Data Sheet 1 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
All published data at TCASE = 25°C unless otherwise indicated
ESD: Electrostatic discharge sensitive device—observe handling precautions!
0
10
20
30
40
50
-60
-50
-40
-30
-20
-10
34 38 42 46 50 54
Drain Efficiency (%)
ACP Up & Low (dBc)
Output Power, avg. (dBm)
Single-carrier WCDMA Drive-up
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2170 MHz,
3GPP WCDMA signal, PAR = 7.5 dB,
3.84 MHz bandwidth
ACP up
ACP low
Efficiency
RF Characteristics
Two-carrier WCDMA Measurements (tested in Inneon test xture)
VDD = 30 V, IDQ = 2.4 A, POUT = 60 W average,
ƒ1 = 2167.5 MHz, ƒ2 = 2172.5 MHz, 3GPP signal, channel bandwidth = 3.84 MHz, PAR = 7.5 dB @ 0.01% CCDF
Characteristic Symbol Min Typ Max Unit
Gain Gps 17 18 dB
Drain Efciency hD 25 26.5 %
Intermodulation Distortion IMD –36 –33 dBc
High Power RF LDMOS Field Effect Transistor
300 W, 2110 – 2170 MHz
Description
The PTFB213004F is a 300-watt LDMOS FET designed for class
AB operation in cellular ampliers covering the 2110 to 2170 MHz
frequency band. Features include high peak power, input and
output match, and a thermally-enhanced, open-cavity earless ceramic
package.
PTFB213004F
Package H-37275-6/2
Features
Broadband internal matching
Enhanced for use in DPD error correction systems
Wide video bandwidth
Typical single-carrier WCDMA performance at
2170 MHz, 30 V
- POUT = 49.5 dBm Avg
- Gain = 17.5 dB
- Efciency = 30%
Increased negative gate-source voltage range for
improved performance in Doherty ampliers
Capable of handling 10:1 VSWR @ 30 V, 300 W
(CW) output power
Excellent thermal stability
Integrated ESD protection
Pb-free and RoHS-compliant
Data Sheet 2 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
RF Characteristics (cont.)
Two-tone Measurements (not subject to production test—veried by design / characterization in Inneon test xture)
VDD = 30 V, IDQ = 2.4 A, POUT = 250 W PEP, ƒ = 2140 MHz, tone spacing = 1 MHz
Characteristic Symbol Min Typ Max Unit
Gain Gps 18 dB
Drain Efciency hD 37 %
Intermodulation Distortion IMD –30 dBc
DC Characteristics
Characteristic Conditions Symbol Min Typ Max Unit
Drain-Source Breakdown Voltage VGS = 0 V, IDS = 10 µA V(BR)DSS 65 V
Drain Leakage Current VDS = 30 V, VGS = 0 V IDSS 1.0 µA
VDS = 63 V, VGS = 0 V IDSS 10.0 µA
On-State Resistance VGS = 10 V, VDS = 0.1 A RDS(on) 0.03 W
Operating Gate Voltage VDS = 30 V, IDQ = 2.4 A VGS 2.3 2.8 3.3 V
Gate Leakage Current VGS = 10 V, VDS = 0 V IGSS 1.0 µA
Maximum Ratings
Parameter Symbol Value Unit
Drain-Source Voltage VDSS –0.5 to +65 V
Gate-Source Voltage VGS –6 to +10 V
Junction Temperature TJ 200 °C
Storage Temperature Range TSTG –40 to +150 °C
Thermal Resistance (TCASE = 70°C ) RqJC 0.23 °C/W
Ordering Information
Type and Version Package Outline Package Description Shipping
PTFB213004F V2 H-37275-6/2 Thermally-enhanced earless ange Tray
PTFB213004F V2 R250 H-37275-6/2 Thermally-enhanced earless ange Tape & Reel
Data Sheet 3 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
Typical Performance (data taken in a production test xture)
-60
-50
-40
-30
35 39 43 47 51
Intermodulation Distortion (dBc)
Two-carrier WCDMA Drive-up
V
DD
= 30 V, I
DQ
= 2.4 A, 3GPP WCDMA signal,
PAR = 8 dB, 10 MHz carrier spacing, 3.84 MHz BW
IM3 Up
IM3 Low
2170 MHz
2140 MHz
2110 MHz
0
10
20
30
40
15
16
17
18
19
35 39 43 47 51
Drain Efficiency (%)
Gain (db)
Output Power (dBm)
Two-carrier WCDMA Drive-up
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2170 MHz,
3GPP WCDMA signal, PAR = 8 dB,
10 MHz carrier spacing, 3.85 MHz BW
Efficiency
Gain
5
15
25
35
45
-65
-55
-45
-35
-25
36 40 44 48 52
Drain Efficiency (%)
IMD (dBc), ACPR (dBc)
Output Power, avg. (dBm)
Two-carrier WCDMA Drive-up
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2170 MHz,
3GPP WCDMA signal, PAR = 8 dB,
10 MHz carrier spacing, 3.84 MHz BW
Efficiency
ACPR
IMD Up
IMD Low
-50
-40
-30
-20
-10
0
10
20
30
40
50
60
2060 2100 2140 2180 2220
Return Loss (dB), IMD (dBc)
Gain (dB), Efficiency (%)
Frequency (MHz)
Two-tone Broadband Performance
V
DD
= 30 V, I
DQ
= 2.4 A, P
OUT
= 126 W
Gain
Efficiency
Return Loss
IMD 3
Data Sheet 4 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
-75
-65
-55
-45
-35
-25
-15
39 43 47 51 55
IMD 3rd Order (dBc)
Two-tone IMD vs. Output Power
V
DD
= 30 V, I
DQ
= 2.4 A,
tone spacing = 1 MHz
2170 MHz
2140 MHz
2110 MHz
0
10
20
30
40
50
60
15
16
17
18
19
20
21
36 40 44 48 52
Drain Efficiency (%)
Gain (dB)
Output Power (dBm)
Two-tone Drive-up (over temp)
(P
OUT
max 3rd order IMD @ –30dBc)
V
DD
= 30 V, I
DQ
= 2.4 A,
ƒ
1
= 2140.5 MHz, ƒ
2
= 2139.5 MHz
+25°C
+85°C
–30°C
Efficiency
Gain
0
5
10
15
20
25
30
35
40
45
17.0
17.5
18.0
18.5
19.0
39 43 47 51 55
Drain Efficiency (%)
Gain (db)
Output Power (dBm)
Gain & Efficiency vs. Output Power
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2170 MHz
Efficiency
Gain
0
10
20
30
40
50
-70
-60
-50
-40
-30
-20
38 43 48 53 58
Efficiency (%)
IMD (dBc)
Output Power, PEP (dBm)
Two-tone Drive-up
V
DD
= 30 V, I
DQ
= 2.4 A,
ƒ
1
= 2170 MHz, ƒ
2
= 2169 MHz
Efficiency
IMD 3
Typical Performance (cont.)
Data Sheet 5 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
-80
-60
-40
-20
0
20
40
60
0
5
10
15
20
36 40 44 48 52 56
Efficiency (%) / ACP (dBc)
PARC, PARC Gain (dB)
Output Power, avg. (dBm)
Output PAR Compression (PARC),
2140 MHz
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2140 MHz,
single-carrier 3GPP WCDMA signal,
input PAR = 7.5 dB, 3.84 MHz BW
Gain
Efficiency
PARC @ .01% CCDF
ACP
-80
-60
-40
-20
0
20
40
60
0
5
10
15
20
36 40 44 48 52 56
Efficiency (%) / ACP (dBc)
PARC, PARC Gain (dB)
Output Power, avg. (dBm)
Output PAR Compression (PARC),
2170 MHz
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2170 MHz,
single-carrier 3GPP WCDMA signal,
input PAR = 7.5 dB, 3.84 MHz BW
Gain
Efficiency
PARC @ .01% CCDF
ACP
-65
-55
-45
-35
-25
-15
0 10 20 30 40 50 60 70 80
Intermodulation Distortion (dBc)
Tone Spacing (MHz)
Intermodulation Distortion vs.
Tone Spacing
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2140 MHz,
P
OUT
= 251 W (PEP)
IM5
IM7
IM3
-75
-65
-55
-45
-35
-25
-15
39 43 47 51 55
IMD (dBc)
Output Power, Avg. (dBm)
Two-tone IMD vs. Output Power
V
DD
= 30 V, I
DQ
= 2.4 A,
ƒ
1
= 2170 MHz, ƒ
2
= 2169 MHz
3rd Order
5th
7th
Typical Performance (cont.)
Data Sheet 6 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
0.1
0.3
0.5
0.2
0.4
0.1
0.3
0
.5
0.
7
0.2
0.4
0.6
0.1
0.3
0.5
0
.7
0
.9
0
.2
0.4
0
.6
0.
8
-
W
AV
E
LE
N
GT
H
ST
O
W
AR
D
G
E
NE
R
AT
O
R
--->
0
.05
0
.40
0
.45
0
.0
5
0
.1
0
0
.4
5
<-
-
-
W
AV
E
LE
N
G
TH
S
T
O
W
AR
D
L
OA
D
-
0
.0
Nornalized to 50 Ohms
ptfb213004f-v1
db213004f-v1_2sgr Jan. 29, 2010 2:30:00 PM
Z Source
Z Load
Graph #2
2200 MHz
2080 MHz
2080 MHz
2200 MHz
Z0 = 50 W
-40
-35
-30
-25
-20
-15
-10
-5
0
0
5
10
15
20
25
30
35
40
2060 2100 2140 2180 2220
Return Loss (dB)/ACP (dBc)
Gain, PARC (dB),
Efficiency (%)
Frequency (MHz)
Single-carrier Broadband Performance
V
DD
= 30 V, I
DQ
= 2.4 A, P
OUT
= 89 W,
single-carrier 3GPP WCDMA signal
Gain
Efficiency
IRL
PARC
ACP
-80
-60
-40
-20
0
20
40
60
0
5
10
15
20
36 40 44 48 52 56
Efficiency (%) / ACP (dBc)
PARC, PARC Gain (dB)
Output Power, avg. (dBm)
Output PAR Compression (PARC),
2110 MHz
V
DD
= 30 V, I
DQ
= 2.4 A, ƒ = 2110 MHz,
single-carrier 3GPP WCDMA signal,
input PAR = 7.5 dB, 3.84 MHz BW
Gain
Efficiency
PARC @ .01% CCDF
ACP
Z Source Z Load
G
D
G
S
D
Broadband Circuit Impedance
Frequency Z Source W Z Load W
MHz R jX R jX
2080 1.55 –4.57 0.71 –2.91
2090 1.54 –4.52 0.71 –2.89
2100 1.52 –4.48 0.70 –2.86
2110 1.51 –4.44 0.70 –2.84
2120 1.50 –4.40 0.70 –2.81
2130 1.48 –4.36 0.70 –2.79
2140 1.47 –4.32 0.70 –2.77
2150 1.46 –4.28 0.70 –2.74
2160 1.45 –4.24 0.69 –2.72
2170 1.43 –4.20 0.69 –2.70
2180 1.42 –4.17 0.69 –2.67
2190 1.41 –4.13 0.69 –2.65
2200 1.40 –4.09 0.69 –2.63
Typical Performance (cont.)
PTFB213004F
Confidential, Limited Internal Distribution
Data Sheet 7 of 16 Rev. 05.2, 2010-12-09
Reference Circuit (cont.)
Reference circuit input schematic for ƒ = 2170 MHz
TL122
TL123
TL106
TL124
TL125
TL107
TL108
TL109
TL110
TL111
TL112
TL113
TL114
C801
1000 pF
C802
1000 pF
C803
1000 pF
C102
4700000 pF
C101
100000 pF
TL126
TL127
TL128
TL129
TL130
TL131
TL132
TL133
TL134
TL135
TL136
TL102
TL101
TL103
TL104
TL105
1
2
3
TL142
TL143
TL144
TL145
TL146
TL147
TL148
TL149 TL150
TL151 TL152
TL153
TL115
TL116
TL117
TL118
TL119
TL120
TL121
C105
10 pF
C106
10 pF
TL155
TL156
R801
10 Ohm
R802
1200 Ohm
R803
10 Ohm
R804
1300 Ohm
R805
100 Ohm
1
2
3
TL158
12
3
TL159
1
2
3
TL160
1
2
3
TL161 1 2
3
TL162
12
3
TL137
1 2
3
TL138
1
2
3
TL139
1
2
3
TL140
1
2
3
TL141
TL165
1 2
3
TL167
TL169
TL166
C113
0.6 pF
R104
0 Ohm
R105
0 Ohm
C109
10 pF
R106
10 Ohm
R107
10 Ohm
C110
10 pF
C111
100000 pF
TL163
C112
4700000 pF
TL164
C104
0.7 pF
TL154
V
GS
1
GATE 2
DUT
RF IN
In Out
NC NC
1
2 3
45
6 7
8
S3
S
C
B
E
1
2
3
4
S2 3
S1
1 2
3
TL157
C103
8.2 pF
1 2
3
TL168
C114
0.6 pF
TL171
TL170
GATE 1
DUT
bbbbbbbbbbbbbbbbbbbbbbbb
e= 3.48
H = 20 mil
RO/RO4350B1
r
Data Sheet 8 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
Reference Circuit (cont.)
Reference circuit output schematic for ƒ = 2170 MHz
TL201 TL202
TL203
TL204
TL205
TL206
TL207 TL208 TL209
TL210
TL211
TL212
TL213
1
2
3
4
TL214
1
2
3
4
TL215
C201
8.2 pF
1
2
3
TL216
1
2
3
TL217
1
2
3
TL218
TL219
TL220
TL221
TL222
TL223
TL224
TL225
TL226
TL227
C202
10000000 pF
C203
10000000 pF
TL228
TL229
TL230
TL231
C204
1000000 pF
C205
2200000 pF
C206
2200000 pF
C207
1000000 pF
1 2
3
TL232
C208
0.4 pF
C209
1.2 pF
C210
1.2 pF
C211
1.2 pF
C212
1.2 pF
12
3
TL233
1 2
3
TL234
1
2
3
TL235
RF OUT
DRAIN
DUT
C213
10000000 pF
C214
10000000 pF
TL236
1
2
3
TL237
1
2
3
TL238
TL239
TL240
TL241
1 2
3
TL242
TL243
TL244
12
3
TL245
TL246
TL247
TL248
bbbbbbbbbbbbbbbbbbbbbbbbb
V
DD 2
V
DD
V
DD
V
DD 1
e= 3.48
H = 20 mil
RO/RO4350B1
r
PTFB213004F
Confidential, Limited Internal Distribution
Data Sheet 9 of 16 Rev. 05.2, 2010-12-09
Reference Circuit (cont.)
Description
DUT PTFB213004F LDMOS Transistor
PCB LTN/PTFB213004EF 0.508 mm [.020"] thick, er = 3.48 Rogers 4350, 1 oz. copper
Electrical Characteristics at 2170 MHz
Transmission Electrical Dimensions: mm Dimensions: mils
Line Characteristics
Input
TL101 0.004 λ, 51.98 W W1 = 1.087, W2 = 1.087, W3 = 0.813 W1 = 43, W2 = 43, W3 = 32
TL101 0.010 λ, 28.85 W W = 2.540, L = 0.787 W = 100, L = 31
TL102 0.207 λ, 63.89 W W = 0.762, L = 17.526 W = 30, L = 690
TL103 0.006 λ, 63.89 W W = 0.762, L = 0.508 W = 30, L = 20
TL104 0.070 λ, 8.03 W W = 11.430, L = 5.359 W = 450, L = 211
TL105, TL106 0.017 λ, 8.03 W W = 11.430, L = 1.270 W = 450, L = 50
TL107 0.025 λ, 32.60 W W = 2.159, L = 2.032 W = 85, L = 80
TL108 0.015 λ, 49.69 W W = 1.168, L = 1.270 W = 46, L = 50
TL109, TL110, TL111, W = 2.540 W = 100
TL112
TL113, TL114 W = 1.016 W = 40
TL115, TL131 0.000 λ, 41.75 W W = 1.524, L = 0.025 W = 60, L = 1
TL116, TL133 0.016 λ, 34.08 W W = 2.032, L = 1.270 W = 80, L = 50
TL117 0.016 λ, 17.20 W W = 4.826, L = 1.270 W = 190, L = 50
TL118 0.041 λ, 63.89 W W = 0.762, L = 3.480 W = 30, L = 137
TL119, TL136 0.000 λ, 41.75 W W = 1.524, L = 0.025 W = 60, L = 1
TL120, TL122 0.015 λ, 54.17 W W = 1.016, L = 1.262 W = 40, L = 50
TL121, TL135 0.020 λ, 54.17 W W = 1.016, L = 1.651 W = 40, L = 65
TL123, TL130 0.017 λ, 54.17 W W = 1.016, L = 1.397 W = 40, L = 55
TL124, TL129 0.000 λ, 34.08 W W = 2.032, L = 0.025 W = 80, L = 1
TL125, TL128 0.091 λ, 54.17 W W = 1.016, L = 7.620 W = 40, L = 300
TL126, TL127 0.009 λ, 54.17 W W = 1.016, L = 0.762 W = 40, L = 30
TL132 0.018 λ, 63.89 W W = 0.762, L = 1.524 W = 30, L = 60
TL134 0.006 λ, 63.89 W W = 0.762, L = 0.508 W = 30, L = 20
TL137, TL138 0.024 λ, 54.17 W W1 = 1.016, W2 = 1.016, W3 = 2.032 W1 = 40, W2 = 40, W3 = 80
TL139, TL141 0.018 λ, 63.89 W W1 = 0.762, W2 = 0.762, W3 = 1.524 W1 = 30, W2 = 30, W3 = 60
TL140, TL142 0.012 λ, 63.89 W W1 = 0.762, W2 = 0.762, W3 = 1.016 W1 = 30, W2 = 30, W3 = 40
TL143 W1 = 0.003, W2 = 0.005, Offset = 0.000 W1 = 3, W2 = 190, Offset = 10
TL144 W1 = 0.005, W2 = 0.011, Offset = –0.003 W1 = 5, W2 = 450, Offset = –130
TL145 W1 = 0.003, W2 = 0.005, Offset = 0.000 W1 = 3, W2 = 190, Offset = –10
TL146 W1 = 2.032, W2 = 0.762 W1 = 80, W2 = 30
TL147 W1 = 2.540, W2 = 0.762 W1 = 100, W2 = 30
TL148 W1 = 1.168, W2 = 2.159 W1 = 46, W2 = 85
TL149 0.009 λ, 28.85 W W = 2.540, L = 0.762 W = 100, L = 30
TL150, TL151 0.006 λ, 17.20 W W = 4.826, L = 0.508 W = 190, L = 20
table continued on page 10
Data Sheet 10 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
Reference Circuit (cont.)
Electrical Characteristics at 2170 MHz
Transmission Electrical Dimensions: mm Dimensions: mils
Line Characteristics
Input
TL152 0.070 λ, 8.03 W W = 11.430, L = 5.359 W = 450, L = 211
TL153 0.018 λ, 63.89 W W = 0.762, L = 1.524 W = 30, L = 60
TL154 0.016 λ, 17.20 W W = 4.826, L = 1.270 W = 190, L = 50
TL155 0.060 λ, 49.69 W W = 1.168, L = 5.022 W = 46, L = 198
TL156 0.002 λ, 49.69 W W = 1.168, L = 0.203 W = 46, L = 8
TL157 0.015 λ, 49.69 W W1 = 1.168, W2 = 1.168, W3 = 1.270 W1 = 46, W2 = 46, W3 = 50
TL158 0.027 λ, 28.85 W W1 = 2.540, W2 = 2.540, W3 = 2.159 W1 = 100, W2 = 100, W3 = 85
TL159, TL162 0.013 λ, 8.03 W W1 = 11.430, W2 = 11.430, W3 = 1.016 W1 = 450, W2 = 450, W3 = 40
TL160, TL161 0.018 λ, 63.89 W W1 = 0.762, W2 = 0.762, W3 = 1.524 W1 = 30, W2 = 30, W3 = 60
TL163, TL164 0.004 λ, 63.89 W W = 0.762, L = 0.330 W = 30, L = 13
TL165, TL171 W1 = 0.011, W2 = 0.003, Offset = 0.005 W1 = 11, W2 = 100, Offset = 200
TL166 W1 = 0.005, W2 = 0.011, Offset = 0.003 W1 = 5, W2 = 450, Offset = 130
TL167 W1 = 0.000, W2 = 0.000, W3 = 0.000 W1 = 0, W2 = 1, W3 = 1
TL168 0.000 λ, 148.22 W W1 = 0.013, W2 = 0.013, W3 = 0.013 W1 = 1, W2 = 1, W3 = 1
TL169 0.000 λ, 102.05 W W = 0.254, L = 0.025 W = 10, L = 1
TL170 0.000 λ, 47.12 W W = 1.270, L = 0.025 W = 50, L = 1
See next page for reference circuit output characteristics
PTFB213004F
Confidential, Limited Internal Distribution
Data Sheet 11 of 16 Rev. 05.2, 2010-12-09
Reference Circuit (cont.)
Electrical Characteristics at 2170 MHz
Transmission Electrical Dimensions: mm Dimensions: mils
Line Characteristics
Output
TL201 (taper) 0.018 λ, 5.40 W / 9.59 W W1 = 17.526, W2 = 9.398, L = 1.397 W1 = 690, W2 = 370, L = 55
TL202 (taper) 0.016 λ, 9.59 W / 34.72 W W1 = 9.398, W2 = 1.981, L = 1.270 W1 = 370, W2 = 78, L = 50
TL203 (taper) 0.026 λ, 3.67 W / 5.40 W W1 = 26.365, W2 = 17.526, L = 1.956 W1 = 1038, W2 = 690, L = 77
TL204 W1 = 25.400, W2 = 26.365 W1 = 1000, W2 = 1038
TL205, TL206, TL210, 0.000 λ, 144.35 W W = 0.025, L = 0.025 W = 1, L = 1
TL211
TL207 0.064 λ, 3.67 W W = 26.365, L = 4.801 W = 1038, L = 189
TL208 0.050 λ, 34.72 W W = 1.981, L = 4.115 W = 78, L = 162
TL209 0.028 λ, 47.12 W W = 1.270, L = 2.337 W = 50, L = 92
TL212 0.053 λ, 47.12 W W = 1.270, L = 4.394 W = 50, L = 173
TL213 0.016 λ, 28.85 W W = 2.540, L = 1.270 W = 100, L = 50
TL214 W1 = 17.526, W2 = 0.025, W3 = 17.526, W1 = 690, W2 = 1, W3 = 690,
W4 = 0.025 W4 = 1
TL215 W1 = 9.398, W2 = 0.025, W3 = 9.398, W1 = 370, W2 = 1, W3 = 370,
W4 = 0.025 W4 = 1
TL216 0.022 λ, 20.93 W W1 = 3.810, W2 = 3.810, W3 = 1.778 W1 = 150, W2 = 150, W3 = 70
TL217, TL218 0.048 λ, 20.93 W W1 = 3.810, W2 = 3.810, W3 = 3.810 W1 = 150, W2 = 150, W3 = 150
TL219, TL220 0.017 λ, 20.93 W W = 3.810, L = 1.372 W = 150, L = 54
TL221 0.008 λ, 20.93 W W = 3.810, L = 0.635 W = 150, L = 25
TL222, TL225, TL228, 0.000 λ, 37.51 W W = 1.778, L = 0.025 W = 70, L = 1
TL231
TL223 0.032 λ, 20.93 W W = 3.810, L = 2.540 W = 150, L = 100
TL224 0.008 λ, 20.93 W W = 3.810, L = 0.635 W = 150, L = 25
TL226 0.165 λ, 20.93 W W = 3.810, L = 13.106 W = 150, L = 516
TL227 0.032 λ, 20.93 W W = 3.810, L = 2.540 W = 150, L = 100
TL229, TL230 0.000 λ, 20.93 W W = 3.810, L = 0.025 W = 150, L = 1
TL232 0.024 λ, 47.12 W W1 = 1.270, W2 = 1.270, W3 = 2.032 W1 = 50, W2 = 50, W3 = 80
TL233, TL234 0.048 λ, 20.93 W W1 = 3.810, W2 = 3.810, W3 = 3.810 W1 = 150, W2 = 150W3 = 150
TL235, TL237, TL238 0.022 λ, 20.93 W W1 = 3.810, W2 = 3.810, W3 = 1.778 W1 = 150, W2 = 150W3 = 70
TL236, TL239 0.018 λ, 20.93 W W = 3.810, L = 1.397 W = 150, L = 55
TL240 0.165 λ, 20.93 W W = 3.810, L = 13.106 W = 150, L = 516
TL241 0.006 λ, 20.93 W W = 3.810, L = 0.508 W = 150, L = 20
TL242, TL245 0.026 λ, 20.93 W W1 = 3.810, W2 = 3.810, W3 = 2.032 W1 = 150, W2 = 150, W3 = 80
TL243, TL246, TL247 0.000 λ, 34.08 W W = 2.032, L = 0.025 W = 80, L = 1
TL244 0.006 λ, 20.93 W W = 3.810, L = 0.508 W = 150, L = 20
TL248 W1 = 2.540, W2 = 1.270 W1 = 100, W2 = 50
Data Sheet 12 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
Reference Circuit (cont.)
Reference circuit assembly diagram (not to scale)*
*Gerber Files for this circuit available on request
+
+
10 µF
+
PTFB213004_IN_01
b 2 1 3 0 0 4 f _ C D _ 0 8 - 0 6 - 2 0 1 0
PTFB213004_OUT_02
R805
R801
R106
R803
R104
C106
C113
R105
C110
R107
C114
C102
C101
C103
C105
C104
C112
C111
C109
C801
C803 R802
C802
R804
RO4350, .020 (60)
RO4350, .020 (60)
C211
C201
C209
C210
C208
C212
C206
C207
C202
C213
C203
C204
C205
C214
VDD
VDD
RF IN RF OUT
VDD
S2
S3
S1
10 µF
PTFB213004F
Confidential, Limited Internal Distribution
Data Sheet 13 of 16 Rev. 05.2, 2010-12-09
Reference Circuit (cont.)
Circuit Assembly Information
Component Description Suggested Manufacturer P/N
Input
C101, C108, C111 Chip capacitor, 0.1 μF Digi-Key PCC104BTR-ND
C102, C112 Chip capacitor, 4.7 μF Digi-Key 493-2372-2-ND
C103 Chip capacitor, 8.2 pF ATC ATC100B8R2BW500XB
C104 Chip capacitor, 0.7 pF ATC ATC100A0R7BW150XB
C105, C106 Chip capacitor, 10 pF ATC ATC100B100FW500XB
C107 Capacitor, 10 μF Digi-Key 399-1655-2-ND
C109, C110 Chip capacitor, 10 pF ATC ATC100A100FW150XB
C113, C114 Chip capacitor, 0.6 pF ATC ATC100B0R6BW500XB
C801, C802, C803 Chip capacitor, 1000 pF Digi-Key PCC1772CT-ND
R101, R102 Resistor, 0 W Digi-Key P0.0ECT-ND
R103, R106, R107, R801, Resistor, 10 W Digi-Key P10ECT-ND
R803
R104, R105 Resistor, 0 W Digi-Key P0.0GCT-ND
R802 Resistor, 1200 W Digi-Key P1.2KECT-ND
R804 Resistor, 1300 W Digi-Key P1.3KGCT-ND
R805 Resistor, 100 W Digi-Key P100ECT-ND
S1 Potentiometer, 2k W Digi-Key 3224W-202ECT-ND
S2 Transistor Digi-Key BCP56
S3 Voltage Regulator Digi-Key LM7805
Output
C201 Chip capacitor, 8.2 pF ATC ATC100B8R2BW500XB
C202, C203 Capacitor, 10 μF Digi-Key 399-1655-2-ND
C204, C207 Chip capacitor, 1 μF Digi-Key 445-1411-2-ND
C205, C206 Chip capacitor, 2.2 μF Digi-Key 445-1447-2-ND
C208 Chip capacitor, 0.4 pF ATC ATC100B0R4BW500XB
C209, C210, C211, C212 Chip capacitor, 1.2 pF ATC ATC100A1R2BW150XB
C213, C214 Capacitor, 10 μF Digi-Key 587-1818-2-ND
Data Sheet 14 of 16 Rev. 05.2, 2010-12-09
PTFB213004F
Confidential, Limited Internal Distribution
V2
S = flange
G1 G2
D1 D2
V1
Pin Description
G1, G2 Gate
D1, D2 Drain
V1, V2 VDD
S Source (ange)
h - 3 6 / 3 7 2 7 5 - 8 _ B D- s _ 2 - 3 - 2 0 1 0
D
D
G
G
Pinout Diagram
See next page for package outline specications
PTFB213004F
Confidential, Limited Internal Distribution
Data Sheet 15 of 16 Rev. 05.2, 2010-12-09
V1
G1 G2
D2D1 V2
32.258
[1.270]
1.626
[0.064]
10.160
[.400]
4X 11.684
[.460]
2X 45° X 1.19
[45° X .047]
2X 1.143
[.045]
16.612±.500
[.654±.020]
9.398
[.370]
C
L
13.716
[.540]
9.144
[.360]
2X 3.175
[.125]
2X 30°
31.750
[1.250]
2X 2.032
[.080]
REF
2.134
[.084] SPH
3.226±0.508
[.127±.020]
31.242±0.280
[1.230±.011] 4.585+0.250
-0.127
[.180 +.010
-.005 ]
S
4X R0.508 +.381
-.127
[R.020+.015
-.005 ]C
LC
L
C
L
C
L
h-37275-6-2_po _07-21-2010
Diagram Notes—unless otherwise specied:
1. Interpret dimensions and tolerances per ASME Y14.5M-1994.
2. Primary dimensions are mm. Alternate dimensions are inches.
3. All tolerances ± 0.127 [.005] unless specied otherwise.
4. Pins: G1, G2 = gate; D1, D2 = drain; S = source; V1, V2 = VDD.
5. Lead thickness: 0.127 ± 0.051 [.005 ±.002].
6. Gold plating thickness: 1.1 ± 0.38 micron [45 ± 15 microinch].
Find the latest and most complete information about products and packaging at the Inneon Internet page
http://www.inneon.com/rfpower
Package Outline Specications
Package H-37275-6/2
Data Sheet 16 of 16 Rev. 05.2, 2010-12-09
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Your feedback will help us to continuously improve the quality of this document.
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PTFB213004F V2
Condential, Limited Internal Distribution
Revision History: 2010-12-09 Data Sheet
Previous Version: 2010-10-04
Page Subjects (major changes since last revision)
1 Updated ESD protection feature
6 Corrected impedance icon
12 Corrected package in reference circuit
Edition 2010-12-09
Published by
Inneon Technologies AG
81726 Munich, Germany
© 2009 Inneon Technologies AG
All Rights Reserved.
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