RF C2012X7R2A103M 280w gan wideband pulsed power Datasheet

RF3928
RF3928280W
GaN WIDEBAND PULSED
POWER AMPLIFIER
280W GaN WIDEBAND PULSED POWER
AMPLIFIER
Package: Hermetic 2-Pin, Flanged Ceramic
Features

Wideband Operation 2.8GHz to
3.4GHz

Advanced GaN HEMT Technology

Advanced Heat-Sink Technology

RF IN
VG
Pin 1 (CUT )
RF OUT
VD
Pin 2
Supports Multiple Pulse
Conditions
GND
BASE
10% to 20% Duty Cycle
100s to 500s Pulse Width
Integrated Matching
Components for High Terminal
Impedances




Functional Block Diagram
50V Operation Typical
Performance




Pulsed Output Power 280W
Small Signal Gain 12dB
Drain Efficiency 52%
-40°C to 85°C Operating
Temperature
Applications



Radar
Air Traffic Control and
Surveillance
General Purpose Broadband
Amplifiers
Product Description
The RF3928 is a 50V 280W high power discrete amplifier designed for S-Band
pulsed radar, Air Traffic Control and Surveillance and general purpose broadband
amplifier applications. Using an advanced high power density Gallium Nitride (GaN)
semiconductor process, these high-performance amplifiers achieve high output
power, high efficiency and flat gain over a broad frequency range in a single package. The RF3928 is a matched GaN transistor packaged in a hermetic, flanged
ceramic package. This package provides excellent thermal stability through the use
of advanced heat sink and power dissipation technologies. Ease of integration is
accomplished through the incorporation of simple, optimized matching networks
external to the package that provide wide band gain and power performance in a
single amplifier.
Ordering Information
RF3928S2
RF3928SB
RF3928SQ
RF3928SR
RF3928TR13
RF3928PCBA-410
2-Piece sample bag
5-Piece bag
25-Piece bag
50 Pieces on 7” short reel
250 Pieces on 13” reel
Fully assembled evaluation board 2.8GHz to 3.4GHz; 50V
operation
Optimum Technology Matching® Applied
GaAs HBT
GaAs MESFET
InGaP HBT
SiGe BiCMOS
Si BiCMOS
SiGe HBT
GaAs pHEMT
Si CMOS
Si BJT
GaN HEMT
BiFET HBT
RF MICRO DEVICES®, RFMD®, Optimum Technology Matching®, Enabling Wireless Connectivity™, PowerStar®, POLARIS™ TOTAL RADIO™ and UltimateBlue™ are trademarks of RFMD, LLC. BLUETOOTH is a trademark owned by Bluetooth SIG, Inc., U.S.A. and licensed for use by RFMD. All other trade names, trademarks and registered trademarks are the property of their respective owners. ©2012, RF Micro Devices, Inc.
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RF3928
Absolute Maximum Ratings
Parameter
Rating
Unit
Drain Source Voltage
150
V
Gate Source Voltage
-8 to +2
V
Gate Current (IG)
155
mA
Operational Voltage
50
V
Ruggedness (VSWR)
3:1
Storage Temperature Range
-55 to +125
°C
Operating Temperature Range
(TL)
-40 to +85
°C
250
°C
Operating Junction Temperature
(TJ)
Human Body Model
Class 1A
MTTF (TJ < 200°C)
MTTF (TJ < 250°C)
3.0E + 06
1.4E + 05
Hours
TC = 85°C, DC bias only
0.90
°C/W
TC = 85°C, 100s pulse, 10% duty
cycle
0.18
Caution! ESD sensitive device.
Exceeding any one or a combination of the Absolute Maximum Rating conditions may
cause permanent damage to the device. Extended application of Absolute Maximum
Rating conditions to the device may reduce device reliability. Specified typical performance or functional operation of the device under Absolute Maximum Rating conditions is not implied.
The information in this publication is believed to be accurate and reliable. However, no
responsibility is assumed by RF Micro Devices, Inc. ("RFMD") for its use, nor for any
infringement of patents, or other rights of third parties, resulting from its use. No
license is granted by implication or otherwise under any patent or patent rights of
RFMD. RFMD reserves the right to change component circuitry, recommended application circuitry and specifications at any time without prior notice.
RFMD Green: RoHS compliant per EU Directive 2002/95/EC, halogen free
per IEC 61249-2-21, < 1000ppm each of antimony trioxide in polymeric
materials and red phosphorus as a flame retardant, and <2% antimony in
solder.
Thermal Resistance, Rth
(junction to case)
0.25
TC = 85°C, 500s pulse, 10% duty
cycle
* MTTF – median time to failure for wear-out failure mode (30% Idss degradation) which is determined by the technology process reliability.
Refer to product qualification report for FIT (random) failure rate.
Operation of this device beyond any one of these limits may cause permanent damage. For reliable continuous operation, the device voltage
and current must not exceed the maximum operating values specified in the table on page two.
Bias Conditions should also satisfy the following expression: PDISS < (TJ – TC)/RTH J - C and TC = TCASE
Parameter
Min.
Specification
Typ.
-8
-3
Max.
Unit
Condition
Recommended Operating
Condition
Drain Voltage (VDSQ)
Gate Voltage (VGSQ)
Drain Bias Current
50
V
-2
V
3400
MHz
2
mA
2
mA
440
Frequency of Operation
2800
mA
DC Functional Test
IG (OFF) – Gate Leakage
ID (OFF) – Drain Leakage
VGS (TH) (th) – Threshold Voltage
-3.4
V
VDS – Drain Voltage at high current
0.22
V
RF Functional Test
Input Return Loss
2 of 11
VG = -8V, VD = 50V
VD = 50V, ID = 20mA
VG = 0V, ID = 1.5A
[1,2]
Small Signal Gain
Power Gain
VG = -8V, VD = 0V
10
13.6
dB
F = 2800MHz, Pin =30dBm
10.5
dB
F = 2800MHz, Pin = 44dBm
dB
F = 2800MHz, Pin = 30dBm
-5.5
7628 Thorndike Road, Greensboro, NC 27409-9421 · For sales or technical
support, contact RFMD at (+1) 336-678-5570 or [email protected].
DS120508
RF3928
Min.
Specification
Typ.
Output Power
54
54.6
dBm
Drain Efficiency
45
50
%
Parameter
Small Signal Gain
Max.
Unit
Condition
F = 2800MHz, Pin = 44dBm
14.2
dB
F = 3100MHz, Pin = 30dBm
10
10.5
dB
F = 3100MHz, Pin = 44dBm
dB
F = 3100MHz, Pin = 30dBm
Output Power
54
54.5
dBm
F = 3100MHz, Pin = 44dBm
Drain Efficiency
45
52
%
12.7
dB
10.5
dB
F = 3400MHz, Pin = 44dBm
dB
F = 3400MHz, Pin = 30dBm
F = 3400MHz, Pin = 44dBm
Power Gain
Input Return Loss
-5.5
Small Signal Gain
Power Gain
10
Input Return Loss
-5.5
Output Power
54
54.3
dBm
Drain Efficiency
45
56
%
RF Typical Performance
F = 3400MHz, Pin = 30dBm
[1,2]
Frequency Range
2800
3400
MHz
Small Signal Gain
12
dB
F = 3100MHz, Pin = 30dBm
Power Gain
10
dB
POUT = 54dBm
Gain Variation with Temperature
Output Power (PSAT)
Drain Efficiency
-0.015
dB/°C
At peak output power
54.5
dBm
Peak output power
280
W
Peak output power
52
%
At peak output power
[1] Test Conditions: Pulsed Operation, PW = 100s, DC = 10%, VDS = 50V, IDQ = 440mA, T = 25ºC
[2] Performance in a standard tuned test fixture
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RF3928
Typical Performance in Standard Fixed Tuned Test Fixture over Temperature
(Pulsed at Center Band Frequency)
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RF3928
Typical Performance in Standard Fixed-tuned Test Fixture (T = 25°C, Unless
Noted)
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RF3928
PulsePowerDissipationDeratingCurve
(BasedonMaximumpackagetemperatureandRth)
1200
PowerDissipation(W)
1000
800
600
400
500SPulseWidth,10%DutyCycle
200
100SPulseWidth,10%DutyCycle
0
0
20
40
60
80
100
120
140
MaximumCaseTemperature(°C)
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RF3928
Package Drawing
(All Dimensions in mm)
Pin Names and Descriptions
Pin
1
2
3
DS120508
Name
VG
VD
GND
Description
Gate – VG RF Input
Drain – VD RF Output
Source – Ground Base
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RF3928
Bias Instruction for RF3928 Evaluation Board
ESD Sensitive Material. Please use proper ESD precautions when handling devices of evaluation board. Evaluation board
requires additional external fan cooling. Connect all supplies before powering evaluation board.
1. Connect RF cables at RFIN and RFOUT.
2. Connect ground to the ground supply terminal, and ensure that both the VG and VD grounds are also connected to this
ground terminal.
3. Apply -6V to VG.
4. Apply 50V to VD.
5. Increase VG until drain current reaches 440mA or desired bias point.
6. Turn on the RF input.
IMPORTANT NOTE: Depletion mode device, when biasing the device VG must be applied BEFORE VD. When removing bias VD
must be removed BEFORE VG is removed. Failure to follow sequencing will cause the device to fail.
NOTE: For optimal RF performance, consistent and optimal heat removal from the base of the package is required. A thin layer
of thermal grease should be applied to the interface between the base of the package and the equipment chassis. It is recommended a small amount of thermal grease is applied to the underside of the device package. Even application and removal of
excess thermal grease can be achieved by spreading the thermal grease using a razor blade. The package should then be
bolted to the chassis and input and output leads soldered to the circuit board.
Vg
Vd
RFIN
RFOUT
RF3928
2.8 – 3.4GHz
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RF3928
Evaluation Board Schematic
VDRAIN
+
VGATE
L21
L20
L22
L23
R3
C14
C17
C7
C8
+
R2
R1
C5
C6
C19
C18
C4
C3
C12
C2
C13
C15
C16
L1
50  strip
J1
RF IN
RF3928
C1
C10
C11
50  strip
J2
RF OUT
C9
Evaluation Board Bill of Materials
Component
Value
Manufacturer
Part Number
R1
R2
R3
C1,C11
C2, C14
C5, C16
C6, C15
C7
C8, C18
C9
C10
C17
L1
L20, L21
L22, L23
C19
C3, C4, C7, C12, C13
10
0
51
22pF
12pF
1000pF
10000pF
120
10F
0.7pF
0.2pF
62pF
22nH
115, 10A
75, 10A
330F
NOT POPULATED
Panasonic
Panasonic
Panasonic
ATC
ATC
Novacap
TDK
Panasonic
Panasonic
ATC
ATC
ATC
Coilcraft
Steward
Steward
Illinois Capacitor
ERJ-8GEYJ100V
ERJ-3GEY0R00
ERJ-8GEYJ510
ATC100A220JT
ATC100A120JT
0805G102M101NT
C2012X7R2A103M
ERJ-6GEYJ120V
EEA-FC1E100
ATC100A0R7BT
ATC100A0R2BT
ATC100B620JT
0807SQ-22N_LC
28F0181-1SR-10
35F0121-1SR-10
9337CKE100M
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RF3928
Evaluation Board Layout
Device Impedances
Frequency (MHz)
Z Source ()
Z Load ()
2800
60.4 – j0.5
42.1 – j30.5
3000
51.9 – j13.5
33.8 – j25.7
3200
44.1 – j16.5
29.5 – j8.9
3400
38.3 – j16.7
17.0 – j9.0
NOTE: Device impedances reported are the measured evaluation board impedances chosen for a trade off of peak power, peak efficiency and
gain performance across the entire frequency bandwidth.
10 of 11
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RF3928
Device Handling/Environmental Conditions
GaN HEMT devices are ESD sensitive materials. Please use proper ESD precautions when handling devices or
evaluation boards.
GaN HEMT Capacitances
The physical structure of the GaN HEMT results in three terminal capacitors similar to other FET technologies.
These capacitances exist across all three terminals of the device. The physical manufactured characteristics of
the device determine the value of the CDS (drain to source), CGS (gate to source) and CGD (gate to drain). These
capacitances change value as the terminal voltages are varied. RFMD presents the three terminal capacitances
measured with the gate pinched off (VGS = -8V) and zero volts applied to the drain. During the measurement process, the parasitic capacitances of the package that holds the amplifier is removed through a calibration step.
Any internal matching is included in the terminal capacitance measurements. The capacitance values presented
in the typical characteristics table of the device represent the measured input (CISS), output (COSS), and reverse
(CRSS) capacitance at the stated bias voltages. The relationship to three terminal capacitances is as follows:
CISS = CGD + CGS
COSS = CGD + CDS
CRSS = CGD
DC Bias
The GaN HEMT device is a depletion mode high electron mobility transistor (HEMT). At zero volts VGS the drain of
the device is saturated and uncontrolled drain current will destroy the transistor. The gate voltage must be taken
to a potential lower than the source voltage to pinch off the device prior to applying the drain voltage, taking care
not to exceed the gate voltage maximum limits. RFMD recommends applying VGS = -5V before applying any VDS.
RF Power transistor performance capabilities are determined by the applied quiescent drain current. This drain
current can be adjusted to trade off power, linearity, and efficiency characteristics of the device. The recommended quiescent drain current (IDQ) shown in the RF typical performance table is chosen to best represent the
operational characteristics for this device, considering manufacturing variations and expected performance.
The user may choose alternate conditions for biasing this device based on performance trade off.
Mounting and Thermal Considerations
The thermal resistance provided as RTH (junction to case) represents only the packaged device thermal characteristics. This is measured using IR microscopy capturing the device under test temperature at the hottest spot of
the die. At the same time, the package temperature is measured using a thermocouple touching the backside of
the die embedded in the device heatsink but sized to prevent the measurement system from impacting the
results. Knowing the dissipated power at the time of the measurement, the thermal resistance is calculated.
In order to achieve the advertised MTTF, proper heat removal must be considered to maintain the junction at or
below the maximum of 200°C. Proper thermal design includes consideration of ambient temperature and the
thermal resistance from ambient to the back of the package including heatsinking systems and air flow mechanisms. Incorporating the dissipated DC power, it is possible to calculate the junction temperature of the device.
DS120508
7628 Thorndike Road, Greensboro, NC 27409-9421 · For sales or technical
support, contact RFMD at (+1) 336-678-5570 or [email protected].
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