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S-AV40 Datasheet, PDF (2/6 Pages) Toshiba Semiconductor – RF POWER AMPLIFIER MODULE FM RF POWER AMPLIFIER MODULE FOR 30W COMMERCIAL VHF RADIO APPLICATIONS | |||
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PACKAGE OUTLINE
â¤
â â¡ â¢â£
Unit in mm
S-AV40
â RF Input â¡ VGG ⢠VDD
⣠RF Output ⤠GROUND(FRANGE)
JEDEC
JEITA
TOSHIBA
Weight: 11.8g
â
â
5-32G
ELECTRICAL CHARACTERISTICS (Tc = 25°C, ZG = 50Ω)
CHARACTERISTICS
SYMBOL
TEST CONDITION
MIN TYP. MAX UNIT
Frequency Range
frange
â
220
â
246 MHz
Output Power
Po
30
â
â
W
Power Gain
Total Efficiency
Input VSWR
Gp
ηT
VSWRin
VDD = 12.5 V
VGG = 5 V
Pi = 50 mW
ZL = 50 Ω
34.7 â
â
dB
40
â
â
%
â
â
3.0
â
Second Harmonic
2nd HRM
â
â
-25
dB
Third Harmonic
Ruggedness
Stability
3rd HRM
â
â
-30
dB
10.5 V ⤠VDD ⤠16.5 V, 0 V ⤠VGG ⤠VGGajs
(VGG = VGGajs @ Po = 30 W)
â
Pi = 50 mW
No Damage
â
Po = 30 W (Adjusted via VGG @ ZL = 50Ω)
VSWR LOAD 20: 1 ALL PHASE (@ 2 s)
10.5 V ⤠VDD ⤠16.5 V, 0 V ⤠VGG ⤠VGGajs
(VGG = VGGajs @ Po = 30 W)
â
Pi = 50 mW
No spurious output
of -60 dB or greater
â
Po ⤠30 W (Adjusted via VGG @ ZL = 50Ω)
VSWR LOAD 3: 1 ALL PHASE
Note 5:The output power is intended to follow the rating provided in Figure 1 in Note 2.
Note 6: Stability
Measurements are performed under the conditions where VSWR is at 3:1 through all phases over the whole frequency
range, and they are guaranteed only under those conditions. Even though it is guaranteed to be stable where VSWR is
at 3:1, the VSWR load over the operating frequency should be designed to be 50 â¦. At the same time, ensure that the
VSWR load does not deviate much from 50⦠even for a moment, nor deviate even a little from 50⦠continually. The
S-AV40 is not intended for such operations, and proper operation under such conditions is not guaranteed due to the
possibilities of heat generation in the module and its applications.
2
2007-10-01
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