ALM-11336-TR1G [AVAGO]
Low Noise, High Linearity Amplifier Module with Fail-Safe Bypass Feature; 低噪声,高线性度放大器模块具有故障安全功能绕过
| 型号: | ALM-11336-TR1G |
| 厂家: | 
AVAGO TECHNOLOGIES LIMITED |
| 描述: | Low Noise, High Linearity Amplifier Module with Fail-Safe Bypass Feature |
| 文件: | 总12页 (文件大小:398K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ALM-11336
1850 MHz – 1980 MHz
Low Noise, High Linearity Amplifier Module
with Fail-Safe Bypass Feature
Data Sheet
Description
Features
Avago Technologies’ ALM-11336 is an easy-to-use GaAs
MMIC Tower Mount Amplifier (TMA) LNA Module with low
IL bypass path.The module has low noise and high linearity
achieved through the use of Avago Technologies’ propri-
•ꢀ Very Low Noise Figure
•ꢀ Low Bypass IL
•ꢀ Good Return Loss
etary 0.25 mm GaAs Enhancement-mode pHEMT process. •ꢀ Fail-safe Bypass mode
All matching components are fully integrated within the
module and the 50 ohm RF input and output pins are
already internally AC-coupled. This makes the ALM-11336
•ꢀ High linearity performance
•ꢀ High isolation @LNA mode
extremely easy to use as the only external parts are DC •ꢀ Flat gain
supply bypass capacitors. For optimum performance
at other bands, ALM-11036 (776-870 MHz), ALM-11136
(870-915 MHz) and ALM-11236 (1710-1850) are recom-
•ꢀ GaAs E-pHEMT Technology
•ꢀ Single 5 V power supply
3
mended. All ALM-11x36 share the same package and pin •ꢀ Compact MCOB package 7.0 x 10.0 x 1.5 mm
out configuration.
•ꢀ MSL2a
Pin Configuration and Package Marking
Specifications
3
7.0 x 10.0 x 1.5 mm 36-lead MCOB
1980 MHz; 5 V, 100 mA (Typical)
•ꢀ 15.3 dB Gain
1
26
2
3
4
5
6
7
25
24
23
22
21
20
•ꢀ ≥ 18 dB RL
•ꢀ 0.72 dB Noise Figure
•ꢀ 17.9 dBm IIP3
•ꢀ 3.8 dBm Input Power at 1dB gain compression
•ꢀ 0.78 dB Bypass IL
8
19
Pin
4
Connection
RF_IN
•ꢀ ≥ 18 dB Bypass RL
•ꢀ ≥ 50 dB isolation @LNA mode
26
1
23
RF_OUT
EXT_P2
EXT_P1
Vdd
25
24
23
22
21
20
2
3
4
5
6
7
28
Applications
30
• Tower Mount Amplifier (TMA)
• Cellular Infrastructure
33
Others
GND
19
8
Attention: Observe precautions for
handling electrostatic sensitive devices.
ESD Machine Model = 300 V
ESD Human Body Model = 2000 V
Refer to Avago Application Note A004R:
Electrostatic Discharge, Damage and Control.
Note:
Package marking provides orientation and identification
“11336” = Device Part Number
“WWYY” = Work week and Year of manufacture
“XXXX” = Last 4 digit of Lot number
[1]
Absolute Maximum Rating T = 25° C
A
[2]
Thermal Resistance
Symbol
Parameter
Units
Absolute Max.
(Vdd = 5.0 V, Idd = 100 mA) θjc = 56.2 °C/W
Vdd
Device Voltage,
RF output to ground
V
5.5
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.
Pin,max
CW RF Input Power
(Vdd = 5.0 V, Idd = 100 mA)
Total Power Dissipation[3]
Junction Temperature
Storage Temperature
dBm
+15
Pdiss
Tj
W
°C
°C
0.715
3. Power dissipation with unit turned on. Board
temperature T is 25° C. Derate at 17.8 mW/°C
c
150
for T > 109.8° C.
c
TSTG
-65 to 150
[1, 4]
Electrical Specifications
RF performance at T = 25° C, V = 5 V, 1980 MHz, measured on demo board in Figure 1 with component listed in Table1
A
dd
for DC bypass.
Symbol
Idd
Parameter and Test Condition
Drain Current
Frequency (MHz)
Units
mA
dB
Min.
Typ.
Max.
81
100
117
Gain
Gain
1850
1910
1980
–
–
13.8
15.6
15.4
15.3
–
–
16.8
IRL
Input Return Loss, 50 Ω source
Output Return Loss, 50 Ω load
Noise Figure
dB
dB
dB
–
–
23
28
–
–
ORL
NF [2]
1850
1910
1980
–
–
–
0.72
0.72
0.72
–
–
0.9
IIP3 [3]
Input Third Order Intercept Point
dBm
dBm
dB
14
2.85
–
17.9
3.8
0.78
23
–
IP1dB
Input Power at 1 dB Gain Compression
Bypass Insertion Loss, 50 Ω load Vdd = 0 V
Input Return Loss, 50 Ω source Vdd = 0 V
Output Return Loss, 50 Ω load Vdd = 0 V
Bypass Isolation @LNA ON Vdd = 5 V
–
Bypass IL
Bypass IRL
Bypass ORL
ISOL
1980
1.1
–
dB
–
dB
–
23
–
dB
–
65
–
Notes:
1. Measurements at 1980 MHz obtained using demo board described in Figure 1.
2. For NF data, board losses of the input have not been de-embedded.
3. IIP3 test condition: F = 1980 MHz, F = 1981 MHz with input power of -15 dBm per tone.
RF1
RF2
4. Use proper bias, heatsink and derating to ensure maximum channel temperature is not exceeded. See absolute maximum ratings and application
note for more details.
2
[1, 2]
Product Consistency Distribution Charts
USL
LSL
USL
LSL
80
85
90
95
100
105
110
115
14
15
16
17
Figure 1. Idd, LSL = 81 mA , nominal = 100 mA, USL = 117 mA
Figure 2. Gain, LSL = 13.8 dB, nominal = 15.3 dB, USL = 16.8 dB
USL
LSL
0.6
0.7
0.8
0.9
14
15
17
18
19
20
21
22
16
Figure 3. NF, nominal = 0.72 dB, USL = 0.9 dB
Figure 4. IIP3, LSL = 14 dBm, nominal = 17.9 dBm
LSL
LSL
3
4
-1.1
-1
-0.9
-0.8
-0.7
-0.6
Figure 5. IP1dB, LSL = 2.85 dBm, nominal = 3.8 dBm
Figure 6. Bypass IL, LSL = 1.1 dB, nominal = 0.78 dB
Notes:
1. Distribution data sample size is 1500 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. Circuit trace losses have not been de-embedded from measurements above.
3
Demo Board Layout
Avago
Technologies
Z1
C1
C2
C3
Z2
Gnd
1
26 Gnd
Gnd
Gnd
2
3
4
5
6
7
25 Gnd
24 Gnd
23 RF_OUT
22 Gnd
21 Gnd
20 Gnd
RF_IN
Gnd
Gnd
Gnd
Gnd
8
19 Gnd
rev1gi
MILS
W 21.89
G 14.57
ALM-
H 10
S 60
March'10
Low T.M.
Figure 7. Demo Board Layout Diagram
– Recommended PCB material is 10 mils Rogers RO4350.
– Suggested component values may vary according to layout and PCB material.
– Copper trace between the 2 pads is removed before Z2 0(ohm) is placed.
4
Demo Board Schematic
Vdd (5 V)
Z1
Z2
C1
C2
27,29,31,32,34,35,36
EXT_P1
EXT_P2
28
33
30
1,2,3
24,25,26
BIAS
5 V
23
4
5 V
0 V
RFout
RFin
50 Ω TL
19,20,21,22
5,6,7,8
9,10,11,12,13,14,15,16,17,18
Module Outline,
7 mm x 10 mm
Truth Table
Vdd (V)
LNA Mode
5
Bypass Mode
Fail-safe Mode
0
NC
Bypass and Fail-safe mode have similar performance
Figure 8. Demo Board Schematic Diagram
Table 1. DC component list for 1850-1980 MHz
Part Size
Value
Detail Part Number
GRM21BR61E225KA12L
NU
C1
C2
0805
0402
0805
0603
2.2 mF (Murata)
NU
Z1
0 Ω (Kamaya)
0 Ω (Kamaya)
RMC1/8-JPTP
RMC1/16-JPTP
Z2
Notes:
C1 is a DC bypass capacitor.
Z1 is 0 Ω resistor or fuse.
Z2 is a 0 Ω resistor if an external function block is not used.
5
Typical Performance
RF performance at T = 25° C, Vdd = 5 V for LNA mode, Vdd = 0 V for Bypass mode, measured on demo board in Figure 7.
A
Signal = CW unless stated otherwise. ApplicationTest Circuit is shown in Figure 8 andTable 1. IIP3 test condition: F -F
RF1 RF2
= 1 MHz with input power of -15 dBm per tone.
110
17.0
16.5
16.0
15.5
15.0
14.5
14.0
13.5
13.0
85° C
25° C
-40° C
105
100
95
90
-40 -30 -20 -10
0
10 20 30 40 50 60 70 80 90
Temperature (°C)
1.85
1.87
1.89
1.91
Frequency (GHz)
1.93
1.95
1.98
Figure 9. Idd vs Temperature
Figure 10. Gain vs Frequency
0
-5
0
-5
85° C
25° C
-40° C
85° C
25° C
-40° C
-10
-15
-20
-25
-30
-35
-40
-10
-15
-20
-25
-30
-35
-40
1.85
1.87
1.89
1.91
1.93
1.95
1.98
1.85
1.87
1.89
1.91
1.93
1.95
1.98
Frequency (GHz)
Frequency (GHz)
Figure 11. S11 vs Frequency
Figure 12. S22 vs Frequency
1.1
1.0
0.9
0.8
0.7
0.6
30
28
26
24
22
20
18
16
14
12
10
85° C
25° C
-40° C
0.5
0.4
0.3
85° C
25° C
-40° C
1.85
1.87
1.89
1.91
1.93
1.95
1.98
1.85
1.87
1.91
1.93
1.95
1.98
1.89
Frequency (GHz)
Frequency (GHz)
Figure 13. NF vs Frequency
Figure 14. IIP3 vs Frequency
6
8.0
7.0
6.0
5.0
4.0
3.0
2.0
1.0
0.0
-0.5
-0.6
-0.7
-0.8
-0.9
-1.0
-1.1
-1.2
85° C
25° C
-40° C
85° C
25° C
-40° C
1.85
1.87
1.89
1.91
1.93
1.95
1.98
1.85
1.87
1.89
1.91
1.93
1.95
1.98
Frequency (GHz)
Frequency (GHz)
Figure 15. IP1dB vs Frequency
Figure 16. Bypass IL vs Frequency
0
-5
0
-5
85° C
25° C
-40° C
85° C
25° C
-40° C
-10
-15
-20
-25
-30
-35
-40
-10
-15
-20
-25
-30
-35
-40
1.85
1.87
1.89
1.91
1.93
1.95
1.98
1.85
1.87
1.89
1.91
1.93
1.95
1.98
Frequency (GHz)
Frequency (GHz)
Figure 17. Bypass S11 vs Frequency
Figure 18. Bypass S22 vs Frequency
-40
-45
-50
-55
-60
-65
-70
-75
-80
85° C
25° C
-40° C
1.85
1.87
1.89
1.91
1.93
1.95
1.98
Frequency (GHz)
Figure 19. Bypass isolation vs Frequency (LNA mode)
7
Typical Scattering Parameters, Vdd = 5 V, Idd = 100 mA
LNA SPAR (100 MHz – 20 GHz)
Freq
(GHz)
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S12
(dB)
S12
(ang)
S22
(dB)
S22
(ang)
0.1
0.5
1
-3.36
-108.50
-164.91
145.60
68.09
-23.04
-11.83
-14.83
12.25
14.92
15.56
15.59
15.60
15.60
15.58
15.55
15.51
15.46
15.40
15.34
15.27
15.21
15.14
15.08
15.01
14.93
5.90
-80.03
-64.20
-138.93
-27.95
-119.17
171.38
159.16
147.43
136.02
124.91
114.12
103.58
93.27
-22.64
-11.17
-14.38
-32.20
-35.67
-32.38
-31.85
-31.42
-31.09
-30.79
-30.57
-30.39
-30.27
-30.20
-30.11
-30.04
-30.00
-29.97
-29.93
-29.90
-29.87
-34.32
-40.12
-43.00
-47.50
-40.57
-31.84
-28.83
-20.79
-23.17
-42.84
-43.86
-31.78
-26.08
-32.68
-23.18
-27.25
-28.13
-25.47
-30.14
-29.84
-26.58
-40.08
-84.81
-60.28
-137.98
-20.18
-114.92
164.10
153.02
142.55
132.52
123.04
113.98
104.94
96.22
-1.46
-64.90
-161.07
118.69
150.63
97.76
-2.40
-4.06
-2.36
-2.59
1.5
1.6
1.7
1.72
1.74
1.76
1.78
1.80
1.82
1.84
1.86
1.88
1.90
1.92
1.94
1.96
1.98
2
-9.89
-11.53
-18.97
-17.97
-18.69
-19.91
-21.61
-23.73
-25.46
-25.38
-23.48
-21.44
-19.69
-18.39
-17.57
-17.17
-17.08
-17.31
-17.91
-3.57
-13.06
-15.03
-15.73
-16.45
-17.19
-17.91
-18.56
-19.09
-19.48
-19.84
-20.21
-20.66
-21.17
-21.67
-21.97
-21.92
-21.51
-15.63
-11.67
-6.97
91.80
92.38
104.13
99.44
92.85
94.26
96.06
96.86
95.73
100.55
104.80
109.14
113.47
118.06
122.91
127.79
132.84
138.71
145.74
154.87
164.95
154.41
-146.42
-157.37
-170.08
177.82
166.36
155.24
156.73
153.73
113.60
93.89
102.56
118.95
140.38
153.89
158.25
157.32
153.88
148.82
142.76
135.45
127.15
118.35
114.23
-81.73
-158.55
151.19
100.65
52.03
83.23
87.62
73.36
79.11
63.66
70.53
54.09
62.12
44.63
53.65
35.23
45.05
25.86
36.39
16.50
27.79
2.5
3
167.34
28.05
-150.75
157.08
125.05
107.94
172.02
70.31
-9.82
-2.66
3.5
4
-24.10
-33.47
-34.47
-32.66
-30.02
-21.53
-24.35
-49.59
-41.25
-33.78
-25.78
-32.28
-23.67
-28.30
-28.94
-25.23
-33.02
-31.08
-27.15
-38.65
-45.15
-103.08
-160.53
88.15
-1.37
-5.31
-1.71
4.5
5
-4.92
-2.58
-5.40
-2.99
5.5
6
-6.23
30.25
24.44
-3.11
-13.54
-102.68
143.13
87.71
-7.98
-44.30
84.91
-42.71
77.85
-4.32
7
-1.34
-2.17
8
-0.69
86.65
-60.98
-87.39
-28.12
-172.49
89.98
-1.36
9
-1.20
-74.07
-32.79
-158.91
94.76
-1.28
26.21
10
-2.77
62.12
-1.91
-18.49
-42.36
-71.96
-92.69
-130.39
-178.30
34.20
11
-4.77
79.80
-3.00
12
-5.33
26.84
-1.71
13
-4.88
5.79
-27.91
-147.95
151.12
-0.14
-24.37
-144.58
155.24
6.67
-2.23
14
-4.96
-41.03
42.07
-2.58
15
-15.26
-7.11
-4.56
16
23.78
-9.42
17
-4.84
-21.56
-74.97
-55.62
-73.35
1.60
0.54
-7.87
-98.67
-120.15
-154.20
-79.81
18
-7.91
-108.99
133.81
-117.77
-109.28
135.83
-112.87
-7.40
19
-4.05
-9.04
20
-4.15
-7.77
8
PCB Layout and Stencil Design
9.795
9.765
0.845 (pitch)
0.845 (pitch)
Pin 1
Pin 1
0.20
8.10
3.65
0.50
0.47
Stencil Opening
Land Pattern
0.845
Pin 1
Metal
Soldermask Open
Note :
1. Recommended Land Pattern & Stencil Opening.
2. Stencil thickness is 0.1 mm (4 mils)
3. All dimension are in MM unless otherwise speciꢀed
Combination of Land Pattern and Stencil Opening
Part Number Ordering Information
Part Number
No. of Devices
Container
ALM-11336-TR1G
ALM-11336-BLKG
1000
100
13”Reel
antistatic bag
9
MCOB 7 x 10 Package Dimensions
Pin1 Identiꢀcation
10.00 0.10
1.50 0.10
7.00 0.10
1.12
Top View
Side View
0.845 (pitch)
0.50
5.20
0.50
Pin 1
0.10
0.845 (pitch)
R0.15
0.05
8.10
Bottom SM
Bottom Metal
(SM to metal gap)
1.0375
Notes:
1. All dimensions are in milimeters
2. Dimensions are inclusive of plating
3. Dimensions are exclusive of mold flash and metal burr
Bottom View
Device Orientation
REEL
USER FEED DIRECTION
AVAGO
11336
WWYY
XXXX
AVAGO
11336
WWYY
XXXX
AVAGO
11336
WWYY
XXXX
CARRIER
TAPE
TOP VIEW
END VIEW
USER
FEED
DIRECTION
COVER TAPE
10
Tape Dimensions
12.00 0.10
2.00 0.10
4.00 0.10
1.75 0.10
Ø 1.50 + 0.10
11.50 0.10
24.00 + 0.30
− 0.10
Ø 1.50 + 0.25
0.318 0.02
5° MAX
8° MAX
10.49 0.10
7.32 0.10
2.06 0.10
A.
K.
B.
11
Reel Dimensions - 13” Reel
ESD Label
(See Below)
Recycle Symbol
Detail ‘X’
Embossed Line X2
90.0mm Length
Lines 147.0mm away from center point
Embossed ‘M’ 5.0mm Height
FRONT VIEW
Ø20.2 (Min)
25.65 1.75ꢁꢁ
25.4 1.0ꢁ
+0.5
Ø13.1
Recycle Symbol
See Detail ‘X’
-0.2
2.2 0.5
FRONT
BACK
Detail ‘X’
1.0
4.0
Detail ‘Y’
Detail ‘Y’
30.4ꢁ
Maꢀ
Slot 10.0 0.5(2ꢀ)
Slot 5.0 0.5ꢁꢁꢁ(1ꢀ)
(Slot Hole)
BACK VIEW
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.
AV02-2849EN - June 18, 2013
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