TRIQUINT TGF2021-02

Advance Product Information
September 19, 2005
DC - 12 GHz Discrete power pHEMT
TGF2021-02
Key Features and Performance
•
•
•
•
•
•
•
Frequency Range: DC - 12 GHz
> 33 dBm Nominal Psat
59% Maximum PAE
11 dB Nominal Power Gain
Suitable for high reliability applications
2mm x 0.35 m Power pHEMT
Nominal Bias Vd = 8-12V, Idq = 150-250mA
(Under RF Drive, Id rises from 150mA to 480mA)
Chip Dimensions: 0.57 x 0. 79 x 0.10 mm
(0.022 x 0.031 x 0.004 in)
•
Product Description
The TGF2021-02 typically provides
> 33 dBm of saturated output power
with power gain of 11 dB. The
maximum power added efficiency is
59% which makes the TGF2021-02
appropriate for high efficiency
applications.
The TGF2021-02 is also ideally suited
for Point-to-point Radio, High-reliability
space, and Military applications.
Primary Applications
•
•
•
•
•
Point-to-point Radio
High-reliability space
Military
Base Stations
Broadband Wireless Applications
35
30
Maximum Gain (dB)
The TriQuint TGF2021-02 is a discrete
2 mm pHEMT which operates from DC12 GHz. The TGF2021-02 is designed
using TriQuint’s proven standard
0.35um power pHEMT production
process.
25
MSG
20
MAG
15
10
5
0
The TGF2021-02 has a protective
surface passivation layer providing
environmental robustness.
0
2
4
6
8
10
12
14
16
Frequency (GHz)
Lead-free and RoHS compliant
Note: This device is early in the characterization process prior to finalizing all electrical specifications. Specifications are subject to
change without notice.
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
1
Advance Product Information
September 19, 2005
TGF2021-02
TABLE I
MAXIMUM RATINGS
Symbol
V+
Parameter 1/
Positive Supply Voltage
-
Value
Notes
12.5 V
2/
V
Negative Supply Voltage Range
I+
Positive Supply Current
940 mA
| IG |
Gate Supply Current
14 mA
PIN
Input Continuous Wave Power
28 dBm
2/
PD
Power Dissipation
See note 3
2/ 3/
TCH
Operating Channel Temperature
150 °C
4/
TM
Mounting Temperature (30 Seconds)
320 °C
TSTG
-5V to 0V
2/
-65 to 150 °C
Storage Temperature
1/
These ratings represent the maximum operable values for this device.
2/
Combinations of supply voltage, supply current, input power, and output power shall
not exceed PD.
3/
4/
For a median life time of 1E+6 hrs, Power dissipation is limited to:
PD(max) = (150 °C – TBASE °C) / 43.3 (°C/W)
Junction operating temperature will directly affect the device median time to failure
(TM). For maximum life, it is recommended that junction temperatures be maintained
at the lowest possible levels.
TABLE II
DC PROBE CHARACTERISTICS
(TA = 25 qC, Nominal)
Symbol
Parameter
Minimum
Typical
Maximum
Unit
Idss
Saturated Drain Current
-
600
-
mA
Gm
Transconductance
-
750
-
mS
VP
Pinch-off Voltage
-1.5
-1
-0.5
V
VBGS
Breakdown Voltage
Gate-Source
Breakdown Voltage
Gate-Drain
-30
-
-14
V
-30
-
-14
V
VBGD
Note: For TriQuint’s 0.35um power pHEMT devices, RF breakdown >> DC breakdown
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
2
Advance Product Information
September 19, 2005
TABLE III
RF CHARACTERIZATION TABLE 1/
TGF2021-02
(TA = 25 °C, Nominal)
PARAMETER
Vd = 10V
Idq = 150mA
Vd = 12V
Idq = 150mA
UNITS
Psat
Saturated Output Power
33.8
34.5
dBm
PAE
Power Added Efficiency
50
48
%
Gain
Power Gain
11
11
dB
Rp 2/
Parallel Resistance
13.30
15.97
Ω
Cp 2/
Parallel Capacitance
0.927
0.953
pF
ΓL 3/,4/
Load Reflection coefficient
0.719 ∠ 164.9
0.720 ∠ 161.4
-
Psat
Saturated Output Power
33
33.7
dBm
PAE
Power Added Efficiency
59
55
%
Gain
Power Gain
11.5
11
dB
Rp 2/
Parallel Resistance
24.50
27.79
Ω
Cp 2/
Parallel Capacitance
1.077
1.011
pF
ΓL 3/, 4/
Load Reflection coefficient
0.778 ∠ 155.2
0.774 ∠ 152.7
-
SYMBOL
Power Tuned:
Efficiency Tuned:
1/ Values in this table are scaled from measurements taken from a 1mm unit pHEMT cell at 10 GHz
2/ Large signal equivalent pHEMT output network
3/ Optimum load impedance for maximum power or maximum PAE at 10 GHz
4 The reflection coefficients for this device have been calculated from the scaled large signal Rp & Cp.
The series resistance and inductance (Rd and Ld) shown in the Figure on page 4 is excluded
TABLE IV
THERMAL INFORMATION
Parameter
θJC Thermal Resistance
Test Conditions
Vd = 12 V
(channel to backside of carrier) Idq = 150 mA
Pdiss = 1.8 W
TCH
(oC)
TJC
(qC/W)
TM
(HRS)
148
43.3
1.2 E+6
Note: Assumes eutectic attach using 1.5 mil 80/20 AuSn mounted to a 20 mil CuMo
Carrier at 70°C baseplate temperature.
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
3
Advance Product Information
September 19, 2005
Linear Model for 1mm Unit pHEMT cell
TGF2021-02
Rdg
Lg
Rg
Cdg
Rd
Ld
Gate
Drain
Cgs
+
Rds
vi
Rgs
Ri
Cds
gm vi
8QLWS+(07FHOO
Rp, Cp
Ls
5HIHUHQFH3ODQH
Rs
Source
Gate
Source
UPC
Source
Drain
Source
UPC = 1 mm Unit pHEMT Cell
MODEL
PARAMETER
Vd = 8V
Idq = 75mA
Vd = 8V
Idq = 100mA
Vd = 8V
Idq = 125mA
Vd = 10V
Idq = 75mA
Vd = 10V
Idq = 100mA
Vd = 12V
Idq = 75mA
UNITS
Rg
0.45
0.45
0.45
0.45
0.450
0.45
Ω
Rs
0.14
0.14
0.14
0.17
0.160
0.19
Ω
Rd
0.41
0.43
0.46
0.41
0.450
0.410
Ω
gm
0.310
0.318
0.314
0.296
0.303
0.286
S
Cgs
2.39
2.58
2.70
2.61
2.74
2.72
pF
1.22
1.19
1.20
1.24
1.23
1.27
Ω
Cds
0.20
0.201
0.201
0.198
0.199
0.196
pF
Rds
149.1
152.3
158.8
171.8
173.7
187.9
Ω
Cgd
0.115
0.107
0.101
0.101
0.098
0.096
pF
Tau
6.29
6.63
6.99
7.19
7.410
7.79
pS
0.009
0.009
0.009
0.009
0.010
0.010
nH
Lg
0.089
0.089
0.089
0.089
0.089
0.089
Ld
0.120
0.120
0.120
0.120
0.120
0.120
Rgs
33000
33000
35100
28900
35700
24400
Ω
Rgd
349000
425000
405000
305000
366000
238000
Ω
Ri
Ls
nH
nH
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
4
Advance Product Information
September 19, 2005
TGF2021-02
Linear Model for 2mm pHEMT
L - via = 0.0135 nH (3x)
2
3
UPC
Gate Pads (2x)
Drain Pads (2x)
1
4
UPC
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
5
Advance Product Information
September 19, 2005
TGF2021-02
Unmatched S-parameter for 2mm pHEMT
Bias Conditions: Vd=12V, Idq=150mA
Frequency s11
s11 ang
s21
s21 ang
s12
s12 ang
s22
s22 ang
(GHz)
dB
deg
dB
deg
dB
deg
dB
deg
0.5
-0.444 -108.860
26.175
121.91
-32.618
34.41
-11.025
-98.11
1
-0.572
-140.91
21.362
103.42
-31.423
18.42
-11.493
-127.41
1.5
-0.605
-153.69
18.095
94.44
-31.187
11.96
-11.428
-137.24
2
-0.616
-160.46
15.676
88.41
-31.135
8.45
-11.181
-140.97
2.5
-0.620
-164.67
13.761
83.63
-31.146
6.22
-10.844
-142.33
3
-0.621
-167.58
12.175
79.50
-31.191
4.65
-10.455
-142.71
3.5
-0.619
-169.72
10.819
75.76
-31.257
3.50
-10.037
-142.70
4
-0.617
-171.39
9.632
72.27
-31.340
2.63
-9.606
-142.57
4.5
-0.613
-172.74
8.574
68.95
-31.437
1.98
-9.173
-142.48
5
-0.610
-173.86
7.619
65.77
-31.546
1.49
-8.745
-142.47
5.5
-0.605
-174.82
6.745
62.70
-31.666
1.16
-8.329
-142.57
6
-0.600
-175.66
5.939
59.71
-31.795
0.96
-7.926
-142.80
6.5
-0.595
-176.41
5.190
56.80
-31.933
0.89
-7.540
-143.14
7
-0.589
-177.09
4.488
53.96
-32.077
0.95
-7.172
-143.58
7.5
-0.584
-177.71
3.828
51.18
-32.228
1.13
-6.821
-144.12
8
-0.578
-178.28
3.203
48.45
-32.384
1.44
-6.489
-144.73
8.5
-0.572
-178.81
2.610
45.78
-32.543
1.87
-6.174
-145.42
9
-0.566
-179.32
2.044
43.16
-32.704
2.42
-5.876
-146.17
9.5
-0.559
-179.80
1.503
40.59
-32.865
3.11
-5.595
-146.97
10
-0.553
179.75
0.984
38.06
-33.025
3.92
-5.330
-147.81
10.5
-0.547
179.31
0.485
35.58
-33.182
4.85
-5.079
-148.69
11
-0.541
178.88
0.005
33.15
-33.333
5.92
-4.842
-149.59
11.5
-0.535
178.47
-0.459
30.75
-33.478
7.10
-4.619
-150.52
12
-0.528
178.08
-0.908
28.40
-33.614
8.41
-4.409
-151.46
12.5
-0.522
177.69
-1.343
26.09
-33.738
9.83
-4.210
-152.42
13
-0.516
177.31
-1.765
23.82
-33.849
11.36
-4.022
-153.39
13.5
-0.510
176.94
-2.175
21.59
-33.946
12.98
-3.844
-154.36
14
-0.505
176.57
-2.574
19.39
-34.026
14.69
-3.677
-155.34
14.5
-0.499
176.21
-2.963
17.23
-34.088
16.48
-3.518
-156.32
15
-0.493
175.86
-3.341
15.10
-34.130
18.32
-3.368
-157.29
15.5
-0.488
175.51
-3.710
13.01
-34.153
20.21
-3.226
-158.27
16
-0.483
175.16
-4.071
10.95
-34.154
22.13
-3.091
-159.24
16.5
-0.477
174.82
-4.424
8.93
-34.135
24.06
-2.964
-160.21
17
-0.472
174.49
-4.769
6.93
-34.095
25.99
-2.843
-161.17
17.5
-0.467
174.15
-5.107
4.97
-34.035
27.90
-2.728
-162.13
18
-0.463
173.82
-5.439
3.03
-33.956
29.77
-2.619
-163.07
18.5
-0.458
173.49
-5.764
1.13
-33.859
31.60
-2.515
-164.02
19
-0.453
173.17
-6.083
-0.75
-33.745
33.37
-2.416
-164.95
19.5
-0.449
172.85
-6.396
-2.61
-33.615
35.08
-2.323
-165.87
20
-0.445
172.53
-6.704
-4.44
-33.473
36.72
-2.233
-166.79
20.5
-0.441
172.21
-7.007
-6.24
-33.318
38.28
-2.148
-167.69
21
-0.437
171.89
-7.306
-8.03
-33.153
39.75
-2.067
-168.59
21.5
-0.433
171.58
-7.600
-9.79
-32.979
41.15
-1.989
-169.48
22
-0.429
171.26
-7.890
-11.53
-32.798
42.46
-1.915
-170.36
22.5
-0.425
170.95
-8.176
-13.25
-32.611
43.68
-1.845
-171.23
23
-0.422
170.64
-8.459
-14.95
-32.419
44.83
-1.777
-172.10
23.5
-0.418
170.34
-8.738
-16.63
-32.224
45.89
-1.713
-172.95
24
-0.415
170.03
-9.015
-18.29
-32.026
46.87
-1.651
-173.79
24.5
-0.412
169.72
-9.288
-19.94
-31.826
47.79
-1.591
-174.63
25
-0.409
169.42
-9.559
-21.57
-31.626
48.63
-1.534
-175.46
25.5
-0.406
169.12
-9.828
-23.19
-31.426
49.40
-1.480
-176.28
26
-0.403
168.82
-10.094
-24.79
-31.226
50.10
-1.427
-177.09
Note: The s-parameters are calculated by connecting nodes 1-2 together, and
nodes 3-4 together to form a 2-port network.
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
6
Advance Product Information
September 19, 2005
TGF2021-02
Mechanical Drawing
>@
1(
5&
%
>@
DRAIN
>@
>@
>@
GATE
>@
>@
>@
8QLWVPLOOLPHWHUVLQFKHV
7KLFNQHVV
&KLSHGJHWRERQGSDGGLPHQVLRQVDUHVKRZQWRFHQWHURIERQGSDG
&KLSVL]HWROHUDQFH
*1',6%$&.6,'(2)00,&
%RQGSDGV*DWH[[
%RQGSDGV'UDLQ[[
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should be observed during
handing, assembly and test.
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
7
Advance Product Information
September 19, 2005
TGF2021-02
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.
Do not use flux
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.
Devices with small pad sizes should be bonded with 0.0007-inch wire.
Maximum stage temperature is 200 °C.
TriQuint Semiconductor Texas: Phone (972)994-8465 Fax (972)994-8504 Email: [email protected] Web: www.triquint.com
8