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3N201 Datasheet, PDF (2/6 Pages) Motorola, Inc – DUAL GATE MOSFET VHF AMPLIFIER
DIGITRON SEMICONDUCTORS
3N201-3N203
DUAL GATE MOSFET VHF AMPLIFIER
ELECTRICAL CHARACTERISTICS (TA = 25°C unless otherwise noted)
Characteristic
Symbol
Min
Typ
Max
Unit
FUNCTIONAL CHARACTERISTICS
Noise figure
(VDD = 18Vdc, VGG = 7.0Vdc, f = 200MHz)
(VDD = 18Vdc, VGG = 6.0Vdc, f = 45MHz)
3N201
3N203
NF
-
1.8
4.5
dB
-
5.3
6.0
Common source power gain
(VDD = 18Vdc, VGG = 7.0Vdc, f = 200MHz)
(VDD = 18Vdc, VGG = 6.0Vdc, f = 45MHz)
(VDD = 18Vdc, fLO = 245MHz, fRF = 200MHz)
3N201
3N203
3N202
Gps
Gc(5)
15
20
25
dB
20
25
30
15
19
25
Bandwidth
(VDD = 18Vdc, VGG = 7.0Vdc, f = 200MHz)
(VDD = 18Vdc, fLO = 245MHz, fRF = 200MHz)
(VDD = 18Vdc, VGG = 6.0Vdc, f = 45MHz)
3N201
3N202
3N203
5.0
-
9.0
BW
MHz
4.5
-
7.5
3.0
-
6.0
Gain control gate-supply voltage (4)
(VDD = 18Vdc, ΔGps = -30dB, f = 200MHz)
3N201
VGG(GC)
0
-1.0
-3.0
Vdc
(VDD = 18Vdc, ΔGps = -30dB, f = 45MHz)
3N203
0
-0.6
-3.0
Note 1: All gate breakdown voltages are measured while the device is conducting rated gate current. This ensures that the gate-voltage limiting network is functioning properly.
Note 2: Pulse test: pulse width = 300µs. Duty cycle ≤ 2.0%.
Note 3: This parameter must be measured with bias voltages applied for less than 5 seconds to avoid overheating.
Note 4: ΔGps is defined as the change from the value at VGG = 7.0V and VGG = 6.0V.
Note 5: Power gain conversion.
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Rev. 20120705