MITSUBISHI RA60H4047M1 User Manual

< Silicon RF Power Modules >

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DIAGRAM

RA60H4047M1

RoHS Compliance, 400-470MHz 60W 12.5V, 2 Stage Amp. For MOBILE RADIO

DESCRIPTION

The RA60H4047M1 is a 60-watt RF MOSFET Amplifier
Module for 12.5-volt mobile radios that operate in the 400- to
470-MHz range.

The battery can be connected directly to the drain of the
enhancement-mode MOSFET transistors. Without the gate
voltage (VGG=0V), only a small leakage current flows into the
drain and the nominal output signal (P
60 dB. The output power and the drain current increase as the
gate voltage increases. The output power and the drain current
increase substantially with the gate voltage around 0V(minimum).
The nominal output power becomes available at the state that
VGGis 4V (typical) and 5V (maximum).
At VGG=5V, the typical gate currents are 5mA.This module is
designed for non-linear FM modulation, but may also be used for
linear modulation by setting the drain quiescent current with the
gate voltage and controlling the output power with the input
power.

=60W) attenuates up to

out

1

3

2

4

5

FEATURES

• Enhancement-Mode MOSFET Transistors

(IDD0 @ VDD=12.5V, VGG=0V)

• P

>60W, T>40% @ VDD=12.5V, VGG=5V, Pin=50mW

out

• Broadband Frequency Range: 400-470MHz

1 RF Input (Pin)
2 Gate Voltage (VGG), Power Control
3 Drain Voltage (VDD), Battery
4 RF Output (P
5 RF Ground (Case)

• Metal shield structure that makes the improvements of spurious

radiation simple

• Low-Power Control Current IGG=5mA (typ) @ VGG=5V

• Module Size: 67 x 19.4 x 9.9 mm

• Linear operation is possible by setting the quiescent drain

current with the gate voltages and controlling the output power
with the input power.

RoHS COMPLIANCE

• RA60H4047M1 is a RoHS compliant product.

• RoHS compliance is indicate by the letter “G” after the Lot Marking.

• This product include the lead in the Glass of electronic parts and the lead in

electronic Ceramic parts.
However, it is applicable to the following exceptions of RoHS Directions.

1.Lead in the Glass of a cathode-ray tube, electronic parts, and fluorescent
tubes.

2.Lead in electronic Ceramic parts.

)

out

PACKAGE CODE: H2M

ORDERING INFORMATION:

ORDER NUMBER SUPPLYFORM

RA60H4047M1-101

Antistatic tray,

10 modules/tray

Publication Date :Apr.2011

1

< Silicon RF Power Modules >

RA60H4047M1

RoHS Compliance, 400-470MHz 60W 12.5V, 2 Stage Amp. For MOBILE RADIO

MAXIMUM RATINGS (T

=+25°C, ZG=ZL=50, unless otherwise specified)

case

SYMBOL PARAMETER CONDITIONS RATING UNIT

V
V

P

P

T

case(OP)

T

Drain Voltage VGG<5V, Pin=0W 17 V

DD

Gate Voltage VDD<12.5V, Pin=50mW 6 V

GG

Input Power 100 mW

in

Output Power 80 W

out

Operation Case Temperature Range
Storage Temperature Range -40 to +110 °C

stg

f=400-470MHz,
VGG<5V

-30 to +100 °C

The above parameters are independently guaranteed.
ELECTRICAL CHARACTERISTICS (T

=+25°C, ZG=ZL=50, unless otherwise specified)

case

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNIT

F Frequency Range 400 - 470 MHz

P

T
2f



I

GG

I

DD

Output Power VDD=12.5V 60 - - W

out

Total Efficiency VGG=5V 40 - - %
2ndHarmonic Pin=50mW - - -40 dBc

o

Input VSWR - - 3:1 —

in

Gate Current VDD=0V, VGG=5V, Pin=0W - 5 6 mA
Leakage Current VDD=17V, VGG=0V, Pin=0W - - 1 mA

— Stability

VDD=10.0-15.2V,Pin=25-70mW,
5<P

<65W (VGGcontrol), Load VSWR=3:1

out

VDD=15.2V, Pin=50mW,

— Load VSWR Tolerance

P

=60W (VGGcontrol), Load VSWR=20:1

out

All parameters, conditions, ratings, and limits are subject to change without notice.

No parasitic oscillation —

No degradation or

—

destroy

Publication Date :Apr.2011

2

< Silicon RF Power Modules >

RA60H4047M1

RoHS Compliance, 400-470MHz 60W 12.5V, 2 Stage Amp. For MOBILE RADIO
TYPICAL PERFORMANCE (T

OUTPUT POWER, TOTALEFFICIENCY, 2nd, 3rdHARMONICS versus FREQUENCY
versusFREQUENCY

90
80

(W)

70

out

60
50
40
30

TOTAL EFFICIENCY(%)

OUTPUT POWER P

20
10

390 400 410 420 430 440 450 460 470 480

INPUT VSWR versus FREQUENCY GATE CURRENT versus FREQUENCY

5

4

(-)

in

r

3

2

INPUT VSWR

1

390 400 410 420 430 440 450 460 470 480

h

T

FREQUENCY f (MHz)

r

in

FREQUENCY f (MHz)

=+25°C, ZG=ZL=50, unless otherwise specified)

case

-30

P

out

-40

-50

-60

VDD=12.5V
VGG=5V
Pin=50mW

HARMONICS (dBc)

-70

-80
390 400 410 420 430 440 450 460 470 480

FREQUENCY f (MHz)

8

VDD=12.5V
VGG=5V
Pin=50mW

7

(mA)

6

GG

5
4
3
2

GATE CURRENT I

1
0

390 400 410 420 430 440 450 460 470 480

FREQUENCY f (MHz)

VDD=12.5V
VGG=5V
Pin=50mW

nd

2

rd

3

I

GG

VDD=12.5V
VGG=5V
Pin=50mW

OUTPUT POWER, POWER GAIN and OUTPUT POWER,POWER GAIN and
DRAIN CURRENT versus INPUT POWER DRAIN CURRENT versus INPUT POWER

60

50

(dBm)

out

Gp

40

30

20

I

POWER GAIN Gp(dB)

10

OUTPUT POWER P

DD

0

-10 -5 0 5 10 15 20
INPUTPOWER Pin(dBm)

P

out

f=400MHz
VDD=12.5V
VGG=5V

24

20

(A)

DD

16

12

8

4

DRAIN CURRENT I

0

60

50

(dBm)

out

Gp

40

30

20

I

POWER GAIN Gp(dB)

10

OUTPUT POWER P

DD

0

-10 -5 0 5 10 15 20
INPUTPOWER Pin(dBm)

P

f=430MHz
VDD=12.5V
VGG=5V

OUTPUT POWER, POWER GAIN and OUTPUT POWER,POWER GAIN and
DRAIN CURRENT versus INPUT POWER DRAIN CURRENT versus INPUT POWER

60

50

(dBm)

out

Gp

40

30

20

I

POWER GAIN Gp(dB)

10

OUTPUT POWER P

DD

0

-10 -5 0 5 10 15 20
INPUTPOWER Pin(dBm)

P

out

f=450MHz
VDD=12.5V
VGG=5V

24

20

(A)

DD

16

12

8

4

DRAIN CURRENT I

0

60

P

50

(dBm)

out

Gp

40

out

30

20

I

POWER GAIN Gp(dB)

10

OUTPUT POWER P

DD

f=470MHz
VDD=12.5V
VGG=5V

0

-10 -5 0 5 10 15 20
INPUTPOWER Pin(dBm)

out

20

(A)

DD

16

12

8

24

4

DRAIN CURRENTI

0

24

20

(A)

DD

16

12

8

4

DRAIN CURRENT I

0

Publication Date :Apr.2011

3