It also serves as a training manual on ‘how-to’ get started with an EdgeCore device (e.g. LMU-1300). Lastly, this document serves to describe the major differences between EdgeCore and the LMU32 predecessor platforms.
Cellular Antenna Internal SIM Access Internal (4FF SIM) BLE Antenna Internal 3. LMU-1300™ Connectors 3.1 Primary Connector The LMU-1300 equips a 4-wire captive harness to receive power, ground and supply input and output signals. Wire Color Description Input or Output...
2FF (mini) SIM card commonly used in prior LMUs. USB Cable LMU-1300 does not require a serial adapter cable, but rather a stand-alone USB cable. The required cable type is a MICRO USB B cable (male). Example: StarTech P/N: UUSBHAUB3 COMPANY CONFIDENTIAL: CalAmp reserves all rights to these documents and any information contained therein.
3-Axis Accelerometer + 3-Axis Gyroscope The LMU-1300™ supports an internal 3 Axis Precision Accelerometer as one of its discreet inputs. When the LMU is moved in any direction, the associated input will be in the High state. If the LMU’s accelerometer does not detect motion, then the input will be in the Low state.
SPEED and RPM, increasing the polling interval between each polled PID by a factor of three. On the LMU-1300, Broadcast PIDs, if available and registered on the specific YMME installed, do not add to the polling interval. Below is an illustration of this;...
Since this field is limited to 1-byte in the LMDirect protocol and the LMU-1300 uses PEG2 which can have an indefinite amount of PEG “Lines”, this field has a slightly new definition. The table...
LMU-1300 Training Guide 0.8–09/22/2020 6.8 SIM Form Factor All previous legacy Calamp devices utilize a 2FF Micro SIM. The LMU-1300 device uses a 4ff nano SIM. 6.9 Boot Reason There are some boot reasons that are no longer supported on the EdgeCore platform and some new ones that are only supported on EdgeCore.
The EdgeCore platform sends and displays the version string in a different format. ID Reports: The firmware version of the LMU-1300, can be obtained from the LMDirect ID Report, Extension String field. In that field, there is a new Key-Value pair in the “LMUAPP” extension string. See the definition below.
The physical installation of the LMU hardware is now complete. 8. Installation Verification In many cases it is desirable to verify that an installed LMU-1300™ is working properly. That is, installers should verify that the GPS and communications functions of the LMU-1300™ are working properly before departing the installation site.
LMU-1300 Training Guide 0.8–09/22/2020 Note that these processes are all based on issuing AT Commands to the LMU-1300™. It is expected that installers will have access to a serial port expansion cable and a laptop or PDA capable of a terminal connection.
8.3 Inbound Verification The last item to verify is that the LMU-1300™ is sending data to the correct server. In general, this is a two-step process that will need the aid of an observer on the back end. That is, a technician will have to be logged in so they can monitor data coming into the backend mapping/vehicle management application.
(<ppppp>) are correct. The second step is to verify that the LMU-1300™ is sending data. The best way to do this is to force the LMU-1300™ to send in an unacknowledged Event Report (i.e., its current GPS location) with the following...
(2) this device must accept any interference received, including interference that may cause undesired operation. FCC CFR 47 15.21 Caution: any changes or modifications to this device not expressly approved by CalAmp could void the user’s authority to operate the equipment. FCC CFR 47 15.105 Information to the User...