DEMO-MGA-30X16 [BOARDCOM]
½ Watt High Linearity Amplifi er;型号: | DEMO-MGA-30X16 |
厂家: | Broadcom Corporation. |
描述: | ½ Watt High Linearity Amplifi er |
文件: | 总17页 (文件大小:311K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MGA-30116
150MHz – 1GHz
½ Watt High Linearity Amplifier
Data Sheet
Description
Features
Avago Technologies’MGA-30116 is a high linearity ½ Watt High linearity and P1dB
PA with good OIP3 performance and exceptionally good
Built in adjustable temperature compensated internal
PAE at p1dB gain compression point, achieved through
the use of Avago Technologies’ proprietary 0.25um GaAs
Enhancement-mode pHEMT process.
bias circuitry
[1]
GaAs E-pHEMT Technology
Standard QFN 3X3 package
5V supply
The adjustable temperature compensated internal bias
circuit allowed the device to be operated at either class A
or class AB operation
Excellent uniformity in product specifications
The MGA-30116 is housed inside a standard 16 pin QFN Tape-and-Reel packaging option available
3X3 package.
MSL-1 and Lead-free
High MTTF for base station application
Applications
Class A driver amplifier for GSM/CDMA Base Stations.
Specifications
900MHz; 5V, 202.8mA (typical)
17.0 dB Gain
General purpose gain block.
Component Image
16 pins QFN 3x3
44.1 dBm Output IP3
27.7 dBm Output Power at 1dB gain compression
47.0% PAE at P1dB
2.0 dB Noise Figure
NC 12
VDD/RFout 11
VDD/RFout 10
NC 9
1 Vm
Notes:
30116
YYWW
XXXX
2 Vbias
3 RF in
4 NC
1. Enhancement mode technology employs positive gate voltage,
thereby eliminating the need of negative gate voltage associated
with conventional depletion mode devices.
GND
nc = not connected
Attention: Observe precautions for
handling electrostatic sensitive devices.
ESD Machine Model = 60 V
BOTTOMVIEW
TOP VIEW
ESD Human Body Model = 300 V
Refer to Avago Application Note A004R:
Electrostatic Discharge, Damage and Control.
Notes:
Package marking provides orientation and identification
“30116”= Device Part Number
“YYWW”= Work Week and Year of manufacture
“XXXX” = Last 4 digit of Lot number
[1]
Absolute Maximum Rating T =25C
A
Symbol
Vdd,max
Ids,max
Vctrl,max
Pin,max
Pdiss
Parameter
Units
V
Absolute Max.
Device Voltage, RF output to ground
Device Drain Current
Control Voltage
5.5
mA
V
400
5.5
CW RF Input Power
dBm
W
22
Total Power Dissipation [3]
Junction Temperature
Storage Temperature
2.2
Tj, max
TSTG
C
150
C
-65 to 150
Thermal Resistance [2]
Notes:
jc = 33 C/W (Vdd=5, Ids=200mA, Tc=85C)
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. This is limited by maximum Vdd and Ids. Derate 30.3mW/ C for Tc> 77.5 C.
[4]
Electrical Specifications
T
= 25C, Vdd =5V, Vctrl =5V, RF performance at 900 MHz, measured on demo board (see Fig. 7) unless otherwise
A
specified.
Symbol
Ids
Parameter andTest Condition
Quiescent current
Units
mA
mA
dB
Min.
Typ.
202.8
7
Max.
165
240
Ictrl
Vctrl current
-
-
Gain
OIP3 [5]
OP1dB
PAE
Gain
15.5
17.0
44.1
27.7
47.0
2.0
18.5
Output Third Order Intercept Point
Output Power at 1dB Gain Compression
Power Added Efficiency
Noise Figure
dBm
dBm
%
41
-
-
-
-
-
-
-
26.2
-
-
-
-
-
NF
dB
S11
Input Return Loss, 50Ω source
Output Return Loss, 50Ω load
Reverse Isolation
dB
-14
S22
dB
-14
S12
dB
-23.5
Notes:
4. Measurements at 900MHz obtained using demo board described in Figure 6 and 7.
5. 900 MHz OIP3 test condition: F - F = 10MHz with input power of -5dBm per tone measured at worse side band
RF1
RF2
6. Use proper biasing, 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.
2
[1,2]
Product Consistency Distribution Charts
CPK = 2.209
Stdev = 5.612
CPK = 1.645
stdev = 0.628
Figure 2. OIP3 at 900MHz; LSL=41dB, nominal=44.1dBm
Figure 1. Ids at 900MHz; LSL=165mA, nominal =202.8mA, USL=240mA
CPK = 27.78
stdev =0.187
Stdev = 0.018
Figure 4. PAE at P1dB 900MHz; nominal=47.0%
Figure 3. P1dB at 900MHz; LSL, 26.2dBm, nominal=27.7dBm
CPK = 6.858
Stdev = 0.0729
Figure 5. Gain at 900MHz; LSL=15.5dB, Nominal =17.0dB, USL=18.5dB,
Notes:
1. Distribution data sample size is 500 samples taken from 2 different wafer lots and 3 different wafers. 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, P1dB and PAE. Circuit trace
losses have not been de-embedded from measurements above.
3
Demo Board (750MHz to 1GHz)
Vctrl
Vdd
L4
C10
C6
C7
C8
C9
Rbias
L3
Vm
1
NC
12
Vdd
Vbias
2
RFout
11
C4
C11
Vdd
RFout
RFin
3
RFout
C1
RFin
10
L2
C3
NC
4
NC
9
L1
C2
Top View
Figure 6. Demo board and application schematic (750MHz to 1GHz)
Demo Board Part List
Circuit Symbol
Size
Value
10nH
6.8nH
8.2nH
15nH
6pF
Part Number
Description
MLC Inductor
MLC Inductor
MLC Inductor
MLC Inductor
L1
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0402
0805
0402
0402
LLP1005-FH10NC (TOKO)
LLP1005-FH6N8C (TOKO)
LL1005-FHL8N2J (TOKO)
MLK1005S15NJ (TDK)
C1005C0G1H060D (TDK)
L2
L3
L4
C1
C2
C3
C4
C6
C7
C8
C9
C10
C11
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
Ceramic Chip Capacitor
1.8pF
4.3pF
5.6pF
100pF
0.1uF
100pF
2.2uF
100pF
100pF
GRM1555C1H1R8CZ01B (Murata)
GRM1555C1H4R3CZ01B (Murata)
GRM1555C1H5R6CZ01B (Murata)
GRM1555C1H101JZ01B (Murata)
GRM155R71E103KA01B (Murata)
GRM1555C1H101JZ01B (Murata)
GRM21BR61E225KA12L (Murata)
GRM1555C1H101JZ01B (Murata)
GRM1555C1H101JZ01B (Murata)
Note: Rbias is used to lower the quiescent current. Default is 0 ohm
4
Figure 7. Demo board Layout
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.
MGA-30116 Typical Performance (750MHz to 1GHz)
T = +25C, Vdd = 5V, Vctrl =5V, Input Signal=CW unless stated otherwise.
A
250
240
230
220
210
200
190
180
170
160
150
48
47
46
45
44
43
42
41
40
39
38
85ºC
25ºC
-40ºC
85ºC
25ºC
-40ºC
0.75
0.8
0.85
0.9
0.95
1
0.75
0.8
0.85
0.9
0.95
1
Frequency (GHz)
Frequency (GHz)
Figure 9. Over Temperature OIP3 vs Frequency
Figure 8. Over Temperature Ids vs Frequency
5
MGA-30116 Typical Performance (750MHz to 1GHz)
T = +25C, Vdd = 5V, Vctrl =5V, Input Signal=CW unless stated otherwise.
A
31
30
29
28
27
26
25
24
20
19
18
17
16
15
14
13
12
11
10
85ºC
25ºC
-40ºC
85ºC
25ºC
-40ºC
0.75
0.8
0.85
0.9
0.95
1
0.75
0.8
0.85
Frequency (GHz)
0.9
0.95
1
Frequency (GHz)
Figure 11. Over Temperature Gain vs Frequency
Figure 10. Over Temperature P1dB vs Frequency
0
-2
-4
0
-2
-4
85ºC
25ºC
-40ºC
85ºC
25ºC
-40ºC
-6
-6
-8
-8
-10
-12
-14
-16
-18
-20
-10
-12
-14
-16
-18
-20
0.75
0.8
0.85
0.9
0.95
1
0.75
0.8
0.85
0.9
0.95
1
Frequency (GHz)
Frequency (GHz)
Figure 13. Over Temperature S22 vs Frequency
Figure 12. Over Temperature S11 vs Frequency
-20
-21
-22
-23
-24
-25
-26
-27
-28
-29
-30
-25
-30
-35
-40
-45
-50
3GPP WCDMA
-55
-60
-65
85ºC
25ºC
-40ºC
85ºC
25ºC
-40ºC
Test Model
1+64DPCH
+/- 5MHz Offset
0.75
0.8
0.85
0.9
0.95
1
15
16
17
18
19
20
21
22
23
24
Frequency (GHz)
Output Channel Power (dBm)
Figure 15. Over Temperature ACPR (900MHz) Vs Pout
Figure 14. Over Temperature S12 vs Frequency
6
S-Parameter (Vdd = 5V, Vctrl = 5V, T=25°C, unmatched 50 ohm)
freq (GHz)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
S11 (dB)
0.819
S11 (ang)
-66.87
-106.1
-130.9
-147
S21 (dB)
36.25
S21 (ang)
135.3
113.3
101.3
92.88
86.62
81.19
76.55
72.06
68.09
64.13
46.16
28.84
11.91
-5.352
-23.21
-41.21
-60.71
-79.6
S12 (dB)
0.01439
0.02695
0.03032
0.03406
0.03866
0.0432
0.04839
0.0529
0.0576
0.06263
0.08796
0.116
S12 (ang)
56.48
48.02
42.92
41.9
S22 (dB)
0.351
S22 (ang)
-106.5
-140.2
-155.3
-164.7
-171.1
-176.5
179.4
175.7
172
0.6424
0.5681
0.5316
0.5116
0.5009
0.4943
0.4905
0.4873
0.4857
0.4835
0.4751
0.4638
0.4474
0.433
23.96
0.4369
0.4617
0.4729
0.4766
0.4793
0.4773
0.4778
0.476
17.2
13.32
-159.1
-168.6
-176.6
176.6
170.4
164.9
142.2
123.8
108.1
93.43
78.93
64.65
48.8
10.8
42.74
42.68
41.84
41.61
40.96
39.99
31.73
20.17
7.589
-6.182
-21.36
-37.08
-54.46
-71.5
9.069
7.799
6.861
6.112
5.514
0.4748
0.4576
0.4279
0.3851
0.3323
0.2701
0.2136
0.1842
0.1845
0.1949
0.1758
0.09589
0.1006
0.1055
0.3269
0.5113
0.5983
0.5515
0.4055
0.5668
0.5751
0.5242
0.4551
0.3841
0.2985
0.3366
0.4046
0.3906
0.3296
0.2269
0.1099
0.2566
0.5016
0.6825
0.7874
0.8485
0.8782
0.8881
0.8915
169
1.5
2
3.737
155.1
141.7
128.2
112.6
93.95
69.63
35.57
-0.1869
-28.5
2.85
2.5
3
2.356
0.1442
0.1734
0.2033
0.2311
0.2561
0.2706
0.2812
0.28
2.038
3.5
4
1.808
0.429
1.624
4.5
5
0.4433
0.4797
0.5308
0.5849
0.6311
0.6711
0.6718
0.702
1.456
33.04
17.84
4.304
-6.453
-15.37
-15.54
-22.92
-30.47
-38.8
1.299
5.5
6
1.145
-98.31
-117
-88.72
-105.5
-121.8
-136.4
-136.8
-145.6
-148.2
-150.2
-159.9
176.7
176.4
172.2
161.5
145.2
126.1
107.3
90.41
53.26
36.92
18.91
-1.432
-24.97
-52.01
-78.62
-99.26
-112.5
-122.4
-128.5
-134.3
-137.5
0.9923
0.8475
0.6847
0.6791
0.5296
0.4375
0.4401
0.4975
0.4827
0.3887
0.445
-50.71
-63.29
46.42
47.03
34.85
11.84
-9.504
-29.89
-20.64
-27.29
-46.67
-66.71
-90.35
-118.8
-144.4
-168.2
138
6.5
7
-134.2
-151.2
-151.4
-161.9
-163.6
-164
0.2682
0.25
7.02
7.5
8
0.2488
0.2195
0.2083
0.2316
0.2788
0.2918
0.2573
0.3127
0.3834
0.4587
0.5192
0.5644
0.6157
0.6262
0.6716
0.7162
0.7613
0.7898
0.7658
0.6397
0.5045
0.3851
0.316
0.7192
0.7036
0.6344
0.623
8.5
9
-44.46
-48.02
-59.65
-75.16
-91.87
-109.1
-125.4
-142.1
-156.5
-176
-172.7
163.9
164.1
162.5
151.8
136.6
119
9.5
10
0.6313
0.5825
0.5164
0.4614
0.4244
0.4056
0.385
10.5
11
0.5292
0.6084
0.668
11.5
12
12.5
13.5
14
0.6845
0.7347
0.7055
0.736
101.1
84.24
49.21
33.92
16.35
-3.142
-25.57
-51.48
-76.43
-95.96
-108.9
-118.3
-124.5
-128.9
-132.6
0.3726
0.3731
0.3205
0.2225
0.08651
0.2734
0.5265
0.6917
0.778
14.5
15
166.5
148.6
132.8
165.7
-144.7
-164
113.9
95.44
86.25
119.9
174.7
168
0.7673
0.8008
0.8194
0.776
15.5
16
16.5
17
0.6454
0.4937
0.3822
0.3054
0.2549
0.2233
0.2099
17.5
18
176.9
164.8
157.3
153.3
151.2
150.1
155.3
146.4
140.4
137
18.5
19
0.8257
0.8475
0.8593
0.8592
0.261
19.5
20
0.2331
0.2211
134.9
133.4
Note: Circuit layout refer to Figure 16.
7
S-Parameter Test circuit
Vdd
Vg
11612A
11612A
Bias Network
45 MHZ-26.5 GHz
Bias Network
45 MHZ-26.5 GHz
Vm
1
NC
12
Vdd
Vbias
2
RFout
11
Vdd
J2
RFout
RFin
3
RFout
J1
RFin
10
NC
4
NC
9
Reference Plane
Top View
Reference Plane
Figure 16. S-Parameter Test circuit.
8
S-Parameter (Vdd = 5V, Vctrl = 5V, T=25°C, unmatched 50 ohm), with L4 = 15nH, C6 = 100pF
freq (GHz)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
S11 (dB)
0.2568
0.1672
0.1339
0.2804
0.3701
0.4127
0.434
S11 (ang)
161.2
164.7
-153.1
-144.2
-158.3
-169.5
-178.1
174.6
168.5
162.9
140.1
122.3
106.4
93.36
78.17
64.62
53.2
S21 (dB)
13.78
S21 (ang)
175.8
160.5
141.1
117.7
102.7
92.68
85.46
79.36
74.28
69.52
49.18
31.48
14.01
-3.058
-21.48
-40.19
-57
S12 (dB)
0.009444
0.01771
0.02985
0.03976
0.04382
0.04783
0.05033
0.05531
0.05979
0.06393
0.0896
0.1158
0.1449
0.1725
0.2036
0.2316
0.2534
0.2707
0.2796
0.2741
0.2564
0.2351
0.2102
0.2158
0.2157
0.242
S12 (ang)
101.7
93.57
83.91
67.74
57.22
54.35
50.56
48.96
46.76
44.7
S22 (dB)
0.2746
0.4101
0.5896
0.6465
0.6219
0.5948
0.5741
0.5571
0.5467
0.537
S22 (ang)
-34.24
-66.49
-96.1
15.64
16.74
14.9
-126.2
-144.3
-155.9
-164.1
-170.5
-176
12.01
9.849
8.307
0.4476
0.456
7.201
6.349
0.4621
0.474
5.684
179.6
161.6
146.8
132.1
116.7
96.73
71.35
41.6
1.5
2
3.742
34.64
22.85
9.838
-3.918
-19.57
-35.9
0.5022
0.4649
0.4205
0.3676
0.301
0.4713
0.4595
0.4391
0.43
2.861
2.5
3
2.36
2.029
3.5
4
1.806
0.416
1.611
0.2393
0.2033
0.1884
0.185
4.5
5
0.4298
0.4771
0.529
1.464
-51.13
-70.57
-87.99
-105
36.4
1.298
-78.1
1.547
-29.27
-54.03
-50.92
53.21
31.35
6.43
5.5
6
21.01
7.048
-4.632
-14.22
-22.65
-30.56
-37.25
-44.03
-51.88
-61.74
-73.63
-87.08
-98.92
-116.4
-131.9
-151
1.14
-97.23
-116.3
-134.1
-149.4
-157.8
-158.4
-161.6
-163.8
-169.9
179.8
167.2
149.4
132
0.5852
0.6344
0.6793
0.7121
0.7198
0.7155
0.6895
0.6597
0.6101
0.5423
0.4595
0.404
0.9772
0.8161
0.6446
0.4994
0.4489
0.3997
0.4167
0.4662
0.5308
0.6054
0.6852
0.7138
0.744
0.1468
0.04241
0.1712
0.3948
0.5287
0.6248
0.6518
0.6371
0.596
6.5
7
-121.2
-133.6
-140.4
-142.5
-147.8
-151.7
-159.2
-169.5
176.2
159.2
140.2
121.9
103.1
85.67
67.27
48.08
30.17
15.74
-3.878
-28.21
-55.63
-81.61
-101.6
-113.4
-122.1
-127.1
-133.7
-137.1
7.5
8
8.5
9
-6.672
-21.27
-34.6
9.5
10
0.287
0.3463
0.4186
0.4918
0.5402
0.5821
0.623
-47.68
-63.41
-81.47
-100.4
-125.5
-154.6
176.6
151.7
133.6
116
10.5
11
0.5318
0.4226
0.359
11.5
12
0.3637
0.3447
0.3432
0.3322
0.2999
0.2504
0.211
115.6
97.51
79.81
61.96
43.77
27.31
13.03
-5.748
-28.92
-55.06
-79.44
-97.98
-109.8
-117.8
-123
0.3031
0.2751
0.2787
0.3048
0.3259
0.3555
0.3124
0.1677
0.09555
0.3365
0.5759
0.7331
0.8093
0.8536
0.877
12.5
13
0.767
0.784
0.6501
0.6802
0.6889
0.6811
0.7052
0.7699
0.8003
0.7618
0.6235
0.4856
0.3679
0.3018
0.2596
0.2327
0.2192
13.5
14
-171
0.7906
0.776
170.4
155.7
147.3
140
14.5
15
0.7477
0.7599
0.8115
0.8283
0.769
93.28
81.45
169
15.5
16
0.1448
0.1042
0.3274
0.5576
0.7072
0.7852
0.8251
0.844
-155.1
-145.4
-166.2
175.6
164.1
157
16.5
17
-176.2
169.1
155.1
146.1
140.4
137.2
135.3
133.5
0.6286
0.4753
0.3653
0.2913
0.2531
0.2235
0.2104
17.5
18
18.5
19
153.6
151.5
150.2
19.5
20
0.8577
0.8584
-128.5
-132
0.8891
0.8957
Note: Circuit layout refer to Figure 17, with L4 = 15 nH, C6 = 100pF
9
S-Parameter (Vdd = 5V, Vctrl = 5V, T=25°C,unmatched 50 ohm), with L4 = 100nH, C6 = 1nF
freq (GHz)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
S11 (dB)
0.5555
0.5652
0.5267
0.508
S11 (ang)
10.29
-85.53
-124
S21 (dB)
35.34
S21 (ang)
174.2
125.1
106.2
95.53
88.31
82.26
77.29
72.51
68.36
63.68
45.42
27.12
8.764
-9.91
S12 (dB)
0.01595
0.02909
0.03285
0.03656
0.04119
0.04457
0.04883
0.05316
0.05725
0.06378
0.08746
0.1145
0.1405
0.161
S12 (ang)
110.7
57.57
48.87
46.17
45.19
44.09
43.54
42.65
41.06
39.49
30.28
18.41
3.984
-10.33
-26.26
-44.31
-56.57
-64.62
-84.56
-88.56
-98.33
-109.7
-120.6
-131.7
-145
S22 (dB)
0.4953
0.5617
0.5286
0.5126
0.5023
0.4972
0.49
S22 (ang)
-65.36
-125.6
-148
27.11
18.44
-144.3
-157.9
-168.1
-176.3
176.9
170.7
164.6
142.8
124.9
110.1
97.19
83.77
71.65
55.55
35.23
22.32
5.12
13.83
-160.7
-168.4
-174.9
-179.7
176.2
172.2
168.2
153.3
138.4
123.2
106.1
86.57
-178
0.4988
0.4939
0.491
11.03
9.165
7.837
0.4886
0.4882
0.4864
0.4837
0.4758
0.4643
0.4577
0.4543
0.4629
0.5275
0.5184
0.5989
0.657
6.869
0.4852
0.4794
0.474
6.104
5.426
1.5
2
3.708
0.4467
0.3984
0.3289
0.2475
0.1208
0.03653
0.1689
0.1434
0.1319
0.303
2.815
2.5
3
2.305
1.953
3.5
4
1.654
-30
0.1863
0.1997
0.1803
0.2383
0.2059
0.2058
0.228
1.32
-49.22
-60.21
-72.72
-95.63
-103.2
-112.5
-123.6
-133.6
-143.5
-156
4.5
5
1.034
165.4
60.22
130.6
76.52
37.31
14.7
1.154
5.5
6
0.8585
0.7102
0.6763
0.6198
0.5931
0.5767
0.574
6.5
7
0.6875
0.7137
0.7241
0.718
-8.43
0.4378
0.5354
0.602
-18.74
-27.56
-34.72
-40.68
-46.15
-53.84
-62.6
0.2438
0.2581
0.2772
0.2962
0.294
7.5
8
-4.645
-19.73
-31.17
-34.04
-48.44
-60.16
-71.89
-85.13
-104.2
-123.8
-159.9
164.5
137.2
117.2
102
0.619
8.5
9
0.691
0.5626
0.597
0.681
0.5259
0.585
-162
-151.2
-160.2
-172.9
171.4
155.6
137.7
120.7
102.2
83.72
65.05
46.45
27.53
8.6
9.5
10
0.6393
0.5788
0.5028
0.4265
0.3683
0.335
-170.5
176.5
161.6
145.1
128.3
112.7
95.6
0.347
0.5657
0.4858
0.3994
0.3199
0.2552
0.2232
0.2332
0.2479
0.2676
0.2708
0.2565
0.1958
0.06727
0.1754
0.4122
0.618
0.6443
0.6962
0.7372
0.7685
0.7789
0.8156
0.8394
0.8415
0.8388
0.8378
0.8449
0.8498
0.8167
0.7132
0.5777
0.4383
0.3427
0.2809
0.2379
0.2114
0.2022
0.4063
0.4677
0.5198
0.574
10.5
11
-72.36
-84.11
-97.04
-117
11.5
12
0.6045
0.6712
0.7033
0.728
12.5
13
0.291
-137.5
-156.5
-175.6
166.6
150.2
137
0.2902
0.2995
0.2998
0.2813
0.2247
0.1216
0.1879
0.4125
0.6075
0.7305
0.795
77.54
59.73
42.03
24.27
5.782
-15
13.5
14
0.7442
0.7641
0.7925
0.8132
0.7948
0.711
14.5
15
85.32
93.91
-166.3
-179
15.5
16
146.5
-152.9
-159.5
-175.1
170.5
161.6
156
-13.14
-37.8
-38.64
-62.79
-84.42
-100.8
-111.1
-119.2
-124.7
-129.4
-132.8
16.5
17
-63.33
-86.65
-104.4
-114.9
-123.2
-128.7
-134.3
-137.5
0.5747
0.4495
0.3447
0.2901
0.2442
0.2222
0.2114
166.5
153.2
144.9
139.9
136.6
134.5
133.1
17.5
18
0.7513
0.8168
0.8596
0.8821
0.8914
0.8967
18.5
19
0.8315
0.8501
0.8572
0.8568
152.7
150.8
149.6
19.5
20
Note: Circuit layout refer to Figure 17, with L4 = 100 nH, C6 = 1nF
10
S-Parameter Test circuit (400MHz – 700 MHz)
Vctrl
Vdd
L4 = 15nH
C10 =
100pF
C6 = 100pF
11612A
Bias Network
45 MHZ-26.5 GHz
Rbias
=0 ohm
Vm
NC
12
1
Vdd
Vbias
2
RFout
11
Vdd
J2
RFout
RFin
3
RFout
J1
RFin
10
NC
4
NC
9
Reference Plane
Reference Plane
TOP VIEW
Figure 17. S-Parameter Test Circuit.
11
Demo Board (400MHz to 700MHz)
Vctrl
Vdd
L4
C7
R2
C5
C6
C3
C4
R1
L3
C2
Vm
NC
12
1
Vdd
Vbias
2
RFout
11
J2
Vdd
RFout
RFin
3
RFout
C1
J1
RFin
10
L2
NC
4
NC
9
L1
Top View
Figure 18. Demo board and application schematic (400MHz to 700 MHz)
Demo Board Part List (400MHz to 700MHz)
Circuit
Symbol Value
Part Number
C1
C2
C3
C4
C5
C6
C7
J1
10 pF
10p
Murata GRM155 series
Murata GRM155 series
Murata GRM155 series
Murata GRM155 series
Murata GRM155 series
Murata GRM155 series
Murata GRM155 series
1 nF
100 nF
1 nF
1 nF
1 nF
142-0701-841 Johnson edge launch SMA female
142-0701-841 Johnson edge launch SMA female
J2
L1
L2
L3
L4
Q1
R1
R2
22 nH
15 nH
100 nH
100 nH
Mga30116
0 R
Toko LL1005 series
Toko LL1005 series
Toko LL1005 series
Toko LL1005 series
Figure 19. Demo board Layout for 400MHz to 700MHz
390 R
Notes:
1. Recommended PCB material is 10 mils Rogers RO4350, with FR4
backing for mechanical strength.
2. Suggested component values may vary according to layout and PCB
material.
12
MGA-30116 Typical Performance (400MHz to 700MHz)
T = +25°C, Vdd = 5V, Vctrl =5V, Input Signal=CW unless stated otherwise.
A
0
-2
-4
-6
-8
-20
-40°C
25°C
85°C
-21
-22
-23
-24
-25
-26
-27
-28
-29
-30
-40°C
25°C
85°C
-10
-12
-14
-16
-18
-20
0.40
0.45
0.50
0.55
0.60
0.65
0.70
0.40
0.70
0.45
0.50
0.55
0.60
0.65
Frequency (GHz)
Frequency (GHz)
Figure 20. Over Temperature S11 vs Frequency
Figure 21. Over Temperature S12 vs Frequency
0
-2
-4
20
18
-6
-8
16
14
-10
-12
-14
-16
-18
-20
12
10
-40°C
25°C
85°C
-40°C
25°C
85°C
8
6
0.40
0.45
0.50
0.55
0.60
0.65
0.70
0.4
0.45
0.5
0.55
Frequency (GHz)
0.6
0.65
0.7
Frequency (GHz)
Figure 22. Over Temperature S22 vs Frequency
Figure 23. Over Temperature Gain vs Frequency
46
44
42
40
38
36
34
32
30
31
30
29
28
27
26
25
24
-40°C
25°C
85°C
-40°C
25°C
85°C
0.4
0.45
0.5
0.55
0.6
0.65
0.7
0.4
0.45
0.5
Frequency (GHz)
Figure 25. Over Temperature OIP3 vs Frequency
0.55
0.6
0.65
0.7
Frequency (GHz)
Figure 24. Over Temperature P1dB vs Frequency
13
PCB Layout and Stencil Design
0.500
0.500
Chamfer 0.24
Chamfer 0.192
Chamfer 0.06
0.560
∅0.260
1.240
1.550
0.210
0.350
0.325
0.230
0.500
0.490
1.240
1.550
PCB Land Pattern
(Top View)
Stencil Outline
0.500
0.230
1.240
1.550
0.210
0.360
1.240
1.550
Combined PCB & Stencil Layouts
Notes:
1. All dimensions are in milimeters.
Part Number Ordering Information
Product Family
Frequency Band
1.7- 2.7GHz
Part Number
No. of Devices
1000
Container
7”Reel
Output
Power
700MHz-1GHz
MGA-30116
ALM-31122
ALM-32120
3.3-3.9GHz
MGA-30116-TR1G
MGA-30116-TR2G
MGA-30116-BLKG
0.5W
1W
MGA-30216
ALM-31222
ALM-32220
MGA-30316
ALM-31322
ALM-32320
3000
13”Reel
100
antistatic bag
2W
Note: MGA-30116 operates from 400MHz to 1GHz.
14
Package Dimensions
PIN #1 IDENTIFICATION
CHAMFER 0.30 X 45°
0.20 Ref
1.55 0.05
Exp.DAP
Pin 1 Dot
by marking
3.00 0.10
0.40 0.05
0.50 Bsc
30116
Y Y WW
XXXX
1.55 0.05
Exp.DAP
3.00 0.10
0.23 0.05
0.00 0.05
0.85 0.05
1.50
Ref.
SIDE VIEW
BOTTOM VIEW
TOP VIEW
Notes:
1. All dimensions are in milimeters
2. Dimensions are inclusive of plating
3. Dimensions are exclusive of mold flash and metal burr
Device Orientation
REEL
USER FEED DIRECTION
30116
YYXX
XXXX
30116
YYXX
XXXX
30116
YYXX
XXXX
CARRIER
TAPE
TOP VIEW
END VIEW
USER FEED
COVER TAPE
DIRECTION
Tape Dimensions
2.0 0.1[1]
4.0 0.1[2]
1.75 0.1
0.3 0.05
1.55 0.05
5.5 0.1[1]
1.6 0.1
R 0.3
C
L
3.3 0.1
12.0 0.3
Typical
1.55 0.1
8.0 0.1
3.3 0.1
Notes:
1. Measured from centerline of sprocket hole to centerline of pocket
2. Cumulative tolerance of 10 sprocket holes is 0.20
3. All dimensions in millimeter unless otherwise stated
15
Reel Dimensions - 7 inch
6.25mm EMBOSSED LETTERS
LETTERING THICKNESS: 1.6mm
SLOT HOLE "a"
SEE DETAIL "X"
SLOT HOLE "b"
Ø178.0 0.5
FRONT
BACK
6
PS
SLOT HOLE(2x)
180° APART.
6
PS
SLOT HOLE "a": 3.0 0.5mm(1x)
SLOT HOLE "b": 2.5 0.5mm(1x)
FRONT VIEW
RECYCLE LOGO
1.5 MIN.
+1.5*
12.4
+0.5
-0.2
Ø13.0
-0.0
R10.65
R5.2
Ø20.2 MIN.
FRONT
BACK
DETAIL "X"
3.5
DETAIL "Y"
(Slot Hole)
Ø178.0 0.5
Ø51.2 0.3
EMBOSSED RIBS
RAISED: 0.25mm, WIDTH: 1.25mm
18.0*
MAX.
SEE DETAIL "Y"
BACK VIEW
16
Reel Dimensions - 13 inch
EMBOSSED LETTERING
16.0mm HEIGHT x MIN. 0.4mm THICK.
Ø329.0 1.0
12
1
2
11
10
9
3
4
8
5
7
6
HUB
Ø100.0 0.5
DATE CODE
6
PS
112
11
103
9 4
8 5
76
+0.5
-0.2
EMBOSSED LETTERING
7.5mm HEIGHT
Ø13.0
EMBOSSED LETTERING
7.5mm HEIGHT
20.2(MIN.)
FRONT VIEW
EMBOSSED LINE (2x)
89.0mm LENGTH LINES 147.0mm
AWAY FROM CENTER POINT
11.9-15.4**
Ø16.0
Detail "X"
ESD LOGO
+2.0*
-0.0
12.4
6
PS
RECYCLE LOGO
SEE DETAIL "X"
6
PS
SLOT
5.0 0.5(3x)
R19.0 0.5
Ø12.3 0.5(3x)
BACK VIEW
18.4 MAX.*
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 © 2005-2012 Avago Technologies. All rights reserved.
AV02-1063EN - March 13, 2012
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