HP B, C, 3586A manual

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When working with voltage the formula is a little different from the power formula:

Voltage ratio in dbv = 20 log (V/VR)

Where V = the level in volts and VR is the reference in volts. Our HP3586 uses .775 volts as a reference where:

dbV.775 = 20 log (V/.775)

To convert from db to find V use:

V = VR anti log (dbv/20)

Where VR is now .775 volts and V is still in volts.

As you can see by comparing the voltage with the power formulas, they are the same except the power constant of 10 is now 20 for the voltage formula, which is twice as large. The constant is twice as large for volts because voltage across a constant impedance, say 50 ohms, will increase as the square of the power. What’s nice about this is we can work with level readings in db’s referenced to watts and knowing the resistance the power is going into then compute volts by:

For voltage V = (P squared)R

Voltage is a little harder than power to estimate in our head because of the constant being 20 in it’s formula. If you’re smarter than me, for converting +db linear value in volts you can do it by squaring the MSD’s linear value and multiplying by the square of the LSD linear value. For converting –db to volts take the MSD’s linear number, which will be less than one, and square it, then divide by the square of the LSD’s value. That’s too hard for me to do in my head so I just work with converting to power ratios from db’s or use my trusty HP25 to get linear voltage ratios from db’s.

I hope this discussion has helped you in understand how to work with db’s and not further confused you. For more on this subject, consult a math book or the ARRL Handbook for a further discussion of this subject.

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Contents Version 2.0, September Table of Contents Introduction Description of the HP3586 Page Selective Signal Connections Front Panel Description and Initial SET UP Page Page Setting and Measuring Frequency Page Power Level Measurements Using the Selective Mode Page Voltage Level Measurements Using the Selective Mode Measuring Carrier Signal Strength Tuning SSB Signals Using the Selective Mode Filter Band Width Carrier Offset Tuning a SSB Signal Using the NOISE/DEMODULATION Mode Measuring Audio Noise Using the Wideband Mode Measuring Impulse Noise Measuring Audio Harmonic Distortion Page Passive and Active Network Analysis Page Measuring a TRANSMITTER’S Spurious Emissions Page Selection of Measurement Modes and Other Considerations Page Page Understanding the Decibel Ratio Measuring System Appendix aNumber Ratio Power DB Ratio Page Appendix B HP3586 Error CodesAppendix C Schematics for Useful HP3586 Accessories
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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.

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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.