English
Language : 

FLM1011-3F Datasheet, PDF (1/4 Pages) Eudyna Devices Inc – X, Ku-Band Internally Matched FET
FLM1011-3F
X, Ku-Band Internally Matched FET
FEATURES
• High Output Power: P1dB = 35.0dBm (Typ.)
• High Gain: G1dB = 7.5dB (Typ.)
• High PAE: ηadd = 29% (Typ.)
• Low IM3 = -46dBc@Po = 24.0dBm
• Broad Band: 10.7 ~ 11.7GHz
• Impedance Matched Zin/Zout = 50Ω
• Hermetically Sealed
DESCRIPTION
The FLM1011-3F is a power GaAs FET that is internally matched for
standard communication bands to provide optimum power and gain in a
50 ohm system.
Eudyna’s stringent Quality Assurance Program assures the highest
reliability and consistent performance.
ABSOLUTE MAXIMUM RATING (Ambient Temperature Ta=25°C)
Item
Symbol
Condition
Rating
Unit
Drain-Source Voltage
VDS
15
V
Gate-Source Voltage
VGS
-5
V
Total Power Dissipation
PT
Tc = 25°C
25.0
W
Storage Temperature
Tstg
-65 to +175
°C
Channel Temperature
Tch
175
°C
Fujitsu recommends the following conditions for the reliable operation of GaAs FETs:
1. The drain-source operating voltage (VDS) should not exceed 10 volts.
2. The forward and reverse gate currents should not exceed 13.0 and -1.4 mA respectively with
gate resistance of 100Ω.
ELECTRICAL CHARACTERISTICS (Ambient Temperature Ta=25°C)
Item
Symbol
Test Conditions
Min.
Limit
Typ. Max.
Unit
Saturated Drain Current
IDSS VDS = 5V, VGS = 0V
- 1400 2100
mA
Transconductance
gm VDS = 5V, IDS = 900mA - 1300 -
mS
Pinch-off Voltage
Vp VDS = 5V, IDS = 70mA -0.5 -1.5 -3.0
V
Gate Source Breakdown Voltage VGSO IGS = -70µA
-5.0 -
-
V
Output Power at 1dB G.C.P.
P1dB
34.0 35.0 -
dBm
Power Gain at 1dB G.C.P.
Drain Current
Power-Added Efficiency
G1dB VDS = 10V,
6.5 7.5 -
dB
Idsr
IDS = 0.6 IDSS(Typ.),
f = 10.7 ~ 11.7 GHz,
- 900 1100
mA
ηadd ZS = ZL = 50Ω
-
29
-
%
Gain Flatness
∆G
-
- ±0.6
dB
3rd Order Intermodulation
Distortion
Thermal Resistance
f = 11.7GHz, ∆f = 10MHz
IM3 2-Tone Test
-44 -46 -
Pout = 24.0dBm S.C.L.
Rth Channel to Case
- 5.0 6.0
dBc
°C/W
Channel Temperature Rise
CASE STYLE: IA
∆Tch 10V x Idsr x Rth
-
-
66
°C
G.C.P.: Gain Compression Point, S.C.L.: Single Carrier Level
Edition 1.4
August 2004
1