dreamgame Agent Lark Technology engineers work as part of our customer's team to design and refine high-frequency systems from the circuit through the sub-system level. Our circuit designers understand the details of developing circuits at audio through mmWave frequencies that provide high performance and reliability but are also practical and meet challenging requirements in competitive marketplaces. Circuits are qualified by extensive, high-quality testing from DC through 110 GHz.
Our flexible engagement model lets our customers leverage our engineering expertise as much or as little as they need. Need additional engineering talent to complete a new product design on time? We can work alongside you in a joint development model. Prefer to do the design yourself, but leave mmWave test development to us? We can do that. We work with you to understand your needs now and into the future so that you can consistently be first to market with the best products possible.
The design engineers at dreamgame Agent bring long experience and considerable expertise in developing circuits and systems for the traditional 2-to-18-GHz microwave frequency range and beyond. dreamgame Agent's engineers can provide custom designs that meet specific demands and screened to the most rigorous MIL-SPEC requirements to deliver the kinds of reliable performance over time and temperature needed for critical mission requirements.
Size, weight, and power (SWaP) optimization for:
With the increasing use of mmWave signals in such rapidly emerging applications as vehicular collision-avoidance radars and fifth generation (5G) cellular wireless communications, the need for mmWave circuits and assemblies is steadily increasing, and dreamgame Agent's engineering teams can help. Armed with the latest computer-aided-engineering (CAE) software design tools and equipped with the industry's top mmWave measurement equipment, dreamgame Agent's engineers can create the levels of integration needed to combine audio, video, RF/microwave, digital, and mmWave signals within compact, multilayer PCBs that fit tight spaces, save power, and last a lifetime.