LP750
0.5
W
P
OWER
PHEMT
Phone: (408) 988-1845
http:// www.filss.com
Revised: 2/26/01
Fax: (408) 970-9950
Email: sales@filss.com
FEATURES
28 dBm Output Power at 1-dB Compression at 18 GHz
10 dB Power Gain at 18 GHz
24 dBm Output Power at 1-dB Compression at 3.3V
55% Power-Added Efficiency
DESCRIPTION AND APPLICATIONS
The LP750 is an Aluminum Gallium Arsenide / Indium Gallium Arsenide (AlGaAs/InGaAs)
Pseudomorphic High Electron Mobility Transistor (PHEMT), utilizing an Electron-Beam direct-
write 0.25
m by 750
m Schottky barrier gate. The recessed "mushroom" gate structure minimizes
parasitic gate-source and gate resistances. The epitaxial structure and processing have been
optimized for reliable high-power applications. The LP750 also features Si
3
N
4
passivation and is
available in a variety of packages, including SOT89 and P100 packages.
Typical applications include commercial and other types of high-performance power amplifiers,
including use within SATCOM uplink transmitters, PCS/Cellular low-voltage high-efficiency output
amplifiers, and medium-haul digital radio transmitters.
ELECTRICAL SPECIFICATIONS @ T
Ambient
= 25C
Parameter
Symbol
Test Conditions
Min
Typ
Max
Units
Saturated Drain-Source Current
I
DSS
V
DS
= 2 V; V
GS
= 0 V
180
225
265
mA
Power at 1-dB Compression
P-1dB
V
DS
= 8 V; I
DS
= 50% I
DSS
26.5
28
dBm
Power Gain at 1-dB Compression
G-1dB
V
DS
= 8 V; I
DS
= 50% I
DSS
8
10
dB
Power-Added Efficiency
PAE
V
DS
= 8 V; I
DS
= 50% I
DSS
;
P
IN
= 10 dBm
55
%
Maximum Drain-Source Current
I
MAX
V
DS
= 2 V; V
GS
= 1 V
400
mA
Transconductance
G
M
V
DS
= 2 V; V
GS
= 0 V
180
230
mS
Gate-Source Leakage Current
I
GSO
V
GS
= -3 V
5
40
A
Pinch-Off Voltage
V
P
V
DS
= 2 V; I
DS
= 4 mA
-0.25
-1.2
-2.0
V
Gate-Source Breakdown
Voltage Magnitude
|V
BDGS
|
I
GS
= 4 mA
-12
-15
V
Gate-Drain Breakdown
Voltage Magnitude
|V
BDGD
|
I
GD
= 4 mA
-12
-16
V
Thermal Resistivity
JC
65
C/W
frequency=18 GHz
DRAIN
BOND
PAD
SOURCE
BOND
PAD (2x)
GATE
BOND
PAD
DIE SIZE: 12.6X16.9 mils (320x430
m)
DIE THICKNESS: 3 mils (75
m)
BONDING PADS: 3.3X2.4 mils (85x60
m)
LP750
0.5
W
P
OWER
PHEMT
Phone: (408) 988-1845
http:// www.filss.com
Revised: 2/26/01
Fax: (408) 970-9950
Email: sales@filss.com
ABSOLUTE MAXIMUM RATINGS
Parameter
Symbol
Test Conditions
Min
Max
Units
Drain-Source Voltage
V
DS
T
Ambient
= 22
3
C
12
V
Gate-Source Voltage
V
GS
T
Ambient
= 22
3
C
-4
V
Drain-Source Current
I
DS
T
Ambient
= 22
3
C
2xI
DSS
mA
Gate Current
I
G
T
Ambient
= 22
3
C
7.5
mA
RF Input Power
P
IN
T
Ambient
= 22
3
C
300
mW
Channel Operating Temperature
T
CH
T
Ambient
= 22
3
C
175
C
Storage Temperature
T
STG
--
-65
175
C
Total Power Dissipation
P
TOT
T
Ambient
= 22
3
C
2.2
W
Notes:
Operating conditions that exceed the Absolute Maximum Ratings could result in permanent damage to the device.
Power Dissipation defined as: P
TOT
(P
DC
+ P
IN
) P
OUT
, where
P
DC
: DC Bias Power
P
IN
: RF Input Power
P
OUT
: RF Output Power
Absolute Maximum Power Dissipation to be de-rated as follows above 25
C:
P
TOT
= 2.2W (0.015W/
C) x T
HS
where T
HS
= heatsink or ambient temperature.
HANDLING PRECAUTIONS
To avoid damage to the devices care should be exercised during handling. Proper Electrostatic
Discharge (ESD) precautions should be observed at all stages of storage, handling, assembly, and
testing. These devices should be treated as Class 1A (0-500 V). Further information on ESD control
measures can be found in MIL-STD-1686 and MIL-HDBK-263.
ASSEMBLY INSTRUCTIONS
The recommended die attach is gold/tin eutectic solder under a nitrogen atmosphere. Stage
temperature should be 280-290
C; maximum time at temperature is one minute. The recommended
wire bond method is thermo-compression wedge bonding with 0.7 or 1.0 mil (0.018 or 0.025 mm)
gold wire. Stage temperature should be 250-260
C.
APPLICATIONS NOTES & DESIGN DATA
Applications Notes are available from your local Filtronic Sales Representative or directly from the
factory. Complete design data, including S-parameters, noise data, and large-signal models are
available on the Filtronic web site.
All information and specifications are subject to change without notice.