0908SQ17NJLC

更新时间:2024-12-04 12:03:41
品牌:FREESCALE
描述:RF Power LDMOS Transistors

0908SQ17NJLC 概述

RF Power LDMOS Transistors RF功率LDMOS晶体管

0908SQ17NJLC 数据手册

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Document Number: AFT09MS031N  
Rev. 0, 5/2012  
Freescale Semiconductor  
Technical Data  
RF Power LDMOS Transistors  
High Ruggedness N--Channel  
AFT09MS031NR1  
AFT09MS031GNR1  
Enhancement--Mode Lateral MOSFETs  
Designed for mobile two--way radio applications with frequencies from  
764 to 941 MHz. The high gain, ruggedness and broadband performance of  
these devices make them ideal for large--signal, common source amplifier  
applications in mobile radio equipment.  
764--941 MHz, 31 W, 13.6 V  
WIDEBAND  
RF POWER LDMOS TRANSISTORS  
Narrowband Performance (13.6 Vdc, I = 500 mA, T = 25°C, CW)  
DQ  
A
Frequency  
(MHz)  
G
η
P1dB  
(W)  
ps  
D
(dB)  
18.0  
17.2  
15.7  
(%)  
74.1  
71.0  
68.1  
764  
870  
941  
32  
31  
31  
T O -- 2 7 0 -- 2  
PLASTIC  
800 MHz Broadband Performance (13.6 Vdc, I = 100 mA, T = 25°C, CW)  
DQ  
A
AFT09MS031NR1  
Frequency  
(MHz)  
G
η
P1dB  
(W)  
ps  
D
(dB)  
15.7  
15.7  
15.5  
(%)  
62.0  
63.0  
61.0  
760  
820  
870  
44  
37  
36  
T O -- 2 7 0 -- 2 G U L L  
PLASTIC  
AFT09MS031GNR1  
Load Mismatch/Ruggedness  
Frequency Signal  
P
Test  
out  
(MHz)  
Type  
VSWR  
(W)  
Voltage  
Result  
870  
CW  
>65:1 at all  
54  
17  
No Device  
Phase Angles  
(3 dB Overdrive)  
Degradation  
Features  
Characterized for Operation from 764 to 941 MHz  
Unmatched Input and Output Allowing Wide Frequency Range Utilization  
Integrated ESD Protection  
Integrated Stability Enhancements  
Wideband — Full Power Across the Band (764–870 MHz)  
225°C Capable Plastic Package  
Exceptional Thermal Performance  
High Linearity for: TETRA, SSB, LTE  
Cost--effective Over--molded Plastic Packaging  
In Tape and Reel. R1 Suffix = 500 Units, 24 mm Tape Width, 13 inch Reel.  
Gate  
Drain  
(Top View)  
Note: The backside of the package is the  
source terminal for the transistor.  
Figure 1. Pin Connections  
Typical Applications  
Output Stage 800 MHz Trunking Band Mobile Radio  
Output Stage 900 MHz Trunking Band Mobile Radio  
© Freescale Semiconductor, Inc., 2012. All rights reserved.  
Table 1. Maximum Ratings  
Rating  
Symbol  
Value  
Unit  
Vdc  
Vdc  
Vdc  
°C  
Drain--Source Voltage  
V
--0.5, +40  
--6.0, +12  
17, +0  
DSS  
Gate--Source Voltage  
V
GS  
DD  
Operating Voltage  
V
Storage Temperature Range  
Case Operating Temperature  
Operating Junction Temperature  
T
stg  
--65 to +150  
--40 to +150  
--40 to +225  
T
C
°C  
(1,2)  
T
J
°C  
Total Device Dissipation @ T = 25°C  
P
317  
W
C
D
Derate above 25°C  
1.59  
W/°C  
Table 2. Thermal Characteristics  
(2,3)  
Characteristic  
Symbol  
Value  
Unit  
Thermal Resistance, Junction to Case  
R
θ
0.63  
°C/W  
JC  
Case Temperature 81°C, 31 W CW, 13.6 Vdc, I = 500 mA, 870 MHz  
DQ  
Table 3. ESD Protection Characteristics  
Test Methodology  
Class  
Human Body Model (per JESD22--A114)  
Machine Model (per EIA/JESD22--A115)  
Charge Device Model (per JESD22--C101)  
2, passes 2500 V  
A, passes 100 V  
IV, passes 1200 V  
Table 4. Moisture Sensitivity Level  
Test Methodology  
Rating  
Package Peak Temperature  
Unit  
Per JESD22--A113, IPC/JEDEC J--STD--020  
3
260  
°C  
Table 5. Electrical Characteristics (T = 25°C unless otherwise noted)  
A
Characteristic  
Symbol  
Min  
Typ  
Max  
Unit  
Off Characteristics  
Zero Gate Voltage Drain Leakage Current  
I
I
2
1
μAdc  
μAdc  
nAdc  
DSS  
DSS  
GSS  
(V = 40 Vdc, V = 0 Vdc)  
DS  
GS  
Zero Gate Voltage Drain Leakage Current  
(V = 13.6 Vdc, V = 0 Vdc)  
DS  
GS  
Gate--Source Leakage Current  
I
600  
(V = 5 Vdc, V = 0 Vdc)  
GS  
DS  
On Characteristics  
Gate Threshold Voltage  
(V = 10 Vdc, I = 115 μAdc)  
V
1.6  
2.1  
0.1  
7.8  
2.6  
Vdc  
Vdc  
S
GS(th)  
DS  
D
Drain--Source On--Voltage  
(V = 10 Vdc, I = 1.2 Adc)  
V
DS(on)  
GS  
D
Forward Transconductance  
(V = 10 Vdc, I = 10 Adc)  
g
fs  
GS  
D
1. Continuous use at maximum temperature will affect MTTF.  
2. MTTF calculator available at http://www.freescale.com/rf. Select Software & Tools/Development Tools/Calculators to access MTTF  
calculators by product.  
3. Refer to AN1955, Thermal Measurement Methodology of RF Power Amplifiers. Go to http://www.freescale.com/rf.  
Select Documentation/Application Notes -- AN1955.  
(continued)  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
2
Table 5. Electrical Characteristics (T = 25°C unless otherwise noted) (continued)  
A
Characteristic  
Symbol  
Min  
Typ  
Max  
Unit  
Dynamic Characteristics  
Reverse Transfer Capacitance  
C
2.1  
63  
pF  
pF  
pF  
rss  
(V = 13.6 Vdc ± 30 mV(rms)ac @ 1 MHz, V = 0 Vdc)  
DS  
GS  
Output Capacitance  
(V = 13.6 Vdc ± 30 mV(rms)ac @ 1 MHz, V = 0 Vdc)  
DS  
C
oss  
GS  
Input Capacitance  
C
140  
iss  
(V = 13.6 Vdc, V = 0 Vdc ± 30 mV(rms)ac @ 1 MHz)  
DS  
GS  
(1)  
Functional Tests  
(In Freescale Narrowband Test Fixture, 50 ohm system) V = 13.6 Vdc, I = 500 mA, P = 31 W, f = 870 MHz  
DD DQ out  
Common--Source Amplifier Power Gain  
Drain Efficiency  
G
16.0  
17.2  
71.0  
18.5  
dB  
%
ps  
D
η
68.0  
Load Mismatch/Ruggedness (In Freescale Test Fixture, 50 ohm system, I = 500 mA)  
DQ  
Frequency  
(MHz)  
Signal  
Type  
P
out  
(W)  
VSWR  
Test Voltage, V  
Result  
No Device Degradation  
DD  
870  
CW  
>65:1 at all Phase Angles  
54  
17  
(3 dB Overdrive)  
1. Measurement made with device in straight lead configuration before any lead forming operation is applied. Lead forming is used for gull  
wing (GN) parts.  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
3
TYPICAL CHARACTERISTICS  
300  
100  
9
C
iss  
8
7
T = 25°C  
A
V
= 4.0 Vdc  
GS  
6
5
4
3
2
1
C
oss  
Measured with ±30 mV(rms)ac @ 1 MHz  
= 0 Vdc  
V
GS  
10  
1
3.5 Vdc  
3.25 Vdc  
C
rss  
2.5 Vdc  
12  
3.0 Vdc  
18  
0
0
2
4
6
8
10  
14  
16  
20  
0
5
10  
15  
20  
V
, DRAIN--SOURCE VOLTAGE (VOLTS)  
V
, DRAIN--SOURCE VOLTAGE (VOLTS)  
DS  
DS  
Note: Measured with both sides of the transistor tied together.  
Figure 2. Capacitance versus Drain--Source Voltage  
Figure 3. Drain Current versus Drain--Source Voltage  
9
10  
V
= 13.6 Vdc  
DD  
8
10  
I
D
= 2.6 Amps  
7
3.2 Amps  
3.9 Amps  
10  
6
10  
10  
5
4
10  
90  
110  
130  
150  
170  
190  
210  
230  
250  
T , JUNCTION TEMPERATURE (°C)  
J
Note: MTTF value represents the total cumulative operating time  
under indicated test conditions.  
Figure 4. MTTF versus Junction Temperature -- CW  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
4
870 MHz NARROWBAND PRODUCTION TEST FIXTURE  
C9  
C10  
C13  
C16  
V
GG  
V
DD  
AFT09MS031N  
Rev. 0  
C14  
B1  
B2  
C15  
C11  
C12  
C2  
C7  
C3  
C5  
L2  
L1  
C1  
L3  
C4  
C6  
C8  
Figure 5. AFT09MS031NR1 Narrowband Test Circuit Component Layout — 870 MHz  
Table 6. AFT09MS031NR1 Narrowband Test Circuit Component Designations and Values — 870 MHz  
Part  
Description  
Part Number  
Manufacturer  
B1, B2  
C1  
RF Beads, Long  
2743021447  
Fair--Rite  
3.9 pF Chip Capacitor  
ATC100B3R9CT500XT  
ATC100B560CT500XT  
ATC100B100JT500XT  
ATC100B3R6CT500XT  
GRM31CR71H225KA88L  
C1206C104K1RAC--TU  
ATC200B103KT50XT  
TPSD226M025R0200  
MCGPR35V337M10X16--RH  
A03TKLC  
ATC  
C2, C14, C15  
56 pF Chip Capacitors  
ATC  
C3, C4, C5, C6  
10 pF Chip Capacitors  
ATC  
C7, C8  
C9  
3.6 pF Chip Capacitors  
2.5 μF Chip Capacitor  
ATC  
Murata  
Kemet  
ATC  
C10, C11  
C12  
C13  
C16  
L1  
0.1 μF Chip Capacitors  
10,000 pF Chip Capacitor  
22 μF, 25 V Tantalum Capacitor  
330 μF, 35 V Electrolytic Capacitor  
8.0 nH, 3 Turn Inductor  
18.5 nH, 5 Turn Inductor  
5.0 nH, 2 Turn Inductor  
AVX  
Multicomp  
Coilcraft  
Coilcraft  
Coilcraft  
Rogers  
L2  
A05TKLC  
L3  
A02TKLC  
PCB  
0.030, ε = 3.5  
RO4350B  
r
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
5
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
6
TYPICAL CHARACTERISTICS — 870 MHz  
45  
40  
35  
V
= 13.6 Vdc, P = 0.6 W  
in  
DD  
V
= 12.5 Vdc, P = 0.6 W  
in  
DD  
30  
25  
20  
15  
V
= 13.6 Vdc, P = 0.3 W  
in  
DD  
V
P
= 12.5 Vdc  
= 0.3 W  
DD  
in  
10  
5
f = 870 MHz  
0
0
0.5  
1
1.5  
2
2.5  
3
4
4.5  
V
, GATE--SOURCE VOLTAGE (VOLTS)  
GS  
Figure 7. CW Output Power versus Gate--Source Voltage  
19  
18.5  
18  
80  
70  
60  
50  
40  
30  
20  
10  
0
η
D
V
= 13.6 Vdc, I = 500 mA  
DQ  
DD  
f = 870 MHz  
17.5  
17  
G
ps  
16.5  
16  
P
out  
15.5  
15  
0.01  
0.1  
P , INPUT POWER (WATTS)  
1
2
in  
Figure 8. Power Gain, CW Output Power and  
Drain Efficiency versus Input Power  
V
= 13.6 Vdc, I = 500 mA, P = 31 W Avg.  
DQ out  
DD  
f
Z
Z
load  
source  
MHz  
870  
0.28 -- j0.71  
0.98 -- j0.52  
Z
Z
= Test circuit impedance as measured from  
gate to ground.  
source  
= Test circuit impedance as measured from  
drain to ground.  
load  
Output  
Matching  
Network  
Device  
Under  
Test  
Input  
Matching  
Network  
50 Ω  
50 Ω  
Z
Z
load  
source  
Figure 9. Narrowband Series Equivalent Source and Load Impedance — 870 MHz  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
7
760--870 MHz BROADBAND REFERENCE CIRCUIT, 50 OHM SYSTEM  
Table 8. 760--870 MHz Broadband Performance (13.6 Vdc, I = 100 mA, T = 25°C, CW)  
DQ  
A
Frequency  
(MHz)  
G
η
P1dB  
(W)  
ps  
D
(dB)  
15.7  
15.7  
15.5  
(%)  
62.0  
63.0  
61.0  
760  
820  
870  
44  
37  
36  
Table 9. Load Mismatch/Ruggedness (In Freescale Reference Circuit)  
Frequency  
(MHz)  
Signal  
Type  
P
out  
(W)  
VSWR  
Test Voltage, V  
Result  
DD  
870  
CW  
>65:1 at all  
64  
17  
No Device  
Phase Angles  
(3 dB Overdrive)  
Degradation  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
8
760--870 MHz BROADBAND REFERENCE CIRCUIT  
C14  
C15  
J1  
C1  
C13  
C12  
C16  
C17  
C9  
L2  
C7  
C6  
L1  
C2  
Q1  
C4 C5  
C3  
C11  
C10  
C8  
TO -- 2 7 0 -- 2  
Rev. 1  
Figure 10. AFT09MS031NR1 Broadband Reference Circuit Component Layout — 760--870 MHz  
Table 10. AFT09MS031NR1 Broadband Reference Circuit Component Designations and Values — 760--870 MHz  
Part  
Description  
Part Number  
ATC600F5R6BT250XT  
ATC600F6R8BT250XT  
ATC600F8R2BT250XT  
ATC600F120JT250XT  
ATC600F100JT250XT  
ATC600F300JT250XT  
ATC600F220JT250XT  
ATC600F241JT250XT  
GRM21BR71H104KA01B  
GRM21BR72A103KA01B  
ATC100A220JT150XT  
0805WL6R8KT  
Manufacturer  
C1, C10, C11, C12  
5.6 pF Chip Capacitors  
ATC  
ATC  
ATC  
ATC  
ATC  
ATC  
ATC  
ATC  
C2  
6.8 pF Chip Capacitor  
8.2 pF Chip Capacitor  
12 pF Chip Capacitor  
10 pF Chip Capacitor  
30 pF Chip Capacitors  
22 pF Chip Capacitors  
240 pF Chip Capacitors  
0.10 μF Chip Capacitor  
0.01 μF Chip Capacitor  
22 pF Chip Capacitor  
6.8 nH Inductor  
C3  
C4  
C5  
C6, C7  
C8, C9  
C13, C16  
C14  
C15  
C17  
L1  
Murata  
Murata  
ATC  
ATC  
L2  
17 nH Inductor  
0908SQ17NJLC  
Coilcraft  
Freescale  
TE Connectivity  
Shengyi  
Q1  
RF Power LDMOS Transistor  
3 Pin  
AFT09MS031NR1  
J1  
AMP--9--146305--0  
PCB  
0.020, ε = 4.8  
S1000--2, FR4  
r
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
9
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
10  
TYPICAL CHARACTERISTICS — 760--860 MHz BROADBAND  
REFERENCE CIRCUIT  
17  
66  
63  
60  
57  
40  
35  
30  
V
DQ  
= 13.6 Vdc, P = 1 W  
in  
DD  
I
= 100 mA  
16.5  
16  
η
D
15.5  
15  
G
ps  
P
out  
14.5  
14  
750  
770  
790  
810  
830  
850  
870  
890  
f, FREQUENCY (MHz)  
Figure 12. Power Gain, CW Output Power and Drain  
Efficiency versus Frequency at a Constant Input Power  
17  
66  
64  
62  
60  
37  
32  
27  
V
DQ  
= 12.5 Vdc, P = 1 W  
in  
DD  
I
= 100 mA  
16.5  
16  
η
D
15.5  
15  
G
ps  
P
out  
14.5  
14  
750  
770  
790  
810  
830  
850  
870  
890  
f, FREQUENCY (MHz)  
Figure 13. Power Gain, CW Output Power and Drain  
Efficiency versus Frequency at a Constant Input Power  
AFT09MS031NR1 AFT09MS031GNR1  
11  
RF Device Data  
Freescale Semiconductor, Inc.  
TYPICAL CHARACTERISTICS — 760--870 MHz BROADBAND  
REFERENCE CIRCUIT  
5
60  
50  
V
P
= 13.6 Vdc  
= 1 W  
V
= 13.6 Vdc, P = 1 W  
in  
DD  
DD  
V
P
= 12.5 Vdc  
= 1 W  
in  
DD  
4
3
2
1
in  
V
= 12.5 Vdc, P = 1 W  
in  
DD  
40  
30  
V
= 13.6 Vdc, P = 0.5 W  
V
= 13.6 Vdc  
DD  
in  
DD  
V
P
= 12.5 Vdc  
= 0.5 W  
P
= 0.5 W  
DD  
in  
in  
V
P
= 12.5 Vdc  
= 0.5 W  
DD  
20  
10  
0
in  
f = 820 MHz  
4
f = 820 MHz  
1.6  
Detail A  
0
0.8  
2
0
0.4  
V
1.2  
2
0
1
3
5
, GATE--SOURCE VOLTAGE (VOLTS)  
V
, GATE--SOURCE VOLTAGE (VOLTS)  
GS  
GS  
Detail A  
Figure 14. CW Output Power versus Gate--Source Voltage  
120  
18  
17  
16  
70  
60  
50  
40  
30  
20  
10  
V
= 13.6 Vdc  
= 100 mA  
820 MHz  
870 MHz  
DD  
I
DQ  
100  
80  
760 MHz  
G
ps  
870 MHz  
60  
15  
14  
13  
12  
760 MHz  
η
D
40  
760 MHz  
820 MHz  
820 MHz  
20  
0
P
out  
870 MHz  
1
0.03  
0.1  
P , INPUT POWER (WATTS)  
2
in  
Figure 15. Power Gain, CW Output Power and  
Drain Efficiency versus Input Power and  
Frequency  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
12  
760--870 MHz BROADBAND REFERENCE CIRCUIT  
Z = 2 Ω  
o
Z
load  
f = 870 MHz  
f = 760 MHz  
f = 760 MHz  
f = 870 MHz  
Z
source  
V
= 13.6 Vdc, I = 100 mA, P = 31 W Avg.  
DQ out  
DD  
f
Z
Z
load  
source  
MHz  
760  
770  
780  
790  
800  
810  
820  
830  
840  
850  
860  
870  
0.85 -- j1.31  
0.80 -- j1.30  
0.75 -- j1.28  
0.69 -- j1.26  
0.65 -- j1.24  
0.59 -- j1.21  
0.55 -- j1.18  
0.51 -- j1.15  
0.46 -- j1.11  
0.42 -- j1.01  
0.39 -- j1.02  
0.36 -- j0.97  
0.80 -- j0.92  
0.78 -- j0.88  
0.78 -- j0.85  
0.76 -- j0.81  
0.76 -- j0.78  
0.72 -- j0.75  
0.70 -- j0.73  
0.67 -- j0.70  
0.62 -- j0.66  
0.57 -- j0.62  
0.52 -- j0.57  
0.48 -- j0.52  
Z
Z
= Test circuit impedance as measured from  
gate to ground.  
source  
= Test circuit impedance as measured from  
drain to ground.  
load  
Output  
Matching  
Network  
Device  
Under  
Test  
Input  
Matching  
Network  
50 Ω  
50 Ω  
Z
Z
load  
source  
Figure 14. Broadband Series Equivalent Source and Load Impedance — 760--870 MHz  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
13  
PACKAGE DIMENSIONS  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
14  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
15  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
16  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
17  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
18  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
19  
PRODUCT DOCUMENTATION, SOFTWARE AND TOOLS  
Refer to the following documents, software and tools to aid your design process.  
Application Notes  
AN1907: Solder Reflow Attach Method for High Power RF Devices in Over--Molded Plastic Packages  
AN1955: Thermal Measurement Methodology of RF Power Amplifiers  
AN3263: Bolt Down Mounting Method for High Power RF Transistors and RFICs in Over--Molded Plastic Packages  
AN3789: Clamping of High Power RF Transistors and RFICs in Over--Molded Plastic Packages  
Engineering Bulletins  
EB212: Using Data Sheet Impedances for RF LDMOS Devices  
Software  
Electromigration MTTF Calculator  
RF High Power Model  
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Description  
0
May 2012  
Initial Release of Data Sheet  
AFT09MS031NR1 AFT09MS031GNR1  
RF Device Data  
Freescale Semiconductor, Inc.  
20  
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Document Number: AFT09MS031N  
Rev.0, 5/2012

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