M68701H Datasheet, PDF(1/3 Page) Mitsubishi Electric Semiconductor – Silicon MOS FET Power Amplifier, 890-960MHz 6W FM /Digital Mobile

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M68701H Datasheet, PDF (1/3 Pages) Mitsubishi Electric Semiconductor – Silicon MOS FET Power Amplifier, 890-960MHz 6W FM /Digital Mobile

ATTENTION

OBSERVE PRECAUTIONS

FOR HANDLING

ELETROSTATIC

SENSITIVE

DEVICES

O U T L IN E D R A W IN G

60.5 +/-1

57.5 +/-0.5

50.2+/-1

+0.2

2-R1.6

phai 0.45

+/-0.2

8.3 +/-1

21.3 +/-1

43.3 +/-1

51.3 +/-1

MITSUBISHI RF POWER MODULE

M68701H

Silicon MOS FET Power Amplifier, 890-960MHz 6W FM /Digital Mobile

D im e n s i o n s i n m m

B L O C K D IAGRAM

PIN:

1 P in : R F I N P U T

2 V G G : G A T E B IA S S U P P L Y

3 V D D : D R A IN B I A S S U P P L Y

4 PO : RF OUTPUT

5 G N D : FIN

H11

MAXIMUM RATINGS (Tc=25deg C UNLESS OTHERWISE NOTED)

SYMBOL

PARAMETER

CONDITIONS

VDD

SUPPLY VOLTAGE

VGG<5V,ZG=ZL=50 ohms

VGG

GATE BIAS VOLTAGE

INPUT POWER

f=890-960MHz,ZG=ZL=50 ohms

OUTPUT POWER

f=890-960MHz,ZG=ZL=50 ohms

Tc(OP)

OPERATION CASE TEMPERATURE f=890-960MHz,ZG=ZL=50 ohms

Tstg

STORAGE TEMPERATURE

Note:Above parameters are guaranteed independently.

RATINGS

5.5

-30 to +100

-40 to +110

UNIT

deg. C

ELECTRICAL CHARACTERISTICS (Tc=25deg. C ,Zg=Zl=50 ohms UNLESS OTHERWISE NOTED)

SYMBOL

PARAMETER

TEST CONDITIONS

LIMITS

MIN MAX

FREQUENCY RANGE

890

960

OUTPUT POWER

VDD=12.5V,VGG=5V,Pin=1mW

Efficiency TOTAL EFFICIENCY

VDD=12.5V,

2fo

2nd HARMONIC

Pout=6W (VGG adjust)

-30

VSWR in INPUT VSWR

Pin=1mW

LOAD VSWR

VDD=15.2V,Pin=1mW,Po=6W(VGG adjust)

No degradation

TOLERANCE

ZG=50 ohms, LOAD VSWR=20:1

or destroy

ABOVE PARAMETERS, RATINGS, LIMITS AND CONDITIONS ARE SUBJECT TO CHANGE .

UNIT

MHz

dBc

Keep safety first in your circuit designs!

Mitsubishi Electric Corporation puts the maximum effort into making semiconductor products better and more

reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may

lead to personal injury, fire or property damage. Remember to give due consideration to safety when making your

circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of non-

flammable material or (iii) prevention against any malfunction or mishap.

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