20–24 GHz Low Noise Amplifier
AA022N1-65 Features
I 3.2 dB Noise Figure I 17 dB Gain I +9 dBm Output Power I Hermetic Package with Solderable Leads I Single Voltage Operation I 100% RF and DC Testing
Description
The AA022N1-65 is a broadband millimeterwave amplifier in a hermetic package. The amplifier is designed for use in millimeterwave communication and sensor systems as the receiver front-end, transmitter gain stage, or local oscillator gain stage when high gain, wide dynamic range, and low noise figure are required. The solder-sealed hermetic package provides excellent electrical performance, excellent thermal performance, and complete environmental protection for long-term reliability. A single supply voltage simplifies bias requirements. All amplifiers are screened at the operating frequencies prior to shipment for guaranteed performance. The amplifier is targeted for millimeterwave point-to-point and point-tomultipoint wireless communications systems.
Pin Out
N/C N/C
AA022N1-65
RF In RF In RF Out RF Out
YYWW
VDD
VD
Electrical Specifications at 25°C (VD = 5.5 V)
RF
Parameter Bandwidth Small Signal Gain Noise Figure Input Return Loss Output Return Loss Output Power at 1 dB Gain Compression Temperature Coefficient of Gain Symbol BW G NF RLI RLO P1 dB dG/dT Min. 20 15 Typ. 19–25 17 3.2 8 11 9 -0.028 3.9 Max. 24 Unit GHz dB dB dB dB dBm dB/C
DC
Parameter Drain Current Symbol ID Min. Typ. 60 Max. 90 Unit mA
Alpha Industries, Inc. [781] 935-5150 • Fax [617] 824-4579 • Email sales@alphaind.com • www.alphaind.com
Specifications subject to change without notice. 2/00A
1
20–24 GHz Low Noise Amplifier
AA022N1-65
Typical Performance Data
25 0 S11
Return Loss (dB)
20
Gain (dB)
-55˚C 15 +85˚C 10 5 0 10 15 20 25 30 +25˚C
-5 S22 -10
-15
-20 10 15 20 25 30
Frequency (GHz)
Frequency (GHz)
Gain vs. Frequency
6
Return Loss vs. Frequency
Absolute Maximum Ratings
Characteristic Value -55°C to +90°C -65°C to +150°C 6 VDC 13 dBm Operating Temperature (TC) Storage Temperature (TST) Bias Voltage (VD) Power In (PIN)
Noise Figure (dB)
5
4
3
2 20 21 22 23 24
Frequency (GHz)
Noise Figure vs. Frequency
Outline
0.388 (9.86 mm) 0.115 (2.92 mm) ± 0.002 0.164 (4.16 mm) 0.328 (8.33 mm) 0.075 (1.91 mm) ± 0.010 0.194 (4.92 mm) 0.065 (1.65 mm) MAX. ∅ 0.070 (1.78 mm) KOVAR
0.010 (0.25 mm) ± 0.001 0.378 (9.60 mm) ± 0.003
0.005 (0.13 mm) ± 0.001
0.053 (1.35 mm) 0.445 (11.30 mm) ± 0.002
0.272 (6.91 mm) ± 0.002 0.318 (8.08 mm) ± 0.002
CERAMIC 0.010 (0.25 mm) ± 0.002 0.015 (0.38 mm) 0.053 CW-10 (1.35 mm) MATERIAL 0.106 (2.69 mm)
2
Alpha Industries, Inc. [781] 935-5150 • Fax [617] 824-4579 • Email sales@alphaind.com • www.alphaind.com
Specifications subject to change without notice. 2/00A
20–24 GHz Low Noise Amplifier
AA022N1-65
Typical S-Parameters at 25°C (VD = 5.5 V)
Frequency (GHz) 5.0 7.0 9.0 11.0 12.0 13.0 14.0 15.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 28.0 29.0 30.0 32.0 34.0 36.0 38.0 40.0 S11 Mag. -0.23 -0.23 -0.08 -0.65 -0.99 -0.51 -0.10 -0.67 -0.63 -0.10 -0.83 -4.28 -5.74 -6.01 -9.01 -19.60 -9.00 -5.49 -5.53 -8.00 -9.41 -2.80 -2.33 -2.61 -1.05 -5.37 -2.11 -2.85 Ang. 154.65 -111.06 13.10 104.53 -48.85 166.36 55.47 -55.35 156.89 18.10 -83.22 152.57 -61.50 -179.42 88.52 48.18 -41.19 147.20 -9.75 -45.79 -22.84 -165.39 100.83 -97.59 62.48 -174.78 -176.06 -79.93 Mag. -43.85 -37.45 -8.78 8.89 15.42 15.79 16.34 15.16 16.13 15.92 15.81 17.65 17.80 16.90 16.55 16.75 18.64 17.87 19.57 17.63 19.14 11.16 6.39 -0.47 -4.75 -2.17 -16.06 -11.61 S21 Ang. 86.28 56.97 102.07 152.07 -26.69 157.28 -5.38 -139.82 84.35 -48.83 -169.31 60.67 -95.05 133.41 14.42 -110.63 127.32 -32.70 -165.11 87.22 -81.69 135.62 21.60 151.84 -49.44 42.82 -112.92 5.61 Mag. -45.99 -51.79 -44.05 -37.56 -47.14 -49.08 -47.31 -37.37 -40.46 -44.76 -43.32 -36.37 -35.20 -35.38 -34.87 -31.84 -30.18 -32.94 -36.65 -35.32 -28.71 -25.82 -28.49 -29.33 -42.31 -37.64 -48.35 -31.46 S12 Ang. 85.59 -104.35 66.64 -114.12 130.43 37.53 112.82 -47.11 -161.21 90.70 6.41 -126.11 98.48 -12.60 -115.99 151.62 33.65 -79.66 -80.66 98.43 77.45 -63.56 -164.40 -9.95 -155.10 -35.81 -143.83 -46.85 Mag. -0.02 -0.05 -0.61 -1.01 -0.42 -9.57 -10.10 -27.18 -14.25 -10.82 -21.13 -25.24 -12.39 -11.58 -16.93 -15.07 -12.31 -16.74 -8.81 -20.32 -0.46 -2.14 -5.02 -2.70 -2.59 -8.87 -2.90 -1.07 S22 Ang. 64.98 159.26 -116.95 -40.73 168.72 22.43 24.64 -136.61 51.89 -54.46 -167.32 -155.34 -88.92 144.87 44.72 -156.77 56.67 109.43 -38.71 -13.38 -21.58 -149.84 115.71 -119.75 74.44 -99.71 44.51 -108.06
Alpha Industries, Inc. [781] 935-5150 • Fax [617] 824-4579 • Email sales@alphaind.com • www.alphaind.com
Specifications subject to change without notice. 2/00A
3
20–24 GHz Low Noise Amplifier
AA022N1-65
Leaded Millimeterwave Package Handling and Mounting
The leaded millimeterwave package requires careful mounting design to maintain optimal performance.
Handling
The leaded millimeterwave package is extremely rugged. Care should be exercised when handling with metal tools. Only personnel trained in both ESD precautions and handling precautions should be allowed to handle these packages.
package to minimize the gap between package and printed circuit board. The gap should be no more than 0.005" (0.127 mm). The base of the package should be mounted directly to a surface that provides a good ground plane for the printed circuit board and provides a good thermal ground.
Mounting the Package
The leaded millimeterwave package should be attached to its mounting surface using a silver-filled conductive paste epoxy or solder. Care should be taken to ensure that there are no voids or gaps in the epoxy or solder underfill so that a good ground contact is maintained. Screw hardware attachment should be used in addition to epoxy or solder in situations where additional mechanical integrity is desired. Care should be exercised when tightening screws because over-tightening could deform the package base.
Package Construction
The construction of the leaded millimeterwave package consists of a metal base and ceramic walls. The package is topped by a solder-sealed metal lid. All metal parts are gold-plated.
Mounting Design
The leaded millimeterwave package is mounted by placing it in a hole cut in a printed circuit board. The bottom of the package leads should be in the same plane as the top surface of the printed circuit board traces. The hole should be cut as close as possible to the outer dimensions of the
Connecting the Package
Connection of the package leads to the printed circuit board traces is accomplished with solder. Attached leads should lie flat upon the printed circuits board traces. Package leads can be trimmed if desired.
Soldered Leads
Printed Circuit Board Rogers 4003 0.008" (0.20 mm) Thick RF Out
Minimize RF Gap Widths
0–80 Screw RF In Electrically & Thermally Conductive Ground Plane DC Connection
Leaded Millimeterwave Package Mounting
4
Alpha Industries, Inc. [781] 935-5150 • Fax [617] 824-4579 • Email sales@alphaind.com • www.alphaind.com
Specifications subject to change without notice. 2/00A
很抱歉,暂时无法提供与“AA022N1-65”相匹配的价格&库存,您可以联系我们找货
免费人工找货