Features Wide frequency range: High gain: Gain flatness: 0.75 Return l
|
|
|
Top Searches for this datasheet
Agilent AMMC-5024 Traveling Wave Amplifier
Features Wide frequency range: High gain: Gain flatness: 0.75 Return loss: Input: Output: Medium power: P-1dB 22.5 noise figure: Applications Communication systems
Chip Size: Chip Size Tolerance: Chip Thickness: Dimensions: 2350 1050 (92.5 41.3 mils) (±0.4 mils) mils) (2.95 mils)
Microwave instrumentation Optical systems Broadband applications requiring flat gain group delay with excellent input output port matches over frequency range
Description Agilent's AMMC-5024 broadband PHEMT GaAs MMIC designed medium output power high gain over full frequency range. design employs 9-stage, cascade-connected structure ensure flat gain power well uniform group delay. E-beam lithography used produce uniform gate lengths 0.15 technology assures precise semiconductor layer control.
Absolute Maximum Ratings
Symbol
Tstg Tmax
Parameters/Conditions
Positive Drain Voltage Total Drain Current First Gate Voltage First Gate Current Second Gate Voltage Second Gate Current Input Power Operating Channel Temperature Operating Backside Temperature Storage Temperature Max. Assembly Temp max)
Units
Min.
Max.
-9.5 -3.5
+150 +165 +300
Notes: Absolute maximum ratings continuous operation unless otherwise noted.
AMMC-5024 Specifications/Physical Properties[1]
Symbol
Idss Idsmin (Vg1) Idsmin (Vg2) ch-b
Parameters Test Conditions
Saturated Drain Current (Vdd =open circuit) First Gate Pinch-off Voltage (Vdd =open circuit) Second Gate Self-bias Voltage (Vdd =open circuit) First Gate Minimum Drain Current (Vdd =open circuit) Second Gate Minimum Drain Current (Vdd -3.5 Thermal Resistance[2] (Backside temperature, 25°C)
Units
°C/W
Min.
Typ.
-8.2 2.75
Max.
Specifications High Power Applications[3,4] (Vdd Idd(Q)=200
Symbol
|S21|2 |S21|2 RLin RLout |S12| P-1dB Psat OIP3
Parameters Test Conditions
Small-signal Gain Small-signal Gain Flatness Input Return Loss Output Return Loss Isolation Output Power Gain Compression Saturated Output Power Output Order Intercept Point, Rfin1 Rfin2 dBm, GHz, Noise Figure (Vds
Units
Min.
Typ.
±0.75
Max.
±1.5
16.9 16.8 22.5 24.5
Specifications High Gain Power Applications[3,4] (Vdd Idd(Q)=160
Symbol
|S21|2 |S21| RLin RLout |S12| P-1dB Psat OIP3
Parameters Test Conditions
Small-signal Gain Small-signal Gain Flatness Minimum Input Return Loss Minimum Output Return Loss Isolation Output Power Gain Compression Saturated Output Power Output Order Intercept Point, Rfin1 Rfin2 dBm, GHz, Noise Figure
Units
Min.
Typ.
17.5 ±1.5 17.3 20.5 22.5
Max.
Notes: Backside temperature 25°C unless otherwise noted. Channel-to-backside Thermal Resistance (ch-b) 61°C/W Tchannel (Tc) 150°C measured using liquid crystal method. Thermal Resistance backside temperature (Tb) 25°C calculated from measured data. Data measured wafer form, Tchuck 25°C 100% on-wafer test done frequency GHz, except noted.
AMMC-5024 Typical Performance (Tchuck 25°C, Open,
(dB) (dB)
RETURN LOSS (dB)
S11(dB) S22(dB)
P-1, (dBm)
S21(dB) S12(dB)
FREQUENCY (GHz)
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure Gain Reverse Isolation.
Figure Return Loss (Input Output).
Figure Output Power (P-1 P-3).
0.14 0.12
(nS) NOISE FIGURE (dB)
OIP3 (dBm)
0.08 0.06 0.04
0.02
FREQUENCY (GHz)
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure Group Delay.
Figure Noise Figure.
Figure Output IP3.
AMMC-5024 Typical Scattering Parameters
Freq.
0.05
(Tchuck 25°C,
6.703 6.588 6.514 6.434 6.321 6.214 6.117 6.058 6.051 6.081 6.119 6.099 5.997 5.876 5.826 5.855 5.954 6.070 6.174 6.216 6.211 6.182 6.206 6.253 6.326 6.399 6.410 6.351 6.215 6.078 6.003 6.068 6.158 6.173 6.034 5.800 5.640 5.576 5.539 5.393 5.113 4.776 4.439 4.123 3.769 3.447 3.184 2.978 2.774 2.514 2.214
-26.524 -24.941 -21.885 -19.412 -17.725 -16.970 -16.940 -17.741 -19.505 -22.752 -25.795 -21.613 -17.435 -14.804 -13.213 -12.628 -12.989 -14.171 -16.678 -20.641 -23.782 -21.425 -19.193 -18.288 -19.046 -21.832 -27.570 -28.076 -20.068 -16.785 -15.212 -14.889 -16.789 -18.936 -19.985 -19.130 -18.210 -18.457 -22.391 -24.387 -22.649 -20.369 -20.473 -20.560 -18.778 -19.072 -18.104 -14.701 -11.446 -9.005 -6.637
0.047 0.057 0.080 0.107 0.130 0.142 0.142 0.130 0.106 0.073 0.051 0.083 0.134 0.182 0.218 0.234 0.224 0.196 0.147 0.093 0.065 0.085 0.110 0.122 0.112 0.081 0.042 0.039 0.099 0.145 0.174 0.180 0.145 0.113 0.100 0.111 0.123 0.119 0.076 0.060 0.074 0.096 0.095 0.094 0.115 0.111 0.124 0.184 0.268 0.355 0.466
Phase
-174.370 -154.440 -146.320 -149.270 -157.970 -168.560 -179.420 170.600 163.170 163.190 -165.530 -134.230 -136.040 -147.840 -163.030 -179.470 163.010 147.400 135.040 130.070 154.470 177.240 173.670 156.910 138.050 114.120 67.164 -50.074 -96.000 -121.770 -145.820 -168.310 173.110 166.700 177.880 179.680 160.620 134.410 91.975 23.468 -37.468 -74.314 -84.567 -91.634 -92.252 -85.034 -73.258 -64.708 -65.771 -76.848 -89.734
16.526 16.375 16.277 16.170 16.016 15.868 15.731 15.646 15.636 15.679 15.733 15.705 15.558 15.381 15.307 15.351 15.496 15.663 15.812 15.870 15.863 15.823 15.856 15.922 16.022 16.122 16.137 16.057 15.869 15.675 15.567 15.661 15.788 15.810 15.612 15.269 15.025 14.926 14.869 14.636 14.174 13.581 12.946 12.305 11.524 10.748 10.059 9.479 8.863 8.007 6.902
Phase
179.390 155.660 133.110 110.580 88.271 66.412 44.780 23.511 2.105 -19.628 -42.046 -64.823 -87.590 -109.420 -130.680 -152.100 -174.100 163.120 139.670 115.610 91.770 67.954 44.285 20.329 -4.276 -29.641 -55.651 -82.011 -108.060 -133.780 -158.990 175.180 147.730 118.780 89.206 60.446 32.215 3.374 -27.424 -59.455 -92.328 -124.820 -157.360 169.650 136.220 103.130 69.590 34.467 -3.117 -42.656 -83.972
-66.134 -61.862 -55.350 -51.048 -48.620 -46.356 -44.560 -42.719 -41.197 -39.902 -38.851 -37.914 -37.130 -36.350 -35.589 -34.692 -33.794 -32.937 -32.208 -31.690 -31.208 -30.781 -30.231 -29.783 -29.336 -28.991 -28.757 -28.622 -28.763 -28.808 -28.853 -28.759 -28.591 -28.536 -28.676 -28.992 -29.214 -29.344 -29.287 -29.189 -29.513 -29.849 -30.351 -30.858 -31.563 -32.440 -33.098 -33.500 -33.995 -33.996 -34.691
0.000 0.001 0.002 0.003 0.004 0.005 0.006 0.007 0.009 0.010 0.011 0.013 0.014 0.015 0.017 0.018 0.020 0.023 0.025 0.026 0.028 0.029 0.031 0.032 0.034 0.036 0.036 0.037 0.036 0.036 0.036 0.036 0.037 0.037 0.037 0.036 0.035 0.034 0.034 0.035 0.033 0.032 0.030 0.029 0.026 0.024 0.022 0.021 0.020 0.020 0.018
Phase
-56.514 -109.670 -132.750 -153.970 -174.570 165.210 144.510 123.530 102.140 80.129 58.121 36.356 15.803 -4.845 -25.521 -45.793 -67.515 -90.266 -113.940 -137.810 -161.750 174.640 151.020 126.440 100.950 75.101 47.960 20.890 -6.265 -33.072 -59.523 -86.846 -115.960 -146.370 -177.890 151.190 120.660 90.933 60.092 27.357 -6.508 -39.965 -73.488 -107.270 -142.290 -175.820 150.230 119.650 83.945 49.390 15.240
-29.620 -29.934 -26.919 -25.153 -24.391 -24.068 -23.775 -22.940 -21.619 -20.245 -19.716 -20.130 -21.644 -22.284 -20.256 -18.092 -16.431 -15.737 -15.813 -16.780 -18.810 -21.397 -23.661 -21.101 -18.085 -15.617 -14.258 -13.705 -13.717 -14.430 -15.005 -15.146 -14.682 -13.588 -12.883 -12.719 -13.861 -15.387 -19.170 -30.763 -24.452 -17.619 -16.143 -16.259 -18.606 -24.603 -21.717 -15.939 -13.445 -12.285 -11.324
0.033 0.032 0.045 0.055 0.060 0.063 0.065 0.071 0.083 0.097 0.103 0.099 0.083 0.077 0.097 0.125 0.151 0.163 0.162 0.145 0.115 0.085 0.066 0.088 0.125 0.166 0.194 0.206 0.206 0.190 0.178 0.175 0.184 0.209 0.227 0.231 0.203 0.170 0.110 0.029 0.060 0.132 0.156 0.154 0.117 0.059 0.082 0.160 0.213 0.243 0.272
Phase
7.766 12.796 18.718 10.362 0.922 -7.610 -12.684 -18.420 -28.987 -47.192 -73.520 -109.900 -157.830 137.330 76.041 29.951 -7.571 -40.792 -74.475 -106.600 -142.950 169.440 104.260 34.057 -13.560 -54.765 -92.329 -131.060 -171.110 145.610 97.895 46.328 -10.820 -62.908 -111.430 -155.460 164.720 122.630 84.484 20.516 -146.250 165.520 133.010 99.260 76.664 93.515 135.190 122.900 114.170 89.641 78.671
Note: Data obtained from on-wafer measurements.
AMMC-5024 Typical Performance (Tchuck 25°C, Open,
RETURN LOSS (dB)
S11(dB) S22(dB)
P-1, (dBm)
(dB)
(dB)
S21(dB) S12(dB)
FREQUENCY (GHz)
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure Gain Reverse Isolation.
Figure Return Loss (Input Output).
Figure Output Power (P-1 P-3).
0.14 0.12
NOISE FIGURE (dB)
(nS)
0.08 0.06 0.04 0.02
OIP3 (dBm)
FREQUENCY (GHz)
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure Group Delay.
Figure Noise Figure.
Figure Output IP3.
AMMC-5024 Typical Scattering Parameters[1] (Tchuck 25°C,
Freq.
0.05
-26.046 -25.998 -24.392 -22.084 -20.032 -18.871 -18.430 -18.727 -19.934 -22.656 -27.478 -25.347 -19.749 -16.206 -14.011 -12.962 -12.935 -13.689 -15.570 -19.085 -25.363 -26.442 -20.900 -18.349 -17.560 -18.343 -20.831 -25.482 -21.019 -15.842 -13.096 -11.817 -12.588 -14.900 -21.159 -20.309 -14.744 -12.538 -13.339 -15.011 -16.105 -14.757 -15.383 -21.471 -18.182 -12.590 -13.269 -20.284 -14.029 -9.656 -5.683
0.050 0.050 0.060 0.079 0.100 0.114 0.120 0.116 0.101 0.074 0.042 0.054 0.103 0.155 0.199 0.225 0.226 0.207 0.167 0.111 0.054 0.048 0.090 0.121 0.132 0.121 0.091 0.053 0.089 0.161 0.221 0.257 0.235 0.180 0.088 0.097 0.183 0.236 0.215 0.178 0.157 0.183 0.170 0.084 0.123 0.235 0.217 0.097 0.199 0.329 0.520
Phase
-175.110 -164.940 -151.920 -147.760 -152.230 -160.550 -170.290 179.750 170.600 164.210 -179.640 -126.840 -120.480 -131.310 -146.840 -164.520 176.980 159.730 143.690 128.620 133.080 -165.970 -156.420 -172.490 168.580 145.730 110.490 47.234 -43.397 -84.248 -115.690 -144.730 -171.610 163.390 161.170 -141.280 -158.220 170.230 132.480 78.005 6.891 -61.000 -108.170 -141.240 -72.748 -105.520 -153.320 126.900 -5.310 -41.069 -68.263
16.908 16.786 16.727 16.657 16.538 16.419 16.305 16.225 16.227 16.287 16.384 16.410 16.336 16.209 16.158 16.210 16.352 16.530 16.717 16.846 16.926 16.965 17.054 17.170 17.320 17.534 17.708 17.813 17.786 17.674 17.547 17.670 17.969 18.362 18.588 18.465 18.201 18.066 18.167 18.276 18.189 17.917 17.784 17.922 17.442 15.750 13.940 12.983 11.793 7.696 4.495
7.005 6.907 6.860 6.805 6.713 6.621 6.535 6.475 6.476 6.522 6.595 6.614 6.559 6.464 6.425 6.464 6.570 6.707 6.853 6.955 7.020 7.051 7.124 7.220 7.345 7.528 7.680 7.774 7.750 7.651 7.540 7.648 7.915 8.282 8.500 8.380 8.130 8.004 8.098 8.200 8.118 7.868 7.748 7.872 7.449 6.130 4.978 4.458 3.887 2.426 1.678
Phase
179.610 156.790 135.230 113.560 92.010 70.825 49.938 29.369 8.799 -12.033 -33.532 -55.435 -77.463 -98.816 -119.500 -140.230 -161.440 176.800 154.440 131.460 108.520 85.461 62.568 39.543 16.078 -8.082 -32.996 -58.575 -84.438 -110.030 -134.660 -159.020 175.550 148.060 118.310 88.090 59.059 30.963 1.607 -29.543 -62.709 -95.764 -128.890 -165.490 151.790 110.450 75.442 40.022 -5.741 -50.048 -69.558
-59.336 -65.942 -59.134 -54.398 -52.371 -49.621 -47.520 -45.659 -43.865 -42.482 -41.201 -40.162 -39.239 -38.327 -37.323 -36.407 -35.276 -34.270 -33.419 -32.607 -31.889 -31.268 -30.682 -30.022 -29.439 -28.885 -28.374 -27.893 -27.722 -27.501 -27.408 -27.130 -26.768 -26.185 -25.723 -25.559 -25.633 -25.760 -25.749 -25.454 -25.424 -25.415 -25.467 -25.277 -25.857 -27.536 -29.470 -30.994 -33.295 -39.913 -44.196
0.001 0.001 0.001 0.002 0.002 0.003 0.004 0.005 0.006 0.008 0.009 0.010 0.011 0.012 0.014 0.015 0.017 0.019 0.021 0.023 0.025 0.027 0.029 0.032 0.034 0.036 0.038 0.040 0.041 0.042 0.043 0.044 0.046 0.049 0.052 0.053 0.052 0.052 0.052 0.053 0.054 0.054 0.053 0.054 0.051 0.042 0.034 0.028 0.022 0.010 0.006
Phase
-61.940 -108.900 -128.490 -158.090 -178.300 161.460 141.190 119.280 97.498 74.972 53.471 31.594 10.910 -9.819 -29.734 -50.251 -72.076 -94.562 -118.010 -141.710 -166.020 169.730 145.660 121.250 96.409 70.972 44.076 17.025 -10.669 -38.170 -65.246 -92.100 -119.520 -148.970 179.060 145.960 113.580 82.862 52.499 20.356 -13.439 -47.607 -83.226 -122.260 -166.580 150.440 112.520 73.538 27.040 -10.430 11.969
-32.459 -34.057 -31.519 -30.113 -29.546 -28.527 -26.705 -24.546 -22.558 -21.031 -20.499 -20.801 -21.844 -22.131 -20.818 -19.513 -18.421 -18.158 -18.744 -20.205 -23.130 -27.569 -33.534 -26.084 -21.809 -18.685 -16.869 -15.693 -15.062 -15.047 -15.045 -14.911 -14.657 -13.556 -12.691 -12.218 -13.056 -14.378 -16.970 -21.811 -20.840 -16.035 -15.120 -16.069 -19.776 -14.233 -11.523 -10.251 -12.501 -17.076 -12.434
0.024 0.020 0.027 0.031 0.033 0.037 0.046 0.059 0.074 0.089 0.094 0.091 0.081 0.078 0.091 0.106 0.120 0.124 0.116 0.098 0.070 0.042 0.021 0.050 0.081 0.116 0.143 0.164 0.177 0.177 0.177 0.180 0.185 0.210 0.232 0.245 0.222 0.191 0.142 0.081 0.091 0.158 0.175 0.157 0.103 0.194 0.265 0.307 0.237 0.140 0.239
Phase
16.703 5.690 17.159 12.590 10.367 9.842 8.417 -0.474 -17.521 -41.715 -72.840 -112.770 -161.860 138.490 82.104 36.945 -0.979 -34.038 -67.232 -96.759 -128.700 -173.310 98.102 10.942 -29.430 -66.154 -100.080 -136.500 -174.690 144.500 101.700 56.891 6.430 -42.887 -92.108 -138.540 -178.190 143.400 116.660 111.200 134.530 118.260 80.564 25.234 -75.636 -173.290 139.690 102.000 75.692 74.549 98.012
Note: Data obtained from on-wafer measurements.
AMMC-5024 Typical Performance (Over Temperature Voltage)
S21, S11, (dB)
FREQUENCY (GHz)
GAIN (dB)
(dBm)
S11/80°C S22/-40°C S21/25°C S22/80°C S22/-40°C
S11/25°C S21/80°C S22/-40°C S22/25°C
7V/200mA 6V/187mA 5V/174mA 4V/160mA 3V/147mA
7V/200mA 6V/187mA 5V/174mA 4V/160mA 3V/147mA
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure Gain Voltage.
Figure Voltage.
Figure Gain Return Loss with Temperature.
(dBm)
(dBm)
NF/-40°C NF/25°C NF/80°C
NOISE FIGURE (dB)
7V/200 6V/187 5V/174 4V/160 3V/147
P-1/80°C P-1/25°C P-1/-40°C
FREQUENCY (GHz)
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure Temperature, Vdd=7V, Idd=200
Figure Noise Figure Temperature Vdd=4V, Idd=160
Figure Noise Figure Voltage.
Biasing Operation AMMC-5024 biased with single positive drain supply (Vdd) negative gate supply (Vg1) positive control gate supply (Vg2). best overall performance recommended bias condition AMMC-5024 achieve this drain current level, typically between -2.5 -3.5V. Typically, current flow Open circuit default setting when utilizing gain control. Using simplest form assembly (Figure 20), device capable delivering flat gain over range with minimum gain slope ripple. However, this device designed with coupled ports, operation extended lower frequencies GHz) through offchip low-frequency extension circuitry proper external biasing components. With frequency bias extension used variety timedomain applications (through Gb/s). Figure shows typical assembly configuration. When bypass capacitors connected pads, frequency limit extended down corner frequency determined bypass capacitor combination on-chip load small de-queing resistor. this frequency small signal gain will increase magnitude stay this elevated level down point where Caux bypass capacitor acts open circuit, effectively rolling gain completely. frequency
limit approximated from following equation:
fCaux 2Caux(Ro RDEQ)
where: gate drain line termination resistor. RDEQ small series dequeing resistor Caux capacitance bypass capacitor connected Drain Gate farads. With external bypass capacitors connected gate drain pads, gain will show slight increase between GHz. This series combination Caux chip resistance exaggerated parasitic inductance (Lc) bypass capacitor inductance bond wire (Ld). Therefore bond wire from pads bypass capacitors should made short possible. Input output ports coupled; therefore, decoupling capacitors required there paths. attempt apply bias these pads.) bond connections should kept short possible reduce lead inductance which will degrade performance above GHz. optional output power detector network also provided. Detector sensitivity optimized biasing diodes with typical drain voltage volts. Simply connecting Det-Bias supply convenient method biasing this detector network.
differential voltage between Det-Ref Det-Out pads correlated with power emerging from output port. >0.5 capacitor required Det_Out expand power detection performance below MHz. Ground connections made with plated through-holes backside device; therefore, ground wires needed. Assembly Techniques chip should attached directly ground plane using either fluxless AuSn solder preform electrically conductive epoxy[1]. conductive epoxy, amount should just enough provide thin fillet around bottom perimeter die. ground plane should free residue that jeopardize electrical mechanical attachment. Caution should taken exceed Absolute Maximum Rating assembly temperature time. Thermosonic wedge bonding preferred method wire attachment bond pads. connections should kept short possible minimize inductance. Gold mesh[2] double-bonding with gold wire recommended. Mesh attached using round tracking tool tool force approximately grams with ultrasonic power roughly duration guided wedge ultrasonic power level used wire. recommended wire bond stage temperature
chip thick should handled with care. This MMIC exposed bridges surface. Handle edges with custom collet pick with vacuum center.) This MMIC also static sensitive handling precautions should taken.
more detailed information, Agilent Application Note "GaAs MMIC ESD, Attach Bonding Guidelines." Notes: Ablebond 84-1 silver epoxy recommended. Buckbee-Mears Corporation, Paul, 800-262-3824
DET_OUT
Nine Identical Drain Bias (Vdd) RF_Output
DET_BIAS Second Gate First Gate Bias (Vg1) RF_Input
DET_REF
Figure AMMC-5024 Schematic.
DET_Reference Vdd_AUX DET_Bias DET_Output 1260 2260
1050
Output
INPUT
2080 2350
Figure AMMC-5024 Bonding Locations. (dimensions micrometers)
Drain bias must decoupled from lowest operating frequency Capacitor
Inductor operation bond wire
Gate decoupled from (Bond wire length important)
Figure AMMC-5024 Assembly Diagram.
www.agilent.com/semiconductors
product information complete list distributors, please site. technical assistance call: Americas/Canada: (800) 235-0312 (916) 788-6763 Europe: 6441 92460 China: 10800 0017 Hong Kong: (65) 6756 2394 India, Australia, Zealand: (65) 6755 1939 Japan: (+81 0120-61-1280(Domestic Only) Korea: (65) 6755 1989 Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (65) 6755 2044 Taiwan: (65) 6755 1843 Data subject change. Copyright 2003 Agilent Technologies, Inc. August 2003 5988-9884EN
Other recent searches
MBRA130LT3 - MBRA130LT3 MBRA130LT3 Datasheet
M383L1713DTS - M383L1713DTS M383L1713DTS Datasheet
LT1795 - LT1795 LT1795 Datasheet
AN41023A - AN41023A AN41023A Datasheet
74LVQ280 - 74LVQ280 74LVQ280 Datasheet
1N4001 - 1N4001 1N4001 Datasheet
1N4007 - 1N4007 1N4007 Datasheet
Privacy Policy | Disclaimer
© 2012 Datasheet Archive
