WHAT WE DO
Flawk(TM) is revolutionizing the wireless test equipment industry through software-defined solutions. Flawk is able to rapidly deploy custom network analysis and signal generation equipment rapidly through software-based solutions. Flawk has a patent pending methodology for signal capture, interpretation, and presentation. Using modular components Flawk can deploy the first generation of Real-Time Signal Detection and Analysis. Flawk is working with industry leaders in communications and DSP (digital signal processing) spaces to deliver cutting-edge solutions to complex problems.
KEY
EXPERTISE
Test and Measurement solutions for any type of RF system (LTE, 5G, WiFi, GPS, Radar)
PROBLEM
- Current wireless infrastructure cannot meet demands
- High demand for wireless test equipment
- Current solution is incapable of delivering the information required:
- Single port measurements
- Not real time
- Lack of accuracy
400 MHZ
Measurement Bandwidth
4 PORTS
1 MHZ - 8 GHZ
Frequency Range
Multi-Channel Tracking
THE
SOLUTION
Flawk Wings is an innovative network analyzer that utilizes SDRs. This eliminates the need for expensive custom hardware and the costs associated with producing chips. This leads to faster product development cycles. Instead of multiple pieces of expensive, heavy, complicated-to-operate equipment, the customers can acquire a modular solution tailored to their particular needs that is easy to adapt to future use cases.
One of the key features that sets Flawk WINGS apart from its competitors is its ability to record and save Multi Channel RF Data while in the field. This can accelerate 5G network development. This can be be played back enabling network deployment teams to look at the data in detail later. At this time no other competitor on the market can provide this feature.
THE FUTURE OF WIRELESS
RAW SIGNAL CAPTURE
This involves capturing the raw RF input coming in through the antenna. It can be fed into the test equipment later in the lab allowing engineers to recreate anomalies so that they can be analyzed.