Due to the internal movement sensor and the new ‘Flextrack Zero Power’ concept, Lommy Pro is only switched on and “active” when you want it to be.
The device will not run down the battery of your vehicle, machinery or boat, even when it has not been charged for a while.
Mount the device wherever you want; the housing is robust and the device is very small: the size of a credit card, and only 14 mm thick.
Technical Data – Lommy Pro
The device comes preloaded with a ‘standard tracker application’. This application offers all the basic features that you would expect from a standard tracking device. In addition, you will also find a large number of more advanced features, many of which you will not find on any other tracking device in the market.
Please contact us for further information about Lommy Pro.
- Quad band GSM module (SMS, TCP/IP, FTP, etc.)
- 3.3 volt SIM card
- High performance GPS receiver (tracking -165 dBm, 22 channels, 1, 2 or 4 Hz update rate)
- 3D G-force sensor (max +/-16 G, resolution 1 mG, up to 40/160 Hz)
- RF transceiver 433 or 868 MHz, 10 mW (max 250 Kbit/second, please specify frequency when ordering)
- Built-in antennas for GSM, GPS and RF transceivers
- 2 analogue inputs (0-60V, 10 bit resolution)
- 1 digital output (max 60 volt and 500 mA, pulls output to ground)
- Optional micro SD card, RS232, RS485, CAN Bus and 1-Wire Bus (please specify when ordering)
- 4 user-controlled LEDs and 1 button
- USB port (USB mini connector) for upload/download of files, configurations, etc.
- The device can automatically switch on when power is applied (power input or USB power), analog inputs > 8 volt, button is pressed, G-sensor movement/freefall is detected or at a set date/time
- Full support for Flextrack FAL API programming interface. (Units are by default delivered with our ‘standard tracker application’, please see detailed description)
- Size (H x W x D): 88,0 mm x 57,0 mm x 14,1 mm
- Weight: 70 gram
- ABS housing
- E24 certified (automotive use)
- CE, RoHS and WEEE certified
- Operating temperature: -30°C to +60 °C (high power charging only from 0°C to 50°C)
- Humidity: max 90%, relative
- Input voltage 10-60 volt DC (can also be charged with a USB connector)
- Power-off consumption: 0.1 mA
- Power consumption if G-sensor is armed: 1 mA
- 1100 mAh rechargeable battery
- Separate input for solar cells (for outdoor stand-alone operations)
FAL library contains hundreds of modules to control all aspects of your Lommy devices, including:
- systemFAL – Real-time clock, LEDs, buttons, Console Debug messages, Watchdog, power-down functions, diagnostics, etc.
- BBRAMFAL – To store data in battery-backed-up RAM
- FileFAL – Access to filesystem, depending on the device, some have up to three disks (NAND Flash, RAM disk and SD Card)
- GPSFAL – Controls the GPS receiver
- GSMFAL – Interacts with the quad band GSM module, sends/receives text messages (SMS), status info, etc.
- PowerFAL – Controls the built-in battery charger
- ThreadFAL – RTOS functions, thread functions, semaphors, mutex, mailbox etc.
- TimerFAL – To create timers
- UDPFAL – UDP communication
- FPFAL – Handles parameter files, unified interface for the platform
- RFFAL – Low level RF functions, 433/868 MHz band
- SimpliciTIFAL – High level RF functions, 868 MHz Band, high bandwidth
- GSensorFAL – Handles the 3 axis G sensor, sets wake-up thresholds (e.g. excessive movement can make the device turn on), etc.
- RS232FAL – RS232 communication to external devices
- RS485FAL – RS485 Bus communication to a number of devices (max 32 devices on a bus)
- IOFAL – Controls the I/O on a device
- SocketFAL – TCP/IP socket connection to a server
- 1WireFAL – Dallas 1-Wire interface, humidity sensors, temperature sensors, I/O devices, etc.
- HTTPFAL – To send a HTTP request to a web server and retrieve the answer
- FTPFAL – FTP functions (put and get), sends and receives files from an FTP server
- MP3FAL – Plays MP3 files (from the internal filesystem) to the GSM module or the internal speaker
- CANFAL – CAN Bus communication; support for both 11 and 29 bit IDs (CAN 2.0B); support for filtering; baud rates from 20 KB to 1 MB
FAL API Release Package
To start programming your own application on a Flextrack Lommy device, you need the following: Firstly, the ‘Keil MDK-ARM Microcontroller Development Kit’ development platform, which is used for all developments. Secondly, a copy of the current ‘FAL API Release Package’ (which is free!). This package contains: online help, libraries and a very extensive selection of example programs, which will help you get productive within a couple of hours.
The number of example programs delivered with the ‘FAL API Release Package’ is continually increasing, the current selection includes:
- 1Wire – Uses the 1-Wire API to show how to connect to temperature sensors, etc.
- BBRAM – Shows how to use battery-backed RAM, which is included in some of the Lommy devices
- CAN-FMS – Demonstrates the use of CAN Bus API on FMS-equipped trucks
- CAN-OBDII – Uses CAN Bus API to get information from a vehicle’s on-board diagnostics connector
- CANBUS – General use of CAN Bus API
- Filesystem – Demonstrates how to use the file system of a Lommy device (includes NAND flash, RAM disk and SD card)
- FWP – Shows how to use the Flextrack Wireless Protocol – an RF protocol that all Flextrack RF devices use
- GPS – General use of the GPS receiver
- GPS Google Earth – Generates a Google KML file from the positions transmitted from the built-in GPS receiver
- GPS Simulation-Google Earth – Shows how to use the GPS simulation API
- GPS UDP Highspeed – Combines GPS positions and UDP high speed reporting
- GSampler – Shows how to make a 3-axis G-force profile (generates Excel data)
- GSensor – General use of the 3-axis G-sensor (wake-up, etc.)
- GSM Voice – Shows how to make voice calls using the GSM module
- LED – Covers how to control the various LEDs that are included on the platforms
- Light sensor – Demonstrates the use of the light sensor (e.g. ‘wake-up’ when change in the light level is detected, etc.)
- LommyManager – Shows some of the features of the LommyManager program
- Low Power Operation – Covers how to control the power-down modes of the devices
- MP3 – Demonstrates the use of the mp3 player functions
- RF – General RF communications (868/433 MHz)
- RS232/RS485 – Shows how to use the built in RS232/RS485 communication ports
- RTOS – Demonstrates the various RTOS features (threads, semaphore, mailboxes, etc)
- Single Position UDP – Shows how to: get a single GPS position; report it to a server; shut down the device for a period of time
- SMS – Sending and receiving text messages (SMS)
- Socket – General TCP/IP socket communication
- Torchlight – A simple torchlight application that uses the high brightness LED light, which is built into a number of the devices
- UDP-1/UDP-2 – Shows how to use UDP communication
- Watchdog – Demonstrates how to use the higher level watchdog functions
- C++ Example – Shows how to use C++ Object-Oriented Programming together with the FAL API