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Instruction Manual for ELSYS se models including: ELT Lite, ELT 2i, ELT 2, ELT Series Multi Sensor, ELT Series, Multi Sensor, Sensor
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DocumentDocumentApplication Note Publish Date: 07.11.2024 Application Note ELT External Configuration Guide Elektroniksystem i Umeå AB Tivstevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Specifications in this document are subject to change without notice. ©Elektroniksystem i Umeå AB 2021 Application Note Publish Date: 07.11.2024 Contents 1. External Sensors ............................................................................................ 4 2. General External Sensor Parameters ............................................................ 5 3. Power Output ................................................................................................ 5 4. Module support............................................................................................. 6 5. External Configurations ................................................................................. 7 5.1 Extrernal Configurations table ....................................................................................................... 7 5.2 Default Startup Times .................................................................................................................... 8 5.1 Digital Input .................................................................................................................................... 9 5.2 Analog Input .................................................................................................................................10 5.2.1 Analog Input 0-3 V.................................................................................................................10 5.2.2 Analog Input 0-10 V...............................................................................................................10 5.2.3 Powered analog input 0-10 V................................................................................................11 5.2.4 4-20mA Input ........................................................................................................................ 11 5.3 Pulse Count................................................................................................................................... 12 5.3.1 Pulse Input Pull-up & Pulse Input Pull-up Absolute Count ................................................... 12 5.3.2 Pulse Input Pull-down & Pulse Input Pull-down Absolute Count ......................................... 12 5.3.3 Pulse Input no pull-up/down & Pulse Input no pull-up/down Absolute Count ...................13 5.3.4 Pulse Input Pull-up, 2 channels ............................................................................................. 13 5.3.5 Pulse Input Pull-down, 2 channels ........................................................................................ 14 5.3.6 Pulse Input Pull-down - Frequency ....................................................................................... 15 5.4 Switch input..................................................................................................................................16 5.4.1 Switch input (Normally Open)...............................................................................................16 5.4.2 Switch input (Normally Open), Dual Edge Trigger ................................................................ 16 5.4.3 Switch input (Normally Closed).............................................................................................17 5.4.4 Switch input (Normally Open), Level ....................................................................................17 5.4.5 Switch input, Door.................................................................................................................18 5.5 Temperature Probe DS18B20 ...................................................................................................... 18 5.6 Temperature Probe Digital DS18B20 + Switch Normally Open ................................................... 19 5.7 Sensirion SHT3x External Temperature and Humidity Sensor..................................................19 5.8 Water leak .................................................................................................................................... 20 5.8 Sender Unit (0-180 Ohm) ............................................................................................................. 20 Elektroniksystem i Umeå AB Tivstevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Specifications in this document are subject to change without notice. ©Elektroniksystem i Umeå AB 2021 Technical Manual Radar Module 5.9 Soil Moisture Meter Teros12 ....................................................................................................... 21 5.10 Soil Moisture MuRata SLT5006 ..................................................................................................21 5.12 Meas M32Jx and M300Jx Digital Pressure sensors....................................................................22 6. Document version history ........................................................................... 23 3 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 1. External Sensors The ELT series of sensors can be connected to a wide array of external sensors, equipment, and modules. All connections to external gear are made available through the terminal block located on the top left of the circuit board inside the ELT. Available connections on the terminal block are power, ground and either one or two multi-purpose I/O-ports depending on the ELT variant. Slot Designator Explanation ELT Lite ELT 2i ELT 2 1 Power output x x X 2 Multi-purpose I/O 1 x x x 3 Ground x x x 4 Multi-purpose I/O 2 x x 4 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 2. General External Sensor Parameters All of the following settings can be set using NFC and our app Sensor Settings or via a LoRaWAN downlink to the device. External Configuration (ExtCfg): Sets the external sensor type. External Period (ExtPer): The external period sets how often the external sensor data is to be sampled as a multiple of the sensors time base. Ensure that the external sensor send period is set to a non-zero value for the sensor to send external sensor data, including non-periodic data, as the default value is 0. External Startup Time (ExtPwrTime): The time in milliseconds between B+ power is applied to the external sensor and the external sensor is sampled. Set the External Startup Time to 1000000 or greater to make the B+ output always on. The function of this parameter may change depending on the external sensor parameter, consult the following sections for details. External Trigger Timeout (TriggTime): The amount of time in milliseconds from a trigger event to a new trigger being allowed. The External Trigger Timeout is used in the Pulse and switch modes. External IO manipulation (External): Sets the external IO to alternate functionality. 3. Power Output The ELT sensors can power external sensors and modules using the B+ output on the terminal block. The output is controlled by the External Startup Time parameter. In some modes, a default startup time is applied by the ELT. In these modes, only External Startup Time values greater than the default startup time are applied. See section 4.2 for default startup times. The B+ output voltage is not regulated; it is directly tied to the + pole of the battery. 5 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 4. Module support ELT series sensors with all four ports on the terminal block support ELSYS modules which expand the functionality of the ELT. Some modules are only operable with specific external configurations (see §5.1). Refer to module documentation for information and settings for module specific modes. Module Step-up module EXT-module ADC-module PT100-module Dual PT-1000 module Description Increases output voltage of ELT Allows the ELT to be externally power and to read and controll higher voltage equipment (10-50 V) Adds high precision ADC with 2- and 4-wire connectivity support. ADC-module tuned for PT100 temperature probes ADC-module tuned for up to two PT1000 temperature probes ExtCfg Specific No No Yes Yes Yes 6 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5. External Configurations The external configuration parameter (ExtCfg) sets the behavior of the multi-purpose I/O. The external configuration parameter can be set via either NFC or LoRa downlink (see Downlink generator, app and downlink parameter documentation). 5.1 Extrernal Configurations table ExtCfg (decimal) 1 2 External Configuration Analog Input (0-10 V) Pulse Input, pull-down 3 Pulse Input, pull-up 4 Pulse input, absolute count, pull-down 5 Pulse input, absolute count, pull-up 6 1-Wire temperature probe (DS18B20) 7 Switch, normally open (NO) 8 Switch, normally closed (NC) 9 Digital input 11 Decagon 12 Water leak 13 Maxbotix MB738x 15 DS18B20 + Switch 16 Analog Input (0-3 V) 17 PT1000 18 Decagon DDI 19 Pulse input, no pull-up/down 20 Pulse input, absolute count, no pull-up/down 21 Switch, normally open, dual edge trigger 22 Maxbotix MB736x 23 0-180 Ohm sensor 25 Load cell 26 Dual PT1000 27 SLT5006 28 Switch, door debounce 29 Switch, level debounce 30 PT100 31 SHT3x 32 Radar 33 Meas pressure sensor M32Jx 34 Pulse frequency + Analog 0-3 V * Analog read is not performed ELT ELT2 ELT2i Required Lite module X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X ADC-module X X X X X X X X X X X X X X X X X ADC-module X X Dual PT-1000 module X X X X X X X X X X PT100-module X X X X Radar X X X* X X 7 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.2 Default Startup Times Some external configurations apply default startup times that have been tuned for their specific application. To keep power consumption at a minimum it is recommended to set the External Startup Time parameter to a time lower than- or equal to the default. ExtCfg 6 11 12 13 15 18 22 25 26 26 27 30 31 33 34 External Configuration 1-Wire temperature probe (DS18B20) Decagon Water leak MB738x 1-Wire temperature probe (DS18B20) + Switch Decagon DDI MB736x Load Cell PT1000 Dual PT1000 SLT5006 PT100 SHT3x Meas M32Jx Pulse Frequency Default Startup Time (ms) 1000 0 0 280 1000 10 800 200 200 200 1000 200 0 0 12000 8 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.1 Digital Input Connect the positive leads to IN and I/O2 and the negative lead to GND. The external IO are set to high-impedance inputs and a digital (GPIO) read of the IO are performed on every sample period of the sensor. Voltage levels above 70 % of vdd are interpreted as `1' and voltage levels below 30 % of vdd are interpreted as `0'. Any voltage between the thresholds for `1' and `0' are uncertain and can be interpreted as either. 9 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.2 Analog Input With the analog input modes set as external sensor type the sensor will wake up on main time base and measure the voltage at the input. If the sensor has I/O2 the sensor will sample both inputs. The reported value will be the voltage in mV. It can be set to measure two voltage ranges, 0-3 V or 0 10V, a mode where the ELT powers the source to be read is also available. Note: Values for unconnected Analog inputs are undefined, meaning any number in the ADC may be reported for that channel. If a defined value is desired for unconnected inputs, connect a short jumper between the input and GND, which will result in the channel value being 0. 5.2.1 Analog Input 0-3 V Connect positive lead to IN and negative lead to GND on the terminal of the ELT. If the sensor has I/O2, a second source may be connected with the positive lead connected to I/O2 and negative lead to GND. The input impedance is approximately 50 k. 5.2.2 Analog Input 0-10 V Connect positive lead to IN and negative lead to GND on the terminal of the ELT. The input impedance is approximately 6.5k on the IN terminal. If the sensor has I/O2, a second source may be connected with the positive lead connected to I/O2 and negative lead to GND. I/O2 is in 0-3 V range in this mode with an input impedance of approximately 50 k. 10 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.2.3 Powered analog input 0-10 V Connect positive lead to IN, negative lead to GND and the power to B+ on the terminal of the ELT. The time between power is applied to B+ and the ELT samples the input can be set by the External startup time parameter. 5.2.4 4-20mA Input Select one of the Analog Input modes (See 4.3.1 and 4.3.2), connect a resistor (R) in parallel to the input, between IN and GND. Convert the voltage to current using Ohm's law, U=R*I. For full range use a 150 resistor in 3 V mode and a 536 resistor in 10 V mode. 11 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.3 Pulse Count With any of the pulse counting modes set as external sensor type, the sensor will be continuously sampling the input. The external trigger timeout is used in all pulse modes (see 6.1 for details). The voltage needs to be as close as possible to the internal sensor voltage to register as a pulse. The pulse input modes will work with both passive switches and active outputs. There are two ways of counting. In normal counting the sensor will report the number of pulses registered since the last uplink. In absolute count mode, the sensor will keep the number of pulses so the reported value will be the number of pulses registered since the device was started. The pulses will keep their count in absolute count mode even if the sensor resets and can only be reset by sending a "set pulse count"-downlink to the sensor or by changing the external configuration via NFC or downlink. 5.3.1 Pulse Input Pull-up & Pulse Input Pull-up Absolute Count Connect positive lead to IN and negative lead to GND on the terminal of the ELT. If connected to an S0 output, connect the S0- lead to GND and S0+ lead to IN. The ELT will count all falling edges of the input signal. The ELT input is internally pulled up by approximately 50k. 5.3.2 Pulse Input Pull-down & Pulse Input Pull-down Absolute Count Connect positive lead to B+ and negative lead to IN on the terminal of the ELT. Set the ON-time parameter to 10 000 000 ms to make the B+ output always activated. The ELT will count all rising edges of the input signal. The ELT input is internally pulled down by approximately 50k. 12 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.3.3 Pulse Input no pull-up/down & Pulse Input no pull-up/down Absolute Count Connect positive lead to IN and the negative lead to GND on the terminal of the ELT. The ELT will count all edges, positive and negative, of the input signal. The ELT input has no input pull-up/down resistance in this mode. This requires the input signal to be driven both high and low by the external sensor. 5.3.4 Pulse Input Pull-up, 2 channels Connect positive lead 1 to IN and positive lead 2 to I/O2, and negative lead(s) to GND on the terminal of the ELT. The pulse count of the channels will be reported separately. The ELT input is internally pulled up by approximately 50k . 13 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.3.5 Pulse Input Pull-down, 2 channels Connect positive lead 1 and 2 to B+, negative lead 1 to IN and negative lead lead 2 to I/O2. Set the ON-time parameter to 10 000 000 ms to make the B+ output always activated. The pulse count of the channels will be reported separately. The ELT input is internally pulled down by approximately 50k . 14 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.3.6 Pulse Input Pull-down - Frequency1 The pulse frequency mode can be used when a more exact measure of frequency is needed, and the exact pulse count isn't required. The sensor will wake up and count the average time between 10 pulses once every sample period. The reported pulse value is in 0.1 Hz. Any frequency below 1 Hz will be interpreted as 0 Hz. Range 1.0 - 400.0 Hz If the sensor has IO2, an analog read will be performed on I/O2 (see 4.2.1) after the pulse frequency is measured. The intended use is passive wind sensors, which commonly have a potentiometer-based wind direction meter. 1 Firmware 2.5.0 or later required 15 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.4 Switch input When set to a switch input mode, the sensor will apply digital logic to the input(s), with 0 used for the normal switch state and 1 for the active switch state. The switch state will be read by the sensor applying a voltage to IN and (when applicable) I/O2 using a 50k pull-up resistor. The inputs are debounced using the standard external trigger timout, except for the Level Switch mode (see. 7.4.3) 5.4.1 Switch input (Normally Open) Connect the switch leads to IN and GND. If the sensor has I/O2 two switches may be used, connect the second switch leads to I/O2 and GND. The sensor will send triggered messages when the switch closes as well as periodically, containing the current state of the switches. The reported values are 1 for closed and 0 for open. 5.4.2 Switch input (Normally Open), Dual Edge Trigger Connect the switch leads to IN and GND. If the sensor has I/O2 two switches may be used, connect the second switch leads to I/O2 and GND. The sensor will send triggered messages when the switch opens or closes as well as periodically, containing the current state of the switches. The reported values are 1 for closed and 0 for open. 16 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.4.3 Switch input (Normally Closed)2 When set to switch NC the sensor will wake up every 10 seconds and apply voltage to the IN and (if applicable) I/O2 ports with pull-up resistors to test if the circuit is closed. An uplink will be sent if the switch opens or closes as well as periodically, containing the current state of the switches. If the sensor has I/O2 two switches may be used, connect the second switch leads to I/O2 and GND. The reported values are 0 for closed and 1 for open. 5.4.4 Switch input (Normally Open), Level Connect the switch leads to IN and GND. If the sensor has I/O2, two switches may be used in parallel. Connect the second switch leads to I/O2 and GND. The Switch Input Level mode uses a different debounce logic. The debounce timer will be reset on every edge of the switch input(s) and the input(s) will be read once the timer runs out. Triggered messages will be reported on both edges, and the input(s) will be reported periodically. The reported values are 1 for closed and 0 for open. 2 Firmware 2.4.6 or later required 17 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.4.5 Switch input, Door Connect the switch leads to IN and GND, if applicable connect a second switch to I/O2 and GND. When set to Switch Input Door, the sensor will send a triggered message containing the current state of the switch when the switch is opened or closed, then wait for a user-selectable amount time, then send a message containing the number of openings/closings that has occurred during the wait. In this mode, the "External Startup Time" parameter sets the wait time in milliseconds. Debounce may be used and is set using the "External Trigger Timeout" parameter. The reported values will be 1 for closed and 0 for open. 5.5 Temperature Probe DS18B20 The ELT is compatible with DS18B20 1-wire temperature probes. When connected to the ELT the probes will be set to 12-bit-mode. Six DS18B20 can be connected to the same ELT at once (ELT lite supports one DS18B20). If one DS18B20 temperature is connected the temperature will be reported as "External Temperature 1". If multiple DS18B20 are connected, one of the probes will be reported as External Temperature 1" and the rest as one or multiple External Temperature 2. The sequence of the External Temperature 2 will always be the same, so our recommended method of deciding which DS18B20 is reported as which External Temperature is to connect all probes that are to be connected and then dip the probe in a glass of hot or cold water while observing which reported temperature changes. Connect the black lead(s) to GND, the yellow lead(s) to IN and red lead(s) to B+. 18 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.6 Temperature Probe Digital DS18B20 + Switch Normally Open The digital temperature probe (§4.5) can be combined with switch normally open (§4.3.3) in parallel. Connect the DS18B20 according to §8.4, the switch negative lead to GND and positive lead to I/O2. 5.7 Sensirion SHT3x External Temperature and Humidity Sensor3 The Sensirion SHT3x series are high accuracy temperature and relative humidity sensor. The external SHT probe is sampled using single shot high repeatability measurements. The temperature of the SHT85 will be reported as External Temperature 1 and the humidity will be reported as Pulse 1. 3 Firmware 2.5.0 or later required 19 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.8 Water leak The water leak mode measures conductivity between two wires which can be used to detect water and moisture. The reported values are 0-255 where higher values means higher conductivity. Note that longer water leak cables have a higher base conductivity, this needs to be measured after the cables have been installed and an appropriate alarm level will need to be set in the backend system. Connect the unshielded wires to IN and I/O2, make sure they aren't touching each other as that will result in the sensor always measuring maximum conductance. Note: The above picture is for illustrative purposes only. The water sense leads do not need to extend the black and yellow wires. 5.8 Sender Unit (0-180 Ohm) Connect the sender unit leads to GND and I/O2. The ELT will internally pull up an 180 ohm resistor and measure the voltage divided by the internal pull-up and the external sender resistance using the ADC. The reported value will be the ADC read in mV (VADC). To get the resistance of the sender (R), use the following formula: = 180 ( - ) 20 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.9 Soil Moisture Meter Teros12 Connect the black lead to GND, orange lead to IN and brown lead to B+. In the application "Sensor settings", please follow these instructions: For Teros 10, ECH2O 10HS, and ECH2O EC-5 select "Meter Soil sensor (analog)". For Teros 11, Teros 12, and ECH2O 5TE select "Meter Soil sensor (digital)". 5.10 Soil Moisture MuRata SLT50064 The SLT5006 is a digital soil moisture sensor that measures electrical conductivity, moisture water content and temperature. Connect yellow lead to I/O2, black lead to GND, blue lead to IN, and red and white leads to B+, leave green and orange leads disconnected. Values are reported as Volumetric water content: Pulse 1 Electrical conductivity (pore): Pulse 2 Electrical conductivity (bulk): Pulse 2 abs To get actual electrical conductivity, multiply the reported value by 0.001 4 Firmware 2.4.6 or later required 21 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 5.12 Meas M32Jx and M300Jx Digital Pressure sensors5 The Meas M32Jx and M300Jx are digital pressure sensors that connects to the ELT via I2C. The ELT will automatically detect the I2C address of the connected device. External temperature is reported as External Temperature 1 and pressure as Pulse 1. The pressure is reported as digital counts, consult the manual of your Meas I2C pressure sensor for counts to pressure conversion. 5 Firmware 2.5.0 or later required 22 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se Technical Manual Radar Module 6. Document version history Version 1.0 Comment First version 23 Elektroniksystem i Umeå AB Tvistevägen 48, 90736 Umeå, Sweden E-mail: support@elsys.se Web: www.elsys.se