TRIQUINT TGF4260-SCC

Product Data Sheet
March 31, 2003
9.6 mm Discrete HFET
TGF4260-SCC
Key Features and Performance
•
•
•
•
•
•
•
9600 µm x 0.5 µm HFET
Nominal Pout of 37dBm at 6 GHz
Nominal Gain of 9.5dB at 6 GHz
Nominal PAE of 52% at 6 GHz
Frequency Range: DC - 10.5 GHz
Suitable for high reliability applications
0.6 x 2.4 x 0.1 mm (0.024 x 0.093 x 0.004 in)
Primary Applications
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•
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Cellular Base Stations
High-reliability space
Military
Description
The TriQuint TGF4260-SCC is a single gate 9.6 mm discrete GaAs Heterostructure
Field Effect Transistor (HFET) designed for high efficiency power applications up to
10.5 GHz in Class A and Class AB operation.
Typical performance at 6 GHz is 37dBm power output, 9.5 dB Gain, and 52% PAE.
Bond pad and backside metallization are gold plated for compatibility with eutectic
alloy attach methods as well as thermocompression and thermosonic wire bonding
processes.
The TGF4260-SCC is readily assembled using automatic equipment.
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
1
Product Data Sheet
March 31, 2003
TGF4260-SCC
TABLE I
MAXIMUM RATINGS
SYMBOL
VDS
VGS
PD
TCH
TSTG
TM
PARAMETER 1/
VALUE
Drain to Source Voltage
Gate to Source Voltage Range
Power Dissipation
Operating Channel Temperature
Storage Temperature
12 V
0 to -5.0 Volts
6.8 W
150°C
-65 to 200°C
Mounting Temperature (30 seconds)
NOTES
2/
3/, 4/
320°C
1/ These ratings represent the maximum values for this device. Stresses beyond those listed
under “Maximum Ratings” may cause permanent damage to the device. These are stress
ratings only, and functional operation of the device at these or any other conditions beyond
those indicated under “DC Probe Characteristics” is not implied. Exposure to maximum rated
conditions for extended periods may affect device reliability.
2/ When operated at this bias condition with a base plate temperature of 70 0C, the MTTF life is
reduced from 1.7 E+12 to 3 E+9 hours.
3/ Junction temperature will directly affect the device Mean Time to Failure (MTTF). For
maximum life, it is recommended that junction temperatures be maintained at the
lowest possible levels
4/ These ratings apply to each individual FET
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
2
Product Data Sheet
March 31, 2003
TGF4260-SCC
TABLE II
DC PROBE CHARACTERISTICS
(TA = 25 °C, Nominal)
Symbol
Parameter
Minimum
Typical
Maximum
Unit
Note
IDSS
Saturated Drain Current
--
2352
--
mA
1/
GM
Transconductance
--
1584
--
mS
1/
VP
Pinch-off Voltage
1
1.85
3
V
2/
VBGS
Breakdown Voltage
Gate-Source
Breakdown Voltage
Gate-Drain
17
22
30
V
2/
17
22
30
V
2/
VBGD
1/ Total for eight FETS
2/ VP, VBGS, and VBGD are negative.
TABLE III
ELECTRICAL CHARACTERISTICS
(TA = 25 °C, Nominal)
Bias Conditions: Vd = 8.5 V, Id = 520 mA
Symbol
Parameter
Typical
Unit
Pout
Output Power
37
dBm
Gp
Power Gain
9.5
dB
PAE
Power Added Efficiency
52
%
TABLE IV
THERMAL INFORMATION*
Parameter
RqJC Thermal
Resistance
(channel to backside
of carrier)
Test Conditions
Vd = 8.5 V
ID = 520 mA
Pdiss = 6.8 W
TCH
o
( C)
101.64
RqJC
(°C/W)
7.16
TM
(HRS)
1.7 E+12
Note: Assumes eutectic attach using 1.5 mil 80/20 AuSn mounted to a 20 mil
CuMo Carrier at 70°C baseplate temperature. Worst case condition with no RF
applied, 100% of DC power is dissipated.
* The thermal information is a result of a detailed thermal model.
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
3
Product Data Sheet
March 31, 2003
TGF4260-SCC
TYPICAL PERFORMANCE
(TA = 25 °C, Nominal)
1.4
1.2
Drain Current (A)
Vg
1.0
-2.25 V
-2.0 V
0.8
-1.75 V
-1.5 V
0.6
-1.25 V
0.4
-1.0 V
-0.75 V
0.2
0.0
0
1
2
3
4
5
6
7
8
9
10
Drain Voltage (V)
Bias Conditions: F = 6 GHz, Vd = 8.5 V, Iq = 795 mA
1.25
1.2
Drain Current (A)
1.15
1.1
1.05
1
0.95
0.9
0.85
0.8
16
18
20
22
24
26
28
30
Input Power (dBm)
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
4
Product Data Sheet
March 31, 2003
TGF4260-SCC
TYPICAL PERFORMANCE
Bias Conditions: F = 6 GHz, Vd = 8.5 V, Iq = 795 mA
55
50
45
PAE (%)
40
35
30
25
20
15
10
5
0
16
18
20
22
24
26
28
30
26
28
30
Input Power (dBm)
13
Gain (dB)
12
11
10
9
8
16
18
20
22
24
Input Power (dBm)
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
5
Product Data Sheet
March 31, 2003
TGF4260-SCC
TYPICAL PERFORMANCE
Bias Conditions: F = 6 GHz, Vd = 8.5 V, Iq = 795 mA
39
Output Power (dBm)
37
35
33
31
29
27
16
18
20
22
24
26
28
30
Input Power (dBm)
Bias Conditions: F = 6 GHz, Vd = 8.5 V, Id = 520 mA
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
6
Product Data Sheet
March 31, 2003
TGF4260-SCC
Unmatched Modeled S-Parameter Data for the
TGF4260-SCC
S11
S21
S12
S22
FREQ
MAG
ANG (°)
MAG
ANG (°)
MAG
ANG (°)
MAG
ANG (°)
(GHz)
dB
deg
dB
deg
dB
deg
dB
deg
0.5
-0.377
-142.378
16.279
105.604
-35.345
18.236
-2.334
-175.122
1.0
-0.368
-160.678
10.599
93.104
-35.031
9.671
-2.176
-176.556
1.5
-0.364
-167.064
7.118
86.611
-35.026
6.854
-2.126
-176.745
2.0
-0.360
-170.296
4.606
81.733
-35.090
5.622
-2.086
-176.594
2.5
-0.356
-172.250
2.630
77.536
-35.194
5.098
-2.044
-176.322
3.0
-0.351
-173.564
0.994
73.710
-35.320
5.000
-1.998
-176.008
3.5
-0.346
-174.511
-0.409
70.122
-35.473
5.217
-1.947
-175.688
4.0
-0.340
-175.232
-1.643
66.712
-35.645
5.705
-1.892
-175.382
4.5
-0.333
-175.802
-2.750
63.445
-35.831
6.448
-1.834
-175.099
5.0
-0.327
-176.269
-3.756
60.305
-36.027
7.442
-1.774
-174.846
5.5
-0.320
-176.662
-4.682
57.281
-36.233
8.690
-1.712
-174.627
6.0
-0.313
-177.000
-5.543
54.367
-36.444
10.198
-1.648
-174.441
6.5
-0.305
-177.297
-6.349
51.559
-36.648
11.968
-1.585
-174.290
7.0
-0.298
-177.562
-7.108
48.855
-36.845
14.002
-1.522
-174.172
7.5
-0.290
-177.803
-7.828
46.254
-37.028
16.295
-1.459
-174.084
8.0
-0.283
-178.025
-8.513
43.753
-37.190
18.833
-1.398
-174.026
8.5
-0.276
-178.231
-9.167
41.353
-37.323
21.596
-1.338
-173.995
9.0
-0.269
-178.424
-9.794
39.050
-37.419
24.556
-1.280
-173.988
9.5
-0.262
-178.607
-10.398
36.846
-37.484
27.673
-1.224
-174.004
10
-0.255
-178.782
-10.979
34.737
-37.503
30.902
-1.170
-174.039
10.5
-0.249
-178.949
-11.540
32.724
-37.477
34.192
-1.119
-174.091
11.0
-0.242
-179.110
-12.084
30.804
-37.406
37.493
-1.069
-174.160
11.5
-0.236
-179.266
-12.611
28.976
-37.291
40.755
-1.022
-174.241
12.0
-0.230
-179.417
-13.124
27.239
-37.140
43.932
-0.977
-174.335
12.5
-0.225
-179.564
-13.622
25.593
-36.948
46.987
-0.934
-174.438
13.0
-0.219
-179.708
-14.107
24.034
-36.719
49.893
-0.893
-174.551
13.5
-0.214
-179.848
-14.581
22.563
-36.472
52.628
-0.854
-174.670
14.0
-0.209
-179.986
-15.043
21.177
-36.199
55.182
-0.817
-174.796
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
7
Product Data Sheet
March 31, 2003
TGF4260-SCC
Mechanical Drawing
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should be observed during
handing, assembly and test.
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
8
Product Data Sheet
March 31, 2003
TGF4260-SCC
Assembly Process Notes
Reflow process assembly notes:
·
·
·
·
·
Use AuSn (80/20) solder with limited exposure to temperatures at or above 300 °C for 30 sec
An alloy station or conveyor furnace with reducing atmosphere should be used.
No fluxes should be utilized.
Coefficient of thermal expansion matching is critical for long-term reliability.
Devices must be stored in a dry nitrogen atmosphere.
Component placement and adhesive attachment assembly notes:
·
·
·
·
·
·
·
Vacuum pencils and/or vacuum collets are the preferred method of pick up.
Air bridges must be avoided during placement.
The force impact is critical during auto placement.
Organic attachment can be used in low-power applications.
Curing should be done in a convection oven; proper exhaust is a safety concern.
Microwave or radiant curing should not be used because of differential heating.
Coefficient of thermal expansion matching is critical.
Interconnect process assembly notes:
·
·
·
·
·
Thermosonic ball bonding is the preferred interconnect technique.
Force, time, and ultrasonics are critical parameters.
Aluminum wire should not be used.
Discrete FET devices with small pad sizes should be bonded with 0.0007-inch wire.
Maximum stage temperature is 200 °C.
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
Note: Die are shipped in gel pack unless otherwise specified.
TriQuint Semiconductor Texas : (972)994 8465
Fax: (972)994 8504 Web: www.triquint.com
9