Communication Concepts FM-1KW Broadcast Application Note User Manual

6

RF Reference Design Data

Freescale Semiconductor

MRFE6VP61K25H MRFE6VP61K25HS FM Broadcast

FREESCALE RF POWER 50 V TECHNICAL ADVANTAGES

50 V Drain Voltage

The 87.5--108 MHz FM broadcast reference design fixture

was designed to utilize the standard 50 volt power supply
commonly used in this market.

Data was collected to characterize the reference design’s

output power and efficiency vs. drain voltage, as shown in
Figure 8. The output power can be adjusted over a 12 dB
worth of dynamic range by adjusting the drain voltage, while
creating minimal degradation on the efficiency performance.

Refer to Freescale’s 50 V RF LDMOS White Paper. Go to

http://freescale.com/RFpower and select Documentation/-
White Papers -- 50VRFLDMOSWP for more information
on 50 V RF LDMOS technology.

1200

10

1000

800

90

80

75

70

V

DD

, DRAIN VOLTAGE (VOLTS)

Figure 8. Output Power and Drain Efficiency

versus Drain Voltage

P

out

,O

UT

PU

T

POWER

(W

ATTS)

η

D,

DRA

IN

EF

FI

CIE

NCY

(%

)

η

D

0

55

P

out

400

P

in

= 3.5 W

f = 98 MHz
I

DQ

= 200 mA

600

200

85

65

60

20

30

40

50

5

15

25

35

45

Extended Gate Voltage Range

The enhanced electrostatic discharge (ESD) protection

structure at the gate of the transistor is a Freescale
innovation pioneered in the cellular infrastructure market that
is incorporated into the 50 volts RF LDMOS power product
portfolios. This ESD structure can tolerate moderate reverse
bias conditions, applied to the gate lead, up to --6 volts as
shown in Figure 9. This allows these transistors to be used in
zero gate voltage, Class C bias applications where the RF
voltage swings on the gate can be significantly lower than the
ground potential.

Figure 9. Gate Voltage Breakdown with ESD

2.E--02

0.E+00

--2.E--02

--1.E--02

--5.E--03

5.E--03

1.E--02

--15

0

--10 --5

5 10 15

20

25

V

GS

(V)

I

ESD

(A

)

Enhanced ESD

2.E--02

0.E+00

--2.E--02

--1.E--02

--5.E--03

5.E--03

1.E--02

--15

0

--10 --5

5 10 15

20

25

V

GS

(V)

I

ESD

(A

)

Standard ESD

High Ruggedness/Energy Absorption

The MRFE6VP61K25H/HS was designed to operate in

applications which demand very high ruggedness. The
VHV6E technology has proven to be valuable in FM broad-
cast applications, specifically in high definition (HD) FM
transmitters where a high peak--to--average (PAR) digital sig-
nal is injected on top of an existing analog FM signal. At the
peak of the signal, the voltage waveform could exceed the
V

(BR)DSS

breakdown voltage of the device and thus cause

the device to enter into an avalanche condition. However, for
the device to fail, the current must be sufficiently high enough
during the high voltage period to activate the internal parasit-
ic bipolar transistor buried beneath the active field--effect
transistor (FET) structure.

An Integrated Technologies Corporation’s Unclamped

Inductive Load Tester, model #ITC55100B, was used to
measure the maximum energy dissipation capability of the
device under these high current and high voltage test
conditions.