Wiki
Version 6 (Jack Linke, 05/11/2013 08:41 pm) → Version 7/9 (Jack Linke, 05/12/2013 03:49 am)
h1. AttenuatorX Wiki
h2. Project background
This project grew out of dissatisfaction for adjustable attenuator products currently on the market. These devices are often used to protect the inputs to test equipment and other sensitive RF devices. As part of my job as a Radar Technician, I needed an attenuator that could handle up to around 40 dBm, provide a variety of attenuation levels, and operate over a large frequency spectrum. The only devices I found that met these needs cost over $2000, and are adjusted over 1 dB increments by physically flipping switches or turning dials. I thought I could do better, so I started working on doing just that.
I have experience as a Radar Technician, and as a licensed amateur radio technician (KI6NVY), but while I've worked extensively with RF, this is my first time engineering with RF. I welcome any recommendations, corrections, and other correspondence.
h2. Milestones
This project encompasses several smaller projects. We will start by designing two test boards to progressively test the components used in the final boards. The primary devices will also include details on the selected enclosure, Bill of Materials (BOM), firmware, and other information for building you own device.
*[[XTest1]]* is a very basic test board with two attenuation paths, an RF switch, chip attenuators, a digital attenuator, and an AVR ATMega48 microcontroller to handle switching.
*[[AttenuatorX]]* *[[AttenuatorXLE]]* is a relatively Low-cost Wide-Band, Wide Attenuation, High Power, low-cost Digitally adjustable RF attenuator which will be the first of the two primary devices developed. It will offer the following features: preliminary specifications:
0 to 3 GHz Operation
Up to 34 dBm (2.5W) Input Power with 10 to 85.5 41 dB Attenuation in 0.5 dB Steps
50 MHz to 3 GHz Operation
Up to 50 36 dBm (100W) Input Power with 30
*[[AttenuatorX]]* is a low-cost Digitally adjustable attenuator which will be the second of the two primary devices developed. It will offer the following preliminary specifications:
10 to 105.5 95 dB Attenuation in 0.5 dB Steps
Atmel ATMega164PA/324PA/644PA Microcontroller 50 MHz to 3 GHz Operation
8k-bit EEPROM
LCD Display
Programming via LCD Display, or via SPI or Parallel inputs
Up to 45 dBm Input Power Sensing
h2. Project background
This project grew out of dissatisfaction for adjustable attenuator products currently on the market. These devices are often used to protect the inputs to test equipment and other sensitive RF devices. As part of my job as a Radar Technician, I needed an attenuator that could handle up to around 40 dBm, provide a variety of attenuation levels, and operate over a large frequency spectrum. The only devices I found that met these needs cost over $2000, and are adjusted over 1 dB increments by physically flipping switches or turning dials. I thought I could do better, so I started working on doing just that.
I have experience as a Radar Technician, and as a licensed amateur radio technician (KI6NVY), but while I've worked extensively with RF, this is my first time engineering with RF. I welcome any recommendations, corrections, and other correspondence.
h2. Milestones
This project encompasses several smaller projects. We will start by designing two test boards to progressively test the components used in the final boards. The primary devices will also include details on the selected enclosure, Bill of Materials (BOM), firmware, and other information for building you own device.
*[[XTest1]]* is a very basic test board with two attenuation paths, an RF switch, chip attenuators, a digital attenuator, and an AVR ATMega48 microcontroller to handle switching.
*[[AttenuatorX]]* *[[AttenuatorXLE]]* is a relatively Low-cost Wide-Band, Wide Attenuation, High Power, low-cost Digitally adjustable RF attenuator which will be the first of the two primary devices developed. It will offer the following features: preliminary specifications:
0 to 3 GHz Operation
Up to 34 dBm (2.5W) Input Power with 10 to 85.5 41 dB Attenuation in 0.5 dB Steps
50 MHz to 3 GHz Operation
Up to 50 36 dBm (100W) Input Power with 30
*[[AttenuatorX]]* is a low-cost Digitally adjustable attenuator which will be the second of the two primary devices developed. It will offer the following preliminary specifications:
10 to 105.5 95 dB Attenuation in 0.5 dB Steps
Atmel ATMega164PA/324PA/644PA Microcontroller 50 MHz to 3 GHz Operation
8k-bit EEPROM
LCD Display
Programming via LCD Display, or via SPI or Parallel inputs
Up to 45 dBm Input Power Sensing