HVVI HVV1011-035

HVV1011-040
HVV1214-075
L-Band
Avionics Pulsed Power Transistor
HVV1011-040
The innovative Semiconductor
Company!
HVV1011-040
L-Band
Radar
Pulsed
Power
Transistor
1030-1090MHz,
50!s
Pulse,
5% Transistor
Duty
L-Band
Avionics
Pulsed
Power
L-Band
Avionics
Pulsed
Power
Transistor
1200-1400
MHz, 200µs
Duty
1030-1090MHz,
50!sPulse,
Pulse,10%
5% Duty
HVV1011-035
PRODUCT
OVERVIEW
HVV1011-040
1030-1090MHz, 50!s Pulse, 5% Duty
L-Band
Avionics
Pulsed Power Transistor
L-Band Avionics
Pulsed
Power Transistor
PACKAGE
1030-1090MHz,
50!s
1030-1090MHz,
50µs Pulse, 5%
DutyPulse, 5% Duty
TM
DESCRIPTION
DESCRIPTION
DESCRIPTION
PACKAGE
TCAS and Mode-S
Applications
PACKAGE
The high power HVV1011-040 device is for
a high
DESCRIPTION
PACKAGE
voltage silicon enhancement mode RF transistor
ar
in
m
eli
Pr
The innovative Semiconductor
Company!
Theinnovative
innovative
Semiconductor
Company!
The
Semiconductor
Company!
The
innovative
Semiconductor
Company!
The
innovative
Semiconductor
Company!
y
The
high
Thehigh
highpower
powerHVV1214-075
HVV1011-040device
device is
is aa high
HVV1214-075
designed
for L-Band
pulsed avionics
DESCRIPTION
PACKAGE
voltage
silicon
enhancement
mode
RFapplications
transistor
voltage
silicon
enhancement
mode
RF
transistor
The
high
power
HVV1011-040
device
is
a
high
operating
over
the
frequency
range
from
L-Band
Radar Pulsed Power Transistor
DESCRIPTION
PACKAGE
designed
for
L-Band
pulsed
radar
applications
designedsilicon
for L-Band
pulsed avionics
applications
voltage
enhancement
mode
transistor
The
high power
HVV1011-035
device
isrange
aRF
high
voltage
1030MHz
toover
1090MHz.
operating
the
frequency
from
operating for
over
the frequency
range from
1200-1400 MHz, 200µs Pulse, 10% Duty
designed
L-Band
pulsed
avionics
applications
silicon
enhancement
mode
RF transistor
designed
for
1.2GHz
to HVV1011-040
1.4GHz.
The high
power
device
is a high
1030MHz
to
1090MHz.
operating
over
the frequency
range
from
L-Band
pulsed
avionics applications operating over
voltage
silicon
enhancement
FEATURES
1030MHz
to 1090MHz.mode RF transistor
designed
for L-Band
pulsed
applications
theFEATURES
frequency
range
fromavionics
1030MHz
to 1090MHz.
FEATURES
operating
over the frequency range from
The device resides in a Surface Mount Package
•
High Power Gain
1030MHz
to 1090MHz.
FEATURES
DESCRIPTION
with a ceramic lid. The SM200 package style is
Excellent
Ruggedness
x• High
Power
Gain
The device resides in a Surface Mount Package
•
High Power Gain
Features
PACKAGE
qualified for gross leak test – MIL-STD-883,
48V Supply
Voltage
x• Excellent
Ruggedness
with device
a ceramic
lid. The SM200 package style is
••
Excellent
Ruggedness
The
High
Power
Gain
Method
1014.resides in a Surface Mount Package
x
48V
Supply
Voltage
The• High
high
power
HVV1214-075
device is a high
Gain
FEATURES
qualified
for gross
leak
– MIL-STD-883,
• Power
48V Supply
Voltage
with
a
ceramic
lid.
The test
SM200
package style is
•
Excellent
Ruggedness
voltage
silicon enhancement
mode
RF transistor
ABSOLUTE
MAXIMUM
RATINGS
• Excellent
Ruggedness
Method 1014.
qualified
for
gross
leak
test
–
MIL-STD-883,
•
48V
Supply
Voltage
designed for L-Band pulsed radar applications
MAXIMUM
RATINGS
The device
resides
in a Surface Mount Package
• ABSOLUTE
High
Gain
• 48V Power
Supply
Method
1014.
ABSOLUTE
MAXIMUM
RATINGS
operating
overVoltage
the frequency
range from
RUGGEDNESS
The
resides
a SM200
Surfacepackage
Mount style
Package
withdevice
a ceramic
lid. in
The
is with
•
Excellent Ruggedness
1.2GHz
to Parameter
1.4GHz.
The device resides in a two-lead metal flanged
ABSOLUTE
MAXIMUM RATINGS
Value
Unit
qualified
for
gross
leak
test
–
MIL-STD-883,
• Symbol
48V Supply
Voltage
RUGGEDNESS
a ceramic
lid. with
The SM200
packagepolymer
style is qualified
for
package
liquid device
crystal
ABSOLUTE
MAXIMUM
Symbol
Parameter
Value
The
HVV1011-040
is capable lid.
of The
VDSS
Drain-Source
Voltage RATINGS
105
VUnit
Method
1014.
gross
leak
test
–
MIL-STD-883,
Method
1014.
Symbol
Parameter
Value
Unit
RUGGEDNESS
HV400
package
style
is
qualified
for
gross
leak
VDSS
Drain-Source
Voltage 10
105
withstanding an output load mismatch
VFEATURES
Gate-Source
Voltage
VV
GS
The
device is capable
of Test
ABSOLUTE
MAXIMUM
RATINGS
VVDSS
Drain-Source
Voltage Value
105
V
test
– HVV1011-040
MIL-STD-750D,
1071.6,
Symbol
Parameter
Unit
corresponding
to a 20:1Method
VSWR over
all phase
Gate-Source
GS
IDSX
Drain
Current Voltage 2 10
AV
withstanding
an
output
load
mismatch
V
Gate-Source
Voltage
10
V
Condition
C.
GS
The
HVV1011-040
device
is
capable
of
2
95
Drain-Source
105
V
angles and rated output power and operating
DrainDissipation
CurrentVoltage 116
8
DSX
PDVIDSS
Power
WA
RUGGEDNESS
x2 High
Power
Gain
correspondingan
to a 20:1load
VSWR
over all phase
IPDSX
Drain
Current
2
A
withstanding
mismatch
V
Gate-Source
Voltage -65
10
V
voltage
across theoutput
frequency band
of operation.
Power
Dissipation
250
W
GS
D
T
Storage
Temperature
to
°C
Excellent
Ruggedness
angles
and
rated
output
power
and
operating
SymbolSPDx2Parameter
Value
Unit
RUGGEDNESS
Power
Dissipation
116
W
corresponding
to
a
20:1
VSWR
over
all phase
IT
Drain
Current
2
A
Storage
Temperature
-65
to
°C
RUGGEDNESS
DSX
S
+200
x2Drain-Source
48V Storage
SupplyVoltage
Voltage
The HVV1011-040
device
is
capable
of
voltage
across
the
frequency
band
of
operation.
VDSS
105
V
1,2
T
Temperature
-65
to
°C
angles
and
rated
output
power
and
operating
S
+200
P
Power
Dissipation
116
W
D
JunctionVoltage
200 V
°C
Symbol
Parameter
Test
Condition
Max
Units
The
HVV1011-035
device
is frequency
capable
ofband
withstanding
an
withstanding
anacross
output
load
mismatch
VGS TJ Gate-Source
10
+200
voltage
the
of
operation.
1
JunctionTemperature 200
°C
TTSJ
Storage
-65 to
°C
LMT
Load
F = over
1090
MHz
20:1
VSWR
Temperature
The
HVV1214-075
device
is
capable
of
corresponding
to
a
20:1
VSWR
all
phase
output
load
mismatch
corresponding
to
a
20:1
VSWR
at
IDSX ABSOLUTE
A
TJ Drain Current
Junction
200
°C
Symbol
Parameter Test Condition Max
Units
MAXIMUM 2RATINGS
Temperature
+200
Mismatch
withstanding
an
output
load
mismatch
1
angles
and
rated
output
power
and
operating
PD2
Power Dissipation
116
W
all phaseSymbol
angles
rated
and 20:1
operating
LMT and
Load output
F = power
1090
MHz
VSWR
Temperature
Tolerance
TJ
Junction
200
°C
Parameter
Test
Condition
Max
corresponding
to ain20:1
VSWR
over
all
phase Units
The
device
resides
a two-lead
flanged
voltage
across
the
frequency
band
ofmetal
operation.
Mismatch
TS
StorageTemperature
Temperature
-65 to
°C
1the frequency
voltage
across
band
of
operation
THERMAL
CHARACTERISTICS
LMT
Load
F
=
1090
MHz
20:1
VSWR
angles and
output
power
and lid.
operating
package
withrated
liquid
crystal
polymer
The
Tolerance
Symbol Parameter
Unit
+200 Value
Mismatch
voltage
across
the
frequency
band
of
HV400
package
style
is
qualified
for
gross
leak
THERMAL
CHARACTERISTICS
V
Drain-Source
Voltage
105
V
TJ
Junction
200
°C
DSS
Symbol
Parameter
Test Condition Max
Units
Tolerance
THERMAL
CHARACTERISTICS
operation.
test
– MIL-STD-750D,
Method
1071.6,
Test
1
THERMAL
CHARACTERISTICS
V
Gate-Source
Voltage
10
V
Symbol
Parameter
Max
Unit
LMT
Load
F
=
1090
MHz
20:1
VSWR
1060MHz
GSTemperature
THERMAL
CHARACTERISTICS
Condition
C.
Symbol
Parameter
Test Condition
Max
Units
Mismatch
IDSX
Drain Current
8
A
Thermal
Resistance
1.5
°C/W
1
Symbol
Parameter
Unit
Parameter
Max
Unit
2
LMT
Load
POUT = 75W
20:1
VSWR
Tolerance
PSymbol
Power
Dissipation
250
W
D 1
Thermal
Resistance
1.5
°C/W
Mismatch
LJJC
ThermalTemperature
Resistance
0.70
°C/W
THERMAL
CHARACTERISTICS
Symbol
Parameter
Max
Unit
T
Storage
-65
to
°C
F = 1400MHz
RUGGEDNESS
S
Tolerance
ELECTRICAL
CHARACTERISTICS
Thermal
Resistance
1.5
°C/W
+200
CHARACTERISTICS
TJELECTRICAL
JunctionCHARACTERISTICS
200
°C
The HVV1214-075 device is capable of
SymbolELECTRICAL
Parameter
Max
Unit
ELECTRICAL
CHARACTERISTICS
Temperature
withstanding an output load mismatch
Thermal Resistance
1.5
°C/W
ELECTRICAL
CHARACTERISTICS
Symbol
Parameter
Conditions
Typ
Units
corresponding to a 20:1 VSWR
over all phase
102
2mA
V
Drain-Source Breakdown ConditionsVGS=0V,ID=1mA
110
V
BR(DSS)
Symbol
Parameter
Typ
Units
angles
and
rated
output
power
and
operating
Symbol
Parameter
Conditions
Typ
Units
<25V band !A
IVDSS
Drain Leakage
Current
VGS=0V,VDS=48V
<10
ELECTRICAL
voltage across the 110
frequency
of
Drain-Source
Breakdown
BR(DSS)
VBR(DSS) CHARACTERISTICS
Drain-Source
Breakdown VGS=0V,ID=1mA
VGS=0V,ID=1mA
110
VUnits
Symbol
Parameter
Conditions
Typ
IIGSS
Gate
Leakage
Current
VGS=5V,VDS=0V
!A
operation.
Drain
Leakage
Current
VGS=0V,VDS=48V
<10 <1
µA
THERMAL
CHARACTERISTICS
DSS
I1DSS
Drain
Leakage
Current
VGS=0V,VDS=48V
<10
!A
V
Drain-Source
Breakdown
VGS=0V,ID=1mA
110
V
BR(DSS)
G
Power
Gain
P
=35W,F=1060MHz
20
dB
P
OUT
IGSS
GateGate
Leakage
Current
VGS=5V,VDS=0V
<1
µAMax
Symbol Parameter
Test Condition
Units
IDSS
Leakage
Current
VGS=5V,VDS=0V
<1
!A
GSS
1
I
Drain
Leakage
Current
VGS=0V,VDS=48V
<10
!A
1
1
IRL
Input
Return LossMax
POUT
=35W,F=1060MHz
Symbol
Parameter
Unit
LMT
Load
POUT =21
75W
VSWR
G
Power
Gain
POUT=75W,F=1200MHz,1400MHz
Symbol
Parameter
Conditions
Typ 8 20dB20:1
UnitsdB
P 1
Power
Gain
POUT
=35W,F=1060MHz
dB
1P1
IG
Gate
Leakage
Current
VGS=5V,VDS=0V
<1
!A
GSS
Drain
Efficiency
P
=35W,F=1060MHz
52
%
Mismatch
LJ
Thermal
Resistance
0.70
°C/W
1
OUT
JC
IRL
Input
Return
Loss
P
=75W,F=1200MHz,1400MHz
9
dB
VBR(DSS) IRL
Drain-Source
Breakdown
110
V
OUT VGS=0V,ID=1mA
1
F
=
1400MHz
Input
Return
Loss
P
=35W,F=1060MHz
8
dB
OUT
G11P
Power
Gain
POUT
=35W,F=1060MHz
20
dB
Tolerance
PD
Pulse
Droop
POUT
=35W,F=1060MHz
dB
Drain
Efficiency
POUT=75W,F=1200MHz,1400MHz
44
% !A
IDSS dž
Drain
Leakage
Current
VGS=0V,VDS=48V
<10 <0.2
D
1
Drain
Efficiency
P
=35W,F=1060MHz
52
%
OUT
IRL
Input Return Loss
POUT=35W,F=1060MHz
8
dB
1
Pulse
Droop
POUT=75W,F=1200MHz,1400MHz
<0.6
dB !A
IGSS 1 PD
Gate
Leakage
Current
VGS=5V,VDS=0V
<1
PD1
Pulse
Droop
P
=35W,F=1060MHz
<0.2
dB
OUT
Drain Efficiency
POUToutput
=35W,F=1060MHz
52
%
All parameters
measured
under
conditions
at=35W,F=1060MHz
35W
with the
Conditions:
Pulse
Widthpulsed
= 50 µsec,
Pulse
Duty
Cycle = 5%power
at VDDunder
= 48V,pulsed
IDQ20= conditions
15mA
ELECTRICAL
CHARACTERISTICS
GP1 1Under
Gain
POUT
dB
1Pulse Power
PD
Pulse
Droop
P
=35W,F=1060MHz
<0.2
dB
pulse
width
= 50!sec,
duty
cycle Width
= 5% =
and
VDDP= Pulse
48V, OUT
IDQ
=Cycle
15mA
a broadband
matched
fixture.
1.)
Pulse
Pulse
200µsec,
Duty
= in
10%
at VDD
IDQ test
=
1 Under
IRL12Rated
Input
Return
Loss
8= 48V,
dB50mA
TCASE
= Conditions:
25°C
OUT=35W,F=1060MHz
parameters
measured
under pulsed
conditions
at 35W
output
power
under
pulsed
conditions
with the
2 All at
Rated
at at
TCASE
= 25°C
2.)
Rated
T
=
25°C
CASE
Drain
Efficiency
POUT
52 matched
%
1
pulse
width
= 50!sec,
dutyunder
cycle pulsed
= 5% and
VDD
==35W,F=1060MHz
48V,
= 15mA
in under
a broadband
test
fixture.
Symbol
Parameter
Conditions
Typ
Units
All parameters
measured
conditions
at
35WIDQ
output
power
pulsed
conditions
with
the
2
PD1 Vpulse
Pulse
Droop
P
=35W,F=1060MHz
<0.2
dB
Rated
at
T
=
25°C
OUT
CASE
Drain-Source
Breakdown
VGS=0V,ID=1mA
110
V
BR(DSS) width = 50!sec, duty cycle = 5% and VDD = 48V, IDQ = 15mA in a broadband matched test fixture.
2
IDSS
Drain
Current
VGS=0V,VDS=48V
Rated at TCASE
= Leakage
25°C
All parameters
measured
under Current
pulsed conditions
at 35W
outputvisit:
power
under pulsed
IGSS Semiconductors,
Gate Leakage
VGS=5V,VDS=0V
HVVi
Inc.
For additional
information,
www.hvvi.com
For
additional
information:
1 Semiconductors,
Inc.
pulseHVVi
width
=
50!sec,
duty
cycle
=
5%
and
VDD
=
48V,
IDQ
=
15mA
in
a broadband
st
GP Semiconductors,
Gain
=75W,F=1200MHz,1400MHz
OUTinformation,
10235
S. 51 St.Power
Suite 100
HVViPSemiconductors,
Inc. www.hvvi.com
Confidential
2
HVVi
Inc.
For
additional
visit:
HVVi
Semiconductors,
Inc.
For
additional
information,
visit:
www.hvvi.com
Tel:
(866)
429-HVVi
(4884)
or
visit
www.hvvi.com
1T
Rated
at
=
25°C
10235
S.
51st
St.
Suite
100
CASE
st
IRL
Input Return Loss
P =75W,F=1200MHz,1400MHz
1
<10
µA
conditions
with
<1
µA theEG-01-PO01X1
EG-01-PO01X6
matched
test
21
dBfixture.
OUT
Phoenix,
Az. St.
85044
© 2008HVVi
HVViSemiconductors,
Semiconductors,
Inc.Confidential
All Rights Reserved.9
st Suite 100
Inc.
10235
S.S.
51
1
10235
St.
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100
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Inc.Rights
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HVViHVVi
Semiconductors,
Inc.
All
Reserved. 44
Phoenix,
AZ.5185044
Semiconductors,
Inc.
additional
information,
visit:
www.hvvi.com
džHVVi
Drain
POUT
=75W,F=1200MHz,1400MHz
D
Phoenix,
Az.
85044
©
2008
HVVi
Semiconductors,
Inc.
All
Rights
Reserved.
st 85044
1
Phoenix,
Az.
©
2008
HVVi
Semiconductors,
Inc.
All
Rights
Reserved.
10235 S. 51 St.
Suite
100
HVVi
Semiconductors,
Inc. Confidential
PD
Pulse
Droop
POUT
=75W,F=1200MHz,1400MHz
<0.6
Phoenix, Az. 85044
© 2008 HVVi Semiconductors, Inc. All Rights Reserved.
HVVi Semiconductors, Inc.
For additional information, visit: www.hvvi.com
5/09/08
EG-01-PO08X1
EG-01-PO01X1
10/13/08
1
5/23/08
5/09/08
1
EG-01-PO01X1
1
5/09/081
1
EG-01-PO01X1
dB
%
dB
The innovative Semiconductor Company!
The innovative Semiconductor Company!
TM
HVV1011-040
L-Band
Avionics
Pulsed Power Transistor
HVV1011-035
PRODUCT
OVERVIEW
1030-1090MHz, 50!s Pulse, 5% Duty
L-Band Avionics Pulsed Power Transistor
1030-1090MHz, 50µs Pulse, 5% Duty
for TCAS and Mode-S Applications
PACKAGE DIMENSIONS
PACKAGE DIMENSIONS
DRAIN
SOURCE
GATE
Note: Drawing is not actual size.
Note: Drawing is not actual size.
HVVi Semiconductors, Inc. (HVVi) reserves the right to make changes to information published
in this document at any time and without notice. This document supersedes and replaces all
information supplied prior to the publication hereof. Information in this document is believed to
be accurate and reliable. However, HVVi does not give any representations or warranties, either
express or implied, as to the accuracy or completeness of such information and shall have no liability
for the consequences of use of such information. Use of HVVi products as critical components in
life support systems is not authorized. No licenses, either express or implied, are conveyed under
HVVi
Inc.
(HVVi) rights,
reserves
the right any
to make
changes
information
published
in this
anySemiconductors,
HVVi intellectual
property
including
patent
rights.toThe
HVVi name
and logo
are
document
at
any
time
and
without
notice.
This
document
supersedes
and
replaces
all
information
trademarks of HVVi Semiconductors, Inc.
supplied prior to the publication hereof. Information in this document is believed to be accurate and
reliable. However, HVVi does not give any representations or warranties, either express or implied, as
to the accuracy or completeness of such information and shall have no liability for the consequences of
use of such information. Use of HVVi products as critical components in life support systems is not
authorized. No licenses, either express or implied, are conveyed under any HVVi intellectual property
rights, including any patent rights. The HVVi name and logo are trademarks of HVVi Semiconductors,
Inc.
HVVi Semiconductors, Inc.
10235 S. 51st St. Suite 100
Phoenix, AZ. 85044
HVVi Semiconductors, Inc.
10235 S. 51st St. Suite 100
Phoenix, Az. 85044
For additional information:
Tel: (866) 429-HVVi (4884) or visit www.hvvi.com
© 2008 HVVi Semiconductors, Inc. All Rights Reserved.
For additional information, visit: www.hvvi.com
HVVi Semiconductors, Inc. Confidential
© 2008 HVVi Semiconductors, Inc. All Rights Reserved.
EG-01-PO01X6
10/13/08
2
EG-01-PO01X1
5/09/08
2