1.1.1 Field Strength of Intentional Radiator Inside of Band Per FCC Part 15, Subpart C (15.231 (e)) at 3 meters • Frequencies
![FCC ID on X: "Mikrotikls SIA License Exempt Digital transmission, Unlicensed National Information Infrastructure Intentional Radiator RDB53-5ACD2ND (TV7RBD53-5ACD2ND) https://t.co/Z5uiI8N0QR https://t.co/4Sg9FAwwbw" / X FCC ID on X: "Mikrotikls SIA License Exempt Digital transmission, Unlicensed National Information Infrastructure Intentional Radiator RDB53-5ACD2ND (TV7RBD53-5ACD2ND) https://t.co/Z5uiI8N0QR https://t.co/4Sg9FAwwbw" / X](https://pbs.twimg.com/media/EVn8KhQVAAUtO4y.jpg:large)
FCC ID on X: "Mikrotikls SIA License Exempt Digital transmission, Unlicensed National Information Infrastructure Intentional Radiator RDB53-5ACD2ND (TV7RBD53-5ACD2ND) https://t.co/Z5uiI8N0QR https://t.co/4Sg9FAwwbw" / X
![PPT - Chapter 02 Radio Frequency & Antenna Fundamentals (part 2) PowerPoint Presentation - ID:4062891 PPT - Chapter 02 Radio Frequency & Antenna Fundamentals (part 2) PowerPoint Presentation - ID:4062891](https://image2.slideserve.com/4062891/example-1-l.jpg)
PPT - Chapter 02 Radio Frequency & Antenna Fundamentals (part 2) PowerPoint Presentation - ID:4062891
![SOLVED: Consider an access point that is transmitting at 50 mW. The signal loss between the access point and the antenna is -6 dB, and the access point is using a +7 SOLVED: Consider an access point that is transmitting at 50 mW. The signal loss between the access point and the antenna is -6 dB, and the access point is using a +7](https://cdn.numerade.com/ask_images/5ab32ed02aad4f4c9fb7a186c411cd21.jpg)
SOLVED: Consider an access point that is transmitting at 50 mW. The signal loss between the access point and the antenna is -6 dB, and the access point is using a +7
![Radio Frequency Fundamentals (1 September 2006). February 2005Copyright 2005 All Rights Reserved2 l Describe the behavior of RF l Explain the properties. - ppt download Radio Frequency Fundamentals (1 September 2006). February 2005Copyright 2005 All Rights Reserved2 l Describe the behavior of RF l Explain the properties. - ppt download](https://images.slideplayer.com/33/10136414/slides/slide_30.jpg)