additional conjugate, linearity or low noise matching.
4
AMMP-5620 Typical Performance vs. Temperature (Vdd = 5V, Zin = Zo = 50W)
20 16 Gain (dB) 12 8 4 0 -40 C 25 C 85 C 4 7 10 13 16 19 22 Frequency (GHz) 0 -10 -20 Isolation (dB) -30 -40 -50 -60 -70 4 7 10 13 16 Frequency (GHz) 19 22 -40 4 7 10 13 16 -40 C 25 C 85 C Input RL (dB) 0
-10 -20 -40 C 25 C 85 C 19 22
-30
Frequency (GHz)
Figure 14. Gain and Temperature
Figure 15. Isolation and Temperature
Figure 16. Input Return Loss and Temperature
0 -5 -10 Output RL (dB) NF (dB) -15 -20 -25 -30 -35 4 7 10 13 16 -40 C 25 C 85 C 19 22 Frequency (GHz)
8 7 6 4 3 2 1 0 4 7 10 13 16 -40 C 25 C 85 C 19 22 Frequency (GHz) OP1dB (dBm) 5
20 16 12 8 4 0 -40 C 25 C 85 C 4 7 10 13 16 19 22
Frequency (GHz)
Figure 17. Output Return Loss and Temperature
Figure 18. Noise Figure and Temperature
Figure 19. P1dB and Temperature
100 95 Idd (mA) 90 85 80 -40 C 25 C 85 C 3 3.5 4 4.5 Vdd (V) 5 5.5 6
Figure 20. Idd vs. Vdd
Note: These measurements are obtained using demo board with 50 Ohm traces at input and output. Aspects of the amplifier performance may be improved over a narrower bandwidth by application of additional conjugate, linearity or low noise matching.
5
AMMP-5620 Typical Scattering Parameters (TA = 25C, Vdd = 4V, Idd = 92mA, Zo = 50W)
Freq GHz 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00 8.50 9.00 9.50 10.00 10.50 11.00 11.50 12.00 12.50 13.00 13.50 14.00 14.50 15.00 15.50 16.00 16.50 17.00 17.50 18.00 18.50 19.00 19.50 20.00 20.50 21.00 21.50 22.00 22.50 23.00 23.50 24.00 24.50 25.00 dB -3.392 -3.821 -4.034 -4.037 -3.883 -3.799 -4.301 -6.217 -9.881 -14.370 -18.027 -19.794 -19.593 -19.461 -20.455 -22.361 -25.900 -28.947 -27.535 -26.430 -27.432 -30.722 -23.702 -17.115 -13.132 -10.686 -9.229 -8.382 -8.197 -8.291 -8.855 -9.949 -11.496 -13.104 -12.765 -10.701 -8.835 -7.677 -7.218 -7.190 -7.614 -8.050 -7.490 -6.164 -5.293 -4.602 -4.247 S11 Mag 0.677 0.644 0.629 0.628 0.640 0.646 0.610 0.489 0.321 0.191 0.126 0.102 0.105 0.106 0.095 0.076 0.051 0.036 0.042 0.048 0.043 0.029 0.065 0.139 0.221 0.292 0.346 0.381 0.389 0.385 0.361 0.318 0.266 0.221 0.230 0.292 0.362 0.413 0.436 0.437 0.416 0.396 0.422 0.492 0.544 0.589 0.613 Phase 53.71 -9.44 -73.08 -136.32 162.19 102.28 41.50 -19.26 -73.25 -113.37 -139.47 -160.36 170.89 130.27 84.36 34.60 -26.77 -109.35 167.11 103.17 47.93 -46.78 -149.09 157.09 114.54 75.62 38.70 2.16 -34.39 -70.91 -108.85 -150.10 162.22 103.16 36.19 -23.30 -70.75 -111.70 -150.98 168.74 124.80 73.12 7.61 -80.14 -161.93 129.44 70.63 dB -22.616 -16.131 -10.218 -4.886 0.492 5.728 10.597 13.987 15.547 16.018 16.297 16.684 17.170 17.430 17.536 17.575 17.641 17.694 17.784 17.978 18.185 18.275 18.489 18.693 18.841 18.570 18.197 18.245 18.109 18.239 18.433 18.445 18.647 18.818 19.126 19.268 19.077 18.685 18.366 18.081 18.370 18.942 19.537 19.515 18.527 17.199 15.285 S21 Mag 0.074 0.156 0.308 0.570 1.058 1.934 3.387 5.004 5.989 6.323 6.529 6.827 7.219 7.439 7.530 7.564 7.622 7.668 7.749 7.924 8.114 8.199 8.403 8.603 8.751 8.482 8.126 8.170 8.044 8.164 8.349 8.360 8.558 8.727 9.043 9.192 8.992 8.595 8.285 8.018 8.289 8.854 9.481 9.457 8.440 7.243 5.811 Phase 64.56 -9.57 -76.02 -136.04 166.25 105.77 39.41 -34.08 -106.30 -171.85 129.56 74.54 19.92 -33.97 -86.25 -136.97 173.56 124.81 76.68 29.02 -18.34 -66.32 -114.29 -162.54 149.01 100.90 54.29 9.19 -34.26 -79.87 -127.21 -172.86 139.62 93.41 43.83 -5.97 -55.35 -104.03 -150.44 162.58 115.35 67.61 17.62 -42.37 -104.37 -161.50 146.41 dB -47.331 -45.680 -44.583 -44.013 -43.223 -42.158 -42.047 -43.876 -49.630 -61.938 -60.915 -53.979 -51.701 -50.752 -50.752 -50.173 -49.370 -48.874 -48.636 -47.744 -46.936 -46.558 -45.514 -44.883 -44.293 -44.152 -45.036 -44.583 -45.352 -44.883 -44.731 -44.152 -44.437 -44.293 -43.742 -43.876 -44.013 -44.437 -44.583 -44.437 -43.350 -41.110 -39.016 -40.537 -45.514 -49.630 -49.897 S12 Mag 0.004 0.005 0.006 0.006 0.007 0.008 0.008 0.006 0.003 0.001 0.001 0.002 0.003 0.003 0.003 0.003 0.003 0.004 0.004 0.004 0.005 0.005 0.005 0.006 0.006 0.006 0.006 0.006 0.005 0.006 0.006 0.006 0.006 0.006 0.007 0.006 0.006 0.006 0.006 0.006 0.007 0.009 0.011 0.009 0.005 0.003 0.003 Phase -43.40 -126.00 147.93 56.21 -31.89 -116.60 162.33 90.43 19.94 -28.72 60.78 32.98 -12.09 -49.75 -83.81 -118.89 -149.20 178.49 142.57 113.01 78.56 47.55 10.59 -28.75 -64.72 -101.95 -139.33 -175.53 158.27 123.49 85.22 54.36 15.26 -15.94 -52.34 -86.50 -120.15 -154.67 175.09 150.09 119.82 84.67 35.70 -27.89 -68.17 -81.81 -93.56 dB -1.731 -2.767 -4.038 -5.274 -6.640 -8.443 -10.385 -12.242 -14.244 -15.199 -15.411 -15.826 -17.735 -22.114 -32.324 -28.134 -21.927 -19.236 -18.146 -18.244 -19.576 -23.440 -31.768 -25.067 -18.223 -14.535 -12.274 -10.776 -10.114 -9.646 -9.549 -9.870 -10.885 -12.483 -14.813 -16.444 -15.901 -13.744 -11.890 -10.354 -9.077 -8.148 -7.802 -8.752 -8.847 -8.802 -8.828 S22 Mag 0.819 0.727 0.628 0.545 0.466 0.378 0.303 0.244 0.194 0.174 0.170 0.162 0.130 0.078 0.024 0.039 0.080 0.109 0.124 0.122 0.105 0.067 0.026 0.056 0.123 0.188 0.243 0.289 0.312 0.329 0.333 0.321 0.286 0.238 0.182 0.151 0.160 0.206 0.254 0.304 0.352 0.391 0.407 0.365 0.361 0.363 0.362 Phase 131.99 77.32 25.10 -28.02 -88.45 -161.20 116.30 39.65 -14.96 -52.05 -85.59 -122.02 -162.68 152.70 96.16 -70.69 -118.97 -157.79 164.93 127.03 87.45 45.23 -33.28 -170.66 139.13 99.29 62.73 28.24 -5.12 -38.26 -72.46 -107.43 -145.36 173.22 123.98 62.33 1.77 -47.46 -85.98 -121.21 -157.12 164.79 121.56 81.87 48.30 11.43 -26.36
Note: S-parameters are obtained using demo board with 50 Ohm traces at input and output.
6
AMMP-5620 Typical Scattering Parameters (TA = 25C, Vdd = 5V, Idd = 95mA, Zo = 50W)
Freq GHz 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00 8.50 9.00 9.50 10.00 10.50 11.00 11.50 12.00 12.50 13.00 13.50 14.00 14.50 15.00 15.50 16.00 16.50 17.00 17.50 18.00 18.50 19.00 19.50 20.00 20.50 21.00 21.50 22.00 22.50 23.00 23.50 24.00 24.50 25.00 dB -3.407 -3.838 -4.066 -4.085 -3.957 -3.908 -4.423 -6.310 -9.984 -14.624 -18.395 -19.931 -19.576 -19.453 -20.565 -22.698 -26.651 -29.396 -27.013 -25.613 -26.021 -27.171 -21.724 -16.088 -12.432 -10.117 -8.749 -7.954 -7.789 -7.907 -8.475 -9.559 -11.044 -12.356 -11.768 -9.832 -8.223 -7.323 -7.103 -7.351 -8.112 -8.920 -8.688 -7.331 -6.166 -5.232 -4.687 S11 Mag 0.676 0.643 0.626 0.625 0.634 0.638 0.601 0.484 0.317 0.186 0.120 0.101 0.105 0.107 0.094 0.073 0.047 0.034 0.045 0.052 0.050 0.044 0.082 0.157 0.239 0.312 0.365 0.400 0.408 0.402 0.377 0.333 0.280 0.241 0.258 0.322 0.388 0.430 0.441 0.429 0.393 0.358 0.368 0.430 0.492 0.548 0.583 Phase 53.67 -9.56 -73.27 -136.57 161.91 102.02 41.50 -19.18 -73.52 -113.60 -138.23 -158.07 172.38 130.69 83.97 32.87 -31.69 -122.59 153.65 90.79 32.22 -56.40 -145.03 159.43 115.43 75.65 38.09 0.98 -36.04 -73.32 -112.22 -154.89 155.57 94.68 28.44 -29.47 -76.66 -117.90 -157.70 161.32 116.27 62.93 -4.82 -91.21 -168.93 125.79 68.92 dB -23.012 -16.623 -10.798 -5.550 -0.284 4.862 9.760 13.283 14.987 15.547 15.908 16.387 16.956 17.261 17.386 17.394 17.420 17.431 17.470 17.612 17.791 17.838 17.996 18.133 18.204 17.909 17.492 17.443 17.188 17.217 17.395 17.333 17.493 17.516 17.752 17.897 17.687 17.321 16.972 16.689 16.962 11.755 17.900 17.558 16.641 15.583 13.967 S21 Mag 0.071 0.148 0.288 0.528 0.968 1.750 3.076 4.615 5.615 5.989 6.243 6.597 7.043 7.295 7.401 7.408 7.430 7.440 7.473 7.597 7.755 7.796 7.940 8.066 8.132 7.860 7.492 7.450 7.235 7.259 7.409 7.356 7.493 7.512 7.719 7.849 7.663 7.346 7.057 6.831 7.048 7.493 7.852 7.549 6.793 6.014 4.993 Phase 64.54 -9.82 -76.79 -137.32 164.88 104.89 39.54 -33.23 -105.50 -171.58 129.38 74.06 18.71 -36.19 -89.26 -140.66 169.24 119.81 71.18 23.17 -24.60 -73.06 -121.36 -169.78 141.80 93.60 46.59 1.09 -42.76 -88.02 -135.20 179.22 131.68 85.39 36.44 -12.86 -61.51 -109.66 -155.84 157.50 110.49 62.42 12.29 -45.62 -104.51 -159.57 149.42 dB -47.535 -45.680 -44.883 -43.609 -42.853 -41.724 -41.724 -43.479 -48.404 -59.172 -64.437 -54.425 -52.041 -51.057 -50.458 -50.752 -49.370 -49.119 -48.874 -48.636 -47.131 -47.535 -46.196 -45.036 -44.152 -44.437 -44.883 -44.583 -45.680 -44.583 -44.293 -44.583 -44.152 -43.876 -43.609 -43.479 -43.350 -44.013 -44.013 -43.742 -42.270 -40.630 -39.332 -41.618 -46.936 -50.752 -50.173 S12 Mag 0.004 0.005 0.006 0.007 0.007 0.008 0.008 0.007 0.004 0.001 0.001 0.002 0.003 0.003 0.003 0.003 0.003 0.004 0.004 0.004 0.004 0.004 0.005 0.006 0.006 0.006 0.006 0.006 0.005 0.006 0.006 0.006 0.006 0.006 0.007 0.007 0.007 0.006 0.006 0.007 0.008 0.009 0.011 0.008 0.005 0.003 0.003 Phase -46.84 -127.29 147.52 59.64 -29.81 -115.15 165.10 91.89 18.63 -41.02 66.84 32.17 -13.20 -48.69 -84.50 -114.52 -149.09 179.06 145.67 112.76 80.42 48.72 12.23 -27.17 -61.69 -101.48 -137.21 -171.56 158.96 126.85 92.92 56.05 21.24 -10.75 -48.52 -82.80 -114.34 -149.87 -179.43 149.78 117.97 78.99 28.16 -33.37 -69.14 -80.08 -80.98 dB -1.719 -2.711 -3.953 -5.188 -6.479 -7.935 -9.211 -10.354 -11.849 -12.872 -13.453 -14.071 -15.682 -18.592 -21.884 -20.640 -17.931 -16.060 -15.114 -15.021 -15.756 -17.835 -21.745 -32.616 -24.898 -18.216 -14.765 -12.560 -11.415 -10.580 -10.215 -10.303 -11.128 -12.616 -15.055 -17.897 -18.644 -16.205 -13.601 -11.483 -9.911 -8.913 -8.709 -9.335 -8.981 -8.742 -8.547 S22 Mag 0.820 0.732 0.634 0.550 0.474 0.401 0.346 0.304 0.256 0.227 0.213 0.198 0.164 0.118 0.081 0.093 0.127 0.157 0.176 0.177 0.163 0.128 0.082 0.023 0.057 0.123 0.183 0.236 0.269 0.296 0.309 0.305 0.278 0.234 0.177 0.127 0.117 0.155 0.209 0.267 0.320 0.358 0.367 0.341 0.356 0.366 0.374 Phase 131.87 76.91 23.89 -30.29 -91.93 -165.83 112.05 36.78 -19.81 -61.58 -98.68 -138.00 176.27 120.56 49.32 -34.05 -91.80 -138.08 -179.35 140.77 101.16 62.47 19.12 -58.58 155.40 109.09 72.08 37.77 5.30 -27.45 -61.15 -95.10 -130.85 -168.75 148.38 92.99 28.34 -29.59 -72.00 -109.23 -146.85 174.20 131.96 95.47 61.41 24.42 -13.10
Note: S-parameters are obtained using demo board with 50 Ohm traces at input and output.
7
AMMP-5620 Typical Scattering Parameters (TA = 25C, Vdd = 6V, Idd = 99mA, Zo = 50W)
Freq GHz 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00 8.50 9.00 9.50 10.00 10.50 11.00 11.50 12.00 12.50 13.00 13.50 14.00 14.50 15.00 15.50 16.00 16.50 17.00 17.50 18.00 18.50 19.00 19.50 20.00 20.50 21.00 21.50 22.00 22.50 23.00 23.50 24.00 24.50 25.00 dB -3.416 -3.851 -4.094 -4.126 -4.016 -3.999 -4.535 -6.419 -10.097 -14.827 -18.688 -20.044 -19.601 -19.510 -20.762 -23.173 -27.660 -29.843 -26.521 -24.867 -24.852 -24.867 -20.131 -15.179 -11.822 -9.672 -8.379 -7.641 -7.504 -7.656 -8.239 -9.332 -10.773 -11.879 -11.132 -9.289 -7.836 -7.078 -6.998 -7.416 -8.363 -9.391 -9.304 -7.872 -6.558 -5.546 -4.939 S11 Mag 0.675 0.642 0.624 0.622 0.630 0.631 0.593 0.478 0.313 0.181 0.116 0.100 0.105 0.106 0.092 0.069 0.041 0.032 0.047 0.057 0.057 0.057 0.099 0.174 0.256 0.328 0.381 0.415 0.422 0.414 0.387 0.342 0.289 0.255 0.278 0.343 0.406 0.443 0.447 0.426 0.382 0.339 0.343 0.404 0.470 0.528 0.566 Phase 53.66 -9.62 -73.39 -136.79 161.59 101.74 41.39 -19.13 -73.67 -113.73 -137.28 -156.35 173.55 131.02 83.56 31.58 -36.67 -136.34 141.48 80.58 20.29 -63.84 -144.42 159.95 115.28 74.94 37.04 -0.43 -37.75 -75.55 -115.08 -158.72 150.47 88.51 22.99 -33.82 -80.69 -122.07 -162.32 156.08 109.87 54.50 15.31 -100.07 -174.74 122.43 67.01 dB -23.295 -17.047 -11.275 -6.106 -0.927 4.127 9.012 12.588 14.381 15.013 15.433 15.981 16.608 16.943 17.083 17.068 17.060 17.035 17.029 17.137 17.281 17.287 17.399 17.480 17.483 17.173 16.722 16.599 16.261 16.216 16.385 16.268 16.398 16.310 16.495 16.645 16.432 16.097 15.726 15.444 15.704 16.211 16.483 15.909 14.992 14.052 12.600 S21 Mag 0.068 0.140 0.273 0.495 0.899 1.608 2.822 4.260 5.237 5.632 5.911 6.295 6.767 7.033 7.147 7.135 7.129 7.108 7.103 7.192 7.313 7.317 7.412 7.482 7.484 7.222 6.857 6.760 6.502 6.468 6.596 6.507 6.605 6.539 6.680 6.796 6.631 6.380 6.114 5.919 6.099 6.465 6.670 6.243 5.618 5.042 4.266 Phase 64.59 -10.40 -77.86 -138.83 163.06 103.24 38.51 -33.69 -105.87 -172.25 128.40 72.88 16.96 -38.71 -92.36 -144.29 165.08 115.14 66.07 17.81 -30.36 -79.21 -127.72 -176.25 135.39 87.09 39.86 -5.93 -50.07 -95.08 -142.16 172.29 124.73 78.43 29.89 -19.03 -67.23 -114.99 -161.08 152.40 105.40 57.04 6.64 -50.00 -107.02 -160.62 149.39 dB -47.131 -45.849 -44.731 -44.152 -42.615 -41.724 -41.412 -43.098 -47.959 -57.721 -64.437 -55.391 -53.152 -51.373 -51.057 -51.057 -50.458 -49.897 -49.119 -48.404 -47.535 -47.744 -45.849 -45.036 -44.583 -44.583 -44.883 -44.883 -45.514 -44.731 -44.293 -44.293 -44.013 -44.013 -43.609 -43.479 -43.223 -43.876 -43.876 -42.853 -42.158 -40.724 -39.576 -42.499 -47.744 -51.057 -50.458 S12 Mag 0.004 0.005 0.006 0.006 0.007 0.008 0.009 0.007 0.004 0.001 0.001 0.002 0.002 0.003 0.003 0.003 0.003 0.003 0.004 0.004 0.004 0.004 0.005 0.006 0.006 0.006 0.006 0.006 0.005 0.006 0.006 0.006 0.006 0.006 0.007 0.007 0.007 0.006 0.006 0.007 0.008 0.009 0.011 0.008 0.004 0.003 0.003 Phase -44.87 -125.03 150.46 59.41 -28.22 -113.46 165.26 92.29 21.78 -35.16 42.77 34.32 -14.23 -48.50 -87.09 -118.15 -151.04 179.35 147.01 116.50 80.62 51.23 15.67 -21.21 -64.33 -98.24 -135.72 -170.92 160.43 129.01 94.65 58.22 22.77 -11.16 -45.88 -82.45 -114.76 -149.02 -179.37 151.62 117.02 76.50 24.33 -35.37 -67.10 -70.24 -80.53 dB -1.710 -2.675 -3.894 -5.119 -6.355 -7.614 -8.536 -9.332 -10.536 -11.483 -12.111 -12.732 -14.032 -16.060 -17.924 -17.228 -15.509 -14.089 -13.287 -13.167 -13.689 -15.154 -17.768 -23.388 -31.150 -21.971 -16.887 -13.897 -12.238 -11.032 -10.429 -10.305 -10.912 -12.146 -14.226 -17.109 -18.985 -17.393 -14.462 -12.003 -10.249 -9.213 -9.030 -9.254 -8.685 -8.372 -8.094 S22 Mag 0.821 0.735 0.639 0.555 0.481 0.416 0.374 0.342 0.297 0.267 0.248 0.231 0.199 0.157 0.127 0.138 0.168 0.198 0.217 0.220 0.207 0.175 0.129 0.068 0.028 0.080 0.143 0.202 0.244 0.281 0.301 0.305 0.285 0.247 0.194 0.140 0.112 0.135 0.189 0.251 0.307 0.346 0.354 0.345 0.368 0.381 0.394 Phase 131.81 76.65 23.09 -31.79 -94.22 -168.71 109.84 35.77 -21.31 -65.12 -104.28 -145.31 167.20 110.46 44.58 -26.23 -82.70 -130.16 -172.78 146.51 106.47 67.50 25.89 -21.43 -141.86 126.31 83.97 48.18 15.40 -17.95 -51.84 -85.61 -120.38 -156.35 164.49 116.97 56.33 -8.93 -57.64 -98.38 -137.92 -177.68 140.91 105.41 69.77 32.18 -5.43
Note: S-parameters are obtained using demo board with 50 Ohm traces at input and output.
8
Biasing and Operation
The AMMP-5620 only requires a single positive supply connected to the Vd pin (2). The recommended supply voltage is 5V. The supply should be bypassed with a 0.1uF capacitor placed as close to the component as possible. The package base is the RF and DC ground connection. The biasing arrangement is shown in Figure 21. Figure 22 shows a simplifies schematic for the amplifier die. All three stages are self-biased as shown. Each stage has feedback around it to control the gain, match and performance, resulting in excellent wideband performance. Also shown are the on-chip DC blocking capacitors for both the RFin and RFout pins. Please refer to the Absolute Maximum Ratings table for allowed DC and thermal conditions.
Recommended SMT Attachment
The AMMP Packaged Devices are compatible with high volume surface mount PCB assembly processes. The PCB material and mounting pattern, as defined in the data sheet, optimizes RF performance and is strongly recommended. An electronic drawing of the land pattern is available upon request from Agilent Sales & Application Engineering.
Figure 23. Demonstration Board (available upon request).
Figure 21. Typical Application.
Figure 22. Simplified MMIC Schematics.
9
Manual Assembly
1. Follow ESD precautions while handling packages. 2. Handling should be along the edges with tweezers. 3. Recommended attachment is conductive solder paste. Please see recommended solder reflow profile. Conductive epoxy is not recommended. Hand soldering is not recommended. 4. Apply solder paste using a stencil printer or dot placement. The volume of solder paste will be dependent on PCB and component layout and should be controlled to ensure consistent mechanical and electrical performance. 5. Follow solder paste and vendor's recommendations when developing a solder reflow profile. A standard profile will have a steady ramp up from room temperature to the pre-heat temperature to avoid damage due to thermal shock. 6. Packages have been qualified to withstand a peak temperature of 260C for 20 seconds. Verify that the profile will not expose device beyond these limits.
Outline Drawing
0.011 (0.28)
0.114 (2.90) 0.018 (0.46)
1
2
3
3
2
1
0.014 (0.365)
*
A 8
AMMP XXXX YWWDNN
7 6 A FRONT VIEW 5
0.016 (0.40) 8
4
0.126 (3.2)
0.059 (1.5)
4
0.100 (2.54) 0.029 (0.75) 5 B SIDE VIEW MAX. 0.213 (5.4) 0.088 (2.25) 0.016 (0.40) 6 7
0.012 (0.30)
0.028 (0.70) 0.100 (2.54) 0.93 (2.36) BACK VIEW
DIMENSIONAL TOLERANCE FOR BACK VIEW: 0.002" (0.05 mm)
SYMBOL A B
MIN. 0.198 (5.03) 0.0685 (1.74)
DIMENSIONS ARE IN INCHES (MM)
NOTES: 1. * INDICATES PIN 1 2. DIMENSIONS ARE IN INCHES (MILLIMETERS) 3. ALL GROUNDS MUST BE SOLDERED TO PCB RF GROUND
Figure 24.Outline Drawing.
0
Stencil Design Guidelines
A properly designed solder screen or stencil is required to ensure optimum amount of solder paste is deposited onto the PCB pads. The recommended stencil layout is shown in Figure 26. The stencil has a solder paste deposition opening approximately 70% to 90% of the PCB pad. Reducing stencil opening can potentially generate more voids underneath. On the other hand, stencil openings larger than 100% will lead to excessive solder paste smear or bridging across the I/O pads. Considering the fact that solder paste thickness will directly affect the quality of the solder joint, a good choice is to use a laser cut stencil composed of 0.127 mm (5 mils) thick stainless steel which is capable of producing the required fine stencil outline. The combined PCB and stencil layout is shown in Figure 27.
Figure 25. Suggested PCB Land Pattern and Stencil Layout
Figure 26. Stencil Outline Drawing (mm)
Figure 27. Combined PCB and Stencil Layout
Carrier Tape and Pocket Dimensions
4.00 0.10 SEE NOTE #2 2.00 0.05 B 1.55 0.05 R 0.50 TYP. 1.75 0.10 5.50 0.05 Bo A Ko SECTION B-B Ao Ao: Bo: Ko: PITCH: WIDTH: 5.30 5.30 2.20 8.00 12.00 Ao MIN. 5.20 NOM. 5.30 MAX. 5.40 Bo 5.20 5.30 5.40 Ko 2.10 2.20 2.30 A 12.00 0.10 Ao
Bo
B
8.00 0.10
1.50 (MIN.)
Ko
0.30 0.05 SECTION A-A NOTES: 1. Ao AND Bo MEASURED AT 0.3 mm ABOVE BASE OF POCKET. 2. 10 PITCHES CUMULATIVE TOLERANCE IS 0.2 mm. 3. DIMENSIONS ARE IN MILLIMETERS (mm).
Device Orientation (Top View)
4 mm
12 mm AMMP XXXX AMMP XXXX AMMP XXXX
Part Number Ordering Information
Part Number Devices per Container Container
AMMP-5620-BLKG AMMP-5620-TRG AMMP-5620-TR2G
0 00 500
Antistatic Bag 7" Reel 7" Reel
For product information and a complete list of distributors, please go to our web site:
www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies, Limited in the United States and other countries. Data subject to change. Copyright (c) 2007 Avago Technologies Limited. All rights reserved. Obsoletes AV0-0585EN AV02-053EN - June 4, 2007

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