system for edication

Home

	Research kit "For Ultra-Wideband Wireless Sensor Networks" Professional system for edication in university and school. Research and development of applications for UWB wireless personal-area communications and sensor networks in unlicensed frequency band 3.1 – 5.0 (4.2 – 4.6) GHz. The kit
	Optics Experiment Kit LEOK-1 Optics Experiment Kit is developed for general physics education in universities and colleges. It can be used to construct eight experiments.
	Holography and Interferometry Kit LEOK-2 The Holography and Interferometer Kit is developed for general physics education in universities and colleges. It provides a complete set of optical and mechanical components as well as light sources.
	Optics Experiment Kit LEOK-3 The LEOK-3 Optics Experiment Kit is developed for general physics education in universities and colleges. It provides a complete set of optical and mechanical components as well as light sources.
	Lens Abberation and Fourier Optics Kit LEOK-5 Students will be familiar with aberrations and will enhance their knowledge of Fourier optics and spatial filtering through working with this kit.
	Holography Kit LEOK-10 This Holography Kit gives you all the essentials to make white light holograms with ease. Every user can record beautiful rainbow holograms under ordinary light.
	Fiber Communication Kit LEOK-20 We design this kit to satisfy the increasing demand from the support of laboratory based experiments in fiber optics. This kit may provide you the essential basic knowledge and skills.
	Fiber Communication Kit LEOK-21 This Fiber Optic Experimental kit is a sister kit to LEOK-20, which has been revised and rewritten to include some new experiment.
	Fiber Communication Kit LEOK-22 This kit will provide an overview of fiber optic technology and basic skills needed to work with fiber optics. It is made up of a number of laboratory experiments.
	Newton's Ring Apparatus LEOK-30 Using this apparatus, observation of equal thickness interference and calculation of surface curvature by measuring interference fringe separations of Newton Ring can be performed.