TRIQUINT 1071363

TQP7M9101
¼W High Linearity Amplifier
Applications




Repeaters
Mobile Infrastructure
CDMA / WCDMA / LTE
General Purpose Wireless
3-pin SOT-89 Package
Product Features










Functional Block Diagram
400-4000 MHz
+25 dBm P1dB
+39.5 dBm Output IP3
17.5 dB Gain @ 2140 MHz
+5V Single Supply, 87 mA Current
No output matching required
Internal RF overdrive protection
Internal DC overvoltage protection
On chip ESD protection
SOT-89 Package
GND
4
General Description
1
2
3
RF IN
GND
RF OUT
Pin Configuration
The TQP7M9101 is a high-linearity driver amplifier in a
standard SOT-89 surface mount package. This
InGaP/GaAs HBT delivers high performance across a
broad range of frequencies with +40 dBm OIP3 and +25
dBm P1dB while only consuming 87 mA quiescent
current. All devices are 100% RF and DC tested.
Pin #
Symbol
1
3
2, 4
The TQP7M9101 incorporates on-chip features that
differentiate it from other products in the market. The RF
output is internally matched in to 50 ohms. Only input
matching is required for optimal performance in specific
frequency bands making the component easy for design
engineers to implement in their systems. The amplifier
integrates an on-chip DC over-voltage and RF over-drive
protection. This protects the amplifier from electrical DC
voltage surges and high input RF input power levels that
may occur in a system. On-chip ESD protection allows
the amplifier to have a very robust Class 2 HBM ESD
rating.
RF Input
RF Output / Vcc
Ground
Ordering Information
The TQP7M9101 is targeted for use as a driver amplifier
in wireless infrastructure where high linearity, medium
power, and high efficiency are required. The device an
excellent candidate for transceiver line cards in current
and next generation multi-carrier 3G / 4G base stations.
Part No.
Description
TQP7M9101
TQP7M9101-PCB900
TQP7M9101-PCB2140
0.25 W High Linearity Amplifier
TQP7M9101 869-960 MHz EVB
TQP7M9101 2.11-2.17 GHz EVB
Standard T/R size = 1000 pieces on a 7” reel.
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 1 of 1 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Specifications
Recommended Operating Conditions
Absolute Maximum Ratings
Parameter
Rating
Parameter
Storage Temperature
Device Voltage,Vcc
Maximum Input Power
-65 to +150 °C
+8 V
+23 dBm
Vcc
Tcase
Tj (for>106 hours MTTF)
Operation of this device outside the parameter ranges given
above may cause permanent damage.
Min
+3
-40
Typ Max Units
+5
+5.25
85
160
V
C
°
C
°
Electrical specifications are measured at specified test conditions.
Specifications are not guaranteed over all recommended operating
conditions.
Electrical Specifications
Test conditions unless otherwise noted: +25°C, +5V Vsupply, in a tuned application circuit
Parameter
Operational Frequency Range
Test Frequency
Gain
Input Return Loss
Output Return Loss
Output P1dB
Output IP3
Conditions
Min
Typical
400
See Note 1.
WCDMA Pout @ -55 dBc ACLR
Noise Figure
Vcc
Quiescent Current, Icq
Thermal Resistance (jnc to case) θjc
Max
Units
4000
MHz
MHz
dB
dB
dB
dBm
dBm
dBm
dB
V
mA
°
C/W
2140
17.5
15
13.5
+25
+39.5
+14.5
3.9
5
87
71
Notes
1. OIP3 measured with two tones at an output power of +8 dBm / tone separated by 1 MHz. The suppression on the largest IM3 product is
used to calculate the OIP3 using 2:1 rule.
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 2 of 2 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Device Characterization Data
Gain vs Frequency
Output Smith Chart
Input Smith Chart
40
1
0.8
30
4 GHz
4 GHz
0.6
Maximum Stable Gain (GMAX)
Gain (dB)
0.4
20
0.4 GHz
0.2
0
10
-0.2 0 0.25 0.5 0.75 1
-1 -0.75-0.5-0.25
Insertion Gain (S21)
0.4 GHz
0
-0.4
-0.6
‐10
-0.8
0
1
2
3
4
-1
Frequency (GHz)
Note: The gain for the unmatched device in a 50 ohm system is shown as the trace labeled “Insertion Gain (S21)”. In a circuit tuned
for a particular frequency band, it is expected that actual gain will be higher, up to the Maximum Stable Gain (GMAX).
S-Parameter Data
Vcc = +5 V, Icc = 87 mA, T = +25°C, unmatched 50 Ohm system, reference plane at device leads
Freq
(MHz)
400
600
800
1000
1200
1400
1600
1800
2000
2200
2400
2600
2800
3000
3200
3400
3600
3800
4000
S11 (dB)
S11 (ang)
S21 (dB)
S21 (ang)
-3.74
-2.43
-2.00
-1.81
-1.71
-1.68
-1.66
-1.65
-1.56
-1.60
-1.43
-1.41
-1.43
-1.45
-1.36
-1.40
-1.32
-1.19
-1.11
-154.94
-174.00
175.84
167.43
160.50
155.82
149.16
143.36
137.28
131.41
126.29
122.01
117.57
114.12
109.38
103.72
98.51
93.06
89.37
16.08
16.93
16.72
16.29
15.71
15.15
14.58
13.98
13.45
12.80
12.14
11.52
10.99
10.53
10.15
9.69
8.99
8.49
8.02
172.65
152.42
137.72
123.90
112.48
102.29
91.96
82.32
72.43
64.37
56.45
48.81
41.39
34.73
27.42
19.90
12.40
5.24
-0.57
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 3 of 3 -
S12 (dB)
S12 (ang)
-30.84
-28.85
-28.64
-28.38
-28.45
-28.29
-28.34
-28.40
-28.25
-28.52
-28.43
-28.73
-28.68
-28.78
-28.85
-29.00
-29.04
-29.04
-29.02
32.65
13.25
3.42
-4.74
-10.23
-15.72
-19.66
-25.64
-30.76
-35.06
-39.47
-42.87
-47.17
-49.96
-52.90
-59.40
-63.10
-68.03
-70.86
S22 (dB)
-4.47
-6.02
-6.63
-7.05
-7.29
-7.67
-7.92
-8.05
-8.05
-7.96
-7.47
-7.49
-7.71
-7.92
-7.87
-7.85
-7.32
-6.75
-6.53
S22 (ang)
155.03
149.89
147.55
144.48
142.81
139.67
136.04
132.86
129.68
125.67
122.90
122.21
119.34
116.57
114.37
106.77
100.14
96.77
95.94
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Application Circuit 869-960 MHz
1071363AW REV - 1071363PC REV +VCC
GND
SOT89 EVAL. BRD., 1/2 WATT
Notes:
1. See PC Board Layout, page 8 for more information.
2. Components shown on the silkscreen but not on the schematic are not used.
3. 0 Ω resistors (C2,R1,R4) may be replaced with copper trace in the target application layout.
4. The recommended component values are dependent upon the frequency of operation.
5. All components are of 0603 size unless stated on the schematic.
6. Critical component placement locations:
Distance from U1 Pin 1 (left edge) to C5 (right edge): 410 mils (19.0 deg. at 900 MHz)
Distance from U1 Pin 1 (left edge) to R1 (right edge): 115 mils (5.3 deg. at 900 MHz)
Distance from U1 Pin 3 (right edge) to R2 (left edge): 270 mils (12.5 deg. at 900 MHz)
Bill of Material
Ref Des
n/a
J1, J2
U1
R1, C2, R4
L1
C1
R2, C3
C4
C5
J3, J4
Value
n/a
n/a
n/a
0Ω
33 nH
5.6 pF
100 pF
1.0 uF
3.9 pF
n/a
Description
Manuf.
Part Number
Printed Circuit Board
RF SMA Connector
Amplifier, SOT-89 pkg.
Resistor, Chip, 0603, 5%, 1/16W
Inductor, 0805, 5%, Coilcraft CS Series
Cap., Chip, 0603, +/-0.1pF. 200V. NPO/COG
Cap., Chip, 5%, 50V, NPO/COG
Cap., Chip, 10%, 10V, X5R
Cap., Chip, 0603, +/-0.1pF. 200V NPO/COG
Solder Turret
TriQuint
Johnson Comp.
TriQuint
various
Coilcraft
AVX
various
various
AVX
various
1071363
142-0701-851
TQP7M9101
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 4 of 4 -
0805CS-330XJLB
06032U5R6BAT2A
06032U3R9BAT2A
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Typical Performance 869-960 MHz
Frequency
MHz
869
920
960
Gain
Input Return Loss
Output Return Loss
Output P1dB
Output IP3 (+8 dBm/tone, ∆f = 1 MHz)
WCDMA Channel Power (at -55 dBc ACLR) [1]
Noise Figure
Supply Voltage, Vcc
Quiescent Collector Current, Icq
dB
dB
dB
dBm
dBm
dBm
dB
V
mA
20.2
12
18
+24.3
+39.2
+12.7
4.0
20.4
17
23
+24.4
+38.6
+13.4
4.0
+5
87
20.1
14
17
+24.4
+38.2
+13.5
3.9
Notes:
1.
ACLR Test set-up: 3GPP WCDMA, TM1+64 DPCH, +5 MHz offset, PAR = 10.2 dB at 0.01% Prob.
RF Performance Plots 869-960 MHz
−40°C
+25°C
+85°C
-5
Return Loss (dB)
22
21
20
19
-15
-20
-25
18
900
920
940
960
880
Freq (MHz)
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
900
920
940
960
860
42
-50
+85°C
+25°C
−40°C
-55
40
-65
38
14
15
16
8
Pout (dBm)
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
-40
-45
10
12
14
OIP3 (dBm)
-65
15
16
Pout (dBm)
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
17
920
940
960
Freq.= 920 MHz
24
960 MHz
920 MHz
869 MHz
40
900
Output Power vs. Input Power
26
38
22
−40°C
+25°C
+85°C
20
18
34
14
880
Frequency (MHz)
36
13
860
Temp.=+25°C
42
-60
12
24
1 MHz Tone Spacing
-55
11
25
16
OIP3 Vs. Pout/Tone
44
Temp.=+25°C
960 MHz
920 MHz
869 MHz
-50
−40°C
+25°C
+85°C
Pout/Tone (dBm)
ACLR Vs. Output Power
-35
960
22
6
17
940
23
34
13
920
26
+85°C
+25°C
−40°C
36
-60
12
900
P1dB vs. Frequency
27
Freq.=920 MHz
1 MHz Tone Spacing
Freq.=920 MHz
-45
11
880
Axis Title
OIP3 Vs. Pout/Tone
44
OIP3 (dBm)
ACLR (dBc)
-40
-20
Axis Title
ACLR Vs. Output Power
-35
-15
-30
860
P1dB (dBm)
880
−40°C
+25°C
+85°C
-10
-25
-30
860
ACLR (dBc)
-5
−40°C
+25°C
+85°C
-10
Output Return Loss vs. Frequency
0
Pout (dBm)
Gain (dB)
Input Return Loss vs. Frequency
0
Return Loss (dB)
Gain vs. Frequency
23
16
6
8
10
12
Pout/Tone (dBm)
- 5 of 5 -
14
16
-3
-1
1
3
5
7
Pin (dBm)
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Application Circuit 2110-2170 MHz
1071363AW REV - 1071363PC REV +VCC
GND
SOT89 EVAL. BRD., 1/2 WATT
Notes:
1. See PC Board Layout, page 8 for more information.
2. Components shown on the silkscreen but not on the schematic are not used.
3. 0 Ω resistors (C1,R2,R4) may be replaced with copper trace in the target application layout.
4. The recommended component values are dependent upon the frequency of operation.
5. All components are of 0603 size unless stated on the schematic.
6. Critical component placement locations:
Distance from U1 Pin 1 (left edge) to R8 (right edge): 40 mils (4.4 deg. at 2140 MHz)
Distance from U1 Pin 1 (left edge) to R1 (right edge): 115 mils (12.7 deg. at 2140 MHz)
Distance from U1 Pin 3 (right edge) to C2 (left edge): 450 mils (49.8 deg. at 2140 MHz)
Bill of Material
Ref Des
n/a
J1, J2
U1
C1, R2, R4
L1
R1
R8
C2
C3
C4
J3, J4
Value
n/a
n/a
n/a
0Ω
18 nH
1.8 pF
1.0 pF
10 pF
22 pF
1.0 uF
n/a
Description
Manuf.
Part Number
Printed Circuit Board
RF SMA Connector
Amplifier, SOT-89 pkg.
Resistor, Chip, 0603, 5%, 1/16W
Inductor, 0805, 5%, Coilcraft CS Series
Cap., Chip, 0603, +/-0.1pF. 200V. NPO/COG
Cap., Chip, 0603, +/-0.1pF. 200V. NPO/COG
Cap., Chip, 0603, +/-1%. 200V NPO/COG
Cap., Chip, 5%, 50V, NPO/COG
Cap., Chip, 10%, 10V, X5R
Solder Turret
TriQuint
Johnson Comp.
TriQuint
various
Coilcraft
AVX
AVX
AVX
various
various
various
1071363
142-0701-851
TQP7M9101
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 6 of 6 -
0805CS-180XJLB
06032U1R8BAT2A
06032U1R0BAT2A
06032U100FAT2A
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Typical Performance 2110-2170 MHz
Frequency
MHz
2110
2140
2170
Gain
Input Return Loss
Output Return Loss
Output P1dB
Output IP3 (+8 dBm/tone, ∆f = 1 MHz)
WCDMA Channel Power (at -55 dBc ACLR) 1
Noise Figure
Supply Voltage, Vcc
Quiescent Collector Current, Icq
dB
dB
dB
dBm
dBm
dBm
dB
V
mA
17.6
15
14
+24.8
+39.5
+14.5
4.0
17.5
15
13.5
+24.8
+39.5
+14.5
3.9
+5
87
17.4
15
13
+24.6
+39.5
+14.5
4.1
Notes:
1. ACLR Test set-up: 3GPP WCDMA, TM1+64 DPCH, +5 MHz offset, PAR = 10.2 dB at 0.01% Prob.
RF Performance Plots 2110-2170 MHz
Gain vs. Frequency
−40°C
+25°C
+85°C
17
16
2120
2130
2140
2150
2160
-5
−40°C
+25°C
+85°C
-10
-15
-20
2110
2170
2120
Freq (MHz)
2160
-45
-50
+85°C
+25°C
−40°C
-55
Freq.=2140 MHz
1 MHz Tone Spacing
40
+85°C
+25°C
−40°C
38
14
15
16
8
Pout (dBm)
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
-40
10
12
14
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
41
OIP3 (dBm)
-50
-55
2170 MHz
2140 MHz
2110 MHz
-60
12
13
14
2120
15
16
Pout (dBm)
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
17
2140
2150
2160
2170
Output Power vs. Input Power over Temp
30
Temp.=+25°C
27
40
2170 MHz
2140 MHz
2110 MHz
39
2130
1 MHz Tone Spacing
−40°C
+25°C
+85°C
24
21
18
37
11
24
Frequency (MHz)
38
-65
2170
25
22
2110
16
OIP3 Vs. Pout/Tone
42
Temp.=+25°C
-45
2160
−40°C
+25°C
+85°C
Pout/Tone (dBm)
ACLR Vs. Output Power
-35
2150
23
6
17
2140
26
Pout (dBm)
13
2130
P1dB vs. Frequency
27
34
12
2120
Freq (MHz)
36
-65
11
-15
-20
2110
2170
OIP3 Vs. Pout/Tone
44
OIP3 (dBm)
ACLR (dBc)
2150
42
-60
ACLR (dBc)
2140
Freq.= 2140 MHz
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
-40
2130
−40°C
+25°C
+85°C
-10
Freq (MHz)
ACLR Vs. Output Power
-35
Retun Loss (dB)
18
Output Return Loss vs. Frequency
0
-5
Retun Loss (dB)
Gain (dB)
19
15
2110
Input Return Loss vs. Frequency
0
P1dB (dBm)
20
15
6
8
10
12
Pout/Tone (dBm)
- 7 of 7 -
14
16
0
3
6
9
12
15
Pin (dBm)
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Pin Configuration and Description
GND
4
1
2
3
RF IN
GND
RF OUT
Pin
Symbol
Description
1
RF IN
RF Input. Requires conjugate match for optimal performance.
2, 4
GND
RF/DC Ground Connection
3
RFout / Vcc
RF Output, matched to 50 ohms. External DC Block and supply voltage is required.
Applications Information
PC Board Layout
1071363AW REV - 1071363PC REV -
PCB Material (stackup):
1 oz. Cu top layer
0.014 inch Nelco N-4000-13, εr=3.7
1 oz. Cu MIDDLE layer 1
Core Nelco N-4000-13
1 oz. Cu middle layer 2
0.014 inch Nelco N-4000-13
1 oz. Cu bottom layer
Finished board thickness is 0.062±.006
+VCC
GND
50 ohm line dimensions: width = .031”, spacing = .035”.
The pad pattern shown has been developed and tested for
optimized assembly at TriQuint Semiconductor. The PCB
land pattern has been developed to accommodate lead and
package tolerances. Since surface mount processes vary
from supplier to supplier, careful process development is
recommended.
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 8 of 8 -
SOT89 EVAL. BRD., 1/2 WATT
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Mechanical Information
Package Information and Dimensions
This package is lead-free/RoHScompliant. The plating material on the
leads is NiPdAu. It is compatible with
both lead-free (maximum 260 °C reflow
temperature) and lead (maximum 245 °C
reflow temperature) soldering processes.
7M9101
The component will be marked with a
“7M9101”
designator
with
an
alphanumeric lot code on the top surface
of package.
Mounting Configuration
All dimensions are in millimeters (inches). Angles are in degrees.
Notes:
1. Ground / thermal vias are critical for the proper performance of this device. Vias should use a .35mm (#80 / .0135”) diameter drill and
have a final plated thru diameter of .25 mm (.010”).
2. Add as much copper as possible to inner and outer layers near the part to ensure optimal thermal performance.
3. RF trace width depends upon the PC board material and construction.
4. Use 1 oz. Copper minimum.
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 9 of 9 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9101
¼W High Linearity Amplifier
Product Compliance Information
ESD Information
Solderability
Compatible with the latest version of J-STD-020, Lead
free solder, 260°
ESD Rating:
Value:
Test:
Standard:
Class 2
>2000V to <4000V
Human Body Model (HBM)
JEDEC Standard JESD22-A114
ESD Rating:
Value:
Test:
Standard:
Class IV
>2000V
Charged Device Model (CDM)
JEDEC Standard JESD22-C101
This part is compliant with EU 2002/95/EC RoHS
directive (Restrictions on the Use of Certain Hazardous
Substances in Electrical and Electronic Equipment).
This product also has the following attributes:
 Lead Free
 Halogen Free (Chlorine, Bromine)
 Antimony Free
 TBBP-A (C15H12Br402) Free
 PFOS Free
 SVHC Free
MSL Rating
The part is rated Moisture Sensitivity Level 3 at 260°C per
JEDEC standard IPC/JEDEC J-STD-020.
Contact Information
For the latest specifications, additional product information, worldwide sales and distribution locations, and information about
TriQuint:
Web: www.triquint.com
Email: [email protected]
Tel:
Fax:
+1.503.615.9000
+1.503.615.8902
For technical questions and application information:
Email: [email protected]
Important Notice
The information contained herein is believed to be reliable. TriQuint makes no warranties regarding the information contained
herein. TriQuint assumes no responsibility or liability whatsoever for any of the information contained herein. TriQuint
assumes no responsibility or liability whatsoever for the use of the information contained herein. The information contained
herein is provided "AS IS, WHERE IS" and with all faults, and the entire risk associated with such information is entirely with
the user. All information contained herein is subject to change without notice. Customers should obtain and verify the latest
relevant information before placing orders for TriQuint products. The information contained herein or any use of such
information does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other intellectual property
rights, whether with regard to such information itself or anything described by such information.
TriQuint products are not warranted or authorized for use as critical components in medical, life-saving, or life-sustaining
applications, or other applications where a failure would reasonably be expected to cause severe personal injury or death.
Advanced Data Sheet: Rev D 09/19/11
© 2011 TriQuint Semiconductor, Inc.
- 10 of 10
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Applications




Repeaters
Mobile Infrastructure
CDMA / WCDMA / LTE
General Purpose Wireless
3-pin SOT-89 Package
Product Features




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Functional Block Diagram
400-4000 MHz
+27.5 dBm P1dB
+44 dBm Output IP3
17.8 dB Gain @ 2140 MHz
+5V Single Supply, 135 mA Current
Internal RF overdrive protection
Internal DC overvoltage protection
On chip ESD protection
SOT-89 Package
GND
4
General Description
1
2
3
RF IN
GND
RF OUT
Pin Configuration
The TQP7M9102 is a high linearity driver amplifier in a
low-cost, RoHS compliant, surface mount package. This
InGaP/GaAs HBT delivers high performance across a
broad range of frequencies with +44 dBm OIP3 and +27.5
dBm P1dB while only consuming 135 mA quiescent
current. All devices are 100% RF and DC tested.
Pin #
Symbol
1
3
2, 4
RF Input
RF Output / Vcc
Ground
The TQP7M9102 incorporates on-chip features that
differentiate it from other products in the market. The
amplifier integrates an on-chip DC over-voltage and RF
over-drive protection. This protects the amplifier from
electrical DC voltage surges and high input RF input
power levels that may occur in a system. On-chip ESD
protection allows the amplifier to have a very robust Class
2 HBM ESD rating.
The TQP7M9102 is targeted for use as a driver amplifier
in wireless infrastructure where high linearity, medium
power, and high efficiency are required. The device an
excellent candidate for transceiver line cards in current
and next generation multi-carrier 3G / 4G base stations.
Ordering Information
Part No.
Description
TQP7M9102
TQP7M9102-PCB900
TQP7M9102-PCB2140
0.5 W High Linearity Amplifier
TQP7M9102 869-960MHz EVB
TQP7M9102 2.11-2.17GHz EVB
Standard T/R size = 1000 pieces on a 7” reel.
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
- 1 of 9 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Specifications
Recommended Operating Conditions
Absolute Maximum Ratings
Parameter
Rating
Parameter
Min
Storage Temperature
Device Voltage, Vdd
Maximum Input Power, CW
-65 to +150 oC
+8 V
+27 dBm
Vdd
Tcase
Tj (for>106 hours MTTF)
+4.75
-40
Operation of this device outside the parameter ranges given
above may cause permanent damage.
Typ Max Units
+5
+5.25
85
160
V
C
o
C
o
Electrical specifications are measured at specified test conditions.
Specifications are not guaranteed over all recommended operating
conditions.
Electrical Specifications
Test conditions unless otherwise noted: +25ºC, +5V Vsupply, 50 Ω system, tuned application circuit
Parameter
Operational Frequency Range
Test Frequency
Gain
Input Return Loss
Output Return Loss
Output P1dB
Output IP3
WCDMA Pout @ -50 dBc ACLR
Noise Figure
Vcc
Quiescent Current, Icq
Thermal Resistance (jnc to case) θjc
Conditions
Min
Typical
400
15
See Note 1.
See Note 2.
+26.4
+41
115
2140
17.4
12
10
+27.5
+43.8
+18.5
3.9
5
137
Max
Units
4000
MHz
MHz
dB
dB
dB
dBm
dBm
dBm
dB
V
mA
o
C/W
155
50
Notes
1. OIP3 measured with two tones at an output power of +9 dBm / tone separated by 1 MHz. The suppression on the largest IM3 product is
used to calculate the OIP3 using 2:1 rule.
2. ACLR Test set-up: 3GPP WCDMA, TM1+64 DPCH, +5 MHz offset, PAR = 10.2 dB at 0.01% Prob.
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
- 2 of 9 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Application Circuit 869-960 MHz (TQP7M9102-PCB900)
1071363AW REV - 1071363PC REV +VCC
J3
R4
J4
GND
C4
U1
R2
R1
C2
C6
C5
C1
L1
C3
SOT89 EVAL. BRD., 1/2 WATT
Notes:
1. See PC Board Layout, page 7 for more information.
2. Components shown on the silkscreen but not on the schematic are not used.
3. 0 Ω resistor (R4) may be replaced with copper trace in the target application layout.
4. The recommended component values are dependent upon the frequency of operation.
5. All components are of 0603 size unless stated on the schematic.
6. Critical component placement locations:
Distance from U1 Pin 1 (left edge) to C5 (right edge): 255 mils (12.1 deg. at 920 MHz)
Distance from U1 Pin 1 (left edge) to C1 (right edge): 460 mils (21.9 deg. at 920 MHz)
Distance from U1 Pin 3 (right edge) to R2 (left edge): 290 mils (13.8 deg. at 920 MHz)
Distance from U1 Pin 3 (right edge) to C6 (left edge): 370 mils (17.6 deg. at 920 MHz)
Bill of Material
Ref Des
n/a
U1
R4
R1
R2
L1
C1, C5
C6
C2, C3
C4
Value
n/a
n/a
0Ω
1.5 Ω
2.2 nH
33 nH
5.6 pF
2.7 pF
100 pF
1.0 uF
Description
Manuf.
Part Number
Printed Circuit Board
TQP7M9102 Amplifier, SOT-89 pkg.
Resistor, Chip, 0603, 5%, 1/16W
Resistor, Chip, 0603, 5%, 1/16W
Inductor, 0603, +/-0.3 nH
Inductor, 0805, 5%, Coilcraft CS Series
Cap., Chip, 0603, +/-0.1pF. 200V. NPO/COG
Cap., Chip, 0603, +/-0.1pF. 200V. NPO/COG
Cap., Chip, 5%, 50V, NPO/COG
Cap., Chip, 10%, 10V, X5R
TriQuint
TriQuint
various
various
Toko
Coilcraft
AVX
AVX
various
various
1071363
TQP7M9102
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
- 3 of 9 -
LL1608-FSL2N2S
0805CS-330XJLB
06032U5R6BAT2A
06032U2R7BAT2A
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Typical Performance 869-960 MHz
Frequency
MHz
869
920
960
Gain
Input Return Loss
Output Return Loss
Output P1dB
Output IP3 (+19 dBm/tone, ∆f = 1 MHz)
WCDMA Channel Power (at -50 dBc ACLR) [1]
Noise Figure
Supply Voltage, Vcc
Quiescent Collector Current, Icq
dB
dB
dB
dBm
dBm
dBm
dB
V
mA
21.8
-10
-12
+27.3
+42.7
+18.0
5.9
21.9
-16
-10
+27.4
+43.4
+18.2
5.9
+5
137
21.7
-17
-9
+27.4
+43.9
+18.1
5.9
Notes:
1. ACLR Test set-up: 3GPP WCDMA, TM1+64 DPCH, +5 MHz offset, PAR = 10.2 dB at 0.01% Prob.
RF Performance Plots 869-960 MHz
Gain vs. Frequency
22
21
20
−40°C
+25°C
+85°C
-10
-15
900
920
940
960
880
900
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
-65
14
15
16
17
18
19
42
+85°C
+25°C
−40°C
40
20
-45
13
15
17
19
-65
17
18
19
Pout (dBm)
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
20
900
920
940
960
Output Power vs. Input Power
29
Freq.= 920 MHz
27
42
960 MHz
920 MHz
869 MHz
40
25
−40°C
+25°C
+85°C
23
21
36
16
880
Frequency (MHz)
38
15
860
44
960 MHz
920 MHz
869 MHz
-60
14
27
1 MHz Tone Spacing
Temp.=+25°C
-55
13
28
21
OIP3 Vs. Pout/Tone
46
Temp.=+25°C
-50
12
−40°C
+25°C
+85°C
Pout/Tone (dBm)
OIP3 (dBm)
-40
960
25
11
ACLR Vs. Output Power
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
940
26
Pout (dBm)
-35
920
29
Pout (dBm)
13
900
P1dB vs. Frequency
30
36
12
880
Freq (MHz)
38
-60
ACLR (dBc)
860
44
+85°C
+25°C
−40°C
-55
960
Freq.=920 MHz
1 MHz Tone Spacing
-45
-50
940
OIP3 Vs. Pout/Tone
46
Freq.=920 MHz
OIP3 (dBm)
ACLR (dBc)
-40
920
Freq (MHz)
ACLR Vs. Output Power
-35
-15
-25
860
Freq (MHz)
P1dB (dBm)
880
-10
-20
-25
860
−40°C
+25°C
+85°C
-5
-20
19
Output Return Loss vs. Frequency
0
-5
Return Loss (dB)
23
Gain (dB)
Input Return Loss vs. Frequency
0
−40°C
+25°C
+85°C
Return Loss (dB)
24
19
11
13
15
17
Pout/Tone (dBm)
- 4 of 9 -
19
21
-3
-1
1
3
5
7
Pin (dBm)
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Application Circuit 2110-2170 MHz (TQP7M9102-PCB2140)
1071363AW REV - 1071363PC REV R4
+VCC
C6
R8
L1
GND
SOT89 EVAL. BRD., 1/2 WATT
Notes:
1. See PC Board Layout, page 7 for more information.
2. Components shown on the silkscreen but not on the schematic are not used.
3. 0 Ω resistors (C1, R2) may be replaced with copper trace in the target application layout.
4. The recommended component values are dependent upon the frequency of operation.
5. All components are of 0603 size unless stated on the schematic.
6. Critical component placement locations:
Distance from U1 Pin 1 (left edge) to R8 (right edge): 40 mils (4.4 deg. at 2140 MHz)
Distance from U1 Pin 1 (left edge) to R1 (right edge): 115 mils (12.7 deg. at 2140 MHz)
Distance from U1 Pin 3 (right edge) to C6 (left edge): 180 mils (19.9 deg. at 2140 MHz)
Distance from U1 Pin 3 (right edge) to C2 (left edge): 450 mils (49.8 deg. at 2140 MHz)
Bill of Material
Ref Des
n/a
U1
C1, R2, R4
L1
R1, R8
C2
C3
C4
C6
Value
n/a
n/a
0Ω
18 nH
1.5 pF
3.3 pF
22 pF
1.0 uF
0.8 pF
Description
Manuf.
Part Number
Printed Circuit Board
TQP7M9102 Amplifier, SOT-89 pkg.
Resistor, Chip, 0603, 5%, 1/16W
Inductor, 0805, Coilcraft CS Series
Cap., Chip, 0603, +/-0.1pF. 200V. NPO/COG
Cap., Chip, 0603, +/-0.1pF. 200V NPO/COG
Cap., Chip, 5%, 50V, NPO/COG
Cap., Chip, 10%, 10V, X5R
Cap., Chip, 0603, +/-0.1pF. 200V NPO/COG
TriQuint
TriQuint
various
Coilcraft
AVX
AVX
various
various
AVX
1071363
TQP7M9102
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
- 5 of 9 -
0805CS-180XJLB
06032U1R5BAT2A
06032U3R3BAT2A
06032U0R8BAT2A
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Typical Performance 2110-2170 MHz
Frequency
MHz
2110
2140
2170
Gain
Input Return Loss
Output Return Loss
Output P1dB
Output IP3 (+9 dBm/tone, ∆f = 1 MHz)
WCDMA Channel Power (at -50 dBc ACLR) [1]
Noise Figure
Supply Voltage, Vcc
Quiescent Collector Current, Icq
dB
dB
dB
dBm
dBm
dBm
dB
V
mA
17.9
-12
-12
+27.8
+43.6
+18.5
3.8
17.8
-12
-11
+27.6
+43.5
+18.4
3.9
5
137
17.7
-11
-10
+27.4
+43.6
+18.3
4.0
Notes:
1. ACLR Test set-up: 3GPP WCDMA, TM1+64 DPCH, +5 MHz offset, PAR = 10.2 dB at 0.01% Prob.
RF Performance Plots 2110-2170 MHz
-5
Retun Loss (dB)
Gain (dB)
19
18
17
16
15
2110
2120
2130
2140
Input Return Loss vs. Frequency
0
−40°C
+25°C
+85°C
2150
2160
-15
-20
2110
2170
2120
Freq (MHz)
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
-40
2140
2150
2160
OIP3 Vs. Pout/Tone
46
-55
42
+85°C
+25°C
−40°C
40
38
18
19
20
7
9
Pout (dBm)
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
-40
11
13
15
W-CDMA 3GPP Test Model 1+64 DPCH
PAR = 10.2 dB @ 0.01% Probability
3.84 MHz BW
-60
17
18
19
Pout (dBm)
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
20
2140
2150
2160
2170
27
42
2170 MHz
2140 MHz
2110 MHz
−40°C
+25°C
+85°C
25
23
21
38
16
2130
Freq.=2140 MHz
Temp.=+25°C
40
-65
15
2120
Output Power vs. Input Power
29
1 MHz Tone Spacing
Pout (dBm)
OIP3 (dBm)
ACLR (dBc)
2170 MHz
2140 MHz
2110 MHz
-55
14
27
Frequency (MHz)
44
-50
2170
28
25
2110
17
OIP3 Vs. Pout/Tone
46
Temp.=+25°C
-45
2160
−40°C
+25°C
+85°C
Pout/Tone (dBm)
ACLR Vs. Output Power
-35
2150
26
-60
-65
2140
29
P1dB (dBm)
+85°C
+25°C
−40°C
17
2130
P1dB vs. Frequency
30
Freq.=2140 MHz
1 MHz Tone Spacing
OIP3 (dBm)
ACLR (dBc)
-50
16
2120
Freq (MHz)
Freq.= 2140 MHz
-45
15
-15
-20
2110
2170
44
14
-10
Freq (MHz)
ACLR Vs. Output Power
-35
2130
−40°C
+25°C
+85°C
-5
−40°C
+25°C
+85°C
-10
Output Return Loss vs. Frequency
0
Retun Loss (dB)
Gain vs. Frequency
20
19
7
9
11
13
Pout/Tone (dBm)
- 6 of 9 -
15
17
2
4
6
8
10
12
Pin (dBm)
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Pin Configuration and Description
GND
4
Pin
Symbol
1
RF IN
2, 4
GND
3
RFout / Vcc
1
2
3
RF IN
GND
RF OUT
Description
RF Input. Requires external match for optimal performance. External DC Block
required.
RF/DC Ground Connection
RF Output. Requires external match for optimal performance. External DC Block
and supply voltage is required.
Applications Information
PC Board Layout
1071363AW REV - 1071363PC REV -
PCB Material (stackup):
1 oz. Cu top layer
0.014 inch Nelco N-4000-13, εr=3.7
1 oz. Cu MIDDLE layer 1
Core Nelco N-4000-13
1 oz. Cu middle layer 2
0.014 inch Nelco N-4000-13
1 oz. Cu bottom layer
Finished board thickness is 0.062±.006
+VCC
GND
50 ohm line dimensions: width = .031”, spacing = .035”.
The pad pattern shown has been developed and tested for
optimized assembly at TriQuint Semiconductor. The PCB
land pattern has been developed to accommodate lead and
package tolerances. Since surface mount processes vary
from supplier to supplier, careful process development is
recommended.
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
- 7 of 9 -
SOT89 EVAL. BRD., 1/2 WATT
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Mechanical Information
Package Information and Dimensions
This package is lead-free/RoHScompliant. The plating material on the
leads is NiPdAu. It is compatible with
both lead-free (maximum 260 °C reflow
temperature) and lead (maximum 245 °C
reflow temperature) soldering processes.
7M9102
The component will be marked with a
“7M9102”
designator
with
an
alphanumeric lot code on the top surface
of package.
Mounting Configuration
All dimensions are in millimeters (inches). Angles are in degrees.
Notes:
1. Ground / thermal vias are critical for the proper performance of this device. Vias should use a .35mm (#80 / .0135”) diameter drill and
have a final plated thru diameter of .25 mm (.010”).
2. Add as much copper as possible to inner and outer layers near the part to ensure optimal thermal performance.
3. RF trace width depends upon the PC board material and construction.
4. Use 1 oz. Copper minimum.
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
- 8 of 9 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®
TQP7M9102
½W High Linearity Amplifier
Product Compliance Information
Solderability
ESD Information
Compatible with the latest version of J-STD-020, Lead
free solder, 260°
ESD Rating:
Value:
Test:
Standard:
Class 2
≥ 2000 V and < 4000 V
Human Body Model (HBM)
JEDEC Standard JESD22-A114
ESD Rating:
Value:
Test:
Standard:
Class IV
>2000 V
Charged Device Model (CDM)
JEDEC Standard JESD22-C101
This part is compliant with EU 2002/95/EC RoHS
directive (Restrictions on the Use of Certain Hazardous
Substances in Electrical and Electronic Equipment).
This product also has the following attributes:
 Lead Free
 Halogen Free (Chlorine, Bromine)
 Antimony Free
 TBBP-A (C15H12Br402) Free
 PFOS Free
 SVHC Free
MSL Rating
Level 3 at +260 °C convection reflow
The part is rated Moisture Sensitivity Level 3 at 260°C per
JEDEC standard IPC/JEDEC J-STD-020.
Contact Information
For the latest specifications, additional product information, worldwide sales and distribution locations, and information about
TriQuint:
Web: www.triquint.com
Email: [email protected]
Tel:
Fax:
+1.503.615.9000
+1.503.615.8902
For technical questions and application information:
Email: [email protected]
Important Notice
The information contained herein is believed to be reliable. TriQuint makes no warranties regarding the information
contained herein. TriQuint assumes no responsibility or liability whatsoever for any of the information contained herein.
TriQuint assumes no responsibility or liability whatsoever for the use of the information contained herein. The information
contained herein is provided "AS IS, WHERE IS" and with all faults, and the entire risk associated with such information is
entirely with the user. All information contained herein is subject to change without notice. Customers should obtain and
verify the latest relevant information before placing orders for TriQuint products. The information contained herein or any
use of such information does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other
intellectual property rights, whether with regard to such information itself or anything described by such information.
TriQuint products are not warranted or authorized for use as critical components in medical, life-saving, or life-sustaining
applications, or other applications where a failure would reasonably be expected to cause severe personal injury or death.
Data Sheet: Rev D 10/04/11
© 2011 TriQuint Semiconductor, Inc.
- 9 of 9 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network®