The OpenQRP 40m CW Transceiver kit is now available for delivery to the USA and Canada from OpenQRP.com (USA) at $150.00 plus $10.00 shipping (USD).
This provides around 6 to 8 Watts output at 13.5 V on 7 MHz. It includes an LCD display, CW decoder, memory keyer, and has 400 Hz IF selectivity. The processor is based on Arduino technology, allowing experimentation with the firmware. It is designed by Steve Elliott, K1EL, well known for his WinKeyer family of keyers.
The kit is priced at £89 (GBP) and has an LCD display and front panel controls for Tune, RIT, RF Gain, and 6 push buttons. Output is 6 to 8 Watts at 13.5 V. [T]he Open QRP transceiver also includes a separate chip that decodes incoming CW and CW sent via paddles!
The transceiver was designed by Steve Elliott, K1EL, of WinKeyer fame.
(Kits are also expected to be available in the USA at some point from a separate supplier.)
I was fortunate to be able to purchase one of the kits at the Hamfest. Although I haven’t yet had time to put it together, one purchaser already has his transceiver up & running.
This is an exciting product for us in the UK, as normally items like this are imported from the USA, suffering high tax and import charges.
It begs comparison with Ten-Tec’s Model 506 Open Source QRP CW Transceiver, which is more or less the same concept based on Arduino technology (probably the Rebel was inspired by K1EL’s design, which he started in 2009). The Open QRP is single band and a kit, whereas the Rebel has two bands and is ready-built. The Open QRP has an LCD display and 6 push buttons, where as the Rebel has no display and two push buttons.
When UK companies sell USA amateur products such as the Rebel, they quite often adopt a “dollar – UK pound equivalence” pricing, which makes them far more expensive here than they are in the USA (although the UK companies do have to shoulder the import costs). On this basis, if the Rebel is priced at £199 (GBP), it will make the Open QRP kit less than half the price at £89 (GBP).”
Many thanks for the info, Graham! Please let us know about your experience building and getting the OpenQRP transceiver on the air!
It is has been a few months since we announced the FX-4 Transceiver but it is getting very close to being available for purchase. For those of you that are friends of our Facebook page or visited our booth at Dayton Hamvention got an early peek at it. Here is an updated picture and it will be a very sharp black color. Other pics are on theFacebook page. We have been making some last minute tweaks that we think you will really like. We plan to offer it for purchase under $500 and you can add your name to the wait list which can be found at the bottom of our purchase page.
FX-4 Specs
Transceiver size in inches
4.10L X 2.8W X 1.5T
Transceiver Weight
12.8 oz.
Current Drain on receive
250-270 ma
Current Drain on transmit
1200 ma
Receive/Transmit Bands
7.000.00 to 7.300.00 MHz
14.000.00 to 14.350.00 MHz
9.999.00 to 10.150.00 MHz
18.068 to 18.168.00 MHz
Frequency control
75 MHz
Display type
LCD-128×64
Transmitter Max output power
5 watts CW
5 Watts SSB
Spurious emissions
-43dB at 5 Watts
Side tone pitch
550Hz to 1500Hz adjustable
Receiver sensitivity
0.3uV
Selectivity
-3dB/ 2.6K -40db/ 4.5K
Audio Output
1 Watt with 8 ohm speaker
Keyer
Iambic A & B adjustable speed from 5 to 40 wpm
Memory Storage
10 per each Band total of 40
DSP filtering
300KHz, 500KHz. 1.3KHz, 1.6KHz, 1.9KHz, 2.2KHz, and 2.5KHz.
VFO Drift
<5Hz after 5 minute warm up at 30c (<10Hz after 30 minute operation @ 40c)
Michael Ossmann is making a business out of developing and producing open-source hardware.
His latest creation is called HackRF, and in less than a day, it has been fully backed on Kickstarter raising over $290,000 US with 25 days left to go in the campaign (at time of posting). Backers can contribute to this campaign with some confidence as Ossmann has successfully delivered products from Kickstarter in the past.
What makes HackRF unique is the fact that the stand alone unit can operate between 30 MHz and 6 GHz; a frequency range substantially wider than any SDR currently on the market. Indeed, when combined with the Ham It Up converter, the HackRF will also cover HF bands and lower.
Additionally, HackRF is a fully open-source transceiver; applications are limited only to a developer’s imagination. You could potentially use HackRF for ham radio, radio astronomy, scanning, shortwave radio listening, remote control applications, wide band monitoring, and commercial/industrial applications. If you use two HackRFs in tandem, they’ll even work in full-duplex applications.
Though the project is fully-backed, you can still support HackRF in the Kickstarter phase and save a bit on the eventual retail cost of the unit. Production units are expected to ship early 2014. Check out the HackRF Kickstarter video below:
Additional information:
Check out HackRF technical details and development notes at the HackRF wiki.
Now accepting orders for the Elecraft KXPA100 100 W Amplifier
We have received FCC certification and are putting on the finishing touches and performing our field test on the KXPA100. We’re now taking orders for deliveries planned to start in the next 60 days (mid to late August).
You will find a direct link for ordering the KXPA100 below, at the bottom of this email. (This order form is not yet visible on our regular web page.)
KXPA100 features include:
100 W output on 160-6 m with 5 W input typical
13.8 VDC powered; 20 A typical current drain
7 lbs with KXAT100 installed. 10 x 5.125 x 4.25″
Compact unit ideal for both desktop and mobile use
Solid-state diode T/R switching — fast, silent T/R and QSK
Large convection-cooled heat sink for reliable and quiet operation
Second antenna jack provided with KXAT100 ATU option; controlled by KX3’s ANT switch
Fast, bright LED bar graphs for power and status; KXAT100 ATU option adds SWR bar graph
Seamless integration with the Elecraft KX3 transceiver
Works well with any low-power transceiver, requiring only RF and PA KEY inputs
RF-based frequency counter automatically switches bands with any rig
Optional band-data input support the K3/10, KX3, Yaesu FT-817, Icom IC-703, and other rigs
Dual APP power connectors for additional friction-fit if needed (mobile); optional daisy-chaining of 13.8 V to power rig
Optional KXPACBL adapter connects KX3 to the KXPA100 with a single cable for keying, band data, and control
KXPA100’s PC port allows use of remote-control and logging applications with the KX3 without software configuration changes
KXAT100 internal ATU option matches 10:1 SWR (5:1 typical on 160 m and 6 m); uses Elecraft’s fast matching algorithm
KXAT100 ATU settings saved per band, per band segment, and per antenna for instant recall
We look forward to receiving your KXPA100 order and we hope it will accompany you on many adventures to come!
73,
Wayne, N6KR
Eric, WA6HHQ
KXPA100 On-Line Order Form
(Please use this web order form so that our phone sales team will not be overloaded.)
Orders will be processed in the order received.
I was very surprised to find this handy talkie, the Tokyo Hy-Power XT-751 HF handheld transceiver, at the Dayton Hamvention. This radio will cover from 40 meters to 6 meters in both SSB and CW. It will also have an internal ATU. It is only a concept radio at this point.
Tokyo Hy-Power hopes to have this radio in production mid 2014.
I was more than surprised to find Palstar showcasing a transceiver at the 2013 Hamvention. Palstar is well-known for their tuners and their receiver, the R30A, but they have never sold a transceiver to my knowledge.
As you can see from the photos, the Palstar TR-30 has a simple faceplate with a touch screen display. It is all aluminum, thus is very light. TR-30 is rated for 20 watts PEP and has an 11 pole filter on board.
I hope to review one once it is in production. Palstar expects the TR-30 to be available August 2013.
When I asked about the price, the told me a range of $1,500-2,000 US. (Gulp!)
Today, at the QRP ARCI convention–Four Days In May–TEN-TEC will announce a new QRP transceiver based upon a completely different platform than any others rigs they have in production: a QRP radio, built on the chipKIT™ Uno32™ (Arduino-based software) to be known as the Model 506 Rebel.
And, folks, I’ve been lucky enough to get my mitts on a prototype…!
The Model 506 Rebel
The TEN-TEC Model 506 Rebel is an open-source (meaning, anybody can program it), factory-built QRP transceiver based on a Chip Kit Uno 32 Arduino-compatible prototyping platform, which serves as the main processing unit that holds the Rebel’s program. (For those of you not familiar with the Arduino series, check out this article.)
And I have to admit, I love the concept: TEN-TEC delivers a factory-built, uber-simple transceiver, with just enough programming to reliably get you on the air with a basic radio (see details below). Users then have full access to develop and program the Rebel via an open-source platform, themselves. No need to wait on firmware revisions; firmware, in a sense, will be crowd-sourced! That’s to say, it uses online collaboration–a great idea.
According to TEN-TEC, the programming environment is very safe. Users can tinker with code without fear that they might harm their Rebel 506. The original base program can be re-flashed to the radio at any time. So if you can’t get past an error, you can always revert to a safe default copy.
In addition, even if you don’t have any idea how to program, someone has already created a web-based email group where users can upload and share code packages, and you can select someone else’s programming to test drive. Click here to join the group.
The Rebel is a CW-only transceiver that operates on 40 or 20 meters. The user changes bands by moving jumpers inside the chassis, mounted on the PC board.
The basic Rebel comes with no frequency display. When you turn on the radio, it comes up on the QRP calling frequency of 7.030 MHz or 14.060 MHz, depending on which band is selected. There is no VFO, but a DDS chip that is highly stable and that allows the Chip Kit Uno 32 to select a frequency upon which to operate. Of course, since the Chip Kit controls the DDS chip, you can re-program how the Rebel manages frequencies.
Initial impressions
Last week, TEN-TEC sent me a prototype of the Rebel to Beta test. I’ve had it on the air several times–I’ve also popped the cover and given it a thorough inspection and workout. I’ll share my initial impressions below. I’m not commenting, however, on some specs like filtering, as they have not been finalized for production and are still subject to change. The unit I tested, keep in mind, was a prototype; production units will be still more polished and incorporate changes Beta testers have provided.
Front Panel Layout
The front faceplate of the Rebel 506 is reminiscent of TEN-TEC QRP Kits, gloriously clean and simple. There is a large tuning knob in the middle with a SELECT button on the left and FUNCTION button on the right. Both buttons are large enough that you could comfortably use them even if wearing winter gloves. Above each button is a vertical row of just three LEDs: green, yellow and red. These colored LEDs simply indicate the position of the function/selection buttons.
Function button controls
Band Width
Step Size
User-programmed functions
Select button selects
Bandwidth: Wide, Medium and Narrow
Tuning steps: 100 hz, 1 kHz or 10kHz
User, U1, U2 or U3
There are only two knobs: one for volume (AF gain) and one for RIT (+/- 500 Hz). There is also an ON/OFF simple toggle switch, and a rather classy touch from TEN-TEC–namely, a small LED light in the TEN-TEC logo itself. And that’s all, folks–bare-bones design.
No frequency display
The Rebel 506 does not come with a frequency display. However, there are features to help you understand where you are on the band as you turn the encoder:
As you tune within the selected tuning steps, the LED in the TEN-TEC logo flashes as you pass each step; for example, if you’ve selected 100 Hz steps, then when you pass each 100 Hz step, the LED in the logo will flash once. When you reach either band edge, the LED stays lit. Again, a nice touch.
When you turn on the (factory default) Rebel, the frequency starts on QRP calling frequencies 7.030 MHz (40M) or 14.060 MHz (20M)–of course, you could change these with programming.
There are (already) third-party frequency displays that plug into the Rebel’s board, an easy addition.
Since I had neither frequency display nor frequency counter, I simply used my SDR’s waterfall display to locate where I was on the band. It’s also fairly easy to count the steps with the logo’s red LED.
Connections
On the rear panel, you’ll find a standard BNC antenna connection, a key/paddle port (1/8″), a speaker/headphone port (1/8″) and a standard DC port (10-15V reverse polarity protected) that equates to 4-5 watts output depending on supply voltage.
Key/Paddle input from the factory is only for straight key, but you can modify the code to make it a paddle input. Also, the headphone/speaker port defaults to headphone use from the factory, but there is a small jumper on the PCB that can me moved to drive a non-amplified speaker.
On production units (not on my prototype, however, nor on those at FDIM) there will be a CW side tone volume control pot via a small hole in the side of the Rebel’s enclosure. Also, production units will have a hole on the rear panel to allow for access to the ChipKit’s USB port.
The PCB has hooks, test pins, and inputs for the following:
Battery read pin: reads 0.20 of the supply voltage.
Power-out read pin: reads 0.50 of the RF pickup
Code read pin: ties to low level audio line, can be used to build a CW code reader
CW-speed read pin: DC voltage used to determine approximate speed of CW routine
All connections of the Chip Kit Uno32 are available on the top of the PCB.
The unit accepts Arduino-compatible Shields for such things as:
Prototyping
Displays
Audio DSP
Evidently, the Rebel has a lot of memory space for writing CW memory-keyer functions or whatever the user desires/dreams up. Even a voice synthesizer could be installed in the Rebel; indeed, I believe there are many mods and possibilities for the Rebel. The greatest limitation might simply be…the imagination of the user.
TEN-TEC was clear with me about the goal of the Rebel 506: “To provide a platform for users to experiment and to learn to program using Arduino-Compatible Code.”
I like it!
I have thoroughly enjoyed putting this little radio on the air. Let’s be clear, though: this is no Argonaut VI or Eagle, nor should it be expected to be. Receiver performance is on par with other QRP kits and rigs of its class. The Rebel is fairly sensitive and the noise floor is fairly low. Selectivity is adequate for most conditions, although I imagine crowded conditions could overwhelm this modest receiver.
When I had the Rebel on the air, I engaged in a bit of a rag-chew and found the audio quite pleasant from my GoalZero portable amplified speaker. And other than needing to adjust the side tone volume, the Rebel was ready to go, straight out of the box.
Criticisms? Well, it’s just too early to have many. I’ve passed along all my frank observations to TEN-TEC and they’re actually addressing them now (yet again, one of the many benefits of an American-based radio producer). If this were a $900 rig, performance-wise, I would complain about selectivity. But I’m willing to bet it’s at least as good as the Index Labs QRP ++ I once owned. In fact, though it’s not a full-featured general-coverage rig, it has that same sort of bare-boned fun factor the Index Labs radio provided me, along with many other QRP kits.
Field? I would totally take the Rebel into the field or backpacking. I have a hunch it uses less than 200 milliamps on receive. It’s modestly-sized and built like a little tank.
The Rebel lives up to open-source philosophy
Here is the amazing part about the Rebel: TEN-TEC only shipped me the radio–no connectors, no adapters, no power cord. At first, I thought I’d have to find an appropriate plug and solder my own power cord, not to mention figure out what other adapters I would need for my key/speaker…but I didn’t. The power port is very standard; the same one my LDG ATU, Elecraft K2 and KX1 use, with standard positive tip polarity. The Rebel’s antenna connector is a BNC, speaker and key ports are standard 1/8″ and the ChipKit board has a mini USB connection. The top cover is easy to remove–even the toggle switch, LEDs and selection buttons are all standard and easy to access for servicing. Everything is standard!
But it doesn’t stop there. The Rebel is truly an experimenter’s radio, and is meant to be. The programming is completely open-source and TEN-TEC is encouraging and facilitating users to tinker with the code and make hardware modifications at will.
Open-source technology is all about alteration and collaboration, the kind of environment we hams have always embraced. In the open-source world, nothing is proprietary; rather, everything is transparent, standard, accessible; supporting changes and modifications of every stripe. And in my humble opinion, it’s about fun. On these points, the Rebel delivers.
I have done some scripting in my past, but I am no professional programmer. Though many of my Maker friends had been urging me to give it a go, I hadn’t jumped on the Arduino band wagon until, well, now. The Rebel will serve both as a great intro to Arduino Compatible Code and a truly fun QRP rig. If TEN-TEC is lucky, this little rig may actually nudge some of my Maker friends to get their ham radio tickets.
Price
TEN-TEC will be announcing the price of the Rebel 506 in Dayton, literally in just a few hours. I have no idea what it will be, but I’m fairly sure it’ll be competitive with other dual band QRP transceivers and kits on the market. I’ll post an update here when the price has been published. Stay tuned…
UPDATE: Pricing for the Rebel is $199 US.
By the way, if you’re at FDIM or the Hamvention this year, drop by booth 411 in the Ball Arena: I’d be happy to talk with you about the Rebel further (and my radio-based non-profit, Ears To Our World).
Disclaimer: Just to be clear, although I own TEN-TEC (also Elecraft and Yaesu) products, and although I Beta test for TEN-TEC on occasion, I have no formal relationship with TEN-TEC. Nor am I compensated by the company in any way. The opinions in this article and others on this site are frank and my own; they are not those of TEN-TEC.
A new kit from the Four State QRP Group and David Cripe (NM0S)
Arising from Dave’s entry in QRP ARCI’s 72 Part Challenge Design Contest in 2010, the Cyclone 40 is an enhanced version of the original design. The transceiver designed for the design contest had 72 total parts, performed well, and won honorable mention. This improved version has less than 100 components and even better performance! The kit features all through hole parts and easy assembly. The receiver is a superhet design with very good sensitivity and selectivity, and tunes the entire 125 kHZ CW segment of the 40M Band – and does so at a comfortable tuning rate. A frequency readout is included so you know where you are at all times.
This is a complete kit, including the enclosure. A high quality board package includes the pc board, front and back panels, the sides, and top and bottom all of which make up the enclosure. The control and jack labels are silk screened in white letters and vividly contrast with the black solder mask, and the holes for the connectors and controls are pre-drilled. The ends are “dovetailed” together making a very rugged, easy to build, and attractive enclosure.
Features and Specifications
General
Enclosure: A very nice predrilled and silkscreened enclosure is included. It’s easy to assemble and looks great.
Ergonomics: Smooth solid tuning, a quiet receiver with QSK and well behaved AGC. Nicely laid out front and rear panels.
VFO: The VFO is a simple PTO design, is very stable, and also quite easy to build
Sidetone: Included!
AGC: Audio derived, fast and smooth.
Frequency Range: 7.000 – 7.125 typical.
Tuning Speed: 10kHz/knob turn typical.
Stability: 300 HZ the first 5 min after power up, less than 10 HZ/hour after that.
QSK: Fantastic QSK! Full Break in, excellent muting, really fast!
All Through Hole Parts There are NO SMT parts in this kit, and only three easy to wind toroids.
Dimensions: 4.4 x 3.6 x 1.9″
Power Connector: 2.5×5.5mm coaxial, center positive. Should be fused at 1A, fast blow at PS
Antenna connector: BNC
Receiver
Configuration: Superheterodyne, 11 MHZ IF, 4 Crystal IF Filter.
Sensitivity: MDS (Minimum Discernable Signal) -125, Typical, below the normal 40M band noise level.
Selectivity: Four crystal, 500 HZ IF filter
IMD3: 90 dB typical, better than most commercial gear!
IP3: +10 dBm typical – another very good number
Frequency Readout: 3 or 4 digit CW, 1 kHz or 100 Hz resolution (user selectable), developed by Adrian Hill, KCØYOI.
Band Edge Marker: A band edge marker is heard at 7.001 MHZ
Headphone Jack: 1/8″ stereo, standard earbud/Walkman® headphone compatible
DC Current consumption: 30 ma typical at 13.6 VDC.
Transmitter
Configuration: Stable, Wide Range VFO (PTO design), Efficient Class E Final.
Spectral Purity: All harmonics and spurs less than 50dB below the carrier.
Output Power: approximately 4W into 50 ohms
DC Current consumption: 500ma typical at 13.6 VDC Will operate down to 9v DC.
Key Jack: 1/8″ stereo, grounded shell, switching the tip keys TX. Contacts accessible for an internal add-on keyer
Kits should be available at QRP ARCI’s Four Days in May conference at Dayton, and will be for sale on the Four State QRP Group’s web site approximately May 20th. The final price hasn’t been determined yet but should be less than $100 plus shipping.
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