MGA-30889-TR1G [AVAGO]
Flat Gain High Linearity Gain Block; 平坦增益高线性增益模块
| 型号: | MGA-30889-TR1G |
| 厂家: | 
AVAGO TECHNOLOGIES LIMITED |
| 描述: | Flat Gain High Linearity Gain Block |
| 文件: | 总15页 (文件大小:650K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MGA-30889
40MHz - 2600MHz
Flat Gain High Linearity Gain Block
Data Sheet
Description
Features
Avago Technologies’MGA-30889 is a broadband, flat gain, •ꢀ Flat Gain 15dB +/-0.25dB, 40MHz to 2600MHz
high linearity gain block MMIC amplifier achieved through
the use of Avago Technologies’ proprietary 0.25um GaAs
Enhancement-mode pHEMT process.
•ꢀ High linearity
•ꢀ Built in temperature compensated internal bias circuitry
•ꢀ No RF matching components required
The device required simple dc biasing components to
[1]
•ꢀ GaAs E-pHEMT Technology
achieve wide bandwidth performance. The temperature
compensated internal bias circuit provides stable current
over temperature and process threshold voltage
variation.
•ꢀ Standard SOT89 package
•ꢀ Single, Fixed 5V supply
•ꢀ Excellent uniformity in product specifications
•ꢀ MSL-2 and Lead-free halogen free
•ꢀ High MTTF for base station application
The MGA-30889 is housed inside a low cost RoHS
compliant SOT89 industry standard SMT package (4.5 x
4.1 x 1.5 mm).
Component Image
Specifications
900MHz; 5V, 65mA (typical)
•ꢀ 15.5 dB Gain
•ꢀ 38 dBm Output IP3
8GX
•ꢀ 1.9 dB Noise Figure
•ꢀ 20 dBm Output Power at 1dB gain compression
#3
RFout
#2
#1
RFin
#1
RFin
#2
#3
1950MHz, 5V, 65mA (typical)
•ꢀ 15.7 dB Gain
GND
GND RFout
Top View
Bottom View
•ꢀ 36 dBm Output IP3
Notes:
•ꢀ 2 dB Noise Figure
Package marking provides orientation and identification
“8G”= Device Code
•ꢀ 20.3 dBm Output Power at 1dB gain compression
“X” = Month of Manufacture
Applications
Attention: Observe precautions for
handling electrostatic sensitive devices.
ESD Machine Model = 50 V
•ꢀ IF amplifier, RF driver amplifier
•ꢀ General purpose gain block
ESD Human Body Model = 400 V
Note:
1. Enhancement mode technology employs positive gate voltage,
thereby eliminating the need of negative gate voltage associated
with conventional depletion mode devices.
Refer to Avago Application Note A004R:
Electrostatic Discharge, Damage and Control.
[1]
Absolute Maximum Rating T =25°C
Thermal Resistance
A
[2]
Symbol
Vdd,max
Pin,max
Pdiss
Parameter
Units
V
Absolute Max.
Thermal Resistance
θ = 76°C/W
JC
(Vdd = 5 V, Ids = 57.5 mA, Tc = 85°C)
Device Voltage, RF output to ground
5.5
Notes:
CW RF Input Power
dBm
W
20
1. Operation of this device in excess of any of
these limits may cause permanent damage.
2. Thermal resistance measured using Infrared
measurement technique.
3. This is limited by maximum Vdd and Ids.
Derate 13.2 mW/°C for Tc >114°C.
Total Power Dissipation [3]
Junction Temperature
Storage Temperature
0.47
Tj,MAX
TSTG
°C
150
°C
-65 to 150
[1, 2]
Product Consistency Distribution Charts
LSL
USL
LSL
USL
60
70
14.5
15
15.5
16
16.5
Figure 1. Ids, LSL=53mA , nominal=65mA, USL=77mA
Figure 2. Gain, LSL=14.6dB, nominal=15.7dB, USL=16.8dB
LSL
LSL
33
34
35
36
37
38
39
19.2
19.6
20
20.4
20.8
Figure 3. OIP3, LSL=33dBm, nominal=36dBm
Figure 4. P1dB, LSL=19.2dBm, nominal=20.3dBm
USL
Notes:
1. Distribution data sample size is 3000 samples taken from 3 different
wafer lots. Future wafers allocated to this product may have nominal
values anywhere between the upper and lower limits.
2. Measurements were made on a characterization test board, which
represents a trade-off between optimal OIP3, gain and P1dB. Circuit
trace losses have not been de-embedded from measurements
above.
1.6 1.7 1.8 1.9
2
2.1 2.2 2.3 2.4 2.5 2.6 2.7
Figure 5. NF, nominal=2dB, USL=2.7dB
2
[1]
Electrical Specifications
T = 25°C, Vdd =5V
A
Symbol
Ids
Parameter and Test Condition
Quiescent current
Gain
Frequency
Units
mA
dB
Min.
Typ.
Max.
N/A
53
65
77
Gain
40MHz
900MHz
1950MHz
15.9
15.5
15.7
14.6
33
–
16.8
–
OIP3 [2]
NF
Output Third Order Intercept Point
Noise Figure
40MHz
900MHz
1950MHz
dBm
dB
37
38
36
40MHz
900MHz
1950MHz
2.0
1.9
2.0
2.7
S11
Input Return Loss, 50Ω source
Output Return Loss, 50Ω load
Reverse Isolation
40MHz
900MHz
1950MHz
dB
-16
-17
-13
S22
40MHz
900MHz
1950MHz
dB
-16
-16.5
-13
S12
40MHz
900MHz
1950MHz
dB
-17
-17
-22
OP1dB
Notes:
Output Power at 1dB Gain Compression
40MHz
900MHz
1950MHz
dBm
21
20
20
19.2
–
1. Measurements obtained using demo board described in Figure 30 and 31. 40MHz data was taken with 40MHz - 2GHz Application Test Circuit,
900MHz data with 0.2GHz – 2.6GHz Application Test Circuit and 1.95GHz data with 1.5GHz - 2.6GHz Application Test Circuit respectively.
2. OIP3 test condition: F - F = 10MHz with input power of -15dBm per tone measured at worse side band.
RF1
RF2
3. Use proper bias, heat sink and de-rating to ensure maximum channel temperature is not exceeded. See absolute maximum ratings and application
note (if applicable) for more details.
3
Typical Performance (40MHz - 2GHz)
T = 25°C, Vdd =5V, Input Signal=CW. Application Test Circuit is shown in Figure 30 and Table 1.
A
17
16
15
14
13
12
11
10
80
70
60
85°C
25°C
-40°C
50
Frequency (GHz)
Temperature (°C)
Figure 6. Ids over Temperature
Figure 7. Gain over Frequency and Temperature
45
25
24
23
22
21
20
19
18
17
16
15
44
85°C
85°C
25°C
-40°C
43
25°C
42
-40°C
41
40
39
38
37
36
35
34
33
32
31
30
Frequency (GHz)
Frequency (GHz)
Figure 8. OIP3 over Frequency and Temperature
Figure 9. P1dB over Frequency and Temperature
0
-5
0
-5
85°C
25°C
-40°C
85°C
25°C
-40°C
-10
-15
-20
-25
-30
-10
-15
-20
-25
-30
Frequency (GHz)
Frequency (GHz)
Figure 10. S11 over Frequency and Temperature
Figure 11. S22 over Frequency and Temperature
4
Typical Performance (40MHz - 2GHz)
T = 25°C, Vdd =5V, Input Signal=CW. Application Test Circuit is shown in Figure 30 and Table 1.
A
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
-15
-16
-17
-18
-19
-20
-21
-22
-23
-24
-25
85°C
25°C
-40°C
85°C
25°C
-40°C
Frequency (GHz)
Frequency (GHz)
Figure 13. Noise Figure over Frequency and Temperature
Figure 12. S12 over Frequency and Temperature
Typical Performance (0.2GHz - 2.6GHz)
T = 25°C, Vdd =5V, Input Signal=CW. Application Test Circuit is shown in Figure 30 and Table 2.
A
17
16
15
14
13
12
11
10
80
70
60
85°C
25°C
-40°C
50
Temperature (°C)
Frequency (GHz)
Figure 14. Ids over Temperature
Figure 15. Gain over Frequency and Temperature
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
25
24
23
22
21
20
19
18
17
16
15
85°C
25°C
-40°C
85°C
25°C
-40°C
Frequency (GHz)
Frequency (GHz)
Figure 16. OIP3 over Frequency and Temperature
Figure 17. P1dB over Frequency and Temperature
5
Typical Performance (0.2GHz - 2.6GHz)
T = 25°C, Vdd =5V, Input Signal=CW. Application Test Circuit is shown in Figure 30 and Table 2.
A
0
-5
0
-5
85°C
25°C
-40°C
85°C
25°C
-40°C
-10
-15
-20
-25
-30
-10
-15
-20
-25
-30
Frequency (GHz)
Frequency (GHz)
Figure 18. S11 over Frequency and Temperature
Figure 19. S22 over Frequency and Temperature
-15
-16
-17
-18
-19
-20
-21
-22
-23
-24
-25
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
85°C
25°C
-40°C
85°C
25°C
-40°C
Frequency (GHz)
Frequency (GHz)
Figure 20. S12 over Frequency and Temperature
Figure 21. Noise Figure over Frequency and Temperature
Typical Performance (1.5GHz - 2.6GHz)
T = 25°C, Vdd =5V, Input Signal=CW. Application Test Circuit is shown in Figure 30 and Table 3.
A
80
70
60
50
17
16
15
14
13
12
11
10
85°C
25°C
-40°C
Temperature (°C)
Frequency (GHz)
Figure 23. Gain over Frequency and Temperature
Figure 22. Ids over Temperature
6
Typical Performance (1.5GHz - 2.6GHz)
T = 25°C, Vdd =5V, Input Signal=CW. Application Test Circuit is shown in Figure 30 and Table 3.
A
25
24
23
22
21
20
19
18
17
16
15
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
85°C
25°C
-40°C
85°C
25°C
-40°C
Frequency (GHz)
Frequency (GHz)
Figure 24. OIP3 over Frequency and Temperature
Figure 25. P1dB over Frequency and Temperature
0
-5
0
-5
85°C
25°C
-40°C
85°C
25°C
-40°C
-10
-15
-20
-25
-30
-10
-15
-20
-25
-30
Frequency (GHz)
Frequency (GHz)
Figure 26. S11 over Frequency and Temperature
Figure 27. S22 over Frequency and Temperature
-15
-16
-17
-18
-19
-20
-21
-22
-23
-24
-25
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
85°C
25°C
-40°C
85°C
25°C
-40°C
Frequency (GHz)
Frequency (GHz)
Figure 28. S12 over Frequency and Temperature
Figure 29. Noise Figure over Frequency and Temperature
7
Application Schematic Components Table and Demo Board
Vdd
C1/
C4
C2/
C5
C3/
C6
Top View
L1/L2
Note:
L1, C1, C2, C3 is for BOM 0.2-2.6GHz
and 1.5-2.6GHz
L2, C4, C5, C6 is for BOM 40MHz-2GHz
Vdd
RFout 3
C7
C8
RFin
RFout
RFin
1
GND 2
Figure 30. Application Schematic
– Recommended PCB material is 10 mils Rogers RO4350,
with FR4 backing for mechanical strength.
– Suggested component values may vary according to
layout and PCB material.
Figure 31. Demo board Layout
8
Demo board Part List
Table 1. 40MHz - 2GHz Application Schematic Components
Circuit Symbol
Size
Value
820nH
100pF
0.1uF
2.2uF
0.1uF
0.1uF
Part Number
Description
L2
C4
C5
C6
C7
C8
0805
0402
0402
0805
0402
0402
LLQ2012-series (Toko)
Wire Wound Chip Inductor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
GRM1555C1H101JZ01 (Murata)
GRM155R71C104KA88D (Murata)
GRM21BR61E225KA12L (Murata)
GRM155R71C104KA88D (Murata)
GRM155R71C104KA88D (Murata)
Table 2. 0.2GHz - 2.6GHz Application Schematic Components
Circuit Symbol
Size
Value
Part Number
Description
L1
C1
C2
C3
C7
C8
0603
0402
0402
0805
0402
0402
100nH
10pF
LLQ1608-FR10 (Toko)
Wire Wound Chip Inductor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
GRM1555C1H100JZ01 (Murata)
GRM155R71C104KA88D (Murata)
GRM21BR61E225KA12L (Murata)
GRM1555C1H101JZ01 (Murata)
GRM1555C1H101JZ01 (Murata)
0.1uF
2.2uF
100pF
100pF
Table 3. 1.5GHz - 2.6GHz Application Schematic Components
Circuit Symbol
Size
Value
5.6nH
100pF
0.1uF
2.2uF
20pF
20pF
Part Number
Description
L1
C1
C2
C3
C7
C8
0402
0402
0402
0805
0402
0402
LL1005-FHL5N6 (Toko)
MLC Inductor
GRM1555C1H101JZ01 (Murata)
GRM155R71C104KA88D (Murata)
GRM21BR61E225KA12L (Murata)
GRM1555C1H200JZ01 (Murata)
GRM1555C1H200JZ01 (Murata)
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
9
Test Circuit for S-Parameter and Noise Parameter
Top View
Port1
RFin
1
GND
2
3
Vdd
RFout
Port2 /
Bias Tee
Figure 32. S-parameter and Noise parameter test circuit
10
Typical S-Parameter (Vdd = 5V, T = 25°C, 50 ohm)
A
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S12
(dB)
S12
(ang)
6.83
-1.16
S22
(dB)
S22
(ang)
Freq (GHz)
0.04
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-17.04
-23.82
-27.02
-26.83
-24.42
-22.60
-21.35
-20.18
-19.10
-18.13
-17.42
-16.72
-16.21
-15.66
-15.09
-14.41
-13.67
-12.91
-12.12
-11.34
-10.60
-9.89
-9.25
-8.70
-8.17
-7.72
-7.32
-6.97
-6.68
-6.44
-6.23
-4.89
-2.59
-2.03
-2.13
-1.18
-0.90
-0.96
-0.57
-0.28
-0.35
-0.51
-0.41
-0.27
-0.33
-0.37
-0.58
-0.56
-88.23
-99.63
-106.63
-116.89
-127.93
-130.33
-134.41
-140.06
-146.29
-152.78
-160.67
-166.54
-176.41
173.51
162.73
151.57
140.49
130.11
120.06
110.67
101.66
93.15
16.16
15.83
15.78
15.78
15.78
15.79
15.81
15.83
15.85
15.88
15.91
15.96
16.00
16.03
16.07
16.10
16.12
16.13
16.13
16.12
16.10
16.06
16.01
15.96
15.88
15.80
15.70
15.61
15.51
15.40
15.30
13.83
10.78
8.27
167.09
170.40
167.69
163.41
158.71
153.85
148.88
143.85
138.73
133.58
128.38
123.11
117.79
112.37
106.92
101.34
95.64
89.95
84.16
78.29
72.45
66.53
60.60
54.75
48.83
43.02
37.21
31.35
25.64
19.84
14.15
-45.76
-101.46
-146.84
159.94
107.76
65.10
-20.08
-20.02
-20.03
-20.05
-20.08
-20.12
-20.16
-20.21
-20.27
-20.34
-20.42
-20.50
-20.60
-20.70
-20.82
-20.96
-21.12
-21.29
-21.47
-21.68
-21.90
-22.14
-22.41
-22.69
-22.98
-23.28
-23.59
-23.93
-24.25
-24.57
-24.89
-28.13
-31.11
-31.55
-30.84
-32.11
-33.21
-34.36
-37.07
-39.48
-39.17
-37.88
-37.36
-39.05
-42.49
-44.53
-42.48
-40.96
-14.55
-15.92
-16.38
-16.45
-16.24
-16.34
-16.37
-16.39
-16.40
-16.35
-16.16
-16.54
-16.29
-16.03
-15.76
-15.42
-15.11
-14.81
-14.56
-14.33
-14.14
-13.96
-13.84
-13.80
-13.80
-13.84
-13.93
-14.07
-14.28
-14.56
-14.95
-23.03
-25.89
-32.05
-20.70
-15.41
-13.70
-11.83
-8.45
-138.35
-163.34
-173.98
-179.28
176.99
177.06
178.09
178.81
178.64
177.88
177.12
175.97
174.49
172.05
168.90
164.84
160.22
155.66
150.71
145.47
140.05
134.67
129.50
124.63
119.72
115.08
110.60
106.56
102.99
99.69
-7.14
-12.02
-16.72
-21.30
-25.84
-30.36
-34.85
-39.29
-43.88
-48.37
-52.85
-57.37
-61.94
-66.51
-71.09
-75.69
-80.32
-84.88
-89.37
-93.79
-98.15
-102.42
-106.71
-110.71
-114.68
-118.51
-122.20
-125.87
-129.40
-161.64
175.49
155.55
116.80
72.53
84.93
77.25
69.77
62.66
55.78
48.95
42.26
35.55
28.95
96.77
97.19
-152.28
-167.12
67.94
-49.49
-116.16
-163.08
126.91
63.71
6.05
1.85
31.66
-6.02
21.52
-2.15
-6.31
-11.99
-17.53
-21.20
-23.85
-26.91
-30.45
-33.85
-37.31
-41.44
-49.19
35.83
-2.85
-35.93
-88.75
-111.33
-128.02
-151.74
-179.96
166.93
157.77
144.27
124.17
103.21
19.48
-41.95
-71.80
-86.38
-102.14
-122.42
-151.92
-168.71
179.33
169.25
156.65
129.84
-20.95
-45.68
-67.24
-91.12
-116.90
-133.25
-145.37
-155.13
-156.44
-130.39
-31.83
-41.74
-49.14
-64.15
-88.21
-106.29
-109.41
-97.93
-80.86
-75.27
-5.84
-4.59
-4.29
-3.95
-3.02
-2.77
-2.54
-3.33
-3.99
11
Typical Noise Parameters (Vdd = 5V, T = 25°C, 50 ohm)
Part Number Ordering Information
A
Part Number
No. of Devices
Container
Freq (GHz)
0.4
F
(dB)
Γ
Mag
Γ
Ang
R /Z
n 0
min
opt
opt
MGA-30889-BLKG
MGA-30889-TR1G
100
Antistatic Bag
13”Tape/Reel
1.80
1.70
1.75
1.90
1.93
1.90
1.81
1.85
1.81
2.24
2.71
3.39
0.036
0.051
0.071
0.11
0.17
0.16
0.24
0.30
0.40
0.45
0.47
0.55
-102
-86
-76
-52
-46
-41
-19
3.7
27
0.19
0.19
0.20
0.25
0.28
0.29
0.38
0.49
0.55
0.54
0.50
0.43
3000
0.9
1.0
1.7
1.95
2.0
2.5
3.0
3.5
4.0
58
4.5
89
5.0
121
12
SOT89 Package Dimensions
D
D
POLISH
D1
D1
E1
L
E1
OR
E
E
L
e
e
C
S
e1
S
e1
1.625
D2
D1
MATTE FINISH
HALF ETCHING
DEPTH 0.100
A
OR
E
b
b1
b
POLISH
b1
Dimensions in mm
Dimensions in inches
Symbols
Minimum
1.40
0.89
0.36
0.41
0.38
4.40
1.40
1.45
3.94
2.40
2.90
0.65
1.40
Nominal
1.50
1.04
0.42
0.47
0.40
4.50
1.60
1.65
-
Maximum
1.60
1.20
0.48
0.53
0.43
4.60
1.75
1.80
4.25
2.60
3.10
0.85
1.60
Minimum
0.055
0.0350
0.014
0.016
0.014
0.173
0.055
0.055
0.155
0.094
0.114
0.026
0.054
Nominal
0.059
0.041
0.016
0.018
0.015
0.177
0.062
0.062
-
Maximum
0.063
0.047
0.018
0.030
0.017
0.181
0.069
0.069
0.167
0.102
0.122
0.034
0.063
A
L
b
b1
C
D
D1
D2
E
E1
e1
S
2.50
3.00
0.75
1.50
0.098
0.118
0.030
0.059
e
13
Device Orientation
REEL
CARRIER
TAPE
USER FEED
DIRECTION
COVER TAPE
Tape Dimensions
Ø 1.5 +0.1/-0.0
8.00
Ø 1.50 MIN.
2.00 .05 SEE NOTE 3
4.00 SEE NOTE 1
1.75 .10
0.30 .05
R 0.3 MAX.
A
A
5.50 .05
SEE NOTE 3
Bo
12.0 .3
Ko
R 0.3 TYP.
Ao
SECTION A - A
Ao = 4.60
Bo = 4.90
Ko = 1.90
DIMENSIONS IN MM
NOTES:
1. 10 SPROCKET HOLE PITCH CUMULATIVE TOLERANCE 0.2
2. CAMBER IN COMPLIANCE WITH EIA 481
3. POCKET POSITION RELATIVE TO SPROCKET HOLE MEASURED
AS TRUE POSITION OF POCKET, NOT POCKET HOLE
14
Reel Dimensions – 13” Reel
R
R
LOKREEL
MINNEAPOLIS USA
U.S PAT 4726534
102.0
REF
ATTENTION
Electrostatic Sensitive Devices
Safe Handling Required
1.5
88 REF
330.0
REF
"A"
96.5
6
PS
Detail "B"
+0.3
- 0.2
(MEASURED AT HUB)
(MEASURED AT HUB)
8.4
6
PS
11.1 MAX.
Detail "A"
Ø 20.2
Dimensions in mm
Ø 13.0 +0.5
-0.2
2.0 0.5
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 in the United States and other countries.
Data subject to change. Copyright © 2005-2013 Avago Technologies. All rights reserved.
AV02-2250EN - May 23, 2013
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