Ramsey Electronics HR20 manual Frequency Stability, Other Methods of Dial Calibration

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FREQUENCY STABILITY:

A kilohertz of drift is not a big deal in FM circuits or a shortwave broadcast configuration, but ANY frequency instability is annoying when trying to receive CW or SSB. The varactor - controlled Local Oscillator is indeed a VFO, and therefore needs all the consideration given to any VFO circuit. Even though this tunable oscillator design takes good advantage of the SA602’s capabilities and offers nice tuning range from a simple varactor circuit, we do not represent it as suitable for transmitter frequency control or for demanding receiver applications. In any ham VFO design, ANY unshielded or uncompensated oscillator components are susceptible to the influences of temperature change and of nearby moving objects. The use of a suitable enclosure and secure mounting of the PC board within that enclosure will maximize the stability of the oscillator. One to two KHz of slow drift may be expected as components warm to operating temperature; after that the oscillator is reasonably stable.

OTHER METHODS OF DIAL CALIBRATION:

A easy way of making your own dial is to paste a small rectangle of paper behind the tuning dial knob. Then as you tune in different frequencies, pencil in on the paper the received frequency. Or a simple logging scale may be affixed behind the tuning knob on the front panel. A logging scale is simply a set of numbers for adjusting a control. For example, 4 might represent 7.1MHz and 5.5 being 7.12MHz, and so forth.

DIRECT FREQUENCY READOUT:

A novel advantage of the simple direct conversion receiver is that a general purpose frequency counter may be used to give a direct readout of the oscillator frequency. While you could experiment with an RF pickup loop or tuned circuit and counter preamplifier to boost the oscillator’s tiny output to a level suitable for the counter, the most reliable method is to wire a high- impedance counter probe line directly to pin 7 of the SA602, terminated to a rear panel frequency counter connection of your choice. This will consist of a short piece of mini-coax to a 1 megohm resistor bridged by a 27 to 33pf capacitor as shown below:

With the RF gain turned all the way up , it may be possible to hear the counter’s busy humming action in the background, but not to a serious degree. It drops out with a slight reduction of the RF gain. If you decided to add such a counter connection to your receiver, remember that the coax as well as the coupling capacitor become part of the oscillator circuit. Make the coaxial cable connecting the counter to the receiver as short as possible. You will experience a frequency change of several KHz when connecting or disconnecting the counter. Also, this additional capacitance in the oscillator circuit reduces the tuning range to approximately 100 KHz, thus offering

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Contents ALL Mode Receiver KIT Partial List of Available Kits Ramsey Transmitter Kits HR20 Amateur Receiver KIT Introduction Ramsey HR-SERIES Amateur ReceiversAbout Direct Conversion Receivers Circuit Description Capacitors Parts Supplied with the HR20 KITLEARN-AS-YOU-BUILD Receiver Assembly Strategy HR20 HR20 Parts Layout Diagram Receiver Assembly HR20 HR20 Initial Testing of Your HR20 Required for Initial Testing and AlignmentAlignment Alignment Hint for ALL Direct Conversion ReceiversCW Operation Using Your ReceiverTuning SSB Signals On the AIR TRANS-RECEIVINGSpeaker Operation More Audio Power Another WAY Adding AN LED Power on IndicatorTroubleshooting Tips Alternate Power Sources General Notes for Experienced QRP BuildersBandspread and Tuning Range Other Methods of Dial Calibration Frequency StabilityDirect Frequency Readout LM386 Audio Output HR20 Construction Notes Ramsey Kit Warranty Factory Repair of Assembled Kits Required Tools Total Solder Points Estimated Assembly TimeHR20 Amateur Receiver KIT Additional Suggested Items