TGF2960-SD
Primary Applications
Key Features
900 MHz Application Board
Performance
0.5 Watt DC-5 GHz Packaged HFET
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
Frequency Range: DC-5 GHz
Nominal 900 MHz Application Board Performance:
TOI: 40 dBm
28 dBm Psat, 27 dBm P1dB
Gain: 19 dB
Input Return Loss: -10 dB
Output Return Loss: -5 dB
Bias: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V
(Typical)
Package Dimensions: 4.5 x 4 x 1.5 mm
Cellular Base Stations
WiMAX
Wireless Infrastructure
IF & LO Buffer Applications
20
20
25
30
1
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Datasheet subject to change without notice.
Product Description
IF & LO Buffer Applications
RFID
The TGF2960-SD is a high performance 1/2-watt
Heterojunction GaAs Field Effect Transistor
(HFET) housed in a low cost SOT89 surface
mount package.
The device’s ideal operating point is at a drain bias
of 8 V and 100 mA. At this bias at 900 MHz when
matched into 50 ohms using external components,
this device is capable of 19 dB of gain, 28 dBm of
saturated output power, and 40 dBm of output IP3.
Evaluation boards at 900 MHz, 1900 MHz and
2100 MHz available on request.
RoHS and Lead-Free compliant.
5
10
15
0.6 0.7 0.8 0.9 1.0 1.1 1.2
Frequency (GHz)
Gain (dB)
-30
-25
-20
-15
-10
-5
0
5
10
15
IRL and ORL (dB)
Gain
IRL
ORL
26
27
28
29
0.86
0.88
0.90
0.92
0.94
0.96
0.98
Frequency (GHz)
Psat (dBm)
TGF2960-SD
Table I
Absolute Maximum Ratings 1/
Symbol Parameter Value Notes
Vd-Vg Drain to Gate Voltage 17 V
Vd Drain Voltage 9 V 2/
Vg Gate Voltage Range -5 to 0 V
Id Drain Current 390 mA 2/
Ig Gate Current Range -2.4 to 17.8 mA
Pin Input Continuous Wave Power 26 dBm 2/
1/ These ratings represent the maximum operable values for this device. Stresses beyond those listed
under “Absolute Maximum Ratings” may cause permanent damage to the device and / or affect
device lifetime. These are stress ratings only, and functional operation of the device at these
conditions is not implied.
2/
Combinations of supply voltage, supply current, input power, and output power shall not exceed the
2
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2/
Combinations of supply voltage, supply current, input power, and output power shall not exceed the
maximum power dissipation listed in Table IV.
Symbol Parameter 1/ Typical Value
Vd Drain Voltage 8 V
Idq Drain Current 100 mA
Id Drain Current at Psat 130 mA
Vg Gate Voltage -1.0 V
1/ See assembly diagram for bias instructions.
Table II
Recommended Operating Conditions
TGF2960-SD
Table III
Electrical Performance
Test conditions unless otherwise specified: fin = 900 MHz, 25°C; Vd = 8V, Idq = 100
mA, Vg = -1.0 Typical; See test circuit for 900 MHz operation
1/ 900 and 910 MHz, 16 dBm output power per tone
SYMBOL PARAMETER MIn Nom UNIT
Gain Small Signal Gain 18 19 dB
P1dB Output Power @ 1dB Compression 25.5 27 dBm
OTOI 3rd Order Output Intercept Point 1/ 37 40 dBm
3
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TGF2960-SD
Table IIIa
RF Characterization Table
SYMBOL PARAMETER TEST CONDITIONS NOMINAL UNITS NOTES
Gain Small Signal Gain 900 MHz
1900 MHz
2100 MHz
19
16
15
dB 1/
2/
3/
IRL Input Return Loss 900 MHz
1900 MHz
2100 MHz
-10
-10
-10
dB 1/
2/
3/
ORL Output Return Loss 900 MHz
1900 MHz
2100 MHz
-5
-6
-6
dB 1/
2/
3/
Psat Saturated Output
Power
900 MHz
1900 MHz
2100 MHz
28
28
28
dBm 1/
2/
3/
P1dB
Output Power @ 1dB
900 MHz
27
1/
Bias: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V, typical
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P1dB
Output Power @ 1dB
Compression
900 MHz
1900 MHz
2100 MHz
27
27
27
1/
2/
3/
TOI Output TOI 900 MHz
1900 MHz
2100 MHz
40
39
39
dBm 1/
4/
5/
NF Noise Figure 900 MHz
1900 MHz
2100 MHz
3.7
4.3
4.3
dB 1/
2/
3/
1/ Using 900 MHz Application Board
2/ Using 1900 MHz Application Board tuned for maximum output power
3/ Using 2100 MHz Application Board tuned for maximum output power
4/ Using 1900 MHz Application Board tuned for maximum TOI (reduces output power reduced by 1 dB)
5/ Using 2100 MHz Application Board tuned for maximum TOI (reduces output power reduced by 1 dB)
TGF2960-SD
Table IV
Power Dissipation and Thermal Properties
Parameter Test Conditions Value
Maximum Power Dissipation Tbaseplate = 70°C Pd = 1.37 W
Tchannel = 175°C
Tm = 8.77E+06 Hrs
Thermal Resistance, θjc Vd = 8 V
Id = 100 mA
Pd = 0.8 W
Tbaseplate = 85°C
θjc = 77 (°C/W)
Tchannel = 146.5°C
Tm = 2.06E+08 Hrs
Thermal Resistance, θjc
at Psat
Vd = 8 V
Id =130 mA
Pout = 27 dBm
Pd = 0.54 W
Tbaseplate = 85°C
θjc = 77 (°C/W)
Tchannel = 126°C
Tm = 2.48E+09 Hrs
Mounting Temperature See ‘Typical Solder Reflow Profiles’ Table
Storage Temperature -65 to 150°C
5
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TGF2960-SD
Gmax, Max Stable Gain, K factor
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
5
10
15
20
25
30
35
Gmax and MSG - dB
0.5
1.0
1.5
2.0
2.5
3.0
3.5
K factor
Gmax
Max Stable Gain
K factor
6
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0
5
0 1 2 3 4 5 6 7
Frequency (GHz)
0.0
0.5
TGF2960-SD
Measured Data 900 MHz Application Board
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
10
15
20
25
0.6 0.7 0.8 0.9 1.0 1.1 1.2
Frequency (GHz)
Gain (dB)
7
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Frequency (GHz)
-30
-25
-20
-15
-10
-5
0
0.6 0.7 0.8 0.9 1.0 1.1 1.2
Frequency (GHz)
IRL and ORL (dB)
IRL ORL
TGF2960-SD
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
Measured Data 900 MHz Application Board
25
26
27
28
0.86
0.88
0.90
0.92
0.94
0.96
0.98
Frequency (GHz)
P1dB (dBm)
-40 deg C
25 deg C
85 deg C
8
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Frequency (GHz)
26
27
28
29
0.86
0.88
0.90
0.92
0.94
0.96
0.98
Frequency (GHz)
Psat (dBm)
-40 deg C
25 deg C
85 deg C
TGF2960-SD
Measured Data 900 MHz Application Board
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
39
40
41
42
0.82
0.84
0.86
0.88
0.90
0.92
0.94
0.96
0.98
1.00
1.02
Frequency (GHz)
OIP3 (dBm)
9
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Frequency (GHz)
TGF2960-SD
Measured Data 1900 MHz Application Board
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
5
10
15
20
1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4
Frequency (GHz)
Gain (dB)
10
July 2010 © Rev A
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 Info-mmw@tqs.com
Frequency (GHz)
-30
-25
-20
-15
-10
-5
0
1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4
Frequency (GHz)
IRL and ORL (dB)
IRL ORL
TGF2960-SD
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
Measured Data 1900 MHz Application Board
23
24
25
26
27
28
1.88
1.90
1.92
1.94
1.96
1.98
2.00
2.02
2.04
Frequency (GHz)
P1dB (dBm)
-40 deg C
25 deg C
85 deg C
11
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Frequency (GHz)
26
27
28
29
1.88
1.90
1.92
1.94
1.96
1.98
2.00
2.02
2.04
Frequency (GHz)
Psat (dBm)
-40 deg C
25 deg C
85 deg C
TGF2960-SD
Measured Data 1900 MHz Application Board
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
38
39
40
41
1.92
1.94
1.96
1.98
2.00
Frequency (GHz)
OIP3 (dBm)
(Tuned for Max IP3, P1dB reduced by 1 dB)
12
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37
38
39
40
1.92
1.94
1.96
1.98
2.00
Frequency (GHz)
OIP3 (dBm)
(Tuned for Max Pout)
Frequency (GHz)
TGF2960-SD
Measured Data 2100 MHz Application Board
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
5
10
15
20
1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4
Frequency (GHz)
Gain (dB)
13
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-30
-25
-20
-15
-10
-5
0
1.7 1.8 1.9 2 2.1 2.2 2.3 2.4
Frequency (GHz)
IRL and ORL (dB)
IRL ORL
Frequency (GHz)
TGF2960-SD
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
Measured Data 2100 MHz Application Board
23
24
25
26
27
28
29
2.06
2.08
2.10
2.12
2.14
2.16
2.18
2.20
2.22
Frequency (GHz)
P1dB (dBm)
-40 deg C
25 deg C
85 deg C
14
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Frequency (GHz)
24
25
26
27
28
29
30
2.06
2.08
2.10
2.12
2.14
2.16
2.18
2.20
2.22
Frequency (GHz)
Psat (dBm)
-40 deg C
25 deg C
85 deg C
TGF2960-SD
37
38
39
40
2.07
2.09
2.11
2.13
2.15
2.17
2.19
2.21
Frequency (GHz)
OIP3 (dBm)
Measured Data 2100 MHz Application Board
Bias conditions: Vd = 8 V, Idq = 100 mA, Vg = -1.0 V Typical
(Tuned for Max IP3, P1dB reduced by 1 dB)
15
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Frequency (GHz)
37
38
39
40
2.07
2.09
2.11
2.13
2.15
2.17
2.19
2.21
Frequency (GHz)
OIP3 (dBm)
(Tuned for Max Pout)
TGF2960-SD
Electrical Schematic
123
2
Pin Signal
1 RF In (Gate)
2 Gnd (Source)
3 RF Out (Drain)
16
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Bias Procedures
Bias-up Procedure
Vg set to -2.5 V
Vd set to +8 V
Adjust Vg more positive until Idq is 100 mA. This will be ~ Vg = -1.0 V
Apply RF signal to input
Bias-down Procedure
Turn off RF signal at input
Reduce Vg to -2.5V. Ensure Id ~ 0 mA
Turn Vd to 0 V
Turn Vg to 0 V
TGF2960-SD
Mechanical Drawing
A
B
C
D
E
F
G
H
JJ
I
K
123
2
3
2
1
Millimeters
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GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
Dim
Millimeters
Min Max
A 1.40 1.60
B 4.40 4.60
C 2.29 2.60
D 3.94 4.25
E 3.00 Center-Center
F 1.50 Center-Center
G 0.35 0.44
H 0.89 1.20
I 0.44 0.56
J 0.36 0.48
K 1.50 1.83
TGF2960-SD
C6
C8
C10 C9
C7
C5
Gnd
Vd
Vg
RF IN
L3
C2
RF OUT
Q1
C4
C3 C1 R2
L1
R1
L2
L4
(900 MHz Only)
D /
λ
D /
λ
(900 MHz)
(1900 & 2100 MHz)
Evaluation Board
18
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GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
Evaluation Board Schematic
RF IN C3
L1 C1 R2
D /
λ
L2
R1
Vd
Q1
L3
C2
C4 RF OUT
C6 C8 C10 C5 C7 C9
Vg
L4
(900
MHz
Only)
Z = 50
0
Z = 50
0
TGF2960-SD
Ref Des Value for Freq (MHz) Description
900 1900 2100
L1 4.7 nH 1.2 nH 1.5 nH 0603 ACCU-L AVX Inductor
C1 22 pF 1.2 pF 1.2 pF 0603 ACCU-P AVX Capacitor
C2 0.7 pF 0.6 pF 0.6 pF 0603 ACCU-P AVX Capacitor
D 18.8 mm 14.2 mm 5.8 mm Physical Location for C2
D 18.8 mm 14.2 mm 5.8 mm Physical Location for C2 for maximum
power
λ
λλ
λ36o@0.9
GHz
58o@1.9
GHz
26o@2.1
GHz
50 Ohm Transmission Line Length D
for maximum power
D 18.8 mm 17.2 mm 9.6 mm Physical Location for C2 for maximum
TOI
λ
λλ
λ
36o@0.9 70o@1.9 39o@2.1 50 Ohm Transmission Line Length D
Evaluation Board Bill of Materials
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λ
λλ
λ
GHz GHz GHz for maximum TOI
L2, L3 50 nH 0805 Inductor
L4 1.2 nH -- -- 0603 ACCU-L AVX Inductor
C3,C4 150 pF 0603 Capacitor
C5, C6 0.1 µ
µµ
µF 0603 Capacitor
C7, C8 0.01 µ
µµ
µF 0603 Capacitor
C9, C10 1000 pF 0603 Capacitor
R1 50 Ohms 0805 1/8 Watt Resistor
R2 11 Ohms 3 Ohms 5.1 Ohms 0805 1/8 Watt Resistor
Q1 -- TriQuint TGF2960-SD Packaged FET
(PCB) -- 28 mil thick GETEK
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
TGF2960-SD
Recommended Assembly Diagram
2.6 mm Ø CLEARANCE HOLE
FOR 2-56 SOCKET HEAD CAP SCREW (2/)
4.6 mm Ø SOLDERMASK
KEEPOUT FOR 2-56 LOCKWASHER (4/)
SOT-89 PACKAGE OUTLINE
ARRAY OF VIAS (1/)
7.6 X 7.6 mm COPPER AREA (3/)
1 2 3
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1/ The lowest possible thermal and electrical resistance for Pin 2 is critical for optimal performance. The array
of vias under Pin 2 should be as small and as dense as the PC board fabrication permits. 0.30 mm diameter
vias on 0.60 mm center to center spacing is recommended.
2/ Mounting screws in the vicinity of the package improve heat transfer to the chassis or to a heat spreader
located on the backside of the PC board. Shown are clearance holes and solder mask keepout zone for a 2-
56 socket head cap screw. Use of a split lockwasher and proper torque on the screw will prevent
compression damage to the PC board.
3/ Use of 1 oz copper (min) in the PC board construction is recommended.
4/ For lowest thermal resistance, solder mask must be removed where the copper traces on the PC board
contact the heat spreader. In this example, this would be a) front and backsides of the PC board around the
2-56 screw and b) front of the PC board around package pin 2.
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
Assembly Notes
TGF2960-SD
Recommended Surface Mount Package Assembly
Proper ESD precautions must be followed while handling packages.
Clean the board with acetone. Rinse with alcohol. Allow the circuit to fully dry.
TriQuint recommends using a conductive solder paste for attachment. Follow solder paste and reflow oven
vendors’ recommendations when developing a solder reflow profile. Typical solder reflow profiles are listed
in the table below.
Hand soldering is not recommended. Solder paste can be applied using a stencil printer or dot placement.
The volume of solder paste depends on PCB and component layout and should be well controlled to
ensure consistent mechanical and electrical performance.
Clean the assembly with alcohol.
Typical Solder Reflow Profiles
Reflow Profile SnPb Pb Free
Ramp-up Rate 3 °C/sec 3 °C/sec
Activation Time and
60 120 sec @ 140 160
°
C
60 180 sec @ 150 200
°
C
21
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Ordering Information
Part Package Style
TGF2960-SD, TAPE AND REEL SOT-89, TAPE AND REEL
Activation Time and
Temperature
60 120 sec @ 140 160
°
C
60 180 sec @ 150 200
°
C
Time above Melting Point 60 150 sec 60 150 sec
Max Peak Temperature 240 °C 260 °C
Time within 5 °C of Peak
Temperature 10 20 sec 10 20 sec
Ramp-down Rate 4 6 °C/sec 4 6 °C/sec