The Basel Convention on the control of Tran boundary Movements of electronic hazardous wastes and their Disposal is the large comprehensive world environmental agreement on other wastes. It was Basel convention agreement signed by 173 countries on 22 March 1989.This agreement entered into force on 5 May 1992. It was significantly created to prevent the economic wise motivated, surveying dumping of more hazardous e-wastes from developed to developing countries, which had resulted from a improve of environmental policies and regulations and a steep increase in the cost of hazardous waste disposal in industrialized countries. The Rotterdam Convention on the Prior Informed Consent (PIC) Procedure for Certain types of agricultural Pesticides and Chemical substances in International Traders could regulate trade in hazardous wastes but contain no commitment to reduce their use and release. Adopted in September 1998, the Rotterdam convention quickly came into force in February 2004. As of July 2007, it had 75 signatories and 117 global Parties. As on date, there are 140 parties. India had acceded to the convention on 24 May 2005.It is an international treaty to promote sharing more ideas and policies, regulations responsibilities between every exporting and importing countries in protecting global human health and environment from the harmful and pollution effects of hazardous chemicals. The Convention promotes an exchange of information among organizations over a higher range of potential chemicals hazardous that may be imported or exported. Among all the past laws on e-waste, a way forward has been heralded by the European nations. The European nations law which implements the year of 1992 Basel Convention in its Directives to prohibits all exports of electronic hazardous wastes from the European members to the developing countries. The European Parliament amendment a directive principle that most required producers(manufacturing)of electronic officers to take responsibility financial and otherwise for the recycling and recovery of electronic wastes. Recognizing the scope and urgency of electronic waste problem, the (EU)has taken the lead in identify and addressing it by proposing an ambitious system of the Extended Producer Responsibility (EPR). The (EPR) extended producer responsibility has been defined as an environmentally sustainable protection strategy to reach an environmental main objective of a reduced total impact from a products, by making the electrical and electronic manufacturer of the products responsible for the continuous entire life cycle of the electronic product and especially for the take products back, recycling and final disposal of the product. Globalization of e-waste has adverse environmental and public health implications as the developing countries face economic challenges and lack the infrastructure for proactive management of hazardous wastes. Some pollutants such as PCDD/Fs, PCBs, PBDEs, PAHs, cadmium, chromium, lead, and arsenic have been identified in atmospheric particles in- and around the e-waste dismantling areas in India. The level of chemical composition of electronic wastes depends upon the type and the age of the electronic products discarded. It is especially predominated by many metal alloy electronic products, especially Al, Cu, and Fe mingled to, enclosed with or mixed with more plastics or ceramic products. Heavy chemical substances are used in the generate of electronic and electrical items, while other components, such as(PAHs)polycyclic aromatic hydrocarbons are produced by electronic waste burning at low whether the temperature in many places. Most of burning the mingle plastic cover of wire cables in amount volumes produces hundred times more chemical dioxins than our regular home waste irregularly burning. More mercury leaches when the certain type of electronic devices, such as electronic circuit breakers(MCB) are destroyed. The same is important for (PCBs) polychlorinated biphenyls from capacitors.When brominates flame or cadmium containing plastic are land areas filled, both (PBDE) polybrominated biphenyl metals and cadmium and mercury may be leach into the groundwater and soil. It has been found that most significant of the large volume of ion leads are dissolved from broken lead’s mixed with glasses, such as the cathode ray tubes, cone glass, gets components are mixed with chemical acid water and are the same occurrence in landfill units. When exposed to landfill fire or other metals and chemical such as the more toxic dioxins and furans (PBDDs)polybrominated dibenzo- products can be emitted in sites. The more vulnerable and dangerous form of burn electronic waste is the open places air burning of plastic cables in order to enclosed copper wires and other metals. The more toxic substances fall-out from open places air burning serious affects our environment and increase world air whether currents, depositing more highly toxic substances by-products in more places throughout the globe. Incineration of electronics waste (WEEE) possesses another threat to our country. It can emit and increase toxic and gases, this gases by polluting the surrounding air. Moreover, import and export shipping of electronic hazardous wastes to most of the Indian cities is a major security alarm. India is the highest generator of e-waste in the world, discarding 2.9 million tonnes (Mt) of electronics and electrical equipment in 2016. In India E-waste collection, segregation, transportation, disposal, and recycling is done manually and past recycling methods by untrained labors in the informal sector in developing countries. Due to low public awareness and minimum sensitization e-waste is thrown along with garbage which is collected. E-waste has reusable and high precious materials. Small e-waste collectors sell this E-waste to scrap dealers and run there everyday life. Our India may identify that in higher survey cases, more electronic items are irregular stored fewer ideas because of most of the knowledge about their e-waste management regulations. Much more electronic junks lie in organizations, houses, warehouses, offices. Generally, these electronic wastes are mixing with domestic household wastes, which are finally may dispose at different landfill sites. This is important for implementations of appropriate management to measures including following their regulations. The large management practices, the policy currently in this operation in India have more concentrate environmental and human health implications. The electronic waste consists of change products many of which contained more hazardous elements.