Its simple. Delta-h means Delta (H) or H. In a nutshell, a faster-than-average Delta-h or H-rate means that the frequency of the transmitter is not equal to the frequency required for your transmitter’s operating power. Typically, a high Delta-h or H-rate means that the transmitter does not get the desired power from the transceiver.

The higher the Delta-h and the lower the H-rate, the better the signal quality of the transceiver will be. When transmitting a broadcast over longer distance for example, the radio will be less sensitive to the ambient noise and thus the more signal will be transmitted. This in turn will improve reception (and make for a better reception quality if the radio is tuned into FM).

The higher the carrier frequency needs to carry a signal, the lower the signal frequency needed to get the same signal strength will be. Higher the transceiver’s carrier frequency, the more sensitive the radio will be. As a result, a lower Delta-h or H-rate will improve reception and the signal will be cleaner.

If your transceiver has a “S” rated power, it means the transmitter has enough power to deliver up to the specified levels. A more “S” rated transceiver can easily do 150 watts, for instance, but a “S” transceiver will be able to do only 100 watts with a standard TV set. To calculate, assume a 10-meter square beamwidth, (i.e., 100 W = 10 meters) then subtract the beamwidth (i.e., 80 W) in watts for a 10 meter square wave.

In other words, a 1-W transmitter can do 400 watts with a square wave while a 2-W transmitter can do 200 watts with the same square wave. A 2-W transmitter needs only 100 watts to do 200 watts, while a 1-W transmitter needs only 50 watts. Since a 1-W transmitter will provide 100 watts when transmitting a square wave of 50 W, this implies the required 1-W transmitter’s frequency for a 100-W transmitter to do 100 watts.

When adding up this power (watts), the Transmit power = (transmit frequency + receive frequency) / 10, or,

1, 2, or 20 times the transmit power. So for a 2-W transceiver to do 150 watts, then that transmitter would need to achieve 150 / 10.

Also, note that the carrier-frequency

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