MGA-65606 Low Noise Amplifier with switchable Bypass/Shutdown Mode in Low Profile Package Data Sheet Description Avago Technologies' MGA-65606 is an economical, easy- to-use GaAs MMIC Low Noise Amplifier (LNA) with Bypass/ Shutdown mode.The LNA has low noise and high linearity achieved through the use of Avago Technologies' propri- etary 0.25 ?m GaAs Enhancement-mode pHEMT process. The Bypass/Shutdown mode enables the LNA to be bypassed during high input signal power and reduce current consumption. It is housed in a low profile 2.0 x 1.3 x 0.5 mm3 6-pin UltraThin Package.The compact footprint andlowprofilecoupledwithlownoise,highlinearitymake the MGA-65606 an ideal choice as a low noise amplifier for mobile and CPE receivers in the WiMAX and WLL (2.5 – 4) GHz band. Component Image 2.0 x 1.3 x 0.5 mm3 6-lead UltraThin Package Note: Package marking provides orientation and identification "65" = Product Code "X" = Month Code Features ?? Low current consumption ?? Adjustable bias current ?? Simple matching network ?? Broadband operation (2.5 – 4) GHz ?? Low Noise Figure ?? Low current consumption in Bypass Mode, <100 ?A ?? Fully matched to 50 ohm in Bypass Mode ?? High Linearity (LNA and Bypass Mode) ?? Low profile package Typical Performance 3.5 GHz; 3V, 10mA (Typ): ?? 15.3 dB Gain ?? 1.05 dB Noise Figure ?? +5.7 dBm Input IP3 ?? -2.4 dBm Input Power at 1 dB gain compression ?? 4.2 dB Insertion Loss in Bypass Mode ?? 17 dBm IIP3 in Bypass Mode (Pin = -20 dBm) ?? <100 ?A current consumption in Bypass mode Applications ?? Low noise amplifier for WiMAX, Wireless Local Loop. ?? Other ultra low noise applications in the 2.5 – 4 GHz band. Simplified Schematic Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model = 50V ESD Human Body Model = 300V Refer to Avago Application Note A004R: Electrostatic Discharge, Damage and Control. Pin Configuration Pin 1 (Vbias) Pin 3 (Gnd) Pin 6 (Vsd) Pin 5 (RFOut) Pin 4 (Vdd) GND Pin 2 (RFin) TOP VIEW 65X R RF IN RF OUT LNA VBias Control VSD L C C L Vdd 1 2 3 4 5 6 R L Bias / 2 Absolute Maximum Rating[1] TA = 25° C Symbol Parameter Units Absolute Maximum Vdd Device Voltage, RF Output to Ground V 5 Vbias Control Voltage V (Vdd-0.3) Pin,max CW RF Input Power dBm +12 Pdiss Total Power Dissipation mW 104 Tj Junction Temperature °C 150 TSTG Storage Temperature °C -65 to 150 Thermal Resistance Thermal Resistance[2,3] (Vdd = 3.0V, Id= 10 mA), ?jc = 80° C/W Notes: 1. Operation of this device in excess of any of these limits may cause permanent damage. 2. Thermal resistance measured using Infra-Red Measurement Technique. 3. Boardtemperature(Tb)is25°C,forTb>146°C, derate the device power at 14 mW per °C rise in Board (pakcage belly) temperature. Product Consistency Distribution charts[1] Figure 1. Gain @ 3.5 GHz,Vdd 3V;Vbias 2.7V LSL = 14 dB, Nominal = 15.3 dB, USL = 17 dB Figure 2. NF @ 3.5 GHz,Vdd 3V;Vbias 2.7V Nominal = 1.05 dB, USL = 1.35 dB Figure 3. Idd @ 3.5 GHz,Vdd 3V;Vbias 2.7V Nominal = 10.0 mA, USL = 12.0 mA Note: 1. Distribution data sample size is 3000 samples taken from 3 different wafers and 3 different lots. Future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 13 14 15 16 17 LSL USL 7 8 9 10 11 12 13 USL USL 0.8 0.7 0.9 1 1.2 1.3 1.1 1.5 1.4 3 Electrical Specifications[1] TA = 25° C, Vdd =3 V, Vbias = 2.7 V, RF measurement at 3.5 GHz – Typical Performance Symbol Parameter andTest Condition Units Min. Typ. Max. LNA Mode performance (Vdd = 3V,Vbias = 2.7V &VSD = 0V) Idd Bias Current mA – 10 12 Gain Gain dB 14 15.3 17 NF Noise Figure dB – 1.05 1.35 IIP3 Input Third Order Intercept Point dBm – +5.7 – IP1dB Input Power at 1 dB Gain Compression dBm – -2.4 – S11 Input Return Loss, 50 ? source dB – -13.6 – S22 Output Return Loss, 50 ? load dB – -11 – S12 Reverse Isolation dB – -24 – BYPASS Mode performance (Vdd = 3V,Vbias = 0V &VSD = 0V) |S21|BYPASS Bypass Mode Insertion Loss dB – 4.2 – IIP3BYPASS Bypass Mode IIP3 (Tested at -20 dBm input Power) dBm – 17 – IddBYPASS Bypass Mode Current ?A – 70 – Shutdown Mode performance (Vdd = 3V,Vbias = 0V &VSD = 3V) |S21|SHUTDOWN Shutdown Mode Isolation dB – 17 – IddSHUTDOWN Shutdown Mode Current ?A – 105 – Note: 1. 3.5 GHz IIP3 test condition: FRF1 = 3.5 GHz, FRF2 = 3.505 GHz with input power of -20 dBm per tone. Table 1. LNA SwitchTruthTable Vbias (V) /Vsd (V) Vdd (V) Mode 2.7 / 0 [1] 3 LNA 0 / 0 [2] 3 BYPASS 0 / 3 [3] 3 SHUTDOWN Notes: 1. Device operation in LNA mode if Vbias > 2.2 V and Vsd < 0.5 V. Bias current of LNA can be varied with different values of Vbias for Vbias > 2.2 V. See Fig 5 below. 2. Device operation in BYPASS mode if Vbias < 0.3 V and VSD < 0.5 V. 3. Device is shutdown if Vsd >2.6 V. In SHUTDOWN mode, LNA and internal Bypass switch is turn OFF. SHUTDOWN mode override Vbias voltage setting. Pin 6 (Vsd) is a Pull-Down logic function pin and recommend to ground it if shutdown function is not used in application. 4 Demo Board Layout Figure 4. Demo Board Layout Diagram 1 2 3 4 RF Input RF Output A vag o O C T 2 0 1 0 Techn o l o gies MIMO SA v2 GND IN O U T GND GND Vdd Vsd Vbias R2 R1 L1 L2 L3 C 1 C 2 5 6 GND GND Vbias Vsd Vdd GND Application Notes 1. Performance in a specified frequency band can be optimized by changing component values in the demo board above to suit the application at that frequency. The schematic on page 5 show components used to demonstrate performance at the (3.0 – 4.0) GHz band. 2. Pin1 (Vbias pin) voltage in LNA mode can be varied to enable the LNA bias current to be adjusted, refer to next graph: Figure 5. Id vsVbias (Vdd = 3V;Vsd = 0V).Vbias is varies in this plot. 0.0 2.0 4.0 6.0 8.0 10.0 12.0 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) Id (m A ) 5 Demo Board Schematic for 3.5 GHz application 50-Ohms TL 50-Ohms TL RF IN (Pin 2) RF OUT (Pin 5) LNA V Bias (Pin 1) Bias / Control Bias / Control Bias / Control VSD (Pin 6) L3 C1 L1 1 2 3 4 5 6 L2 Gnd (Pin 3) C2 Vdd R1 Vdd (Pin 4) R2 Figure 6. Demo Board Schematic Diagram Table 2Typical Components Used For Demo Board In Fig 4 And Schematic Shown In Fig 6. R2 is adjusted for desired current. Component Vendor Size Value L1 Taiyo Yuden 0402 2.2 nH L2 Taiyo Yuden 0402 2.4 nH L3 Taiyo Yuden 0402 1.0 nH C1 Taiyo Yuden 0402 8 pF C2 Murata 0402 0.1 ?F R1 ROHM 0402 10 ohm R2 ROHM 0402 1.8 Kohm MGA-65606 Typical Performance (3.5 GHz match) TA = +25° C, Vdd = 3 V, Ids = 10 mA (Vbias = 2.7 V), RF mea- surement at 3.5 GHz, Input Signal = CW unless stated otherwise. Figure 7. LNA Mode Gain, Input Return Loss, Output Return Loss, Isolation vs Frequency -60 -50 -40 -30 -20 -10 0 10 20 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 d B Frequency (GHz) Input Return Loss Output Return Loss Gain Isolation 6 LNA Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 2.7 V, Vsd = 0 V Figure 8. LNA Mode Gain vs Frequency vs Id Figure 9. LNA Mode Noise Figure vs Frequency vs Id Figure 10. LNA Mode Gain vsVbias vsTemperature Figure 11. LNA Noise Figure vsVbias vsTemperature Figure 12. LNA Mode IP1dB vsVbias vsTemperature Figure 13. LNA Mode IIP3 vsVbias vsTemperature 13.0 13.5 14.0 14.5 15.0 15.5 16.0 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) Gain (d B ) 13.0 13.5 14.0 14.5 15.0 15.5 16.0 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) Gain (d B ) -5 -4 -3 -2 -1 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) IP1d B (d B m) 2 3 4 5 6 7 8 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) IIP3 (d B m) 0.8 0.9 1.0 1.1 1.2 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) NF (d B ) 0.4 0.6 0.8 1.0 1.2 1.4 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) NF (d B ) 8 mA 9 mA 10 mA 11 mA 25° C 85° C -40° C 8 mA 9 mA 10 mA 11 mA 25° C 85° C -40° C 25° C 85° C -40° C 25° C 85° C -40° C 7 LNA Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 2.7 V, Vsd = 0 V Figure 14. Edwards-Sinsky Output Stability Factor(Mu) atVdd = 3V Figure 15. Edwards-Sinsky Input Stability Factor(Mu') atVdd = 3V Bypass Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 0 V, Vsd = 0 V Figure 16. Bypass Mode Gain, Input Return Loss, Output Return Loss, Isolation vs Frequency Figure 17. Bypass Mode Insertion Loss vs Frequency vsTemperature Figure 18. Bypass Mode IIP3 vs Frequency vsTemperature Figure 19. Bypass Mode IIP3 vs Input Power -40 -35 -30 -25 -20 -15 -10 -5 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 d B Frequency (GHz) Input Return Loss Output Return Loss Gain Isolation -7.0 -6.5 -6.0 -5.5 -5.0 -4.5 -4.0 -3.5 -3.0 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) B ypass Inse r ti o n L o ss (d B ) 0 5 10 15 20 25 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) IIP3 (d B m) 0 2 4 6 8 10 12 14 16 18 20 -20 -15 -10 -5 0 5 Pin (dBm) IIP3 (d B m) 25° C 85° C -40° C 25° C 85° C -40° C 8 Shutdown Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 0 V, Vsd = 3 V Figure 20. Shutdown Mode Gain, Input Return Loss, Output Return Loss, Isolation vs Frequency Figure 21. Shutdown Mode Isolation vs Frequency vsTemperature Test Circuit For S and Noise parameter measurement[1] (3.5GHz match) Component Vendor Size Value L3 Taiyo Yuden 0402 1.0 nH C1 Taiyo Yuden 0402 8 pF C2 Murata 0402 0.1 ?F R1 ROHM 0402 10 ohm Note: 1. The measurement is calibrated up to the input (RFin) and output (RFout) pin of the package. Figure 22. S-parameter and Noise parameter test circuit on demo board -24 -22 -20 -18 -16 -14 -12 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) S hutd o wn Is o lati o n (d B ) -50 -60 -40 -30 -20 -10 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 d B Frequency (GHz) Input Return Loss Output Return Loss Isolation Gain 85° C -40° C 25° C R2 RF IN (Pin 2) RF OUT (Pin 5) LNA V Bias (Pin 1) Bias / Control Bias / Control Bias / Control VSD (Pin 6) L3 1 2 3 4 5 6 Gnd (Pin 3) C2 C1 Vdd (Pin 4) R1 Reference plane MGA-65606 9 MGA-65606 LNA Mode typical scattering parameters at 25° C,Vdd = 3V;Vbias = 2.7V;Vsd = 0V Frequency (GHz) S11 S21 S12 S22 Mag Angle dB Mag Angle dB Mag Angle Mag Angle 0.5 0.946 -20.4 -10.90 0.285 -99.4 -66.08 0.000 129.5 0.981 -16.1 1.0 0.875 -37.4 -3.43 0.674 -133.6 -59.90 0.001 147.1 0.953 -30.6 1.5 0.816 -50.2 -2.20 0.776 -134.9 -53.80 0.002 177.2 0.944 -45.8 2.0 0.789 -63.4 4.41 1.661 -127.2 -43.11 0.007 -152.1 0.891 -72.4 2.1 0.784 -66.9 6.30 2.065 -131.8 -40.37 0.010 -153.6 0.855 -80.6 2.2 0.777 -70.7 8.08 2.535 -138.7 -37.77 0.013 -158.0 0.802 -90.5 2.3 0.765 -74.9 9.69 3.051 -147.5 -35.45 0.017 -164.8 0.727 -102.9 2.4 0.747 -79.4 11.09 3.587 -157.7 -33.35 0.022 -172.9 0.635 -119.0 2.5 0.723 -84.0 12.28 4.109 -169.0 -31.56 0.026 177.9 0.551 -140.1 2.6 0.694 -88.5 13.22 4.583 179.0 -30.05 0.031 167.9 0.491 -164.7 2.7 0.661 -92.9 13.93 4.971 166.5 -28.80 0.036 157.4 0.450 169.0 2.8 0.626 -97.0 14.40 5.247 153.9 -27.82 0.041 146.7 0.422 141.8 2.9 0.591 -100.7 14.64 5.396 141.4 -27.10 0.044 136.2 0.404 114.5 3.0 0.556 -104.0 14.68 5.417 129.3 -26.60 0.047 126.1 0.395 87.7 3.5 0.442 -114.0 12.88 4.406 81.3 -26.28 0.049 87.8 0.553 -13.1 4.0 0.419 -121.3 10.58 3.380 51.2 -26.77 0.046 67.4 0.704 -49.3 4.5 0.419 -128.3 8.74 2.735 29.3 -27.01 0.045 55.5 0.771 -70.9 5.0 0.415 -135.7 7.12 2.271 10.4 -27.11 0.044 47.0 0.815 -89.8 5.5 0.423 -144.2 5.70 1.927 -7.2 -27.08 0.044 40.1 0.842 -106.6 6.0 0.444 -151.5 4.56 1.690 -22.9 -26.77 0.046 35.4 0.855 -119.0 6.5 0.452 -158.2 3.52 1.499 -37.7 -26.31 0.048 31.7 0.863 -131.5 7.0 0.450 -165.6 2.54 1.340 -52.3 -25.70 0.052 28.4 0.867 -144.9 7.5 0.448 -174.7 1.52 1.192 -66.9 -24.98 0.056 24.9 0.869 -159.6 8.0 0.460 174.6 0.37 1.044 -81.6 -24.28 0.061 20.7 0.868 -175.2 8.5 0.492 163.8 -0.97 0.894 -96.4 -23.67 0.066 15.8 0.868 169.1 9.0 0.539 154.2 -2.57 0.744 -110.8 -23.19 0.069 10.7 0.869 154.4 9.5 0.592 146.0 -4.42 0.601 -123.5 -22.75 0.073 5.7 0.865 141.7 10.0 0.637 138.5 -6.14 0.493 -135.1 -22.43 0.076 0.1 0.863 132.4 10 MGA-65606 Bypass Mode typical scattering parameters at 25° C,Vdd = 3V;Vbias = 0V;Vsd = 0V Frequency (GHz) S11 S21 S12 S22 Mag Angle dB Mag Angle dB Mag Angle Mag Angle 0.5 0.896 -36.0 -40.99 0.009 161.7 -39.91 0.010 147.7 0.980 -16.1 1.0 0.784 -65.2 -26.78 0.046 127.6 -26.74 0.046 128.0 0.953 -30.3 1.5 0.648 -94.0 -21.33 0.086 125.1 -21.30 0.086 125.4 0.930 -45.7 2.0 0.353 -103.4 -12.00 0.251 116.6 -11.96 0.252 116.9 0.738 -65.0 2.1 0.334 -100.3 -10.12 0.312 107.7 -10.08 0.313 108.0 0.683 -66.6 2.2 0.325 -97.4 -8.56 0.373 96.9 -8.52 0.375 97.2 0.635 -67.2 2.3 0.321 -94.5 -7.34 0.430 85.2 -7.30 0.432 85.5 0.595 -67.1 2.4 0.325 -91.6 -6.45 0.476 73.1 -6.41 0.478 73.3 0.564 -66.4 2.5 0.338 -88.6 -5.87 0.509 61.1 -5.83 0.511 61.4 0.541 -65.4 2.6 0.366 -85.9 -5.55 0.528 49.7 -5.51 0.530 50.0 0.526 -64.0 2.7 0.419 -85.4 -5.44 0.535 39.1 -5.40 0.537 39.3 0.521 -62.4 2.8 0.483 -89.8 -5.48 0.532 29.5 -5.44 0.534 29.7 0.528 -61.1 2.9 0.531 -96.6 -5.62 0.523 20.8 -5.58 0.526 21.1 0.544 -60.6 3.0 0.562 -103.5 -5.82 0.512 13.1 -5.78 0.514 13.4 0.567 -61.2 3.5 0.626 -132.3 -6.96 0.449 -16.4 -6.92 0.451 -16.1 0.661 -74.8 4.0 0.649 -152.8 -7.99 0.398 -37.9 -7.95 0.400 -37.7 0.708 -91.6 4.5 0.656 -168.2 -8.84 0.361 -55.3 -8.80 0.363 -55.0 0.734 -106.1 5.0 0.660 178.6 -9.76 0.325 -70.9 -9.72 0.327 -70.7 0.754 -120.1 5.5 0.665 167.2 -10.73 0.291 -85.7 -10.69 0.292 -85.5 0.766 -133.9 6.0 0.660 157.2 -11.52 0.265 -99.6 -11.48 0.267 -99.3 0.763 -145.6 6.5 0.650 147.3 -12.38 0.240 -113.8 -12.34 0.242 -113.5 0.757 -157.3 7.0 0.651 137.3 -13.46 0.212 -128.8 -13.42 0.213 -128.5 0.749 -169.6 7.5 0.677 127.8 -14.98 0.178 -145.2 -14.93 0.179 -144.9 0.741 177.2 8.0 0.733 119.6 -17.19 0.138 -163.0 -17.15 0.139 -162.7 0.734 163.4 8.5 0.810 112.1 -20.50 0.094 177.4 -20.45 0.095 177.7 0.732 150.0 9.0 0.881 104.2 -25.53 0.053 154.0 -25.47 0.053 154.3 0.737 138.2 9.5 0.922 95.4 -32.57 0.024 110.0 -32.47 0.024 110.3 0.746 128.5 10.0 0.924 85.9 -36.06 0.016 45.3 -35.99 0.016 45.7 0.756 121.6 11 MGA-65606 LNA Mode typical noise parameters at 25° C,Vdd = 3V;Vbias = 2.7V;Vsd = 0V Freq. (GHz) Fmin (dB) ?opt Mag ?opt Ang Rn/50 2.0 0.79 0.36 41.93 0.09 2.1 0.76 0.36 44.59 0.11 2.2 0.73 0.36 47.26 0.13 2.3 0.71 0.36 49.93 0.15 2.4 0.70 0.36 52.59 0.16 2.5 0.70 0.36 55.26 0.18 2.6 0.71 0.36 57.93 0.19 2.7 0.73 0.36 60.60 0.20 2.8 0.75 0.36 63.26 0.21 2.9 0.78 0.36 65.93 0.22 3.0 0.81 0.36 68.60 0.22 3.1 0.85 0.36 71.27 0.22 3.2 0.89 0.36 73.93 0.23 3.3 0.94 0.36 76.60 0.22 3.4 0.99 0.36 79.27 0.22 3.5 1.05 0.36 81.94 0.22 3.6 1.08 0.35 84.60 0.21 3.7 1.13 0.35 87.27 0.21 3.8 1.18 0.35 89.94 0.20 3.9 1.23 0.35 92.60 0.19 4.0 1.28 0.35 95.27 0.18 4.2 1.36 0.35 100.60 0.16 4.4 1.43 0.35 105.90 0.14 4.6 1.47 0.35 111.30 0.12 4.8 1.49 0.35 116.60 0.10 5.0 1.48 0.35 121.90 0.08 5.2 1.42 0.35 127.30 0.06 5.4 1.33 0.35 132.60 0.05 5.6 1.18 0.35 137.90 0.04 5.8 0.97 0.35 143.30 0.03 6.0 0.71 0.35 148.60 0.03 12 Package Dimensions PCB Land Patterns and Stencil Design Top Metal Solder Mask Opening Notes: 1. All dimension are in mm. 2. Recommend to use standard 4 mils Stencil thickness. 1.70 1.30 0.30 0.35 0.435 0.332 1.10 0. 31 R0.10 0.23 0.286 sq. 0.386 sq. 0. 5 0 0. 445 LAND PATTERN WITH VIA 1.70 1.10 0.26 sq. 0.23 0. 31 0. 5 0 0. 51 0 STENCIL OPENING 1.70 0.23 0.50 0.26 sq. 0.286 sq. 1.10 0. 31 COMBINED LAND PATTERN & STENCIL OPENING Notes: 1. All dimensions are in milimeters. 2. Dimensions are inclusive of plating. 3. Dimensions are exclusive of mold ?ash and metal burr. 2.00 ±0.05 1.30 ±0.05 TOP VIEW Pin#1 DOT by Marking 65X SIDE VIEW 0.50 ±0.05 Pin#1 Indicator R0.10 BOTTOM VIEW 1.10 1.10 0.50 0.20 0.25 13 Device Orientation USER FEED DIRECTION TOP VIEW END VIEW USER FEED DIRECTION COVER TAPE CARRIER TAPE REEL 65X 65X 65X Tape Dimensions Part Number Ordering Information Part # Qty Container MGA-65606-BLKG 100 Antistatic Bag MGA-65606-TR1G 3000 7"Reel MGA-65606-TR2G 10000 13"Reel 4.00 ±0.10 4.00 ±0.10 8.00 +0.30 ?0.10 ? 0.50 +0.05 ?0.10 2.00 ±0.05 3.50 ±0.05 1.75 ±0.10 ? 1.50 ±0.10 0.20 0.20 ± 0.15 2.17 ± 0.05 1.67 ± 0.05 45° MAX. 45° MAX. 0.73 ± 0.05 Ao Ko Bo (all dimensions in mm) For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, AvagoTechnologies, and the A logo are trademarks of AvagoTechnologies in the United States and other countries. Data subject to change. Copyright ? 2005-2011 AvagoTechnologies. All rights reserved. AV02-2889EN - November 15, 2011 Reel Dimensions Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Avago Technologies: MGA-65606-BLKG
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MGA-65606 Low Noise Amplifier with switchable Bypass/Shutdown Mode in Low Profile Package Data Sheet Description Avago Technologies' MGA-65606 is an economical, easy- to-use GaAs MMIC Low Noise Amplifier (LNA) with Bypass/ Shutdown mode.The LNA has low noise and high linearity achieved through the use of Avago Technologies' propri- etary 0.25 ?m GaAs Enhancement-mode pHEMT process. The Bypass/Shutdown mode enables the LNA to be bypassed during high input signal power and reduce current consumption. It is housed in a low profile 2.0 x 1.3 x 0.5 mm3 6-pin UltraThin Package.The compact footprint andlowprofilecoupledwithlownoise,highlinearitymake the MGA-65606 an ideal choice as a low noise amplifier for mobile and CPE receivers in the WiMAX and WLL (2.5 – 4) GHz band. Component Image 2.0 x 1.3 x 0.5 mm3 6-lead UltraThin Package Note: Package marking provides orientation and identification "65" = Product Code "X" = Month Code Features ?? Low current consumption ?? Adjustable bias current ?? Simple matching network ?? Broadband operation (2.5 – 4) GHz ?? Low Noise Figure ?? Low current consumption in Bypass Mode, <100 ?A ?? Fully matched to 50 ohm in Bypass Mode ?? High Linearity (LNA and Bypass Mode) ?? Low profile package Typical Performance 3.5 GHz; 3V, 10mA (Typ): ?? 15.3 dB Gain ?? 1.05 dB Noise Figure ?? +5.7 dBm Input IP3 ?? -2.4 dBm Input Power at 1 dB gain compression ?? 4.2 dB Insertion Loss in Bypass Mode ?? 17 dBm IIP3 in Bypass Mode (Pin = -20 dBm) ?? <100 ?A current consumption in Bypass mode Applications ?? Low noise amplifier for WiMAX, Wireless Local Loop. ?? Other ultra low noise applications in the 2.5 – 4 GHz band. Simplified Schematic Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model = 50V ESD Human Body Model = 300V Refer to Avago Application Note A004R: Electrostatic Discharge, Damage and Control. Pin Configuration Pin 1 (Vbias) Pin 3 (Gnd) Pin 6 (Vsd) Pin 5 (RFOut) Pin 4 (Vdd) GND Pin 2 (RFin) TOP VIEW 65X R RF IN RF OUT LNA VBias Control VSD L C C L Vdd 1 2 3 4 5 6 R L Bias / 2 Absolute Maximum Rating[1] TA = 25° C Symbol Parameter Units Absolute Maximum Vdd Device Voltage, RF Output to Ground V 5 Vbias Control Voltage V (Vdd-0.3) Pin,max CW RF Input Power dBm +12 Pdiss Total Power Dissipation mW 104 Tj Junction Temperature °C 150 TSTG Storage Temperature °C -65 to 150 Thermal Resistance Thermal Resistance[2,3] (Vdd = 3.0V, Id= 10 mA), ?jc = 80° C/W Notes: 1. Operation of this device in excess of any of these limits may cause permanent damage. 2. Thermal resistance measured using Infra-Red Measurement Technique. 3. Boardtemperature(Tb)is25°C,forTb>146°C, derate the device power at 14 mW per °C rise in Board (pakcage belly) temperature. Product Consistency Distribution charts[1] Figure 1. Gain @ 3.5 GHz,Vdd 3V;Vbias 2.7V LSL = 14 dB, Nominal = 15.3 dB, USL = 17 dB Figure 2. NF @ 3.5 GHz,Vdd 3V;Vbias 2.7V Nominal = 1.05 dB, USL = 1.35 dB Figure 3. Idd @ 3.5 GHz,Vdd 3V;Vbias 2.7V Nominal = 10.0 mA, USL = 12.0 mA Note: 1. Distribution data sample size is 3000 samples taken from 3 different wafers and 3 different lots. Future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 13 14 15 16 17 LSL USL 7 8 9 10 11 12 13 USL USL 0.8 0.7 0.9 1 1.2 1.3 1.1 1.5 1.4 3 Electrical Specifications[1] TA = 25° C, Vdd =3 V, Vbias = 2.7 V, RF measurement at 3.5 GHz – Typical Performance Symbol Parameter andTest Condition Units Min. Typ. Max. LNA Mode performance (Vdd = 3V,Vbias = 2.7V &VSD = 0V) Idd Bias Current mA – 10 12 Gain Gain dB 14 15.3 17 NF Noise Figure dB – 1.05 1.35 IIP3 Input Third Order Intercept Point dBm – +5.7 – IP1dB Input Power at 1 dB Gain Compression dBm – -2.4 – S11 Input Return Loss, 50 ? source dB – -13.6 – S22 Output Return Loss, 50 ? load dB – -11 – S12 Reverse Isolation dB – -24 – BYPASS Mode performance (Vdd = 3V,Vbias = 0V &VSD = 0V) |S21|BYPASS Bypass Mode Insertion Loss dB – 4.2 – IIP3BYPASS Bypass Mode IIP3 (Tested at -20 dBm input Power) dBm – 17 – IddBYPASS Bypass Mode Current ?A – 70 – Shutdown Mode performance (Vdd = 3V,Vbias = 0V &VSD = 3V) |S21|SHUTDOWN Shutdown Mode Isolation dB – 17 – IddSHUTDOWN Shutdown Mode Current ?A – 105 – Note: 1. 3.5 GHz IIP3 test condition: FRF1 = 3.5 GHz, FRF2 = 3.505 GHz with input power of -20 dBm per tone. Table 1. LNA SwitchTruthTable Vbias (V) /Vsd (V) Vdd (V) Mode 2.7 / 0 [1] 3 LNA 0 / 0 [2] 3 BYPASS 0 / 3 [3] 3 SHUTDOWN Notes: 1. Device operation in LNA mode if Vbias > 2.2 V and Vsd < 0.5 V. Bias current of LNA can be varied with different values of Vbias for Vbias > 2.2 V. See Fig 5 below. 2. Device operation in BYPASS mode if Vbias < 0.3 V and VSD < 0.5 V. 3. Device is shutdown if Vsd >2.6 V. In SHUTDOWN mode, LNA and internal Bypass switch is turn OFF. SHUTDOWN mode override Vbias voltage setting. Pin 6 (Vsd) is a Pull-Down logic function pin and recommend to ground it if shutdown function is not used in application. 4 Demo Board Layout Figure 4. Demo Board Layout Diagram 1 2 3 4 RF Input RF Output A vag o O C T 2 0 1 0 Techn o l o gies MIMO SA v2 GND IN O U T GND GND Vdd Vsd Vbias R2 R1 L1 L2 L3 C 1 C 2 5 6 GND GND Vbias Vsd Vdd GND Application Notes 1. Performance in a specified frequency band can be optimized by changing component values in the demo board above to suit the application at that frequency. The schematic on page 5 show components used to demonstrate performance at the (3.0 – 4.0) GHz band. 2. Pin1 (Vbias pin) voltage in LNA mode can be varied to enable the LNA bias current to be adjusted, refer to next graph: Figure 5. Id vsVbias (Vdd = 3V;Vsd = 0V).Vbias is varies in this plot. 0.0 2.0 4.0 6.0 8.0 10.0 12.0 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) Id (m A ) 5 Demo Board Schematic for 3.5 GHz application 50-Ohms TL 50-Ohms TL RF IN (Pin 2) RF OUT (Pin 5) LNA V Bias (Pin 1) Bias / Control Bias / Control Bias / Control VSD (Pin 6) L3 C1 L1 1 2 3 4 5 6 L2 Gnd (Pin 3) C2 Vdd R1 Vdd (Pin 4) R2 Figure 6. Demo Board Schematic Diagram Table 2Typical Components Used For Demo Board In Fig 4 And Schematic Shown In Fig 6. R2 is adjusted for desired current. Component Vendor Size Value L1 Taiyo Yuden 0402 2.2 nH L2 Taiyo Yuden 0402 2.4 nH L3 Taiyo Yuden 0402 1.0 nH C1 Taiyo Yuden 0402 8 pF C2 Murata 0402 0.1 ?F R1 ROHM 0402 10 ohm R2 ROHM 0402 1.8 Kohm MGA-65606 Typical Performance (3.5 GHz match) TA = +25° C, Vdd = 3 V, Ids = 10 mA (Vbias = 2.7 V), RF mea- surement at 3.5 GHz, Input Signal = CW unless stated otherwise. Figure 7. LNA Mode Gain, Input Return Loss, Output Return Loss, Isolation vs Frequency -60 -50 -40 -30 -20 -10 0 10 20 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 d B Frequency (GHz) Input Return Loss Output Return Loss Gain Isolation 6 LNA Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 2.7 V, Vsd = 0 V Figure 8. LNA Mode Gain vs Frequency vs Id Figure 9. LNA Mode Noise Figure vs Frequency vs Id Figure 10. LNA Mode Gain vsVbias vsTemperature Figure 11. LNA Noise Figure vsVbias vsTemperature Figure 12. LNA Mode IP1dB vsVbias vsTemperature Figure 13. LNA Mode IIP3 vsVbias vsTemperature 13.0 13.5 14.0 14.5 15.0 15.5 16.0 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) Gain (d B ) 13.0 13.5 14.0 14.5 15.0 15.5 16.0 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) Gain (d B ) -5 -4 -3 -2 -1 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) IP1d B (d B m) 2 3 4 5 6 7 8 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) IIP3 (d B m) 0.8 0.9 1.0 1.1 1.2 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) NF (d B ) 0.4 0.6 0.8 1.0 1.2 1.4 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 Vbias (V) NF (d B ) 8 mA 9 mA 10 mA 11 mA 25° C 85° C -40° C 8 mA 9 mA 10 mA 11 mA 25° C 85° C -40° C 25° C 85° C -40° C 25° C 85° C -40° C 7 LNA Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 2.7 V, Vsd = 0 V Figure 14. Edwards-Sinsky Output Stability Factor(Mu) atVdd = 3V Figure 15. Edwards-Sinsky Input Stability Factor(Mu') atVdd = 3V Bypass Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 0 V, Vsd = 0 V Figure 16. Bypass Mode Gain, Input Return Loss, Output Return Loss, Isolation vs Frequency Figure 17. Bypass Mode Insertion Loss vs Frequency vsTemperature Figure 18. Bypass Mode IIP3 vs Frequency vsTemperature Figure 19. Bypass Mode IIP3 vs Input Power -40 -35 -30 -25 -20 -15 -10 -5 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 d B Frequency (GHz) Input Return Loss Output Return Loss Gain Isolation -7.0 -6.5 -6.0 -5.5 -5.0 -4.5 -4.0 -3.5 -3.0 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) B ypass Inse r ti o n L o ss (d B ) 0 5 10 15 20 25 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) IIP3 (d B m) 0 2 4 6 8 10 12 14 16 18 20 -20 -15 -10 -5 0 5 Pin (dBm) IIP3 (d B m) 25° C 85° C -40° C 25° C 85° C -40° C 8 Shutdown Mode Plots (3.5 GHz match); Vdd = 3 V, Vbias = 0 V, Vsd = 3 V Figure 20. Shutdown Mode Gain, Input Return Loss, Output Return Loss, Isolation vs Frequency Figure 21. Shutdown Mode Isolation vs Frequency vsTemperature Test Circuit For S and Noise parameter measurement[1] (3.5GHz match) Component Vendor Size Value L3 Taiyo Yuden 0402 1.0 nH C1 Taiyo Yuden 0402 8 pF C2 Murata 0402 0.1 ?F R1 ROHM 0402 10 ohm Note: 1. The measurement is calibrated up to the input (RFin) and output (RFout) pin of the package. Figure 22. S-parameter and Noise parameter test circuit on demo board -24 -22 -20 -18 -16 -14 -12 3.0 3.2 3.4 3.6 3.8 4.0 Frequency (GHz) S hutd o wn Is o lati o n (d B ) -50 -60 -40 -30 -20 -10 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 d B Frequency (GHz) Input Return Loss Output Return Loss Isolation Gain 85° C -40° C 25° C R2 RF IN (Pin 2) RF OUT (Pin 5) LNA V Bias (Pin 1) Bias / Control Bias / Control Bias / Control VSD (Pin 6) L3 1 2 3 4 5 6 Gnd (Pin 3) C2 C1 Vdd (Pin 4) R1 Reference plane MGA-65606 9 MGA-65606 LNA Mode typical scattering parameters at 25° C,Vdd = 3V;Vbias = 2.7V;Vsd = 0V Frequency (GHz) S11 S21 S12 S22 Mag Angle dB Mag Angle dB Mag Angle Mag Angle 0.5 0.946 -20.4 -10.90 0.285 -99.4 -66.08 0.000 129.5 0.981 -16.1 1.0 0.875 -37.4 -3.43 0.674 -133.6 -59.90 0.001 147.1 0.953 -30.6 1.5 0.816 -50.2 -2.20 0.776 -134.9 -53.80 0.002 177.2 0.944 -45.8 2.0 0.789 -63.4 4.41 1.661 -127.2 -43.11 0.007 -152.1 0.891 -72.4 2.1 0.784 -66.9 6.30 2.065 -131.8 -40.37 0.010 -153.6 0.855 -80.6 2.2 0.777 -70.7 8.08 2.535 -138.7 -37.77 0.013 -158.0 0.802 -90.5 2.3 0.765 -74.9 9.69 3.051 -147.5 -35.45 0.017 -164.8 0.727 -102.9 2.4 0.747 -79.4 11.09 3.587 -157.7 -33.35 0.022 -172.9 0.635 -119.0 2.5 0.723 -84.0 12.28 4.109 -169.0 -31.56 0.026 177.9 0.551 -140.1 2.6 0.694 -88.5 13.22 4.583 179.0 -30.05 0.031 167.9 0.491 -164.7 2.7 0.661 -92.9 13.93 4.971 166.5 -28.80 0.036 157.4 0.450 169.0 2.8 0.626 -97.0 14.40 5.247 153.9 -27.82 0.041 146.7 0.422 141.8 2.9 0.591 -100.7 14.64 5.396 141.4 -27.10 0.044 136.2 0.404 114.5 3.0 0.556 -104.0 14.68 5.417 129.3 -26.60 0.047 126.1 0.395 87.7 3.5 0.442 -114.0 12.88 4.406 81.3 -26.28 0.049 87.8 0.553 -13.1 4.0 0.419 -121.3 10.58 3.380 51.2 -26.77 0.046 67.4 0.704 -49.3 4.5 0.419 -128.3 8.74 2.735 29.3 -27.01 0.045 55.5 0.771 -70.9 5.0 0.415 -135.7 7.12 2.271 10.4 -27.11 0.044 47.0 0.815 -89.8 5.5 0.423 -144.2 5.70 1.927 -7.2 -27.08 0.044 40.1 0.842 -106.6 6.0 0.444 -151.5 4.56 1.690 -22.9 -26.77 0.046 35.4 0.855 -119.0 6.5 0.452 -158.2 3.52 1.499 -37.7 -26.31 0.048 31.7 0.863 -131.5 7.0 0.450 -165.6 2.54 1.340 -52.3 -25.70 0.052 28.4 0.867 -144.9 7.5 0.448 -174.7 1.52 1.192 -66.9 -24.98 0.056 24.9 0.869 -159.6 8.0 0.460 174.6 0.37 1.044 -81.6 -24.28 0.061 20.7 0.868 -175.2 8.5 0.492 163.8 -0.97 0.894 -96.4 -23.67 0.066 15.8 0.868 169.1 9.0 0.539 154.2 -2.57 0.744 -110.8 -23.19 0.069 10.7 0.869 154.4 9.5 0.592 146.0 -4.42 0.601 -123.5 -22.75 0.073 5.7 0.865 141.7 10.0 0.637 138.5 -6.14 0.493 -135.1 -22.43 0.076 0.1 0.863 132.4 10 MGA-65606 Bypass Mode typical scattering parameters at 25° C,Vdd = 3V;Vbias = 0V;Vsd = 0V Frequency (GHz) S11 S21 S12 S22 Mag Angle dB Mag Angle dB Mag Angle Mag Angle 0.5 0.896 -36.0 -40.99 0.009 161.7 -39.91 0.010 147.7 0.980 -16.1 1.0 0.784 -65.2 -26.78 0.046 127.6 -26.74 0.046 128.0 0.953 -30.3 1.5 0.648 -94.0 -21.33 0.086 125.1 -21.30 0.086 125.4 0.930 -45.7 2.0 0.353 -103.4 -12.00 0.251 116.6 -11.96 0.252 116.9 0.738 -65.0 2.1 0.334 -100.3 -10.12 0.312 107.7 -10.08 0.313 108.0 0.683 -66.6 2.2 0.325 -97.4 -8.56 0.373 96.9 -8.52 0.375 97.2 0.635 -67.2 2.3 0.321 -94.5 -7.34 0.430 85.2 -7.30 0.432 85.5 0.595 -67.1 2.4 0.325 -91.6 -6.45 0.476 73.1 -6.41 0.478 73.3 0.564 -66.4 2.5 0.338 -88.6 -5.87 0.509 61.1 -5.83 0.511 61.4 0.541 -65.4 2.6 0.366 -85.9 -5.55 0.528 49.7 -5.51 0.530 50.0 0.526 -64.0 2.7 0.419 -85.4 -5.44 0.535 39.1 -5.40 0.537 39.3 0.521 -62.4 2.8 0.483 -89.8 -5.48 0.532 29.5 -5.44 0.534 29.7 0.528 -61.1 2.9 0.531 -96.6 -5.62 0.523 20.8 -5.58 0.526 21.1 0.544 -60.6 3.0 0.562 -103.5 -5.82 0.512 13.1 -5.78 0.514 13.4 0.567 -61.2 3.5 0.626 -132.3 -6.96 0.449 -16.4 -6.92 0.451 -16.1 0.661 -74.8 4.0 0.649 -152.8 -7.99 0.398 -37.9 -7.95 0.400 -37.7 0.708 -91.6 4.5 0.656 -168.2 -8.84 0.361 -55.3 -8.80 0.363 -55.0 0.734 -106.1 5.0 0.660 178.6 -9.76 0.325 -70.9 -9.72 0.327 -70.7 0.754 -120.1 5.5 0.665 167.2 -10.73 0.291 -85.7 -10.69 0.292 -85.5 0.766 -133.9 6.0 0.660 157.2 -11.52 0.265 -99.6 -11.48 0.267 -99.3 0.763 -145.6 6.5 0.650 147.3 -12.38 0.240 -113.8 -12.34 0.242 -113.5 0.757 -157.3 7.0 0.651 137.3 -13.46 0.212 -128.8 -13.42 0.213 -128.5 0.749 -169.6 7.5 0.677 127.8 -14.98 0.178 -145.2 -14.93 0.179 -144.9 0.741 177.2 8.0 0.733 119.6 -17.19 0.138 -163.0 -17.15 0.139 -162.7 0.734 163.4 8.5 0.810 112.1 -20.50 0.094 177.4 -20.45 0.095 177.7 0.732 150.0 9.0 0.881 104.2 -25.53 0.053 154.0 -25.47 0.053 154.3 0.737 138.2 9.5 0.922 95.4 -32.57 0.024 110.0 -32.47 0.024 110.3 0.746 128.5 10.0 0.924 85.9 -36.06 0.016 45.3 -35.99 0.016 45.7 0.756 121.6 11 MGA-65606 LNA Mode typical noise parameters at 25° C,Vdd = 3V;Vbias = 2.7V;Vsd = 0V Freq. (GHz) Fmin (dB) ?opt Mag ?opt Ang Rn/50 2.0 0.79 0.36 41.93 0.09 2.1 0.76 0.36 44.59 0.11 2.2 0.73 0.36 47.26 0.13 2.3 0.71 0.36 49.93 0.15 2.4 0.70 0.36 52.59 0.16 2.5 0.70 0.36 55.26 0.18 2.6 0.71 0.36 57.93 0.19 2.7 0.73 0.36 60.60 0.20 2.8 0.75 0.36 63.26 0.21 2.9 0.78 0.36 65.93 0.22 3.0 0.81 0.36 68.60 0.22 3.1 0.85 0.36 71.27 0.22 3.2 0.89 0.36 73.93 0.23 3.3 0.94 0.36 76.60 0.22 3.4 0.99 0.36 79.27 0.22 3.5 1.05 0.36 81.94 0.22 3.6 1.08 0.35 84.60 0.21 3.7 1.13 0.35 87.27 0.21 3.8 1.18 0.35 89.94 0.20 3.9 1.23 0.35 92.60 0.19 4.0 1.28 0.35 95.27 0.18 4.2 1.36 0.35 100.60 0.16 4.4 1.43 0.35 105.90 0.14 4.6 1.47 0.35 111.30 0.12 4.8 1.49 0.35 116.60 0.10 5.0 1.48 0.35 121.90 0.08 5.2 1.42 0.35 127.30 0.06 5.4 1.33 0.35 132.60 0.05 5.6 1.18 0.35 137.90 0.04 5.8 0.97 0.35 143.30 0.03 6.0 0.71 0.35 148.60 0.03 12 Package Dimensions PCB Land Patterns and Stencil Design Top Metal Solder Mask Opening Notes: 1. All dimension are in mm. 2. Recommend to use standard 4 mils Stencil thickness. 1.70 1.30 0.30 0.35 0.435 0.332 1.10 0. 31 R0.10 0.23 0.286 sq. 0.386 sq. 0. 5 0 0. 445 LAND PATTERN WITH VIA 1.70 1.10 0.26 sq. 0.23 0. 31 0. 5 0 0. 51 0 STENCIL OPENING 1.70 0.23 0.50 0.26 sq. 0.286 sq. 1.10 0. 31 COMBINED LAND PATTERN & STENCIL OPENING Notes: 1. All dimensions are in milimeters. 2. Dimensions are inclusive of plating. 3. Dimensions are exclusive of mold ?ash and metal burr. 2.00 ±0.05 1.30 ±0.05 TOP VIEW Pin#1 DOT by Marking 65X SIDE VIEW 0.50 ±0.05 Pin#1 Indicator R0.10 BOTTOM VIEW 1.10 1.10 0.50 0.20 0.25 13 Device Orientation USER FEED DIRECTION TOP VIEW END VIEW USER FEED DIRECTION COVER TAPE CARRIER TAPE REEL 65X 65X 65X Tape Dimensions Part Number Ordering Information Part # Qty Container MGA-65606-BLKG 100 Antistatic Bag MGA-65606-TR1G 3000 7"Reel MGA-65606-TR2G 10000 13"Reel 4.00 ±0.10 4.00 ±0.10 8.00 +0.30 ?0.10 ? 0.50 +0.05 ?0.10 2.00 ±0.05 3.50 ±0.05 1.75 ±0.10 ? 1.50 ±0.10 0.20 0.20 ± 0.15 2.17 ± 0.05 1.67 ± 0.05 45° MAX. 45° MAX. 0.73 ± 0.05 Ao Ko Bo (all dimensions in mm) For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, AvagoTechnologies, and the A logo are trademarks of AvagoTechnologies in the United States and other countries. Data subject to change. Copyright ? 2005-2011 AvagoTechnologies. All rights reserved. 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