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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
PACKAGE OUTLINE
⑤
① ② ③④
Unit in mm
S-AV40
① RF Input ② VGG ③ VDD
④ RF Output ⑤ GROUND(FRANGE)
JEDEC
JEITA
TOSHIBA
Weight: 11.8g
—
—
5-32G
ELECTRICAL CHARACTERISTICS (Tc = 25°C, ZG = 50Ω)
CHARACTERISTICS
SYMBOL
TEST CONDITION
MIN TYP. MAX UNIT
Frequency Range
frange
—
220
—
246 MHz
Output Power
Po
30
—
—
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 —
—
dB
40
—
—
%
—
—
3.0
—
Second Harmonic
2nd HRM
—
—
-25
dB
Third Harmonic
Ruggedness
Stability
3rd HRM
—
—
-30
dB
10.5 V ≤ VDD ≤ 16.5 V, 0 V ≤ VGG ≤ VGGajs
(VGG = VGGajs @ Po = 30 W)
—
Pi = 50 mW
No Damage
—
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)
—
Pi = 50 mW
No spurious output
of -60 dB or greater
—
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 Ω. At the same time, ensure that the
VSWR load does not deviate much from 50Ω even for a moment, nor deviate even a little from 50Ω 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