SafeZone - User Manual
Table of Contents 1 KINEXON SafeZone.......................................................................................................................................5 2 KEYFACTS ........................................................................................................................................................6 3 SPECIFICATIONS............................................................................................................................................8 3.
KINEXON GmbH Schellingstr. 35 80799 München Tel.: +49 (0)89 / 200 61 65-0 info@kinexon.com http://www.kinexon.com This document contains information that is the property of Kinexon GmbH. Reproduction is not permitted without the express written consent of the author. (info@kinexon.com). If you have any questions or suggestions concerning this document, please send the problem description by mail to KINEXON GmbH.
THE KINEXON SafeZone Tag 4
1 KINEXON SafeZone The smart wearable to ensure physical distancing The KINEXON SafeTag is the heart of the KINEXON SafeZone solution. Use Cases Distance control and tracing of contact chains: KINEXON SafeZone is a data protection-compliant solution for companies to ensure physical distancing of employees in times of COVID-19 and trace contact chains in case of an infection.
2 KEYFACTS RF Specifications Distance measuring Time-of-flight measurement (peer-to-peer), Radio-based, Ultrawideband Frequency range UWB (IEEE 802.15.4): 6.25 – 6.
Environmental Specifications Water repelent Tag can be wiped wet with water (no immersing!) Protection class IP65 Regulatory compliance US: FCC Part 15 Subpart C (15.
3 SPECIFICATIONS 3.1 Mechanical Drawing 3.2 Label 3.2.1 Label back plate Company logo QR code EUI Device part-no. Certification logos/signs Size: (13.8x 28.8) mm 3.3 External interfaces 3.3.1 Wireless connection For wireless connection a Ultra-Wideband (UWB) interface according to IEEE 802.15.4 is implemented. 3.3.
Description Duration Long press 3s Very long press >7.5s Effect Hard reset / HW reset 3.3.3 Tag LED Please mind that tag LED behavior depends on the firmware use case one has selected. Most important versions are: Power-on Reset Color Duration Explanation Yellow (pulsatin g) 6 sec SafeTags restart after charging pad is connected to power. USB Interaction Color Duration Explanation Cyan depends During usb data read-out or usb configuration.
LED behavior during proximity events (="alarm mode") can be configured within the Exposure Management Software: Options for field "LED color": 3.3.4 Tag Sound Sound Trigger Sound Profile Explanation Button Press 4 different consecutive tones (approx. 1-2 sec) Switches to "No alarm mode" for a configurable time (default = 5 minutes). Button press functionality can also be disabled within the software.
Sound Trigger Alarm Mode Sound Profile Explanation Sound behavior during proximity events (="alarm mode") can be configured within the Exposure Management Software: 3 different sound profiles available: 3.4 Electrical Parameters Interface Parameter Min Typical Max Comment [ Unit] Power supply Input Voltage [V] 5V Input Current [mA] 200 mA Charging 3.5 Battery A Lithium Polymer re-chargeable battery is used Type LP502028 Nominal Voltage 3.
3.6 Variants Variant Description KNX-T1.8-5.
4 Accessories 4.1 Charger 30: 4.
4.
4.
5 Mounting options 16 Mounting options
5.1 Regulatory and Legal Information The Kinexon SafeTag has been designed to be in compliance with both the U.S. FCC Part 15 subpart F regulations, section 15.250 and with the European Union ETSI EN 302 065 standards. Two different versions of the Kinexon SafeTag are available, one version supports the FCC emissions mask (Region 1) and the second supports the ETSI standard mask (Region 2). 5.2 Disclaimer The information in this document is subject to change without notice.
5.6 ISED Caution This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canada’s licence-exempt RSS(s). Operation is subject to the following two conditions: (1) This device may not cause interference (2) This device must accept any interference, including interference that may cause undesired operation of the device.