PULSE SENS’O USER GUIDE
Pulse Sens’o User Guide NOTICE Nke Watteco reserves the right to make changes to specifications and product descriptions or to discontinue any product or service without notice.
Pulse Sens’o User Guide DOCUMENT HISTORY Date June 2015 March 2016 May 2016 June 2016 November 2016 May 2017 Revision 1.0 1.1 1.4 1.5 1.6 1.7 Modification Description First revision Add consumption estimation Add a default configuration Add the LoRaWAN cluster in the list for V3.
Pulse Sens’o User Guide CONTENTS 1 Introduction.......................................................................................................................... 5 1.1 General Description ................................................................................................................................................ 5 1.2 Electronic input/output ........................................................................................................................................
Pulse Sens’o User Guide 1 INTRODUCTION This document describes the usage of the Pulse Sens’o sensor. It is necessary to read the LoRaWAN Sensors Behavior on Public LoRaWAN Networks guide and the Application Layer Description guide in prerequisite for all generic information or to have more details. 1.1 GENERAL DESCRIPTION The Pulse Sens’o uses a disposable A 3.6V battery as power supply. An estimated lifetime is given in one of the following chapter. Connect wires on Inputs which will be used.
Pulse Sens’o User Guide 1.2 ELECTRONIC INPUT/OUTPUT 1.2.1 ELECTRICAL SCHEMATIC EXAMPLE FOR INPUTS Due to limitation software, the maximum frequency is 100 Hz on each input. 1.3 HUMAN MACHINE INTERFACE There is three leds on the ILD and IN’O devices: ASS: FNC: CNF: blinking until the association to a network is done. blinking each minute while an input is activated. blinking in the configuration mode. A button user is available to enter in configuration mode.
Pulse Sens’o User Guide 1.4 APPLICATIVE LAYER The Pulse Sens’o device is a sleepy device. It implements “Binary Input” clusters, associated to their Inputs. The corresponding between the connectors and the EndPoint is done below: Connector Input 1+/1Input 2+/2Input 3+/3- End Point 0 1 2 Cluster Binary Input Binary Input Binary Input Pulse Sens’o integrates clusters: Cluster 0x0000 0x0050 0x8004 0x000F Cluster name Basic Configuration LoRaWAN (for V3.
Pulse Sens’o User Guide 2 CONSUMPTION 2.1 EUROPE MODE Lifetime Simulator PHY Frame Size Tx PHY Frame Size Rx (ACK) Transmission period 75 Bytes 15 Bytes Period s Duty cycle 0.10% Battery : Theoritical capacity Actual capacity Radio Consumption: Transmission Reception Measuring (Rx) Measuring Period Measuring duration Active measuring consumption Basic consumption (sleeping) : 3600 mAh 3060 mAh 40 10 mA mA 60 0 0 0.
Pulse Sens’o User Guide 3 EXAMPLES In the following examples, the 6lowpan header has been removed for an easier understanding. See 6LOWPAN LAYER OVER LORAWAN™ in the LoRaWAN Sensors Behavior on Public LoRaWAN Networks guide, for more details. 3.1 CONFIGURE A BATCH REPORT ON BINARY INPUT COUNTER, AND VOLTAGE BATTERY Specification: Timestamp and record the pulses counter with a resolution of 1, a value has to be saved at least all the 30 minutes or on a rise of 100 pulses.
Pulse Sens’o User Guide Result: UNCOMPRESS SERIE cnt: 5 # Counter of the batch (from 0 to 7) 263 # Timestamp in second of sending of the frame # Format of data is: TimeStamp of Measure | Label | Value 263 0 45 # TimeStamp: 841 s Label 0: Counter pulse Value: 45 263 1 3000 # TimeStamp: 811 s Label 1: Disposable Value: 3.0 V With the batch only one frame of 14 applicatives bytes is sent, instead of 2 frames representing 24 applicatives bytes.
Pulse Sens’o User Guide It is necessary to send two frames to configure this batch.
Pulse Sens’o User Guide 4 APPENDIX 4.1 PULSE SENS’O FCC LABEL FCC ID: 2AGTVNKE170062 PULSE SENS’O SENSOR This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference and (2) this device must accept any interference received, including interference that may cause undesired operation.
