Next change to the noise/demodulation mode under SSB channel on the measurement/mode sub panel. And be sure the [CARRIER] button is on below the frequency display and select USB. Now tune to you’re transmitter frequency, turn up the volume on the audio sub panel and listening to the audio using headphones and speak into the microphone hooked to your AM transmitter. You should hear your USB audio clearly. Adjust the transmitter’s mike gain for how you usually set it by watching modulator current peaks or by the transmitter manual’s instructions. Select the widest filter without WTD filtering on the HP3586. Turn on averaging by pressing [AVE] under the level display and set the measuring range to 100db entry mode with a upper limit of 0dbm to keep the instrument from changing range during measurements for more reliable and stable readings with the rapidly varying audio side band signal. Now speak into the mike and try to record the highest average level on the LED level display. If the measured signal is below –80dbm or you get a UL on the level display while transmitting, reduce the range limit to – 20dbm to accurately measure signals down to –100dbm.

Now tune up in frequency exactly 5Khz above the carrier, and speak into the mike just as before. You should see any emissions at least 30db below the level you saw when measuring the carrier. If they exceed this level try turning down the mike gain to reduce them. If you can’t reduce them, you have some work to do on your transmitter or audio system feeding it.

15.3SSB Transmitter Measurement Procedure – Go back to the carrier mode. With a SSB transmitter, place it into the tune or AM mode and transmitter the highest level carrier the manufacturer recommends for CW or less than two seconds, this is also usually the peak SSB signal level. Use the mike push to talk button. Using a short carrier transmission at the fundamental frequency, normalize the HP3586’s level display to the level of your carrier burst, using the method of section 14.3 of Chapter 14. You will have to work fast to do this to prevent damage to the transmitter.

Now tune to the harmonics in the carrier measuring mode as with the AM transmitter but only key the SSB transmitter in the CW mode for a full power carrier in short bursts and try to record the harmonic levels. Now to search for spurious non harmonic emissions which SSB transmitters can have at odd frequencies due to IF stage mixing, place the transmitter in the AM mode and tune the carrier power to that recommended by the manufactured of the radio. Turn the AM carrier and tune the HP3586 up and down the band using your widest filter and a step of one KHz for the step tuning feature of the frequency tune knob to rapidly scan for spurs. If you find a spurious signal, lock onto it using the counter, switch to your 20Hz filter, turn off the transmitter and switch it to the CW mode, and then key the transmitter for a second as you did when looking for harmonics. During this second record how much down the spur is from the full power carrier using the instrument’s level meter.

Now tune to the frequency of USB signal in the noise/demodulation mode and like with the AM transmitter. Also use averaging with the auto 100db measuring range and upper range limit set to 0dbm just like with the AM transmitter example for a more stable and readable audio sideband level reading. Speak into the mike while listening with headphones and properly adjust the mike gain. Note the level on the LED display with averaging on and in the widest instrument filter without WTD filtering. Now tune the HP3586 up exactly 5KHz and repeat the test of speaking into the mike. Now you should be able to reduce the instrument’s level reading to 30db below what it read before on the transmitter’s frequency using the transmitter’s mike gain control. If the measured signal is below –80dbm or you get a UL on the level display while transmitting, reduce the range limit to –20dbm to accurately measure signals down to – 100dbm.

Hopefully these examples will illustrate some ways of checking a transmitter for spurious emissions. Some rice box SSB transmitters can have spurs barely down –30db a long way from their tuned frequency. They depend on a tuned antenna system to further attenuate them. But there could be a problem if you use a multiband antenna that may not attenuate the spur.

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HP B, C, 3586A manual

B, 3586A, C specifications

The HP C3586A and C3586B tape drives are notable components in the realm of data storage solutions, primarily designed for enterprise-class environments. These SCSI (Small Computer System Interface) tape drives are regarded for their efficiency, reliability, and capacity to meet the growing demands of data backup and archival processes in businesses.

The C3586A model utilizes the DAT (Digital Audio Tape) technology, which allows it to deliver high performance and high data density. It features a native capacity of 2.3 GB per cartridge, which can be extended to 4.6 GB with the use of compression. This is particularly advantageous for businesses requiring significant amounts of data storage without the necessity for multiple tapes. The transfer rate is rated at up to 12 MB per minute, which ensures quick backups and restores, minimizing the operational downtime.

In terms of data integrity and security, both models incorporate advanced error correction techniques to guarantee that data remains pristine and intact throughout the storage duration. They are designed to work seamlessly with a variety of operating systems and backup applications, enhancing compatibility and user convenience.

The HP C3586B, on the other hand, offers similar foundational technologies but with enhanced features. It supports higher capacity tapes and is engineered to work seamlessly in high-performance environments. With the integration of SCSI-2 interfacing, users can expect faster data transfer rates, which is critical for organizations dealing with large volumes of data.

Another key aspect of both models is their rugged design, which provides durability and reliability needed for long-term storage solutions. The drives are built to withstand extended usage, which makes them a cost-effective choice for businesses looking to invest in dependable data storage systems.

Furthermore, these drives come with a user-friendly interface and straightforward maintenance. This allows IT personnel to handle backups with ease while keeping the workflow uninterrupted.

In summary, the HP C3586A and C3586B tape drives epitomize the union of technology, usability, and dependability. Their robust features, including high data capacity, fast transfer rates, and durable construction, make them a formidable choice for enterprises seeking efficient data backup and archival solutions in the ever-evolving digital landscape.