PTFA220121MV4R1K [INFINEON]

RF Power Field-Effect Transistor,;
PTFA220121MV4R1K
型号: PTFA220121MV4R1K
厂家: Infineon    Infineon
描述:

RF Power Field-Effect Transistor,

文件: 总21页 (文件大小:378K)
中文:  中文翻译
下载:  下载PDF数据表文档文件
PTFA220121M  
High Power RF LDMOS Field Effect Transistor  
12 W, 28 V, 700 – 2200 MHz  
Description  
PTFA220121M  
Package PG-SON-10  
The PTFA220121M is an unmatched 12-watt LDMOS FET intended  
for power amplifier applications in the 700 to 2200 MHz.This LDMOS  
device offers excellent gain, efficiency and linearity performance in a  
small overmolded plastic package.  
Features  
Two-tone Drive-up  
VDD = 28 V, IDQ = 150 mA,  
Typical two-carrier WCDMA performance at  
2140 MHz, 8 dB PAR  
- P = 33 dBm Avg  
ƒ1 = 876.95 MHz, ƒ2 = 877.05 MHz  
OUT  
- ACPR = –45.5 dBc  
-10  
-15  
-20  
-25  
-30  
-35  
-40  
-45  
-50  
50  
45  
40  
35  
30  
25  
20  
15  
10  
Typical two-carrier WCDMA performance at  
877 MHz, 8 dB PAR  
Efficiency  
- P  
= 33 dBm Avg  
OUT  
- ACPR = –44.5 dBc  
Typical CW performance, 2140 MHz, 28 V  
- P  
= 41.6 dBm  
OUT  
- Efficiency = 53.5%  
- Gain = 15.5 dB  
IMD3  
Typical CW performance, 877 MHz, 28 V  
- P  
= 41.8 dBm  
OUT  
- Efficiency = 60%  
- Gain = 19.9 dB  
Capable of handling 10:1 VSWR @ 28 V, 12 W  
(CW) output power  
33 34 35 36 37 38 39 40 41 42  
Output Power, PEP (dBm)  
Integrated ESD protection  
Excellent thermal stability  
Pb-free and RoHS compliant  
RF Characteristics  
Two-tone Measurements (not subject to production test – verified by design / characterization in Infineon test fixture)  
V
= 28 V, I  
= 150 mA, P  
= 12 W PEP, ƒ = 877 MHz, tone spacing = 1 MHz  
DD  
DQ  
OUT  
Characteristic  
Gain  
Symbol  
Min  
20  
Typ  
20.5  
42.5  
–33  
Max  
Unit  
dB  
G
ps  
Drain Efficiency  
D  
41  
%
Intermodulation Distortion  
IMD  
–32  
dBc  
All published data at T  
= 25°C unless otherwise indicated  
CASE  
ESD: Electrostatic discharge sensitive device—observe handling precautions!  
Data Sheet 1 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
RF Characteristics (cont.)  
Two-tone Measurements (not subject to production test – verified by design / characterization in Infineon test fixture)  
= 28 V, I = 150 mA, P = 9.3 W PEP, ƒ = 2140 MHz, tone spacing = 1 MHz  
V
DD  
DQ  
OUT  
Characteristic  
Gain  
Symbol  
Min  
Typ  
16.2  
37  
Max  
Unit  
dB  
G
ps  
Drain Efficiency  
D  
%
Intermodulation Distortion  
IMD  
–29.4  
dBc  
DC Characteristics  
Characteristic  
Conditions  
Symbol  
Min  
65  
Typ  
Max  
Unit  
V
Drain-Source Breakdown Voltage  
Drain Leakage Current  
On-State Resistance  
V
GS  
= 0 V, I = 10 µA  
V
(BR)DSS  
DS  
V
= 28 V, V = 0 V  
I
DSS  
1.0  
µA  
DS  
GS  
V
GS  
= 10 V, V = 0.1 A  
R
DS(on)  
2.01  
2.5  
DS  
Operating Gate Voltage  
Gate Leakage Current  
V
= 28 V, I  
= 150 mA  
V
GS  
2.0  
3.0  
1.0  
V
DS  
DQ  
V
GS  
= 10 V, V = 0 V  
I
GSS  
µA  
DS  
Maximum Ratings  
Parameter  
Symbol  
Value  
65  
Unit  
V
Drain-Source Voltage  
Gate-Source Voltage  
Junction Temperature  
Storage Temperature Range  
V
DSS  
V
GS  
–0.5 to +12  
175  
V
T
°C  
J
T
STG  
–40 to +150  
3.4  
°C  
Thermal Resistance (T  
= 70°C, 12 W CW)  
R
JC  
°C/W  
CASE  
Moisture Sensitivity Level  
Level  
Test Standard  
Package Temperature  
Unit  
3
IPC/JEDEC J-STD-020  
260  
°C  
Ordering Information  
Type and Version  
Order Code  
Package and Description  
Shipping  
PTFA220121M V4 R1K  
PTFA220121MV4R1KV4XUMA1  
PG-SON-10, Molded plastic, SMD  
Tape & Reel, 1,000 pcs  
Data Sheet  
2 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Typical Performance, 877 MHz (data taken in a production test fixture)  
Two-carrier WCDMA 3GPP Drive-up  
Two-carrier WCDMA 3GPP  
VDD = 28 V, IDQ = 150 mA, ƒ = 877 MHz  
3GPP WCDMA, P/AR = 8:1, 10 MHz carrier  
spacing, BW 3.84 MHz  
VDD = 28 V, IDQ = 150 mA, ƒ = 877 MHz  
3GPP WCDMA, P/AR = 8:1, 10 MHz carrier  
spacing, BW 3.84 MHz  
0
-5  
60  
55  
50  
45  
40  
35  
30  
25  
20  
15  
10  
23  
22  
21  
20  
19  
18  
60  
50  
40  
30  
20  
10  
IMD Up  
-10  
-15  
-20  
-25  
-30  
-35  
-40  
-45  
-50  
Gain  
Efficiency  
IMD Low  
ACPR  
Efficiency  
32 33 34 35 36 37 38 39 40 41  
Output Power (dBm)  
29  
31  
33  
35  
37  
39  
41  
Output Power (dBm)  
Intermodulation Distortion  
vs. Output Power  
Two-tone Drive-up  
VDD = 28 V, IDQ = 150 mA,  
VDD = 28 V, IDQ = 150 mA,  
ƒ1 = 876.95 MHz, ƒ2 = 877.05 MHz  
ƒ1 = 876.95 MHz, ƒ2 = 877.05 MHz  
-20  
-30  
-40  
-50  
-60  
22  
21  
20  
19  
18  
50  
3rd Order  
5th  
Gain  
40  
30  
20  
10  
Efficiency  
7th  
33 34 35 36 37 38 39 40 41 42  
Output Power, PEP (dBm)  
33 34 35 36 37 38 39 40 41 42  
Output Power, PEP (dBm)  
Data Sheet  
3 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Typical Performance, 877 MHz (cont.)  
Small Signal CW  
Gain & Input Return Loss  
VDD = 28 V, IDQ = 150 mA  
22  
0
20  
18  
16  
14  
12  
-5  
Gain  
-10  
-15  
-20  
-25  
IRL  
727  
827  
927  
1027  
Frequency (MHz)  
Data Sheet  
4 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Broadband Circuit Impedance  
Frequency  
MHz  
720  
Z Source  
Z Load   
R
jX  
R
jX  
1.1  
1.0  
1.3  
1.2  
1.4  
1.5  
1.4  
1.6  
2.0  
2.0  
2.2  
2.6  
2.5  
2.0  
1.7  
2.2  
2.5  
2.4  
1.9  
7.7  
6.4  
12.0  
12.4  
10.8  
9.3  
9.1  
9.1  
8.9  
5.0  
4.7  
4.7  
4.2  
3.8  
3.8  
3.6  
3.3  
3.2  
3.0  
2.7  
2.3  
4.8  
4.0  
5.9  
6.7  
6.7  
6.9  
6.3  
5.3  
3.2  
2.9  
3.0  
1.8  
1.8  
1.9  
1.6  
0.5  
0.5  
1.2  
1.4  
820  
869  
5.0  
894  
3.6  
D
920  
3.5  
Z Source  
Z Load  
940  
3.3  
960  
2.8  
G
1675  
1805  
1880  
1930  
1990  
2110  
2170  
2300  
2400  
2500  
2600  
2700  
0.3  
0.3  
S
0.3  
–0.9  
–2.0  
–3.1  
–2.6  
–1.7  
–2.5  
–4.5  
–4.1  
–3.1  
Z = 50   
0
Z Source  
720 MHz  
Z Load  
720 MHz  
2700 MHz  
2700 MHz  
Data Sheet  
5 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 877 MHz  
VDD  
28 V  
R804  
2000 Ohm  
S5  
8
4
1
In  
Out  
NC  
2
NC  
C801  
1000 pF  
5
7
3
6
TL108  
DCVS  
V1  
C802  
1000 pF  
R805  
TL110  
TL109  
TL112  
10 Ohm S3  
3
3
1
2
4
S2  
C803  
1000 pF  
R801  
1200 Ohm  
R803  
510 Ohm  
L1  
22 nH  
2
C
S4  
4
S
1
B
3
E
R802  
1300 Ohm  
TL113  
R102  
10 Ohm  
C101  
68 pF  
R101  
1.3 Ohm  
TL114  
TL111  
TL115  
TL116  
TL107  
2
TL103  
TL102  
TL105  
TL104  
2 1  
3
1
2
1
2
1
RF_IN  
GATE DUT  
3
3
3
4
C103  
10 pF  
TL101  
TL106  
Er=3.48  
H=20 mil  
C104  
16 pF  
C102  
20 pF  
RO/RO4350B1  
Reference circuit input schematic for ƒ = 877 MHz  
C201  
2200000pF  
TL209  
TL204  
TL203  
TL205  
TL202 TL223  
3
1
2
TL201  
TL221  
TL222  
C202  
68 pF  
TL226  
2
1
3
TL206  
TL220  
TL219  
TL213  
3
VDD  
2
1
2
1
3
28 V  
TL207  
R1  
0000 Ohm  
TL212  
TL217  
L2  
2.7 nH  
C204  
68 pF  
TL225  
TL216 TL214  
TL218  
TL211  
TL224  
TL215  
TL208  
TL210  
1 2  
3
2
1
1
2
DRAIN DUT  
RF_OUT  
3
3
C203  
3.6 pF  
C205  
8.2 pF  
Reference circuit output schematic for ƒ = 877 MHz  
Data Sheet  
6 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 877 MHz (cont.)  
Description  
DUT  
PCB  
PTFA220121M  
0.508 mm [.020"] thick, r = 3.48, Rogers 4350, 1 oz. copper  
Electrical Characteristics at 877 MHz  
Transmission  
Electrical  
Dimensions: mm  
Dimensions: mils  
Line  
Characteristics  
Input  
TL101, TL106  
TL102  
W = 0.000, L = 0.000  
W = 1.087, L = 10.262  
W1 = 1.087, W2 = 1.087, W3 = 0.813  
W = 1.087, L = 0.813  
W = 1.524  
W = 0, L = 0  
0.050 , 51.98   
W = 43, L = 404  
W1 = 43, W2 = 43, W3 = 32  
W = 43, L = 32  
W = 60  
TL103, TL104, TL105 0.004 , 51.98   
TL107  
TL108  
TL109  
TL110  
TL111  
TL112  
TL113  
TL114  
0.004 , 51.98   
0.007 , 54.17   
0.025 , 41.75   
0.009 , 25.04   
0.002 , 41.75   
0.006 , 41.75   
W = 1.016, L = 1.524  
W = 1.524, L = 5.080  
W = 3.048, L = 1.778  
W = 1.524, L = 0.508  
W = 1.524, L = 1.270  
W = 40, L = 60  
W = 60, L = 200  
W = 120, L = 70  
W = 60, L = 20  
W = 60, L = 50  
1W1 = 3.048, W2 = 0.762, W3 = 3.048,  
W4 = 0.762  
W1 = 120, W2 = 30, W3 = 120,  
W4 = 30  
TL115  
TL116  
0.016 , 51.98   
0.044 , 51.98   
W = 1.087, L = 3.264  
W = 1.087, L = 9.093  
W = 43, L = 129  
W = 43, L = 358  
table continued on page 8  
Data Sheet  
7 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 877 MHz (cont.)  
Electrical Characteristics at 877 MHz  
Transmission  
Electrical  
Dimensions: mm  
Dimensions: mils  
Line  
Characteristics  
Output  
TL201  
TL202  
TL203  
TL204  
TL205  
TL206  
TL207  
TL208, TL210  
TL209  
TL211  
TL212  
TL213  
TL214  
TL215  
TL216  
TL217  
TL218  
TL219  
TL220  
TL221  
TL222  
TL223  
TL224  
TL225  
TL226  
W1 = 1.270, W2 = 5.283, Offset = –2.007  
W1 = 5.283, W2 = 5.283, Offset = 0.000  
W1 = 5.283, W2 = 5.283, W3 = 3.023  
W = 19.850, L = 1.270  
W1 = 50, W2 = 208, Offset = –79  
W1 = 208, W2 = 208, Offset = 0  
W1 = 208, W2 = 208, W3 = 119  
W = 782, L = 50  
0.016 , 15.92   
0.007 , 4.80   
W1 = 19.812, W2 = 19.812, Offset = 7.264  
W = 1.270, L = 13.467  
W1 = 780, W2 = 780, Offset = 286  
W = 50, L = 530  
0.066 , 47.12 W  
0.002 , 41.75   
0.004 , 51.98   
W = 1.524, L = 0.508  
W = 60, L = 20  
W1 = 1.087, W2 = 1.087, W3 = 0.813  
W1 = 1.270, W2 = 1.270, Offset = 10.566  
W = 1.087, L = 18.313  
W1 = 43, W2 = 43, W3 = 32  
W1 = 50, W2 = 50, Offset = 416  
W = 43, L = 721  
0.089 , 51.98   
0.007 , 41.75   
0.007 , 41.75   
0.004 , 25.04   
W = 1.524, L = 1.524  
W = 60, L = 60  
W1 = 1.524, W2 = 1.524, W3 = 1.524  
W1 = 3.048, W2 = 3.048, W3 = 0.762  
W1 = 1.087, W2 = 3.048  
W1 = 60, W2 = 60, W3 = 60  
W1 = 120, W2 = 120, W3 = 30  
W1 = 43, W2 = 120  
0.009 , 25.04   
0.006 , 63.89   
0.002 , 51.98   
0.040 , 41.75   
0.006 , 41.75   
0.006 , 47.12   
0.035 , 47.12   
0.014 , 15.92   
0.012 , 51.98   
0.016 , 51.98   
0.006 , 47.12   
W = 3.048, L = 1.778  
W = 120, L = 70  
W = 0.762, L = 1.270  
W = 30, L = 50  
W = 1.087, L = 0.356  
W = 43, L = 14  
W = 1.524, L = 8.204  
W = 60, L = 323  
W1 = 1.524, W2 = 1.524, W3 = 1.270  
W = 1.270, L = 1.191  
W1 = 60, W2 = 60, W3 = 50  
W = 50, L = 47  
W = 1.270, L = 7.290  
W = 50, L = 287  
W = 5.283, L = 2.667  
W = 208, L = 105  
W = 1.087, L = 2.502  
W = 43, L = 99  
W = 1.087, L = 3.264  
W = 43, L = 129  
W1 = 1.270, W2 = 1.270, W3 = 1.270  
W1 = 50, W2 = 50, W3 = 50  
Data Sheet  
8 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 877 MHz (cont.)  
Circuit Assembly Information  
Test Fixture Part No.  
LTN/ PTFA220121M–8  
Find Gerber files for this test fixture on the Infineon Web site at (http://www.infineon.com/rfpower)  
R802 C803  
C801  
C802  
C201  
C202  
R801  
S5  
S4  
R804  
R803  
S3  
S2  
L1  
R805  
R1  
DUT  
C204  
C203  
C101  
C103  
C205  
L2  
R101 R102  
C104 C102  
(73)  
PTFA220121M  
RO4350, .020  
Reference circuit assembly diagram (not to scale)  
Data Sheet  
9 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 877 MHz (cont.)  
Components Information  
Component  
Description  
Manufacturer  
P/N  
Input  
C101  
Chip capacitor, 68 pF  
Chip capacitor, 20 pF  
Chip capacitor, 10 pF  
Chip capacitor, 16 pF  
Chip capacitor, 1000 pF  
Inductor, 22 nH  
ATC  
ATC100A680JW150X  
ATC100A200JW150X  
ATC100A100JW150X  
ATC100A160JW150X  
ECJ-1VB1H102K  
0805HT-22NX_BG  
ERJ-8GEYJ1R3V  
ERJ-8GEYJ100V  
ERJ-8GEYJ122V  
ERJ-8GEYJ132V  
ERJ-8GEYJ511V  
ERJ-8GEYJ202V  
NFM18PS105R0J3D  
3224W-1-202E  
C102  
ATC  
C103  
ATC  
C104  
ATC  
C801, C802, C803  
Panasonic Electronic Components  
Coilcraft  
L1  
R101  
R102, R805  
R801  
R802  
R803  
R804  
S2  
Resistor, 1.3   
Resistor, 10   
Panasonic Electronic Components  
Panasonic Electronic Components  
Panasonic Electronic Components  
Panasonic Electronic Components  
Panasonic Electronic Components  
Panasonic Electronic Components  
Murata  
Resistor, 1200   
Resistor, 1300   
Resistor, 510   
Resistor, 2000   
EMI Suppression Capacitor  
Potentiometer, 2k   
Transistor  
S3  
Bourns Inc.  
S4  
Fairchild Semiconductor  
Fairchildl Semiconductor  
BCP56  
S5  
Voltage regulator  
LM7805  
Output  
C201  
Chip capacitor, 2.2 µF  
Chip capacitor, 68 pF  
Chip capacitor, 3.6 pF  
Chip capacitor, 8.2 pF  
Inductor, 2.7 nH  
TDK Corporation  
C4532X7R1H225M160KA  
ATC100A680JW150X  
ATC100A3R6CW150X  
ATC100A8R2CW150X  
0402CS-2N7X_BG  
C202, C204  
C203  
ATC  
ATC  
C205  
ATC  
L2  
Coilcraft  
R201  
Resistor, 0.0   
Panasonic Electronic Components  
ERJ-8GEY0R00V  
Data Sheet  
10 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Typical Performance, 1805 MHz  
Pulsed CW Performance  
VDD = 28 V, IDQ = 130 mA  
Output Power and Efficiency  
v. Input Power  
VDD = 28 V, IDQ = 130 mA  
20  
60  
50  
40  
30  
20  
10  
0
45  
40  
35  
30  
25  
80  
70  
60  
50  
40  
30  
20  
10  
0
1785 MHz  
1795 MHz  
1805 MHz  
19  
1785 MHz  
1795 MHz  
1805 MHz  
18  
Gain  
17  
16  
15  
14  
Output Power  
Efficiency  
Efficiency  
33  
25  
29  
37  
41  
45  
5
10  
15  
20  
25  
30  
Input Power (W)  
Output Power (dBm)  
RF Characteristics  
Pulsed CW Performance (not subject to production test – verified by design / characterization in Infineon test fixture)  
= 28 V, I = 130 mA, P = 42 W P , ƒ = 1805 MHz  
V
DD  
DQ  
OUT  
1dB  
16 µs pulse width, 10% duty cycle, class AB test  
Characteristic  
Gain  
Symbol  
Min  
Typ  
17  
Max  
Unit  
dB  
G
ps  
Drain Efficiency  
D  
52  
%
Data Sheet  
11 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Typical Performance, 2140 MHz  
Two-carrier WCDMA 3GPP  
VDD = 28 V, IDQ = 150 mA, ƒ = 2140 MHz  
3GPP WCDMA, P/AR = 8:1, 10 MHz carrier  
spacing, BW 3.84 MHz  
Two-carrier WCDMA 3GPP Drive-up  
VDD = 28 V, IDQ = 150 mA, ƒ = 2140 MHz  
3GPP WCDMA, P/AR = 8:1, 10 MHz carrier  
spacing, BW 3.84 MHz  
18  
17  
50  
40  
30  
20  
10  
0
-10  
-15  
-20  
-25  
-30  
-35  
-40  
-45  
-50  
40  
35  
30  
25  
20  
15  
10  
5
IMD Up  
Efficiency  
Gain  
16  
15  
IMD Low  
37  
14  
Efficiency  
ACPR  
13  
0
24  
26  
28  
30  
32  
34  
36  
38  
32  
33  
34  
35  
36  
38  
Output Power (dBm)  
Output Power (dBm)  
Two-tone Drive-up  
VDD = 28 V, IDQ = 150 mA,  
Two-tone Drive-up  
VDD = 28 V, IDQ = 150 mA,  
ƒ1 = 2139.05 MHz, ƒ2 = 2140.05 MHz  
ƒ1 = 2139.05 MHz, ƒ2 = 2140.05 MHz  
-15  
-20  
-25  
-30  
-35  
-40  
60  
18  
17  
16  
15  
14  
50  
40  
30  
20  
10  
50  
40  
30  
20  
10  
Gain  
Efficiency  
Efficiency  
IMD3  
33 34 35 36 37 38 39 40 41 42 43  
Output Power, PEP (dBm)  
36  
37  
38  
39  
40  
41  
42  
43  
Output Power, PEP (dBm)  
Data Sheet  
12 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Typical Performance, 2140 MHz (cont.)  
Two-tone Broadband  
Gain, Efficiency & RL vs. Frequency  
VDD = 28V, IDQ = 150 mA, Avg. PEP = 12 W,  
tone pacing = 100 kHz  
Small Signal CW  
Gain & Input Return Loss  
VDD = 28 V, IDQ = 150 mA  
70  
5
20  
18  
16  
14  
12  
10  
0
60  
-5  
-4  
Gain  
RL  
50  
-15  
-25  
-35  
-45  
-55  
Efficiency  
-8  
40  
-12  
-16  
-20  
IMD3  
30  
20  
10  
Gain  
2120  
IRL  
2040  
2080  
2160  
2200  
2240  
1990  
2090  
2190  
2290  
Frequency (MHz)  
Frequency (MHz)  
Intermodulation Distortion  
vs. Output Power  
Intermodulation Distortion  
vs. Tone Spacing  
VDD = 28 V, IDQ = 150 mA, ƒ = 2140 MHz,  
PEP = 11.22 W  
VDD = 28 V, IDQ = 150 mA,  
ƒ1 = 2139.05 MHz, ƒ2 = 2140.05 MHz  
-10  
-20  
-30  
-40  
-50  
-60  
-25  
-30  
-35  
-40  
-45  
-50  
-55  
3rd Order  
5th  
3rd Order  
5th  
7th  
7th  
33 34 35 36 37 38 39 40 41 42 43  
Output Power, PEP (dBm)  
0
20  
40  
60  
80  
100  
Tone Spacing (MHz)  
Data Sheet  
13 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Typical Performance, 2140 MHz (cont.)  
Power Sweep, CW  
Gain & Efficiency vs. Output Power  
VDD = 28 V, IDQ = 150 mA, ƒ = 2140 MHz  
CW Performance  
Gain & Efficiency vs. Output Power  
VDD = 28 V, IDQ = 150 mA, ƒ = 2140 MHz  
17  
16  
15  
14  
13  
55  
45  
35  
25  
15  
22  
60  
50  
40  
30  
20  
10  
+85°C  
+25° C  
–30°C  
Efficiency  
20  
18  
16  
14  
12  
Gain  
Gain  
Efficiency  
32 33 34 35 36 37 38 39 40 41 42  
Output Power (dBm)  
30  
32  
34  
36  
38  
40  
42  
44  
Output Power (dBm)  
Two-tone Gain vs. Output Power  
VDD = 28 V, ƒ1 = 2139.05 MHz, ƒ2 = 2140.05 MHz  
17.5  
IDQ = 200 mA  
17.0  
16.5  
16.0  
15.5  
15.0  
IDQ = 150 mA  
IDQ = 100 mA  
35  
36  
37  
38  
39  
40  
41  
42  
43  
Output Power (dBm)  
Data Sheet  
14 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 2140 MHz  
VDD  
28 V  
R804  
2000Ohm  
S5  
8
4
1
In  
Out  
NC  
NC  
2
5
7
C803  
1000 pF  
3
6
TL105  
C801  
1000 pF  
DCVS  
V1  
R805  
TL109  
TL107  
10 Ohm S3  
TL106  
3
3
1
2
4
S2  
C802  
1000 pF  
R801  
1200 Ohm  
L1  
22 nH  
R803  
510Ohm  
2
C
S4  
1
4
S
B
3
E
R802  
1300 Ohm  
TL110  
C106  
6.2 pF  
C107  
6.2 pF  
R101  
10 Ohm  
TL116  
TL117  
C104  
TL112 12 pF  
C105  
TL113  
TL104  
2
2
TL102 3. 6 pF TL115  
TL108  
TL118 TL114  
TL111  
3
1
3
1
3
2
1
2
1
RF_IN  
GATE DUT  
3
4
4
C103  
3.6 pF  
TL101  
TL103  
Er=3.48  
C102  
6.2 pF  
C101  
6.2 pF  
H=20 mil  
RO/RO4350B1  
Reference circuit input schematic for ƒ = 2140 MHz  
TL217  
TL216 TL215  
TL218 TL223  
TL219  
TL229  
TL222  
C205  
100000pF TL224 TL230  
2
1
3
C204  
2200000pF  
TL228  
1
2
3
TL226  
C207  
12 pF  
TL227 TL225  
2
1
3
TL214  
TL213  
TL220  
TL221  
3
VDD  
2
1
2
1
3
28 V  
TL206  
R201  
0000 Ohm  
C206  
2.7 pF  
TL207  
TL211  
TL231  
C208  
12 pF  
TL210 TL208  
TL209  
TL212  
2
TL204  
TL201  
TL202  
TL205 TL232  
TL203  
3
3
1
2
1
1
2
1
2
DRAIN DUT  
RF_OUT  
3
3
4
C203  
2.7 pF  
C202  
2.7 pF  
C201  
1.7 pF  
Reference circuit output schematic for ƒ = 2140 MHz  
Data Sheet  
15 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 2140 MHz (cont.)  
Description  
DUT  
PCB  
PTFA220121M  
0.508 mm [.020"] thick, r = 3.48, Rogers 4350, 1 oz. copper  
Electrical Characteristics at 2140 MHz  
Transmission  
Electrical  
Dimensions: mm  
Dimensions: mils  
Line  
Characteristics  
Input  
TL101, TL103  
TL102  
0.000 , 144.35   
0.019 , 51.98   
W = 0.025, L = 0.000  
W = 1.087, L = 1.575  
W = 1, L = 0  
W = 43, L = 62  
TL104, TL111  
W1 = 1.087, W2 = 0.813, W3 = 1.087,  
W4 = 0.813  
W1 = 43, W2 = 32, W3 = 43,  
W4 = 32  
TL105  
TL106  
TL107  
TL108  
TL109  
TL110  
TL112  
TL113  
TL114  
TL115  
TL116, TL117  
TL118  
W = 1.524  
W = 60  
0.018 , 54.17   
0.061 , 41.75   
0.022 , 25.04   
0.006 , 41.75   
0.015 , 41.75   
0.039 , 51.98   
0.180 , 51.98   
0.039 , 51.98   
0.009 , 25.04   
0.000 , 144.35   
0.010 , 51.98   
W = 1.016, L = 1.524  
W = 1.524, L = 5.080  
W = 3.048, L = 1.778  
W = 1.524, L = 0.508  
W = 1.524, L = 1.270  
W = 1.087, L = 3.264  
W = 1.087, L = 15.291  
W = 1.087, L = 3.302  
W1 = 3.048, W2 = 3.048, W3 = 0.762  
W = 0.025, L = 0.000  
W1 = 1.087, W2 = 1.087, W3 = 0.813  
W = 40, L = 60  
W = 60, L = 200  
W = 120, L = 70  
W = 60, L = 20  
W = 60, L = 50  
W = 43, L = 129  
W = 43, L = 602  
W = 43, L = 130  
W1 = 120, W2 = 120, W3 = 30  
W = 1, L = 0  
W1 = 43, W2 = 43, W3 = 32  
table continued next page  
Data Sheet  
16 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 2140 MHz (cont.)  
Electrical Characteristics at 2140 MHz  
Transmission  
Electrical  
Dimensions: mm  
Dimensions: mils  
Line  
Characteristics  
Output  
TL201  
TL202  
TL203, TL205  
TL204  
TL206  
TL207  
TL208  
TL209  
TL210  
TL211  
TL212  
TL213  
TL214  
TL215  
TL216  
TL217  
TL218  
TL219  
TL220  
TL221  
TL222  
TL223  
TL224  
TL225  
TL226  
TL227  
TL228  
TL229  
TL230  
TL231  
TL232  
0.161 , 51.98   
0.039 , 51.98   
0.010 , 51.98   
0.075 , 51.98   
0.006 , 41.75   
0.018 , 41.75   
0.009 , 25.04   
W = 1.087, L = 13.627  
W = 43, L = 537  
W = 1.087, L = 3.264  
W = 43, L = 129  
W1 = 1.087, W2 = 1.087, W3 = 0.813  
W = 1.087, L = 6.375  
W1 = 43, W2 = 43, W3 = 32  
W = 43, L = 251  
W = 1.524, L = 0.508  
W = 60, L = 20  
W = 1.524, L = 1.524  
W = 60, L = 60  
W1 = 3.048, W2 = 3.048, W3 = 0.762  
W1 = 1.087, W2 = 3.048  
W1 = 120, W2 = 120, W3 = 30  
W1 = 43, W2 = 120  
W = 120, L = 70  
0.022 , 25.04   
0.015 , 63.89   
0.012 , 51.98   
0.018 , 41.75   
0.133 , 47.12   
W = 3.048, L = 1.778  
W = 0.762, L = 1.270  
W = 30, L = 50  
W = 1.087, L = 1.041  
W = 43, L = 41  
W1 = 1.524, W2 = 1.524, W3 = 1.524  
W = 1.270, L = 11.186  
W1 = 60, W2 = 60, W3 = 60  
W = 50, L = 440  
W1 = 0.020, W2 = 0.020, Offset = 0.007  
W = 19.850, L = 1.270  
W1 = 20, W2 = 780, Offset = 286  
W = 782, L = 50  
0.017 , 4.80   
W1 = 0.001, W2 = 0.001, Offset = 0.011  
W1 = 0.005, W2 = 0.005, Offset = 0.000  
W1 = 0.001, W2 = 0.005, Offset = –0.002  
W = 1.524, L = 8.204  
W1 = 1, W2 = 50, Offset = 416  
W1 = 5, W2 = 208, Offset = 0  
W1 = 1, W2 = 208, Offset = –79  
W = 60, L = 323  
0.098 , 41.75   
0.015 , 41.75   
0.087 , 47.12   
0.071 , 15.92   
0.000 , 41.75   
0.014 , 47.12   
0.009 , 47.12   
0.000 , 63.89   
0.000 , 25.04   
0.017 , 47.12   
0.018 , 47.12   
0.000 , 144.35   
W1 = 1.524, W2 = 1.524, W3 = 1.270  
W = 1.270, L = 7.290  
W1 = 60, W2 = 60, W3 = 50  
W = 50, L = 287  
W = 5.283, L = 5.690  
W = 208, L = 224  
W = 1.524, L = 0.000  
W = 60, L = 0  
W = 1.270, W2 = 1.270, W3 = 1.191  
W = 1.270, W2 = 1.270, W3 = 0.762  
W = 0.762, L = 0.000  
W = 50, W2 = 50, W3 = 47  
W = 50, W2 = 50, W3 = 30  
W = 30, L = 0  
W = 3.048, L = 0.000  
W = 120, L = 0  
W = 1.270, L = 1.422  
W = 50, L = 56  
W1 = 1.270, W2 = 1.270, W3 = 1.524  
W = 0.025, L = 0.000  
W1 = 50, W2 = 50, W3 = 60  
W = 1, L = 0  
W1 = 1.087, W2 = 0.813, W3 = 1.087  
W4 = 0.813  
W1 = 43, W2 = 32, W3 = 43,  
W4 = 32  
Data Sheet  
17 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 2140 MHz (cont.)  
Circuit Assembly Information  
Test Fixture Part No.  
LTN/ PTFA220121M  
Find Gerber files for this test fixture on the Infineon Web site at (http://www.infineon.com/rfpower)  
C803  
R802 C802  
C802  
C205  
R801  
S5  
S4  
C204  
R804  
C207  
R803  
S3  
R805  
S2  
L1  
R101  
R201  
C106C107  
C206  
DUT  
C104  
C208  
C201  
C103  
C105  
C203  
C202  
C102 C101  
(73)  
PTFA220121M  
RO4350, .020  
Reference circuit assembly diagram (not to scale)  
Data Sheet  
18 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Reference Circuit, 2140 MHz (cont.)  
Components Information  
Component  
Description  
Manufacturer  
P/N  
Input  
C101, C102, C106, C107  
Chip capacitor, 6.2 pF  
Chip capacitor, 3.6 pF  
Chip capacitor, 12 pF  
Chip capacitor, 1000 pF  
Inductor, 22 nH  
ATC  
ATC100A6R2CW150X  
ATC100A3R6CW150X  
ATC100A120JW150X  
ECJ-1VB1H102K  
0805HT-22NX_BG  
ERJ-8GEYJ100V  
ERJ-8GEYJ122V  
ERJ-8GEYJ132V  
ERJ-8GEYJ511V  
ERJ-8GEYJ202V  
NFM18PS105R0J3D  
3224W-1-202E  
C103, C105  
ATC  
C104  
ATC  
C801, C802, C803  
Panasonic Electronic Components  
Coilcraft  
L1  
R101, R805  
R801  
R802  
R803  
R804  
S2  
Resistor, 10   
Panasonic Electronic Components  
Panasonic Electronic Components  
Panasonic Electronic Components  
Panasonic Electronic Components  
Panasonic Electronic Components  
Murata  
Resistor, 1200   
Resistor, 1300   
Resistor, 510   
Resistor, 2000   
EMI Suppression Capacitor  
Potentiometer, 2k   
Transistor  
S3  
Bourns Inc.  
S4  
Fairchild Semiconductor  
Fairchild Semiconductor  
BCP56  
S5  
Voltage regulator  
LM7805  
Output  
C201  
Chip capacitor, 1.7 pF  
Chip capacitor, 2.7 pF  
Chip capacitor, 2.2 µF  
Chip capacitor, 0.1 µF  
Chip capacitor, 12 pF  
Resistor, 0.0   
ATC  
ATC100A1R7CW150X  
ATC100A2R7CW150X  
C4532X7R1H225M160KA  
ECJ-3VB1H104K  
C202, C203, C206  
C204  
ATC  
TDK Corporation  
C205  
Panasonic Electronic Components  
ATC  
C207, C208  
R201  
ATC100A120JW150X  
ERJ-8GEY0R00V  
Panasonic Electronic Components  
Data Sheet  
19 of 21  
Rev. 10, 2015-10-23  
PTFA220121M  
Package Outline Specifications  
Package PG-SON-10  
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Diagram Notes—unless otherwise specified:  
1. Interpret dimensions and tolerances per ASME Y14.5M-1994.  
2. Primary dimensions are mm. Alternate dimensions are inches.  
3. All tolerances ± 0.1 [.004].  
4. Package dimension: 4.00 mm x 4.00 mm x 1.42 mm.  
5. Pins: S = source, 1 – 5 = gate, 6 – 10 = drain.  
6. NiPdAu plating (gold top layer): 0.025 – 0.127 micron [1 – 5 microinch].  
(Find the latest and most complete information about products and packaging at the Infineon Internet page  
(http://www.infineon.com/rfpower)  
Data Sheet  
20 of 21  
Rev. 10, 2015-10-23  
PTFA220121M V4  
Revision History: 2013-06-17  
Data Sheet  
Previous Revision: 2011-04-11, Data Sheet  
Page  
2
Subjects (major changes since last revision)  
Change shipping quantity from 500 pcs. to 1,000 pcs.  
We Listen toYour Comments  
Any information within this document that you feel is wrong, unclear or missing at all?  
Your feedback will help us to continuously improve the quality of this document.  
Please send your proposal (including a reference to this document) to:  
(highpowerRF@infineon.com)  
To request other information, contact us at:  
+1 877 465 3667 (1-877-GO-LDMOS) USA  
or +1 408 776 0600 International  
Edition 2015-10-23  
Published by  
Infineon Technologies AG  
85579 Neubiberg, Germany  
© 2009 – 2015 Infineon Technologies AG  
All Rights Reserved.  
Legal Disclaimer  
The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics.  
With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the  
application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind,  
including without limitation, warranties of non-infringement of intellectual property rights of any third party.  
Information  
For further information on technology, delivery terms and conditions and prices, please contact the nearest  
Infineon Technologies Office (www.infineon.com/rfpower).  
Warnings  
Due to technical requirements, components may contain dangerous substances. For information on the types in question,  
please contact the nearest Infineon Technologies Office.  
Infineon Technologies components may be used in life-support devices or systems only with the express written approval of In-  
fineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device  
or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be  
implanted in the human body or to support and/or maintain and sustain and/or protect human life. If they fail, it is  
reasonable to assume that the health of the user or other persons may be endangered.  
Data Sheet  
21 of 21  
Rev. 10, 2015-10-23  

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