MOTOROLA MRF186

ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
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by MRF186/D
SEMICONDUCTOR TECHNICAL DATA
The RF MOSFET Line
N–Channel Enhancement–Mode Lateral MOSFET
Designed for broadband commercial and industrial applications with frequencies from 800 MHz to 1.0 GHz. The high gain and broadband performance of this
device make it ideal for large–signal, common source amplifier applications in 28
volt base station equipment.
• Guaranteed Performance @ 960 MHz, 28 Volts
Output Power — 120 Watts PEP
Power Gain — 11 dB
Efficiency — 30%
Intermodulation Distortion — –28 dBc
• Excellent Thermal Stability
• 100% Tested for Load Mismatch Stress at all Phase Angles with
5:1 VSWR @ 28 Vdc, 960 MHz, 120 Watts CW
1.0 GHz, 120 W, 28 V
LATERAL N–CHANNEL
BROADBAND
RF POWER MOSFET
ARCHIVED 2005
CASE 375B–04, STYLE 1
NI–860
MAXIMUM RATINGS (2)
Symbol
Value
Unit
Drain–Source Voltage
VDSS
65
Vdc
Drain–Gate Voltage (RGS = 1 MΩ)
VDGR
65
Vdc
Rating
VGS
±20
Vdc
Drain Current — Continuous
ID
14
Adc
Total Device Dissipation @ TC = 70°C
Derate above 70°C
PD
162.5
1.25
Watts
W/°C
Storage Temperature Range
Tstg
– 65 to +150
°C
Operating Junction Temperature
TJ
200
°C
Symbol
Max
Unit
RθJC
0.8
°C/W
Gate–Source Voltage
THERMAL CHARACTERISTICS (2)
Characteristic
Thermal Resistance, Junction to Case
NOTE – CAUTION – MOS devices are susceptible to damage from electrostatic charge. Reasonable precautions in handling and
packaging MOS devices should be observed.
REV 5
MOTOROLA
RF DEVICE DATA
 Motorola,
Inc. 2002
MRF186
1
Archived 2005
ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
ELECTRICAL CHARACTERISTICS (TC = 25°C unless otherwise noted)
Characteristic
Symbol
Min
Typ
Max
Unit
V(BR)DSS
65
—
—
Vdc
Zero Gate Voltage Drain Current
(VDS = 28 Vdc, VGS = 0 Vdc)
IDSS
—
—
1
µAdc
Gate–Source Leakage Current
(VGS = 20 Vdc, VDS = 0 Vdc)
IGSS
—
—
1
µAdc
Gate Quiescent Voltage
(VDS = 26 Vdc, ID = 300 µAdc Per Side)
VGS(th)
2.5
3
4
Vdc
Gate Quiescent Voltage
(VDS = 26 Vdc, ID = 300 mAdc Per Side)
VGS(Q)
3.3
4.2
5
Vdc
Delta Gate Threshold Voltage (Side to Side)
(VDS = 28 V, ID = 300 mA Per Side)
∆VGS(Q)
—
—
0.3
Vdc
Drain–Source On–Voltage
(VGS = 10 Vdc, ID = 3 Adc Per Side)
VDS(on)
—
0.58
0.7
Vdc
Forward Transconductance
(VDS = 10 Vdc, ID = 3 Adc Per Side)
gfs
2.4
2.8
—
S
Input Capacitance (Per Side)
(VDS = 28 Vdc, VGS = 0, f = 1 MHz)
Ciss
—
177
—
pF
Output Capacitance (Per Side)
(VDS = 28 Vdc, VGS = 0, f = 1 MHz)
Coss
—
45
—
pF
Reverse Transfer Capacitance (Per Side)
(VDS = 28 Vdc, VGS = 0, f = 1 MHz)
Crss
—
3.4
—
pF
OFF CHARACTERISTICS (1)
Drain–Source Breakdown Voltage
(VGS = 0 Vdc, ID = 50 µAdc)
ON CHARACTERISTICS (1)
ARCHIVED 2005
DYNAMIC CHARACTERISTICS (1)
FUNCTIONAL CHARACTERISTICS (In Motorola Test Fixture, 50 ohm system) (2)
Two–Tone Common Source Amplifier Power Gain
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 960.0 MHz,
f2 = 960.1 MHz)
Gps
11
12.2
—
dB
Two–Tone Drain Efficiency
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 960.0 MHz,
f2 = 960.1 MHz)
η
30
35
—
%
3rd Order Intermodulation Distortion
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 960.0 MHz,
f2 = 960.1 MHz)
IMD
—
–32
–28
dBc
Input Return Loss
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 960.0 MHz,
f2 = 960.1 MHz)
IRL
9
16
—
dB
Two–Tone Common Source Amplifier Power Gain
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 945.0 MHz,
f2 = 945.1 MHz)
Gps
—
12
—
dB
Two–Tone Drain Efficiency
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 945.0 MHz,
f2 = 945.1 MHz)
η
—
33
—
%
3rd Order Intermodulation Distortion
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 945.0 MHz,
f2 = 945.1 MHz)
IMD
—
–32
—
dBc
Input Return Loss
(VDD = 28 Vdc, Pout = 120 W PEP, IDQ = 2 x 400 mA, f1 = 945.0 MHz,
f2 = 945.1 MHz)
IRL
—
16
—
dB
Output Mismatch Stress
(VDD = 28 Vdc, Pout = 120 W CW, IDQ = 2 x 400 mA,
f = 960 MHz, VSWR = 5:1, All Phase Angles at Frequency of Tests)
Ψ
No Degradation In Output Power
Before and After Test
(1) Each side of device measured separately.
(2) Device measured in push–pull configuration.
MRF186
2
MOTOROLA RF DEVICE DATA
Archived 2005
ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
MRF186
ARCHIVED 2005
B1 – B4
C1, C7, C8, C10,
C16, C17
C2, C11, C34, C35
C3, C6, C12, C15
C4, C5, C13, C14,
C19, C20, C32, C33
C9, C18
C21, C22
C23, C30
C24, C25, C26
C27, C28
Fair Rite Products Short Ferrit Bead, 2743021446
C31
10 µF, 50 V, Tantalum
0.1 µF, Chip Capacitor
330 pF, Chip Capacitor
L1, L2
N1, N2
R1, R6
R2, R5
R3, R4
Z1 – Z22
Balun1, Balun2,
Coax1, Coax2 2.20″ 50 Ω, 0.086″ OD Semi–Rigid Coax
Board
1/32″ Glass Teflon, εr = 2.55
47 pF, Chip Capacitor
250 µF, 50 V, Electrolytic Capacitor
12 pF, Chip Capacitor
0.6 – 4.5 pF, Variable Capacitor, Johanson Gigatrim
5.1 pF, Chip Capacitor
3.9 pF, Chip Capacitor
0.8 – 8.0 pF, Variable Capacitor,
Johanson Gigatrim
3 Turns, #20 AWG, IDIA 0.126″, 24.7 nH
Type N Connectors
1 kΩ, 1/4 W, Carbon Resistor
1.2 kΩ, 0.1 W, Chip Resistor
75 Ω, 0.1 W, Chip Resistor
Microstrip (See Component Placement)
Figure 1. 930 – 960 MHz Test Circuit Schematic
MOTOROLA RF DEVICE DATA
MRF186
3
Archived 2005
ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
TYPICAL CHARACTERISTICS
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versus Output Power
ARCHIVED 2005
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Figure 2. Intermodulation Distortion Products
versus Output Power
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MRF186
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Figure 7. Output Power versus Gate Voltage
MOTOROLA RF DEVICE DATA
Archived 2005
ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
TYPICAL CHARACTERISTICS
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Figure 8. Drain Current versus Gate Voltage
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ARCHIVED 2005
Figure 9. Capacitance versus Voltage
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Figure 10. DC Safe Operating Area
MOTOROLA RF DEVICE DATA
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Figure 11. Broadband Circuit Performance
MRF186
5
Archived 2005
ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
5 4 -,6
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ARCHIVED 2005
-,6
=
5 4 -,6
4 7 4 f
MHz
Zin
4 Ω
8 4 " #
Zin
Ω
ZOL*
Ω
930
2.5 + j6.9
4.3 + j1.2
945
2.5 + j7.0
4.3 + j1.0
960
2.2 + j7.1
4.3 + j0.9
= Complex conjugate of source impedance.
ZOL* =
Conjugate of the optimum load impedance at
a given output power, voltage, IMD, bias current,
efficiency and frequency.
Note: ZOL* was chosen based on tradeoffs between gain, output
power, drain efficiency and intermodulation performance.
Impedances shown represent a single channel
(1/2 of MRF186) impedance measurement.
Figure 12. Series Equivalent Input and Output Impedance
MRF186
6
MOTOROLA RF DEVICE DATA
Archived 2005
ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
ARCHIVED 2005
MRF186
Figure 13. Component Placement Diagram of 930 – 960 MHz Broadband Test Fixture
MOTOROLA RF DEVICE DATA
MRF186
7
Archived 2005
ARCHIVED BY FREESCALE SEMICONDUCTOR, INC. 2005
PACKAGE DIMENSIONS
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Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation, or guarantee regarding
the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and
specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters can and do vary in different
applications and actual performance may vary over time. All operating parameters, including “Typicals”, must be validated for each customer application by
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respective owners. Motorola, Inc. is an Equal Opportunity/Affirmative Action Employer.
E Motorola, Inc. 2002.
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HOME PAGE: http://www.motorola.com/semiconductors/
MRF186
8
◊
MOTOROLA RF DEVICE DATA
MRF186/D
Archived 2005