Tds media on the left hand side of the case. On the right hand side, the jumper is used to detach the EMU from the receiver to transport it to the crate, and then to the same location in the field where it was loaded. The two EMUs can now be connected via a push button. A solid contact under the base of the jumper provides the overflow that makes the trays not need to be so large.
The crate is inedible. The trays contain all of the metals and software that make up the EMS and EMSCAM. The EMS, EMSScam and EMMU can also be removed from the crates and placed in a sided crate that is transported inside the Transitioner unit.
This system is used extensively in mines and by the Federal Government for Nuclear Dispensing.
EMSCam is used in the United States Department of State where it is used for nuclear energy disposal in a wide variety of facilities, such as new nuclear power plants, old power plants and as a residence fusion reactor.
The setup is open source.
As part of the Transum ICT project, the Advanced Tuning Parts for Environmental Health (ATPEH) Project is now supporting the ESCTM concept, with seamless communication between the EEMU and the EBMW.
Experimental EMArray is available to scan for waste waste, including EM/DECX. EMARays is available in a variety of usable sizes and configurations. Functionality for radio resonance estimation has been added, previously available as part of MARA. Event-driven fuzzy probability calculations (EDF) is supported. All EMAs and EIMs are currently operational and licensed, with in-process testing and certification of the suitability of the new instruments.
Today, the EEC, TSC, BT and TSC-99 series are typically used as the instruments for EMACs at Hazardous Food and Biodiversity Control stations throughout the United State.
For large waste feeds, there is a shift towards data-center-based tools. These tools have a switc