Descriptions
QRP Pixie (unbuilt) kit Plexi case and your choice of crystal 7.023/30/35/40/50/55/60/122
Supply voltage:
DC 9~13.8V
Antena:
50 Ohm, 7MHz, SWR<2.0
Frequency:
7.023MHz / 7.030MHz / 7.050MHz (40 meter)
Auto transmits, Auto key:
No
Sidetone:
Buzzer generation
1. Introduction.
“PIXIE” is a very small volume of simple 40-meter band micro-power amplitude telegraph
transceiver, Despite its small size and DC receiver limitations, it is capable of working
several hundred miles when connected to a good 40-meter antenna.
Improvements are as follows:
The vertical resistance is changed to horizontal resistance, Solving the problem of
resistance to short circuits.
We do not distinguish between positive and negative electrodes of the power supply. The power input range increased to 13.8V.
An added buzzer sounds for sending (use jumper shield), and Added led signal for sending.
Added acrylic shell.
2. Specifications.
Power supply: 9~13.8V Volts DC, >500mA (Recommend the use of batteries).
Antenna: 50ohm,7MHz, SWR<2.0
Receive: static current 20mA
Transmission power:
1.2W
Frequency: launch the vibration frequency,7023 kHz
Receives the local oscillator frequency: about 7023-7023 kHz
Work mode:
CW
KEY:
Case: Acrylic
The below content is from WIKI
In amateur radio, QRP operation refers to transmitting at reduced power while attempting to maximize one's effective range. QRP operation is a specialized pursuit within the hobby that was first popularized in the early 1920s. QRP operators generally limit their transmitted RF output power to 5 Watts or less regardless of mode be it CW operation or SSB operation.[1]
Reliable two-way communication at such low power levels can be challenging due to changing radio propagation and the difficulty of receiving relatively weak transmitted signals. QRP enthusiasts may employ optimized antenna systems, enhanced operating skills, and a variety of special modes, in order to maximize their ability to make and maintain radio contact. Since the late 1960s, commercial transceivers specially designed for QRP operation have evolved from vacuum tubes to solid-state technology.
A number of organizations dedicated to QRP operation exist, and aficionados participate in various contests designed to test their skill in making long-distance contacts at low power levels.