FREESCALE MRFE6VP5600HSR6

Freescale Semiconductor
Technical Data
Document Number: MRFE6VP5600H
Rev. 0, 12/2010
RF Power Field Effect Transistors
High Ruggedness N--Channel
Enhancement--Mode Lateral MOSFETs
These high ruggedness devices are designed for use in high VSWR industrial
(including laser and plasma exciters), broadcast (analog and digital), aerospace
and radio/land mobile applications. They are unmatched input and output
designs allowing wide frequency range utilization, between 1.8 and 600 MHz.
• Typical Performance: VDD = 50 Volts, IDQ = 100 mA
Pout
(W)
f
(MHz)
Gps
(dB)
ηD
(%)
IRL
(dB)
Pulsed (100 μsec,
20% Duty Cycle)
600 Peak
230
25.0
74.6
--18
CW
600 Avg.
230
24.6
75.2
--17
Signal Type
• Capable of Handling a Load Mismatch of 65:1 VSWR, @ 50 Vdc,
230 MHz, at all Phase Angles, Designed for Enhanced Ruggedness
• 600 Watts CW Output Power
• 600 Watts Pulsed Peak Power, 20% Duty Cycle, 100 μsec
Features
• Unmatched Input and Output Allowing Wide Frequency Range Utilization
• Device can be used Single--Ended or in a Push--Pull Configuration
• Qualified Up to a Maximum of 50 VDD Operation
• Characterized from 30 V to 50 V for Extended Power Range
• Suitable for Linear Application with Appropriate Biasing
• Integrated ESD Protection with Greater Negative Gate--Source Voltage
Range for Improved Class C Operation
• Characterized with Series Equivalent Large--Signal Impedance Parameters
• RoHS Compliant
• In Tape and Reel. R6 Suffix = 150 Units, 56 mm Tape Width, 13 inch Reel.
For R5 Tape and Reel options, see p. 12.
MRFE6VP5600HR6
MRFE6VP5600HSR6
1.8--600 MHz, 600 W CW, 50 V
LATERAL N--CHANNEL
BROADBAND
RF POWER MOSFETs
CASE 375D--05, STYLE 1
NI--1230
MRFE6VP5600HR6
CASE 375E--04, STYLE 1
NI--1230S
MRFE6VP5600HSR6
PARTS ARE PUSH--PULL
Table 1. Maximum Ratings
Rating
Symbol
Value
Unit
Drain--Source Voltage
VDSS
--0.5, +130
Vdc
Gate--Source Voltage
VGS
--6.0, +10
Vdc
Storage Temperature Range
Tstg
-- 65 to +150
°C
Case Operating Temperature
TC
150
°C
Total Device Dissipation @ TC = 25°C
Derate above 25°C
PD
1667
8.33
W
W/°C
Operating Junction Temperature (1,2)
TJ
225
°C
RFin/VGS 3
1 RFout/VDS
RFout/VGS 4
2 RFout/VDS
(Top View)
Figure 1. Pin Connections
Table 2. Thermal Characteristics
Characteristic
Thermal Resistance, Junction to Case
Case Temperature 68°C, 600 W Pulsed, 100 μsec Pulse Width, 20% Duty Cycle, 100 mA, 230 MHz
Case Temperature 60°C, 600 W CW, 100 mA, 230 MHz
Symbol
Value (2,3)
ZθJC
RθJC
0.022
0.12
Unit
°C/W
1. Continuous use at maximum temperature will affect MTTF.
2. MTTF calculator available at http://www.freescale.com/rf. Select Software & Tools/Development Tools/Calculators to access
MTTF calculators by product.
3. Refer to AN1955, Thermal Measurement Methodology of RF Power Amplifiers. Go to http://www.freescale.com/rf.
Select Documentation/Application Notes -- AN1955.
© Freescale Semiconductor, Inc., 2010. All rights reserved.
RF Device Data
Freescale Semiconductor
MRFE6VP5600HR6 MRFE6VP5600HSR6
1
Table 3. ESD Protection Characteristics
Test Methodology
Class
Human Body Model (per JESD22--A114)
2 (Minimum)
Machine Model (per EIA/JESD22--A115)
B (Minimum)
Charge Device Model (per JESD22--C101)
IV (Minimum)
Table 4. Electrical Characteristics (TA = 25°C unless otherwise noted)
Characteristic
Off Characteristics
Symbol
Min
Typ
Max
Unit
IGSS
—
—
1
μAdc
130
—
—
Vdc
(1)
Gate--Source Leakage Current
(VGS = 5 Vdc, VDS = 0 Vdc)
Drain--Source Breakdown Voltage
(VGS = 0 Vdc, ID = 100 mA)
V(BR)DSS
Zero Gate Voltage Drain Leakage Current
(VDS = 50 Vdc, VGS = 0 Vdc)
IDSS
—
—
10
μAdc
Zero Gate Voltage Drain Leakage Current
(VDS = 100 Vdc, VGS = 0 Vdc)
IDSS
—
—
20
μAdc
Gate Threshold Voltage (1)
(VDS = 10 Vdc, ID = 960 μAdc)
VGS(th)
1.7
2.2
2.7
Vdc
Gate Quiescent Voltage
(VDD = 50 Vdc, ID = 100 mAdc, Measured in Functional Test)
VGS(Q)
2.0
2.5
3.0
Vdc
Drain--Source On--Voltage (1)
(VGS = 10 Vdc, ID = 2 Adc)
VDS(on)
—
0.26
—
Vdc
Reverse Transfer Capacitance
(VDS = 50 Vdc ± 30 mV(rms)ac @ 1 MHz, VGS = 0 Vdc)
Crss
—
1.60
—
pF
Output Capacitance
(VDS = 50 Vdc ± 30 mV(rms)ac @ 1 MHz, VGS = 0 Vdc)
Coss
—
129
—
pF
Input Capacitance
(VDS = 50 Vdc, VGS = 0 Vdc ± 30 mV(rms)ac @ 1 MHz)
Ciss
—
342
—
pF
On Characteristics
Dynamic Characteristics (1)
Functional Tests (In Freescale Test Fixture, 50 ohm system) VDD = 50 Vdc, IDQ = 100 mA, Pout = 600 W Peak (120 W Avg.), f = 230 MHz,
Pulsed, 100 μsec Pulse Width, 20% Duty Cycle
Power Gain
Gps
23.5
25.0
26.5
dB
Drain Efficiency
ηD
73.5
74.6
—
%
Input Return Loss
IRL
—
--18
--12
dB
1. Each side of device measured separately.
MRFE6VP5600HR6 MRFE6VP5600HSR6
2
RF Device Data
Freescale Semiconductor
VBIAS
+
C10
C11
C12
C13
R1
COAX1
Z11
Z3
RF
INPUT Z1
Z5
Z7
Z9
L1
Z13
Z6
C4
Z8
C5
Z10
L2
Z14
C2
Z2
Z4
C1
C3
Z12
COAX2
R2
VBIAS
+
C7
C6
L3
C8
C9
C22
+
+
+
C23
C24
C25
VSUPPLY
Z19
COAX3
Z17
Z15
Z21
Z23
Z25
C16
Z27
Z29
C17
Z31
DUT
C14
C15
RF
Z32 OUTPUT
C20
C21
Z16
Z22
Z24
Z26
Z28
Z30
C18
Z18
COAX4
C19
Z20
L4
C26
Z1
Z2
Z3, Z4
Z5, Z6
Z7, Z8
Z9, Z10
0.192″ x 0.082″ Microstrip
0.175″ x 0.082″ Microstrip
0.170″ x 0.100″ Microstrip
0.116″ x 0.285″ Microstrip
0.116″ x 0.285″ Microstrip
0.108″ x 0.285″ Microstrip
Z11*, Z12*
Z13, Z14
Z15, Z16
Z17*, Z18*
Z19*, Z20*
Z21, Z22
+
+
+
C27
C28
C29
VSUPPLY
0.872″ x 0.058″ Microstrip
0.412″ x 0.726″ Microstrip
0.371″ x 0.507″ Microstrip
0.466″ x 0.363″ Microstrip
1.187″ x 0.154″ Microstrip
0.104″ x 0.507″ Microstrip
Z23, Z24
Z25, Z26
Z27, Z28
Z29, Z30
Z31
Z32
1.251″ x 0.300″ Microstrip
0.127″ x 0.300″ Microstrip
0.058″ x 0.300″ Microstrip
0.058″ x 0.300″ Microstrip
0.186″ x 0.082″ Microstrip
0.179″ x 0.082″ Microstrip
* Line length includes microstrip bends
Figure 1. MRFE6VP5600HR6(HSR6) Test Circuit Schematic -- Pulsed
MRFE6VP5600HR6 MRFE6VP5600HSR6
RF Device Data
Freescale Semiconductor
3
C23
C10
C11 C12
C24
C25
C13
C22
COAX1
COAX3
R1
C1
L3
C2 C4
L1
C3
L2
C5
C14
C20
C18
C19
C21
L4
R2
COAX2
C16
C17
C15
COAX4
C26
C6
C7 C8
C9
C27
MRFE6VP5600H
Rev. 1
C28
C29
Figure 2. MRFE6VP5600HR6(HSR6) Test Circuit Component Layout -- Pulsed
Table 5. MRFE6VP5600HR6(HSR6) Test Circuit Component Designations and Values -- Pulsed
Part
Description
Part Number
Manufacturer
C1
12 pF Chip Capacitor
ATC100B120JT500XT
ATC
C2, C3
27 pF Chip Capacitors
ATC100B270JT500XT
ATC
C4
0.8--8.0 pF Variable Capacitor, Gigatrim
27291SL
Johanson
C5
33 pF Chip Capacitor
ATC100B330JT500XT
ATC
C6, C10
22 μF, 35 V Tantalum Capacitors
T491X226K035AT
Kemet
C7, C11
0.1 μF Chip Capacitors
CDR33BX104AKYS
AVX
C8, C12
220 nF Chip Capacitors
C1812C224K5RACTU
Kemet
C9, C13, C22, C26
1000 pF Chip Capacitors
ATC100B102JT50XT
ATC
C14
36 pF Chip Capacitor
ATC100B360JT500XT
ATC
C15
51 pF Chip Capacitor
ATC100B510GT500XT
ATC
C16, C17, C18, C19
240 pF Chip Capacitors
ATC100B241JT200XT
ATC
C20
39 pF Chip Capacitor
ATC100B390JT500XT
ATC
C21
10 pF Chip Capacitor
ATC100B100JT500XT
ATC
C23, C24, C25, C27, C28, C29
470 μF, 63 V Electrolytic Capacitors
MCGPR63V477M13X26--RH
Multicomp
Coax1, 2, 3, 4
25 Ω Semi Rigid Coax, 2.2″ Long
UT--141C--25
Micro Coax
L1, L2
5 nH Inductors
A02TKLC
Coilcraft
L3, L4
6.6 nH Inductors
GA3093--ALC
Coilcraft
R1, R2
10 Ω Chip Resistors
CRCW120610R0JNEA
Vishay
PCB
0.030″, εr = 2.55
AD255A
Arlon
MRFE6VP5600HR6 MRFE6VP5600HSR6
4
RF Device Data
Freescale Semiconductor
TYPICAL CHARACTERISTICS
64
1000
Coss
Measured with ±30 mV(rms)ac @ 1 MHz
VGS = 0 Vdc
10
Crss
1
0
10
20
40
30
VDD = 50 Vdc, IDQ = 100 mA, f = 230 MHz
Pulse Width = 100 μsec, 20% Duty Cycle
63
62
P3dB = 58.3 dBm (679 W)
61
60
P1dB = 58.0 dBm
(632 W)
59
32
33
34
35
Pin, INPUT POWER (dBm) PULSED
VDS, DRAIN--SOURCE VOLTAGE (VOLTS)
Figure 3. Capacitance versus Drain--Source Voltage
Gps
24
60
23
50
22
40
ηD
21
20
40
22
50 V
21
45 V
20
40 V
35 V
VDD = 30 V
17
100
0
300
200
400
500
Pout, OUTPUT POWER (WATTS) PULSED
Figure 5. Pulsed Power Gain and Drain Efficiency
versus Output Power
Figure 6. Pulsed Power Gain versus
Output Power
27
45 V
40 V
35 V
VDD = 30 V
50 V
26
Gps, POWER GAIN (dB)
70
60
50
40
VDD = 50 Vdc, IDQ = 100 mA, f = 230 MHz
Pulse Width = 100 μsec, 20% Duty Cycle
30
0
100
200
300
400
500
600
VDD = 50 Vdc, IDQ = 100 mA, f = 230 MHz
Pulse Width = 100 μsec, 20% Duty Cycle
25
85_C
80
--30_C 70
60
TC = --30_C
50
23 25_C
40
22
ηD
85_C
21
700
90
25_C
Gps
24
700
600
Pout, OUTPUT POWER (WATTS) PULSED
80
ηD, DRAIN EFFICIENCY (%)
23
18
20
1000
100
24
19
30
90
20
25
Gps, POWER GAIN (dB)
70
25
37
VDD = 50 Vdc, IDQ = 100 mA, f = 230 MHz
Pulse Width = 100 μsec, 20% Duty Cycle
26
80
ηD, DRAIN EFFICIENCY (%)
26
Gps, POWER GAIN (dB)
27
90
VDD = 50 Vdc, IDQ = 100 mA, f = 230 MHz
Pulse Width = 100 μsec, 20% Duty Cycle
36
Figure 4. Pulsed Output Power versus
Input Power
Note: Each side of device measured separately.
27
Actual
58
57
31
50
Ideal
P2dB = 58.2 dBm (664 W)
20
40
100
ηD, DRAIN EFFICIENCY (%)
100
Pout, OUTPUT POWER (dBm) PULSED
C, CAPACITANCE (pF)
Ciss
30
20
1000
Pout, OUTPUT POWER (WATTS) PULSED
Pout, OUTPUT POWER (WATTS) PULSED
Figure 7. Pulsed Drain Efficiency versus
Output Power
Figure 8. Pulsed Power Gain and Drain Efficiency
versus Output Power
MRFE6VP5600HR6 MRFE6VP5600HSR6
RF Device Data
Freescale Semiconductor
5
TYPICAL CHARACTERISTICS
109
MTTF (HOURS)
108
107
106
105
104
90
110
130
150
170
190
210
230
250
TJ, JUNCTION TEMPERATURE (°C)
This above graph displays calculated MTTF in hours when the device
is operated at VDD = 50 Vdc, Pout = 600 W Avg., and ηD = 75.2%.
MTTF calculator available at http://www.freescale.com/rf. Select
Software & Tools/Development Tools/Calculators to access MTTF
calculators by product.
Figure 9. MTTF versus Junction Temperature — CW
MRFE6VP5600HR6 MRFE6VP5600HSR6
6
RF Device Data
Freescale Semiconductor
Zsource
Zo = 10 Ω
f = 230 MHz
f = 230 MHz
Zload
VDD = 50 Vdc, IDQ = 100 mA, Pout = 600 W Peak
f
MHz
Zsource
Ω
Zload
Ω
230
1.78 + j5.45
2.75 + j5.30
Zsource = Test circuit impedance as measured from
gate to gate, balanced configuration.
Zload
= Test circuit impedance as measured from
drain to drain, balanced configuration.
Input
Matching
Network
+
Device
Under
Test
--
-Z
source
Output
Matching
Network
+
Z
load
Figure 10. Series Equivalent Source and Load Impedance
MRFE6VP5600HR6 MRFE6VP5600HSR6
RF Device Data
Freescale Semiconductor
7
PACKAGE DIMENSIONS
MRFE6VP5600HR6 MRFE6VP5600HSR6
8
RF Device Data
Freescale Semiconductor
MRFE6VP5600HR6 MRFE6VP5600HSR6
RF Device Data
Freescale Semiconductor
9
MRFE6VP5600HR6 MRFE6VP5600HSR6
10
RF Device Data
Freescale Semiconductor
MRFE6VP5600HR6 MRFE6VP5600HSR6
RF Device Data
Freescale Semiconductor
11
PRODUCT DOCUMENTATION AND SOFTWARE
Refer to the following documents and software to aid your design process.
Application Notes
• AN1955: Thermal Measurement Methodology of RF Power Amplifiers
Engineering Bulletins
• EB212: Using Data Sheet Impedances for RF LDMOS Devices
Software
• Electromigration MTTF Calculator
• RF High Power Model
• .s2p File
For Software, do a Part Number search at http://www.freescale.com, and select the “Part Number” link. Go to the Software &
Tools tab on the part’s Product Summary page to download the respective tool.
R5 TAPE AND REEL OPTION
R5 Suffix = 50 Units, 56 mm Tape Width, 13 inch Reel.
The R5 tape and reel option for MRFE6VP5600H and MRFE6VP5600HS parts will be available for 2 years after release of
MRFE6VP5600H and MRFE6VP5600HS. Freescale Semiconductor, Inc. reserves the right to limit the quantities that will be
delivered in the R5 tape and reel option. At the end of the 2 year period customers who have purchased these devices in the R5
tape and reel option will be offered MRFE6VP5600H and MRFE6VP5600HS in the R3 tape and reel option.
REVISION HISTORY
The following table summarizes revisions to this document.
Revision
Date
0
Dec. 2010
Description
• Initial Release of Data Sheet
MRFE6VP5600HR6 MRFE6VP5600HSR6
12
RF Device Data
Freescale Semiconductor
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MRFE6VP5600HR6 MRFE6VP5600HSR6
Document
Number:
RF
Device
Data MRFE6VP5600H
Rev. 0, 12/2010
Freescale
Semiconductor
13