Difference between revisions of "The MacGuffin Project"

From BATC Wiki
Jump to navigation Jump to search
Line 15: Line 15:
 
This block diagram shows the basic structure of a MacGuffin system.
 
This block diagram shows the basic structure of a MacGuffin system.
  
[[File:block diagram McGuffin.png|600px]]
+
[[File:block diagram McGuffin.png|800px]]

Revision as of 09:45, 2 March 2022

The MacGuffin project is a collection of tools used to create an automated multi-band ATV system based on the Portsdown transmitter and the Ryde receiver. An RF path from the Portsdown or the Ryde to an antenna is created by using relays to select the appropriate intermediate equipment. This includes RX preamps, TX drivers and power amplifiers. Transverters may also be a part of the system.

The system automatically connects the components for the band selected by the Portsdown and sequences the transitions between RX and TX. An Arduino Nano and MCP23017 IO expanders are used to generate control signals. They operate the relays used to select the RF paths connecting the components for the various bands. PTT and DC power to the amplifiers is also controlled.

PCBs

PCBs have been designed for the Nano and the MCP23017. The Nano board has circuitry to interface with the Portsdown and other equipment. The IO expander board is designed to easily connect to a 16 relay module from eBay or to user-selected relays through optional drivers or logic level signals. A builder could choose to use modules from eBay instead of the MacGuffin PCBs.

Configurations

There is no standard MacGuffin configuration as it is expected that each builder will be using parts in hand or the parts that are available at the time they are building. The documentation does include examples of various possible configurations and a list a RF relays available at the time the design was started.

The first step in designing the system is to decide which bands will be used. That starts with the setup of the Portsdown. Next a relay configuration can be planned which will switch the RF through the appropriate equipment for each band. Then a basic Arduino sketch is modified to match the builder’s Portsdown configuration and the relay configuration. Modifying the Nano application does not require knowledge of the Arduino programming language. Tables in the sketch determine the control of the relay paths and the text displayed on the LCD.

This block diagram shows the basic structure of a MacGuffin system.

Block diagram McGuffin.png