Amateur radio magazines and handbooks provide a variety of circuits for RF wattmeters and relative field-strength indicators, including methods of using your VOM as an indicating device. CQ magazine for March 1990 offers an article by KB4ZGC on how to make a highly accurate yet inexpensive dummy load and wattmeter capable of showing 1/10-watt differences in RF power. If you use a wattmeter characterized for the HF frequency region, it will not give accurate results at the much higher two meter frequencies, although it will be quite adequate for go/no-go testing.

MAXIMIZING RF POWER OUTPUT

The simplest way to ensure maximum reasonable power output without component damage is to run the DC voltage in the 13 to 14 volt range, observing a maximum limit of +15VDC. Typically, an automobile power source is 13.6 volts when the engine is running, and most mobile rigs are specified at this voltage level.

IMPORTANT NOTE: If you are experimenting with this transmitter and see a sudden and massive increase in power output and DC current, you have not reached the promised land or created a 100 watt amplifier! Sudden surges like that are a sure sign of amplifier self-oscillation. Kill the DC power supply immediately because your RF power transistors are heading to self- destruction while probably interfering with every TV set in the neighborhood! A poorly matched antenna along with higher supply voltages is usually responsible for this occurring. Any prolonged "parasitic" emissions may also overheat and destroy other components in the amplifier.

TROUBLESHOOTING HINTS

The QRP power amplifier is very straight forward and simple to troubleshoot. When beginning to track down a problem, use some common sense to narrow down your search area.

If the amplifier is not keying upon application of RF power, check to see if the T-R relay circuitry is operating. A quick read-over of the theory of operation tells us the diode detector senses the RF and a pair of transistors amplifies the signal to activate the T-R relay. Proper logic tells us to: 1) First check and see if RF is getting to the diodes; 2) see if they are detecting RF; 3) see if the transistors are driving the relay. Proper procedure is to take just one part of the circuit at a time and follow the signal through.

If the amplifier does not amplify, check to see if RF is flowing through to transformer T2 and across to the RF power transistors. Amplified output should appear at output transformer T1 and then on to the low pass filter. Remember that RF enters and exits through relay contacts on K1.

Do the transistors get too hot? Do they get hot without amplifying? Things to check are the bias circuitry and RF path through the relay. The amplifier should draw about ¼ amp with no signal applied. If you see more than that, recheck the bias setting (see the section "INITIAL TESTS").

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Ramsey Electronics QAMP30 manual Maximizing RF Power Output, Troubleshooting Hints

QAMP30 specifications

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One of the main features of the QAMP30 is its robust 30-watt per channel output, delivering clear and dynamic sound that can fill a room. Its solid state design ensures reliability and durability, making it suitable for both casual listeners and audiophiles. The amplifier supports continuous operation, allowing users to enjoy music for extended periods without worrying about overheating or performance degradation.

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In summary, Ramsey Electronics QAMP30 is a compact, powerful audio amplifier featuring 30 watts per channel output, multiple input options, advanced circuit technologies, and built-in protection features. Its user-friendly design and high-performance characteristics make it an excellent choice for anyone looking to enhance their audio experience.