Best Long Range Outdoor HDTV Antenna

Best Long Range Outdoor HDTV Antenna as shows by Amazon , with range antenna coverage from 60 miles-150 miles , extremely high performance for Digital HDTV UHF Band.
Available with amplifier signal , 360 degree motorized , and wireless remote control.

150 Miles Range | Receive free digital broadcast High Definition TV signals Full HDTV Support: 720p, 1080i, 1080p Working Frequency: VHF 40~300MHz | UHF 470~890MHz Weather resistant - Watch Your Favorite Channels For Free Including Events Such As The FIFA World Cup, Olympic Games & Much More. Includes wireless remote controller and antenna pole mount

Channels: 1~69 Impedance: 75Ohm Max Output Level:105dB u V Main Voltage: AC-110V/60Hz Operation Temperature: -10° C ~ 50° C Coaxial Cable Length: 40' Dimensions: 18.1" X 3.5" X 11" 

Why 50 Ohm Impedance cable Ideal for Transmitting RF Signals ?

Inspired by Rodrigo , one of this blog reader, who ask about why used 50 Ohm impedance ?

The answer can be shown in the graph above. This was produced by two
researchers, Lloyd Espenscheid and Herman Affel, working for Bell Labs
in 1929.


They were going to send RF signals (4 MHz) for hundred of miles
carrying a thousand telephone calls. They needed a cable that would
carry high voltage and high power. In the graph below, you can see the
ideal rating for each. For high voltage, the perfect impedance is 60
ohms. For high power, the perfect impedance is 30 ohms.


This means, clearly, that there is NO perfect impedance to do both.
What they ended up with was a compromise number, and that number was 50
ohms.


You will note that 50 ohms is closer to 60 than it is to 30, and that is
because voltage is the factor that will kill your cable. Just ask any
transmitter engineer. They talk about VSWR, voltage standing wave ratio,
all the time. If their coax blows up, it is voltage that is the
culprit.


So why not 60 ohms? Just look at the power handling at 60 ohms -
below 50%. It is horrible! At the compromise value of 50 ohms, the power
has improved a little. So 50 ohm cables are intended to be used to
carry power and voltage, like the output of a transmitter. If you have a
small signal, like video, or receive antenna signals, the graph above
shows that the lowest loss or attenuation is 75 ohms.


Still, I get a lot of feedback from people who use 50 ohms for small
signals; you can see above that they are taking a 2-3 dB hit in
attenuation. Excuses I hear are “It's too late to change now!” or “That's the impedance of the box itself.”

This is especially true of most test gear, which is universally 50
ohms. You have to buy a matching network to use it at 75 ohms or any
other impedance. But there are lots of applications where 50 ohms is the
best choice.

( Source : Belden.com)

8 Bit RS-232 D/O Card

For you who wants to experiment with the early computer technology 8 bit Data , this project is very useful to start with, and 8 Bit Data Digital I/O still use in Industrial process , such on factories process control system.

Your old computer still can be use for this experiment, IBM PC XT or AT is fine with Processor 80x86.

And with BASIC computer programming Install, or QBASIC programming . Can Also programming by Turbo Pascal language.   The Circuit Consists Of IC CMOS 4040 , IC 74HC573 & 74HC541 and IC ULN2803.
The Parts lists shown at component lists.

The Design of This Digital Output card is based on accessing PC UART as shown at table2. The basic lines for UART communications is TXD and RXD for Transmit Data and Receive Data. The other lines are DTR, RTS, CTS, DCR, DCD and RI , each for input and output in communication 8 Bit Data via Serial Communication.
The Output voltage level on Serial port RS-232 are represent by +12 V for logic "1" and -12 V for logic "0".
The Connector K1 connected to serial port computer and the output through R1-D1 and R2-D2 and R3-D3 for TXD, DTR and RTS. IC6, IC7, IC8 are optocouplers are safe driving by R1-D1 , R2-D2 and R3-D3 for On/Off transistor inside it , when the voltage +12 V and -12V.  The optocoupler will saturate the transistor if the voltage goes to +12 V and goes to cut off the transistor when voltage goes to -12 V.
The RST and CLK drive 12 bit binary counter, and only 8 bit used . The LEN pulse used to hold latch output from IC2. And IC3 drive LED D4-D11 for shown logic state of DO card.

Computer have four terminal Serial Port ( COM1..COM4) as at table 1 , where each serial port , occupied 8 memory map location. as shown table . The Eight Open Collector Output form IC ULN2803A is final stage of this card, and can apply for switching up to 50V with the total output current not more than 500 mA.

The card can powered from regulate power supply from 9-15 V. On the next article I will show you how to program UART PC.

The PCB for DO Card and the component places.(Souces : Elektor Electronic)

Wideband Active Loop Antenna for Shortwave band general purpose receivers

Active Wide band Loop Antenna for 10-30 MHz Band shortwave band you can construct in your home as Do It Yourself Project (Source article : Elektor Electronics Magazine).

Parts List :

 

PCB Design and component place :

Loop Antenna is a good indoor antenna alternative for a long wire antenna.

Half Dipole Antenna for TV Reception you can build

I got this design from Antentop.org with title Unusual TV Antenna , is from Magazine 1966 . This antenna design as Tiny Antenna, this antenna can receive for 4 channel at that time, maybe more channel today.
TV station located far about 55 km and 105 km from TV reception.
The Antenna design itself is Dipole Antenna, half of dipole copper rod with 6mm diameter ( 3-AWG), with plastic tube about 36 mm ( 1 1/2 inch) is placed. The tube is filled by Iron sawdust, the length of the plastic is about 2/3 from the length of copper rod. shows in fig 1. for cable TV , you can use 75 Ohm or 50 Ohm impedance