Elecraft_K-2_XV_serie_application_notes_2006.pdf

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1、 1 ELECRAFT TRANSVERTER APPLICATION NOTES Rev C By Dave Olean (K1WHS) and Jay Rutherford (K1UC) Editors Note: This article was written before the introduction of the K60XV low level transverter output option for the K2 and before the introduction of our XV transverters. The Elecraft XV50, XV-144 and

2、 XV-222 may all be stacked and fed off of the same 28 MHz IF drive line. These transverters have internal switching relays that drop the unused transverters off the IF bus. No external switching is required. When connected to the K2s AuxBus via the KIO2 or KPA100, the Elecraft XV transverters will a

3、utomatically turn on/off and connect to the IF bus as each transverter band is selected on the K2. The section on switching though is still a good description of how to switch non-elecraft transverters. Also note the the KRC2 band decoder for theK2 (and other rigs) provides switching outputs for the

4、 transverter bands.) Transverter Overview Transverter is a contraction of the term transmitting and receiving converter. It is easily visualized as a new “front end RF section for your existing HF radio and consists of a common local oscillator for receive and transmit, mixers, and assorted RF ampli

5、fier stages. The transverter will convert receive and transmit frequencies from one amateur band to another. The transverter typically has a means of being switched between receive and transmit, e.g., a relay or PIN diodes. By utilizing an existing HF radio as an IF amplifier, (typically on 28 MHz)

6、the performance of the HF radio can be duplicated on any VHF band. Generally, a low level transmit signal/ receive connection, and TX/RX switching, will interconnect the HF radio and the transverter. There are many advantages inherent in transverter operation on the VHF and UHF bands. The first and

7、most obvious is the tremendous cost savings, by not having to duplicate an entire radio as you go to new bands. Other benefits will depend on your specific VHF application to some extent. As a K2 owner, you are no doubt well aware of the characteristics that make the K2 stand out among HF radios. Ob

8、taining great performance on VHF/UHF can be elusive when multi-mode standalone commercial transceivers are employed. In almost all cases, there is little attention spent to CW operation. Filter options are poor or often non-existent. Receiver dynamic range can be quite poor. General ergonomics can b

9、e difficult with small boxes, multiple questionable features, confusing menus, and limited space for button pushing! A transverter will re direct the full feature set of your HF K2 to your favorite VHF band with little change in performance. Receive dynamic range difficulties on VHF can be significa

10、ntly more pronounced than at HF due to increased antenna gain, propagation differences, and lower angle of radiation when compared to, say 20 or 80 meters. Having a crunch-proof receiver can pay great dividends for the VHF Dxer or contest operator as well as the casual user. There are also some band

11、s that are lacking in choices for standalone VHF/UHF radios. The 222 and 902 MHz bands are cases in point. The same can also be said of all the bands above 1.2 GHz. To get a good signal on any of these bands, a transverter is the only way to go. The transceiver is often called the “IF” to reflect th

12、e role it plays. Common IF frequencies for transverters are 28 MHz and 144 MHz, although some other HF bands are also used in some instances. A 222 MHz transverter, such as the Downeast Microwave 222-28K, is connected to the RF output jack of an HF transceiver and to a 222 MHz antenna at its own RF

13、output port. It receives a low level transmit signal from the HF transceiver in the 28 MHz range and converts the signal to 222 MHz and then amplifies its own RF output. When not transmitting, the 222-28K receives 222 MHz signals and passes them along to the transceiver as a 10 Meter signal. Transve

14、rter architecture will fall into two broad general categories. Category 1 uses a single RF connection and generally requires a few to ten watts of drive from the HF transceiver. TX RX switching can be obtained from RF sensing, or keying lines between transverter and HF transceiver. Such designs can

15、allow a 10 watt 144 MHz transceiver to operate on 50 MHz for example with a minimum of fuss. A small 20 meter QRP rig can easily operate on 144 MHz. Simplicity is the rule. Such a setup is shown in FIGURE 1. Category 2 is somewhat more complicated by using separate receive and Transmit paths between

16、 the radio and transverter. The TX level is typically designed for somewhere near 1 milliwatt, but may accommodate ranges up to 500 mw or down to 20 dBm with pot adjustments in the transverter. This layout will allow for changes for station performance improvements. New receive preamps and transmit

17、amps may be added without complex switching modifications. In many cases, a sequencer may be installed to control switching of coax relays, transverter, preamps etc. etc. FIGURE 2 demonstrates the Category II transverter 2 hookup. The K2 does not allow for 1 milliWatt transverter operation directly

18、as yet, but there is a simple remedy to allow K2 operation with split receive and transmit. (Ed. Note: The K60XV option for the K2 now provides a separate low level drive output for transverters.) The 160 meter band option includes a separate receive terminal that can be used on any HF band, so, by

19、adding a 160 meter kit, the separate TX and RX path problem is resolved. Most operators install a plug in attenuator on the main output BNC jack. These may be simply made with carbon composition resistors. The value may be tailored to the power level required by the transverter, A 30 dB pad will att

20、enuate one watt from the K2 to the one milliwatt level. This will be explained fully in the Transverter Connection Details section below. 3 4 5 K2 Support for Transverter Operation Beginning with K2 Firmware Revision 2.0 and above, the K2 supports up to three different transverters and provides enha

21、ncements to facilitate their operation. For each of three transverters, the firmware supports (Ed. note: Current K2 firmware now supports up to 6 transverter bands.) 1. specifying the frequencies for the IF and RF interface between the transceiver and the transverter, 2. selecting a power level for

22、the IF signal to the transverter, 3. an offset to compensate for slight inaccuracies in frequency, and 4. directly displaying the transverter frequency on the K2 display (if you have the KIO2 CAT control interface installed, sending the transverter output frequency to your logging program or CAT con

23、trol program). Setting the Firmware for Transverter Support To set up the K2 for transverter operation, tap the MENU button and then tap DISPLAY to select the NEW secondary menu, labeled SEC. Turn the main dial until Trn1 is displayed, then hold MENU to select transverter #1 and turn it to On. This

24、enables transverter #1 support. Setting the IF and RF frequencies Once transverter #1 support is turned On, tap DISPLAY once to select the RF frequency. Turn the VFO dial until the RF frequency for your transverter is displayed. This can be any number between 0 and 999 MHz. Your transverter document

25、ation will show the relationship between specific RF and IF frequencies. In our example above, set rF for 222 MHz. Tap the DISPLAY button again, IF will be displayed, and now you can enter the corresponding IF frequency that your transceiver supports. In the example, turn the VFO dial to select 28 M

26、Hz. Setting the Offset Tap DISPLAY again and the offset symbol, OFS, will be displayed, initially set to 0.00. You can use this adjustment to compensate for any discrepancies between the IF frequency of your transceiver and the RF frequency of your transverter. Although you may be able to adjust you

27、r transverter to not have any discrepancy between the IF and RF relationship, OFS offers a convenient way to make this adjustment based on measurements and on-air reports. The adjustment range for the offset is +/- 9.99 kHz. If you do not know what offset you might want at this point, simply leave t

28、his setting at 0.00. As an example, suppose a 222 MHz transverter with a 28 MHz IF crystal oscillator frequency could be at 96.997 MHz. This will translate to an LO freq of 193.994 MHz. (multiplied X2 in the transverter) A signal on exactly 222.100 MHz will then appear on 28.106 on the K2. (222.100-

29、 193.994 = 28.106) If you apply a 6.00 khz offset in the K2 firmware TRN menu, the K2 will read the frequency with no apparent error. The K2 dial will indicate 222.100 MHz. Setting the Output Power Control This setting allows you to set the IF power level from the transceiver to the transverter over

30、 a limit of 1 watt to the maximum your K2 is capable of supporting on the IF band. This setting is independent of the power control setting on your front panel. The K2 supports a different power setting for each supported transverter. A transverter normally expects the IF power to be within certain

31、limits, so this feature provides for close control of output power when on a transverter band. Without this feature, you would have to ensure that you had adjusted the Power knob to a proper level. NOTE: The minimum Power Control Setting of 1 watt is the lowest reproducible level that the K2 support

32、s reliably in all modes, although some transverters require a much lower power than this. Consult the documentation for your transverter to determine what the optimum and maximum power levels are that your transverter can handle before 6 transmitting into it with your K2. You may need to take steps

33、to manage the IF power delivered to your transverter from the K2. Tap DISPLAY once again until Out is displayed. Here you can set the output power for this transverter band to follow the Power knob on the front panel (for this, select Pot), or you can specify the actual power output from a range of

34、1.0 watt to 15.0 watts. Select the power level that is most appropriate for your transverter. If you want to continue to review your settings, continue to tap the DISPLAY button to view them. Once you are satisfied with your settings, tap MENU to return to the Secondary menu. Viewing the Results of

35、your Settings For each of the three transverters supported, an additional band is now available on your display. Tap MENU again to return to normal operation, and then tap BAND+ or BAND- to view the list of bands your K2 supports. As you move through the bands, after the 10 meter band, the display w

36、ill briefly indicate which transverter band you have turned on, and will then display the actual frequency of the transverter (within limits noted below). In the example we have used, the display will now read 222 MHz. The K2 will support a display of up to seven digits, which on the HF bands, is a

37、resolution of 10 Hz. When a transverter band is selected, if the RF frequency is 100 MHz or greater, the K2 is not capable of directly displaying the full frequency to a resolution of 10 Hz. Depending on your rAtES setting, the K2 manages RF frequencies of 100 MHz up to 999 MHz as follows: ? In the

38、1 kHz position, the display will show all the whole digits of the transverter RF frequency: 123456. ? In the 50 Hz position, the display will show all the digits to the nearest 100 Hz: 123456.7 ? In the 10 Hz position, the most significant digit is dropped and the remainder of the frequency is displ

39、ayed to a resolution of 10 Hz: 23456.78 Once you have activated one of the transverter bands, then you can use that band transparently on your K2. Of course, you will need to manage the connections to your transverter so that your IF signal is connected to the transverter. Some transverter interface

40、s provide for a bypass of the IF frequency to the HF antenna if turned off . Transverter Connection Details Typical transverters can be connected in a number of ways to the IF transceiver. The connection variations employed cover single or separate RX and TX cables between the units, as well as diff

41、erent ways to control the switching and power control operations. (Ed. Note: The Elecraft XV50, XV-144 and XV-222 may all be stacked and fed off of the same 28 MHz IF drive line from the K2 or other rigs. These transverters have internal switching relays that drop the unused transverters off the IF

42、bus when they are powered off. No external switching is required. When connected to the K2s AuxBus via the KIO2 or KPA100, the Elecraft XV transverters will automatically turn on/off and connect to the IF bus as each transverter band is selected on the K2.) Downeast Microwaves web site has an excell

43、ent discussion on transverter interfacing. See Single IF Cable Connection (Category I) In this setup, a single cable carries the RX and TX signals between the transceiver and the transverter. As the K2 switches between RX and TX, a switching circuit in the transverter makes a corresponding change in

44、 the transverter. See Figure 1. On a K2 with the KAT2 auto-tuner, the best way to connect the two units is to dedicate the second antenna jack on the back of the K2 to the transverter. The transverter band on the K2 can be set to Antenna 2 (and the rest of the HF bands to Antenna 1) so that no switc

45、hing of cables is necessary when using the transverter band; simply selecting the transverter band and transmitting would send the signal to the transverter. 7 Separate RX and TX Connections (Category II) Some transverters can use (or require) separate coaxial cables for RX and TX. In this setup, th

46、e K2 will need to have the 160m / Receive antenna option installed so that the RX antenna can be used for receiving the signal from the transverter, while the regular antenna jack on the K2 can be used for transmitting to the transverter. This option would be of interest to those users who need to a

47、ttenuate the TX signal from the K2 for proper drive levels to the transverter. Since one would not want to attenuate the received signals from the transverter, this is the only way to include the attenuator unless relay switching were used. Figure 2 shows a typical setup of this type. Connecting Mul

48、tiple Transverters to the K2 The K2 firmware will support up to three transverters, but today can only support one at a time without swapping cables on the rear of the unit. In order to support multiple transverters, the user would need to purchase or construct an appropriate switch box that switche

49、d the K2 between each transverter. Since the switch box will be switching RF, it will need to have appropriate (very high! 90 dB) isolation between the various receive lines. TX lines need low isolation. Also, it should be capable of providing power switching between transverters. The details of such a switchbox is beyond the scope of this note. Elecraft may produce an intelligent switchbox that would handle the switching chores automatically using the Aux I/O so that by simply selecting a transverter band, the switch