Figure 6-9 160w pa block diagram, 3 final amplifiers, 4 power detectors – Viking 242-2009-632 User Manual

CIRCUIT DESCRIPTION

6-18

March 1999
Part No. 001-2009-600

Figure 6-9 160W PA BLOCK DIAGRAM

RF IN

DRIVER

THERMAL SENSOR

COMBINER

RF OUTPUT

LOW-PASS

FILTER

VSWR

FORWARD

U501

U502A

U503

THERMAL

SENSOR

AMP

RF LOAD

U651A/B

U652A/B

DIRECTIONAL COUPLER

CIRCULATOR

GAIN BLOCK

Q502

Q701

Q702

POWER SENSE

DELAY LINE

1/2 WAVE

POWER SENSE

POWER SENSE

POWER SENSE

RF 4

RF 3

RF 2

RF 1

SPLITTER

SPLITTER

SPLITTER

COMBINER

1/2 WAVE DELAY

1/4 WAVE TRANSFORMER

COMBINER

Q703

Q704

Q501

POWER

CONTROL

6.5.3 FINAL AMPLIFIERS

The output of the driver is DC blocked by C552

and is connected to the first 70.7 ohm splitter with a
50 ohm microstrip. One output of the first splitter is
sent directly to another 70.7 ohm splitter to feed
Q703/Q704. The second output is connected to the
splitter driving Q701/Q702 through a half-wave 50
ohm microstrip. The 60W output of Q701/Q702 is
combined through a 70.7 ohm quarter-wave Wilkin-
son combiner and fed through a 50 ohm microstrip to
the final 50 ohm combiner.

Outputs from amplifiers Q703/Q704 are fed to

the final combiner through 50 ohm microstrip that is a
half-wavelength longer than the other side. The
25 ohm output impedance of the final combiner is
transformed to 50 ohms through a quarter-wave,
35.35 ohm microstrip. The output of the quarter-wave
transformer is fed directly into the forward power
detector via W510.

The Wilkinson combiners provide the capability

to split the drive input and combine the final outputs
while maintaining isolation between the final amplifi-
ers. Each combiner consists of two quarter- wave
transmission lines and a balancing resistor. During
normal operation, a signal of relatively equal phase
and amplitude is present on both ends of the balancing

resistor. Therefore, no current flows and no power is
dissipated in the resistor. If one final fails, the other
final of the pair would continue to function.

6.5.4 POWER DETECTORS

Electromagnetic coupling is used to detect the

output of each final amplifier. The detected RF is then
fed to a rectifier to create a voltage output indication
of the power output. The outputs are monitored by the
RFIB and the station software. If any of the finals
fails, the software will reduce the output power to pre-
vent overdriving the remaining final amplifier.

6.5.5 FORWARD/REVERSE POWER DETECT,

CIRCULATOR, LOW-PASS FILTER

The power amplifier output is directly coupled to

the forward/reverse power detect board via a jumper.
The output then enters the circulator and exits to the
low-pass filter board and the antenna jack for a power
output of 160W (

±

7W). If an antenna is not con-

nected, the circulator connects the output to R685.

Forward and reverse power is electromagnetically

coupled to the detectors on the input and reflected
ports of the circulator. R663 and R680 are used to cal-
ibrate the forward and reverse sense levels. The
sensed levels are connected to the RF Interface Board
and software.