This is a shortwave QRP SSB/CW transceiver. The ultra-small size makes it easy to carry for outdoor use. It adopts 1602N LCD screen, built-in speakers. Support to connect to PC and use FT8, JS8, FT4 and other digital mode software control, support CW automatic decoding.
Excellent PCB layout design in line with high-frequency circuit design principles to ensure excellent performance. Can reach 3-5W power in 8 bands and reserve TO-220 package pads required for upgrades. High emission efficiency, 80m/60m/40m/30m/20m efficiency is higher than 85%, 17m/15m efficiency is higher than 80%, 10m efficiency is higher than 70%.
High-precision for KDS brand TCXO, frequency accuracy is better than 1PPM, frequency stability is better than 0.5PPM. Independent core board and RF board to avoid own signal interference. Ultra-small size: 82.8 x 28.8 x 110mm/3.3 x 1.1 x 4.3 (excluding protruding parts). Rich interfaces (CAT, PTT OUT, MIC/KEY, K-head microphone). All LPF parts use 100V C0G/NP0 capacitors.
Use original genuine Omron magnetic latching relay. Use original genuine LM4562 or LM833 op amp chip. Simple, fun and versatile QRP SSB HF transceiver with embedded DSP and SDR functions. EER Class-E driven SSB transmit-stage.
Approximately 5W PEP SSB output from 13.8V supply. DSP filters: 4000, 2500, 1700, 500, 200, 100, 50 Hz passband. DSP features: Automatic Gain Control (AGC), Noise-reduction (NR), Voice-triggered Xmit (VOX), RX Attenuators (ATT), TX noise gate, TX drive control, Volume control, dBm/S-meter. SSB opposite side-band/carrier suppression transmit: better than -45dBc, IMD3 (two-tone) -33dBc, Receive: better than -50dBc.Multiband support, continuously tunable through bands 160m-10m and from 20kHz.. 99MHz with loss in performance. Open source firmware, built with IDE for Arduino; allows experimentation, new features can be added, contributions can be shared via Github, software-complexity: 2000 lines of code. Software-based VOX that can be used as fast Full Break-In (QSK and semi-QSK operation) or assist in RX/TX switching for operating digital modes (no CAT or PTT interface required), external PTT output/PA control with TX-delay.
Simple to install modification with 8 component changes and 8 wires. Lightweight and low-cost transceiver design: because of the EER-transmitter class-E stage it is highly power-efficient (no bulky heatsinks required), and has a simple design (no complex balanced linear power amplifier required).
Fully digital and software-based SSB transmit-stage: samples microphone-input and reconstruct a SSB-signal by controlling the phase of the SI5351 PLL (through tiny frequency changes over 800kbits/s I2C) and the amplitude of the PA (through PWM of the PA key-shaping circuit). Fully digital and software-based SDR receiver-stages (optionally): samples I/Q (complex) signal from Quadrature Sampling Detector digital mixer, and performs a 90-degree phase-shift mathematically in software (Hilbert-transform) and cancels out one side-band by adding them. Three independent switchable analog front-end receiver attenuators (0dB, -13dB, -20dB, -33dB, -53dB, -60dB, -73dB).
Receiver Noise level MDS: -135 dBm at 28MHz (in 200Hz BW). Receiver Front-end selectivity: steep -45dB/decade roll-off +/-2kHz from tuned-frequency. Blocking dynamic range: 20kHz offset 123dB, 2kHz offset 78dB. VFO A/B + RIT and Split, and corresponding relay band-filter switching via I2C. Note:The device not include batteries, need to prepare charger by yourslef. Thanks for your kindly understand. We are committed to resolve all issues in a friendly and satisfactory manner. We care about our valued buyers, if you have any questions, our Customer Service staffs will be very glad to help you. We try our best to reply to your emails as soon as possible, however, due to high volume of daily incoming emails and time zone difference, we may not be able to reply your emails immediately. Your recognition will make us more confident to develop business and serve you better. We understand the concerns and frustrations you might have, and will do our endeavor to resolve the issues.Please give us the opportunity to resolve any problem. Here is illustration shows how to leave me the feedback, please follow the step, thank you very much!
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