MMG3014NT1 40-4000 MHz, 19.5 dB, 25 dBm InGaP HBT

Freescale Semiconductor
Technical Data
Document Number: MMG3014NT1
Rev. 5, 3/2016
Heterojunction Bipolar Transistor
Technology (InGaP HBT)
MMG3014NT1
Broadband High Linearity Amplifier
The MMG3014NT1 is a general purpose amplifier that is input and output
internally prematc hed. It is des igned for a broad range of Clas s A,
small--signal, high linearity, general purpose applications. It is suitable for
applications with frequencies from 40 to 4000 MHz such as cellular, PCS,
BWA, WLL, PHS, CATV, VHF, UHF, UMTS and general small--signal RF.
40--4000 MHz, 19.5 dB
25 dBm
InGaP HBT GPA
Features
 Frequency: 40--4000 MHz
 P1dB: 25 dBm @ 900 MHz
 Small--Signal Gain: 19.5 dB @ 900 MHz
 Third Order Output Intercept Point: 40.5 dBm @ 900 MHz
 Single 5 V Supply
 Active Bias
 Cost--effective SOT--89 Surface Mount Plastic Package
 In Tape and Reel. T1 Suffix = 1,000 Units, 12 mm Tape Width, 7--inch Reel.
Table 1. Typical Performance (1)
SOT--89
Table 2. Maximum Ratings
Rating
Characteristic
Symbol
900
MHz
2140
MHz
3500
MHz
Unit
Small--Signal Gain
(S21)
Gp
19.5
15
10
dB
Input Return Loss
(S11)
IRL
--25
--12
--8
dB
Output Return Loss
(S22)
ORL
--11
--13
--19
dB
Power Output @1dB
Compression
P1dB
25
25.8
25
dBm
Third Order Output
Intercept Point
OIP3
40.5
40.5
40
dBm
Symbol
Value
Unit
Supply Voltage
VCC
6
V
Supply Current
ICC
300
mA
RF Input Power
Pin
25
dBm
Storage Temperature Range
Tstg
--65 to +150
C
Junction Temperature
TJ
175
C
1. VCC = 5 Vdc, TA = 25C, 50 ohm system, application circuit
tuned for specified frequency.
Table 3. Thermal Characteristics
Characteristic
Thermal Resistance, Junction to Case
Case Temperature 81C, 5 Vdc, 135 mA, no RF applied
Symbol
Value (2)
Unit
RJC
27.4
C/W
2. Refer to AN1955,Thermal Measurement Methodology of RF Power Amplifiers. Go to http://www.nxp.com/RF and search for AN1955.
 Freescale Semiconductor, Inc., 2008, 2011, 2014, 2016. All rights reserved.
RF Device Data
Freescale Semiconductor, Inc.
MMG3014NT1
1
Table 4. Electrical Characteristics (VCC = 5 Vdc, 900 MHz, TA = 25C, 50 ohm system, in Freescale Application Circuit)
Symbol
Min
Typ
Max
Unit
Small--Signal Gain (S21)
Gp
18.5
19.5
—
dB
Input Return Loss (S11)
IRL
—
--25
—
dB
Output Return Loss (S22)
ORL
—
--11
—
dB
Power Output @ 1dB Compression
P1dB
—
25
—
dBm
Third Order Output Intercept Point
OIP3
—
40.5
—
dBm
Characteristic
Noise Figure
NF
—
5.7
—
dB
Supply Current
ICC
110
135
160
mA
Supply Voltage
VCC
—
5
—
V
Table 5. Functional Pin Description
2
Pin
Number
Pin Function
1
RFin
2
Ground
3
RFout/DC Supply
1
2
3
Figure 1. Functional Diagram
Table 6. ESD Protection Characteristics
Test Conditions/Test Methodology
Class
Human Body Model (per JESD22--A114)
1B
Machine Model (per EIA/JESD22--A115)
A
Charge Device Model (per JESD22--C101)
IV
Table 7. Moisture Sensitivity Level
Test Methodology
Per JESD22--A113, IPC/JEDEC J--STD--020
Rating
Package Peak Temperature
Unit
1
260
C
MMG3014NT1
2
RF Device Data
Freescale Semiconductor, Inc.
50 OHM TYPICAL CHARACTERISTICS
0
20
S11
S11, S22 (dB)
Gp, SMALL--SIGNAL GAIN (dB)
25
15
TC = --40C
25C
85C
VCC = 5 Vdc
5
--10
0
1
2
3
1
0
4
2
3
4
f, FREQUENCY (GHz)
f, FREQUENCY (GHz)
Figure 2. Small--Signal Gain (S21) versus
Frequency
Figure 3. Input/Output Return Loss versus
Frequency
23
26
P1dB, 1 dB COMPRESSION POINT (dBm)
VCC = 5 Vdc
21
900 MHz
19
17
1960 MHz
15
2140 MHz
13
2600 MHz
11
3500 MHz
9
10
6
18
1
1.5
2
2.5
3
Pout, OUTPUT POWER (dBm)
f, FREQUENCY (GHz)
Figure 4. Small--Signal Gain versus Output
Power
Figure 5. P1dB versus Frequency
180
160
140
120
100
80
60
40
20
0
VCC = 5 Vdc
0.5
26
22
200
0
25
24
14
1
2
3
4
5
VCC, COLLECTOR VOLTAGE (V)
Figure 6. Collector Current versus Collector
Voltage
6
OIP3, THIRD ORDER OUTPUT INTERCEPT POINT (dBm)
Gp, SMALL--SIGNAL GAIN (dB)
S22
10
VCC = 5 Vdc
ICC, COLLECTOR CURRENT (mA)
--5
3.5
42
40
VCC = 5 Vdc
1 MHz Tone Spacing
38
0
1
2
3
4
f, FREQUENCY (GHz)
Figure 7. Third Order Output Intercept Point
versus Frequency
MMG3014NT1
RF Device Data
Freescale Semiconductor, Inc.
3
42
40
f = 900 MHz
1 MHz Tone Spacing
38
4.5
4.9
4.7
5.3
5.1
5.5
VCC, COLLECTOR VOLTAGE (V)
OIP3, THIRD ORDER OUTPUT INTERCEPT POINT (dBm)
OIP3, THIRD ORDER OUTPUT INTERCEPT POINT (dBm)
50 OHM TYPICAL CHARACTERISTICS
42
40
VCC = 5 Vdc
f = 900 MHz
1 MHz Tone Spacing
38
--40
--20
20
40
60
80
100
T, TEMPERATURE (_C)
Figure 9. Third Order Output Intercept Point
versus Case Temperature
Figure 8. Third Order Output Intercept Point
versus Collector Voltage
105
--30
MTTF (YEARS)
--40
--50
--60
--80
103
10
13
19
16
22
120
25
125
130
135
140
145
Pout, OUTPUT POWER (dBm)
TJ, JUNCTION TEMPERATURE (C)
Figure 10. Third Order Intermodulation versus
Output Power
NOTE: The MTTF is calculated with VCC = 5 Vdc, ICC = 135 mA
8
6
4
2
VCC = 5 Vdc
0
0
1
2
3
150
Figure 11. MTTF versus Junction Temperature
10
NF, NOISE FIGURE (dB)
104
VCC = 5 Vdc
f = 900 MHz
1 MHz Tone Spacing
--70
4
ACPR, ADJACENT CHANNEL POWER RATIO (dBc)
IMD, THIRD ORDER
INTERMODULATION DISTORTION (dBc)
0
--20
--30
VCC = 5 Vdc, f = 2140 MHz
Single--Carrier W--CDMA, 3.84 MHz Channel Bandwidth
Input Signal PAR = 8.5 dB @ 0.01% Probability on CCDF
--40
--50
--60
--70
10
13
16
19
22
f, FREQUENCY (GHz)
Pout, OUTPUT POWER (dBm)
Figure 12. Noise Figure versus Frequency
Figure 13. Single--Carrier W--CDMA Adjacent
Channel Power Ratio versus Output Power
25
MMG3014NT1
4
RF Device Data
Freescale Semiconductor, Inc.
50 OHM APPLICATION CIRCUIT: 800--1000 MHz
VSUPPLY
R1
C4
C3
L1
RF
INPUT
Z1
Z2
Z3
DUT
Z4
Z6
C5
Z7
Z8
C2
VCC
C1
Z1, Z8
Z2, Z7
Z3
Z4
Z5
RF
OUTPUT
C6
C7
Z5
Z6
PCB
0.274 x 0.058 Microstrip
0.073 x 0.058 Microstrip
0.066 x 0.058 Microstrip
0.509 x 0.058 Microstrip
0.172 x 0.058 Microstrip
0.403 x 0.058 Microstrip
Getek Grade ML200C, 0.031, r = 4.1
Figure 14. 50 Ohm Test Circuit Schematic
30
S21
20
R1
S21, S11, S22 (dB)
10
0
C1
S22
--10
C6
L1
C4
C3
C2
C5
C7
--20
S11
--30
--40
700
MMG30XX
Rev 2
VCC = 5 Vdc
800
900
1000
1100
f, FREQUENCY (MHz)
Figure 15. S21, S11 and S22 versus Frequency
Figure 16. 50 Ohm Test Circuit Component Layout
Table 8. 50 Ohm Test Circuit Component Designations and Values
Part
Description
Part Number
Manufacturer
C1, C2
220 pF Chip Capacitors
C0805C221J5GAC
Kemet
C3
0.1 F Chip Capacitor
C0603C104J5RAC
Kemet
C4
2.2 F Chip Capacitor
C0805C225J4RAC
Kemet
C5
0.2 pF Chip Capacitor
12065J0R2BS
AVX
C6
4.7 pF Chip Capacitor
C0603C479J5GAC
Kemet
C7
1.8 pF Chip Capacitor
C1206C189D5GAC
Kemet
L1
10 nH Chip Inductor
HK160810NJ--T
Taiyo Yuden
R1
0  Chip Resistor
ERJ3GEY0R00V
Panasonic
MMG3014NT1
RF Device Data
Freescale Semiconductor, Inc.
5
50 OHM APPLICATION CIRCUIT: 1800--2200 MHz
VSUPPLY
R1
C4
C3
L1
RF
INPUT
Z1
Z2
DUT
Z3
Z4
Z5
Z6
C2
VCC
C1
C5
Z1, Z7
Z2
Z3
Z4
Z7
RF
OUTPUT
C6
Z5
Z6
PCB
0.347 x 0.058 Microstrip
0.399 x 0.058 Microstrip
0.176 x 0.058 Microstrip
0.172 x 0.058 Microstrip
0.162 x 0.058 Microstrip
0.241 x 0.058 Microstrip
Getek Grade ML200C, 0.031, r = 4.1
Figure 17. 50 Ohm Test Circuit Schematic
20
S21
R1
S21, S11, S22 (dB)
10
C1
0
C5
L1
C4
C3
S11
--10
--20
1600
C6
S22
VCC = 5 Vdc
1800
2200
2000
C2
MMG30XX
Rev 2
2400
f, FREQUENCY (MHz)
Figure 18. S21, S11 and S22 versus Frequency
Figure 19. 50 Ohm Test Circuit Component Layout
Table 9. 50 Ohm Test Circuit Component Designations and Values
Part
Description
Part Number
Manufacturer
C1, C2
22 pF Chip Capacitors
C0805C220J5GAC
Kemet
C3
0.1 F Chip Capacitor
C0603C104J5RAC
Kemet
C4
2.2 F Chip Capacitor
C0805C225J4RAC
Kemet
C5
1.5 pF Chip Capacitor
C0603C159J5RAC
Kemet
C6
1.1 pF Chip Capacitor
C0603C119J5GAC
Kemet
L1
15 nH Chip Inductor
HK160815NJ--T
Taiyo Yuden
R1
0  Chip Resistor
ERJ3GEY0R00V
Panasonic
MMG3014NT1
6
RF Device Data
Freescale Semiconductor, Inc.
50 OHM APPLICATION CIRCUIT: 2300--2700 MHz
VSUPPLY
R1
C4
C3
L1
RF
INPUT
Z1
Z2
DUT
Z3
Z4
Z5
Z7
C2
VCC
C1
C5
Z1, Z7
Z2
Z3
Z4
Z6
RF
OUTPUT
C6
Z5
Z6
PCB
0.347 x 0.058 Microstrip
0.488 x 0.058 Microstrip
0.087 x 0.058 Microstrip
0.136 x 0.058 Microstrip
0.036 x 0.058 Microstrip
0.403 x 0.058 Microstrip
Getek Grade ML200C, 0.031, r = 4.1
Figure 20. 50 Ohm Test Circuit Schematic
20
S21
S21, S11, S22 (dB)
10
R1
0
C1
L1
S11
--10
C4
C3
C2
C5
C6
--20
VCC = 5 Vdc
--30
2100
S22
2300
MMG30XX
Rev 2
2700
2500
2900
f, FREQUENCY (MHz)
Figure 21. S21, S11 and S22 versus Frequency
Figure 22. 50 Ohm Test Circuit Component Layout
Table 10. 50 Ohm Test Circuit Component Designations and Values
Part
Description
Part Number
Manufacturer
C1, C2
22 pF Chip Capacitors
C0805C220J5GAC
Kemet
C3
0.1 F Chip Capacitor
C0603C104J5RAC
Kemet
C4
2.2 F Chip Capacitor
C0805C225J4RAC
Kemet
C5, C6
1.1 pF Chip Capacitors
C0603C119J5GAC
Kemet
L1
15 nH Chip Inductor
HK160815NJ--T
Taiyo Yuden
R1
0  Chip Resistor
ERJ3GEY0R00V
Panasonic
MMG3014NT1
RF Device Data
Freescale Semiconductor, Inc.
7
50 OHM APPLICATION CIRCUIT: 3400--3600 MHz
VSUPPLY
R1
C4
C3
L1
RF
INPUT
Z1
Z2
Z3
DUT
Z4
Z6
Z7
C5
Z8
C2
VCC
C1
Z1, Z8
Z2
Z3
Z4, Z5
Z5
RF
OUTPUT
C6
C7
Z6
Z7
PCB
0.347 x 0.058 Microstrip
0.068 x 0.058 Microstrip
0.419 x 0.058 Microstrip
0.088 x 0.058 Microstrip
0.084 x 0.058 Microstrip
0.403 x 0.058 Microstrip
Getek Grade ML200C, 0.031, r = 4.1
Figure 23. 50 Ohm Test Circuit Schematic
20
S21
S21, S11, S22 (dB)
10
R1
0
C1
S11
C5
C4
C3
L1
C2
C6
--10
C7
S22
--20
VCC = 5 Vdc
--30
3400
MMG30XX
Rev 2
3450
3500
3550
3600
f, FREQUENCY (MHz)
Figure 24. S21, S11 and S22 versus Frequency
Figure 25. 50 Ohm Test Circuit Component Layout
Table 11. 50 Ohm Test Circuit Component Designations and Values
Part
Description
Part Number
Manufacturer
C1
3.3 pF Chip Capacitor
C0805C339J5GAC
Kemet
C2
2.0 pF Chip Capacitor
C0805C209J5GAC
Kemet
C3
0.1 F Chip Capacitor
C0603C104J5RAC
Kemet
C4
2.2 F Chip Capacitor
C0805C225J4RAC
Kemet
C5
0.6 pF Chip Capacitor
06035J0R6BS
AVX
C6
0.9 pF Chip Capacitor
06035J0R9BS
AVX
C7
0.8 pF Chip Capacitor
06035J0R8BS
AVX
L1
56 nH Chip Inductor
HK160856NJ--T
Taiyo Yuden
R1
0  Chip Resistor
ERJ3GEY0R00V
Panasonic
MMG3014NT1
8
RF Device Data
Freescale Semiconductor, Inc.
50 OHM TYPICAL CHARACTERISTICS
Table 12. Common Emitter S--Parameters (VCC = 5 Vdc, TA = 25C, 50 Ohm System)
S11
S21
S12
S22
f
MHz
|S11|

|S21|

|S12|

|S22|

250
0.622
174.6
10.280
153.8
0.0336
0.6
0.448
--171.6
300
0.618
174.0
10.107
148.3
0.0336
0.3
0.457
--171.9
350
0.616
173.4
9.933
143.1
0.0337
--0.1
0.465
--172.5
400
0.613
173.0
9.760
138.3
0.0337
--0.4
0.475
--173.3
450
0.611
172.5
9.586
133.8
0.0338
--0.6
0.483
--174.0
500
0.611
172.0
9.300
129.8
0.0338
--0.8
0.490
--174.9
550
0.610
171.4
9.009
126.0
0.0339
--1.0
0.497
--175.8
600
0.610
170.9
8.716
122.4
0.0339
--1.2
0.503
--176.8
650
0.610
170.4
8.363
119.2
0.0340
--1.4
0.508
--177.9
700
0.611
169.9
8.064
116.2
0.0340
--1.6
0.512
--178.9
750
0.615
169.5
7.734
113.3
0.0341
--1.7
0.517
176.5
800
0.618
171.8
7.403
110.9
0.0342
--1.8
0.526
175.5
850
0.621
171.4
7.073
108.4
0.0342
--1.9
0.533
174.5
900
0.625
170.9
6.838
106.0
0.0343
--2.0
0.536
173.5
950
0.624
170.2
6.629
103.7
0.0343
--2.2
0.536
172.6
1000
0.624
169.6
6.422
101.5
0.0344
--2.3
0.537
171.8
1050
0.624
168.9
6.227
99.4
0.0344
--2.5
0.537
170.9
1100
0.625
168.3
6.044
97.3
0.0346
--2.7
0.538
169.9
1150
0.626
167.6
5.866
95.4
0.0347
--2.8
0.538
169.1
1200
0.628
166.9
5.700
93.5
0.0349
--3.0
0.539
168.2
1250
0.629
166.1
5.545
91.7
0.0351
--3.2
0.540
167.3
1300
0.632
165.4
5.393
89.9
0.0352
--3.4
0.540
166.5
1350
0.634
164.6
5.257
88.2
0.0354
--3.6
0.541
165.6
1400
0.636
163.8
5.117
86.5
0.0355
--3.8
0.543
164.9
1450
0.640
163.0
4.988
84.8
0.0356
--4.0
0.544
164.1
1500
0.643
162.2
4.864
83.2
0.0357
--4.2
0.545
163.3
1550
0.646
161.3
4.742
81.7
0.0359
--4.4
0.547
162.6
1600
0.649
160.5
4.630
80.1
0.0360
--4.5
0.549
161.8
1650
0.653
159.7
4.517
78.6
0.0361
--4.8
0.550
161.1
1700
0.657
158.9
4.414
77.1
0.0362
--5.0
0.552
160.3
1750
0.661
158.0
4.312
75.6
0.0363
--5.2
0.554
159.6
1800
0.665
157.2
4.215
74.2
0.0364
--5.5
0.556
158.9
1850
0.669
156.4
4.123
72.7
0.0364
--5.7
0.557
158.2
1900
0.673
155.5
4.033
71.3
0.0365
--6.0
0.559
157.4
1950
0.677
154.7
3.947
69.8
0.0366
--6.3
0.560
156.7
2000
0.681
153.8
3.864
68.4
0.0367
--6.6
0.562
156.0
2050
0.685
153.0
3.783
67.0
0.0367
--6.9
0.563
155.2
2100
0.689
152.2
3.707
65.5
0.0368
--7.2
0.564
154.4
2150
0.693
151.3
3.633
64.1
0.0369
--7.6
0.564
153.6
2200
0.697
150.5
3.562
62.7
0.0369
--7.9
0.565
152.8
2250
0.701
149.6
3.494
61.3
0.0370
--8.3
0.565
152.0
2300
0.705
148.7
3.426
59.8
0.0371
--8.7
0.565
151.2
2350
0.709
147.8
3.363
58.4
0.0371
--9.1
0.564
150.3
(continued)
MMG3014NT1
RF Device Data
Freescale Semiconductor, Inc.
9
50 OHM TYPICAL CHARACTERISTICS
Table 12. Common Emitter S--Parameters (VCC = 5 Vdc, TA = 25C, 50 Ohm System) (continued)
S11
S21
S12
S22
f
MHz
|S11|

|S21|

|S12|

|S22|

2400
0.712
146.9
3.299
57.0
0.0372
--9.5
0.564
149.5
2450
0.715
146.0
3.240
55.6
0.0373
--9.9
0.563
148.6
2500
0.719
145.0
3.181
54.1
0.0373
--10.3
0.562
147.7
2550
0.722
144.1
3.124
52.7
0.0374
--10.8
0.562
146.8
2600
0.724
143.1
3.071
51.3
0.0374
--11.2
0.561
145.9
2650
0.728
142.2
3.017
49.9
0.0375
--11.6
0.560
145.0
2700
0.730
141.2
2.968
48.5
0.0376
--12.0
0.559
144.0
2750
0.733
140.2
2.920
47.1
0.0377
--12.4
0.559
143.1
2800
0.736
139.2
2.872
45.8
0.0378
--12.9
0.558
142.1
2850
0.738
138.2
2.828
44.4
0.0380
--13.4
0.557
141.1
2900
0.740
137.2
2.784
43.0
0.0381
--13.8
0.557
140.1
2950
0.742
136.2
2.743
41.7
0.0382
--14.4
0.557
139.1
3000
0.745
135.2
2.703
40.3
0.0384
--14.9
0.557
138.1
3050
0.747
134.2
2.664
39.0
0.0385
--15.4
0.557
137.1
3100
0.749
133.1
2.627
37.6
0.0386
--15.9
0.557
136.1
3150
0.751
132.1
2.590
36.3
0.0388
--16.4
0.557
135.1
3200
0.753
131.1
2.555
35.0
0.0389
--17.0
0.558
134.1
3250
0.756
130.1
2.521
33.7
0.0390
--17.5
0.558
133.2
3300
0.758
129.1
2.487
32.4
0.0391
--18.0
0.559
132.2
3350
0.760
128.1
2.455
31.1
0.0393
--18.5
0.560
131.3
3400
0.762
127.1
2.422
29.8
0.0394
--19.0
0.560
130.5
3450
0.764
126.1
2.392
28.6
0.0395
--19.5
0.561
129.6
3500
0.766
125.1
2.361
27.3
0.0396
--20.0
0.562
128.9
3550
0.768
124.2
2.331
26.1
0.0397
--20.5
0.563
128.1
3600
0.770
123.2
2.302
24.9
0.0398
--21.0
0.564
127.4
3650
0.772
122.3
2.273
23.7
0.0399
--21.4
0.565
126.7
3700
0.774
121.3
2.246
22.6
0.0400
--21.8
0.566
126.1
3750
0.775
120.4
2.218
21.5
0.0401
--22.2
0.567
125.6
3800
0.777
119.5
2.192
20.4
0.0403
--22.6
0.568
125.1
3850
0.778
118.6
2.167
19.2
0.0404
--23.0
0.569
124.6
3900
0.780
117.6
2.142
18.1
0.0405
--23.4
0.570
124.2
3950
0.781
116.7
2.118
17.1
0.0406
--23.9
0.571
123.7
4000
0.783
115.8
2.091
16.0
0.0407
--24.2
0.572
123.5
MMG3014NT1
10
RF Device Data
Freescale Semiconductor, Inc.
1.90
3.00
2X
45
4.35
2X
1.25
3X
0.70
0.85
2X
1.50
Figure 26. PCB Pad Layout for SOT--89A
M3014N
AWLYWZ
Figure 27. Product Marking
MMG3014NT1
RF Device Data
Freescale Semiconductor, Inc.
11
PACKAGE DIMENSIONS
MMG3014NT1
12
RF Device Data
Freescale Semiconductor, Inc.
MMG3014NT1
RF Device Data
Freescale Semiconductor, Inc.
13
MMG3014NT1
14
RF Device Data
Freescale Semiconductor, Inc.
PRODUCT DOCUMENTATION, SOFTWARE AND TOOLS
Refer to the following documents to aid your design process.
Application Notes
 AN1955: Thermal Measurement Methodology of RF Power Amplifiers
 AN3100: General Purpose Amplifier Biasing
Software
 .s2p File
Development Tools
 Printed Circuit Boards
Reference Designs
 2110--2170 MHz, 4 W, 28 V W--CDMA Smart Demo Reference Design (Devices MMG3014N, MW7IC2240N)
To Download Resources Specific to a Given Part Number:
1. Go to http://www.nxp.com/RF
2. Search by part number
3. Click part number link
4. Choose the desired resource from the drop down menu
FAILURE ANALYSIS
At this time, because of the physical characteristics of the part, failure analysis is limited to electrical signature analysis. In
cases where Freescale is contractually obligated to perform failure analysis (FA) services, full FA may be performed by third
party vendors with moderate success. For updates contact your local Freescale Sales Office.
REVISION HISTORY
The following table summarizes revisions to this document.
Revision
Date
Description
0
Apr. 2008
 Initial Release of Data Sheet
1
Sept. 2008
 Updated Fig. 15, “S21, S11 and S22 versus Frequency,” to correct S11 and S22 curve label transposition
error, p. 6
 Updated data in Table 12, “Common Emitter S-Parameters,” for better simulation response, pp. 9--10
2
Jan. 2011
 Corrected temperature at which ThetaJC is measured from 25C to 81C and added “no RF applied” to
Thermal Characteristics table to indicate that thermal characterization is performed under DC test with no
RF signal applied, p. 1
 Removed ICC bias callout from applicable graphs as bias is not a controlled value, pp. 4--9
 Removed ICC bias callout from Table 12, Common Emitter S--Parameters heading as bias is not a
controlled value, pp. 9--10
 Added .s2p file and Printed Circuit Boards availability to Software and Tools, p. 16
 Added Reference Design availability to Development Tools, p. 16
3
Oct. 2011
 Table 1, Maximum Ratings, increased Input Power from 15 dBm to 25 dBm to reflect the true capability of
the device, p. 1
 Changed ESD Human Body Model rating from Class 1C to Class 1B to reflect recent ESD test results of
the device, p. 2
 Corrected part number for the C7 capacitor in Table 8, 50 Ohm Test Circuit Component Designations and
Values, from C0603C189J5GAC to C1206C189D5GAC, p. 5.
 Replaced the PCB Pad Layout drawing, the package isometric and mechanical outline for Case 1514--02
(SOT--89) with Case 2142--01 (SOT--89) as a result of the device transfer from a Freescale wafer fab to an
external GaAs wafer fab and new assembly site. The new assembly and test site’s SOT--89 package has
slight dimensional differences, pp. 1, 11--14. Refer to PCN13337, GaAs Fab Transfer.
4
Aug. 2014
 Table 2, Maximum Ratings: updated Junction Temperature from 150C to 175C to reflect recent test
results of the device, p. 1
 Added Failure Analysis information, p. 15
5
Mar. 2016
 Overview paragraph updated to reflect actual matching of the device, p. 1
 Fig. 27, Product Marking: updated date code line to reflect improved traceability information, p. 11
MMG3014NT1
RF Device Data
Freescale Semiconductor, Inc.
15
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Information in this document is provided solely to enable system and software
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E 2008, 2011, 2014, 2016 Freescale Semiconductor, Inc.
MMG3014NT1
Document Number: MMG3014NT1
Rev. 5, 3/2016
16
RF Device Data
Freescale Semiconductor, Inc.