Indoor Ambiance Monitoring Sensor AM100 Series User Guide Milesight IoT
Applicability This guide is applicable to AM100 series sensors shown as follows, except where otherwise indicated. AM107-915M belongs to the AM107 series. Model Description AM104 series Indoor Ambiance Sensor(Temp, Hum, Light, Motion) AM107 series Indoor Ambiance Sensor(Temp, Hum, Light, Motion, CO2, TVOC, Pressure) Safety Precautions Milesight will not shoulder responsibility for any loss or damage resulting from not following the instructions of this operating guide.
FCC Statement: Any Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. 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.
ISED RF exposure statement: This equipment complies with ISED radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator& your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Le rayonnement de la classe b repecte ISED fixaient un environnement non contrôlés.
Contents 1. Product Introduction................................................................................................................................. 6 1.1 Overview........................................................................................................................................... 6 1.2 Features............................................................................................................................................6 2. Hardware Introduction................
1. Product Introduction 1.1 Overview AM100 series is a compact indoor ambience monitoring sensor including motion, humidity, temperature, light, TVOC, CO2, barometric pressure for wireless LoRa network. AM100 series is a battery powered device and is designed to be wall-mounted. It is equipped with NFC (Near Field Communication) and can easily be configured via a smartphone or a PC software. Sensor data are transmitted in real-time using standard LoRaWAN® protocol.
2.2 Hardware Overview Front Panel: ① E-ink screen ② NFC Area ③ LoRa Antenna (Internal) ④ PIR Sensor ⑤ Light Sensor Back Panel: ⑥ Power button ⑦ Battery Cover ⑧ Mounting Holes ⑨ Type-C Port 2.3 E-ink Screen 2.3.
To learn what an icon means, find it below. Icon Description Screen Update Battery level 24 hours Sync time with software or mobile App 1 min The device joins the network. The device fails to join the network.
Note: AM100 series will do a full-screen refresh every 30 minutes in order to remove ghosting. Please refer section 4.5.3 for TVOC and CO2 threshold settings. AM100 series shows current value on the screen and uplink the average value of the reporting interval to the gateway. 2.3.2 Screen Mode Switch Here are 3 methods to switch between the three modes: Power button: Quick press the power button to switch the mode.
3. Power Supply Remove the battery cover and install two new AA/LR6 batteries. Batteries can be replaced on the fly. Note: AM100 series can also be powered by type-C USB port (5V, 100mA). When batteries and external power are both connected, external power will be the preferred power supply option USB port can't be used to charge battery. 4. Operation Guide 4.1 Log in the ToolBox AM100 series can be monitored and configured via ToolBox App or ToolBox software.
Note: 1) Ensure the location of smartphone NFC area and it’s recommended to take off phone case. 2) If the smartphone fails to read/write configurations via NFC, keep the phone away and back to try again. 3) AM100 series can also be configured by dedicated NFC reader, which can be purchased from Milesight IoT. 4.1.2 USB Configuration 1. Download ToolBox software from www.milesight-iot.com. 2. Connect the device to a computer via Type-C port. 3.
4. After logging in the ToolBox, you can click “Power On” or “Power Off” to turn on/off device and change other settings. 4.2 LoRaWAN Settings LoRaWAN settings is used for configuring the transmission parameters in LoRaWAN® network. Step 1: Go to “LoRaWAN Settings -> Basic” of ToolBox software or “Device->Setting->LoRaWAN Settings” of ToolBox App to configure join type, App EUI, App Key and other information. You can also keep all settings by default.
Parameters Device EUI App EUI Application Port Join Type LoRaWAN Version Description Unique ID of the device which can also be found on the label. Default App EUI is 24E124C0002A0001. The port used for sending and receiving data, default port is 85. OTAA and ABP mode are available. V1.0.2, V1.0.3, V1.1 are available. Application Key Appkey for OTAA mode, default is 5572404C696E6B4C6F52613230313823. Device Address DevAddr for ABP mode, default is the 5th to 12th digits of SN.
ADR Mode Allow network server to adjust datarate of the device. Tx Power Transmit power of device. Note: 1) Please contact sales for device EUI list if there are many units. 2) Please contact sales if you need random App keys before purchase. 3) Select OTAA mode if you use Milesight IoT cloud to manage devices. 4) Only OTAA mode supports rejoin mode.
Note: For -868M model, default frequency is EU868; For -915M model, default frequency is AU915. 4.3 Time Synchronization Mobile App Configuration: Go to “Device ->Status”to click “sync” to sync the time on the screen. Software Configuration: Go to “Status” page to sync the time on the screen.
4.4 Basic Settings Go to “Device Settings->Basic” of ToolBox software or “Device->Setting->General Settings” of ToolBox App to change the reporting interval, screen mode, etc. Parameters Reporting Interval Description Reporting interval of transmitting data to network server.Default: 10 mins Range: 1-1080 mins Change the temperature unit displayed on the ToolBox and screen. Temperature Unit Note: 1) The temperature unit in the reporting package is fixed as °C.
4.5.2 Calibration Settings ToolBox supports numerical calibration for all items. Go to “Device Settings->Basic” of ToolBox software or “Device->Setting->Calibration Settings” of ToolBox App to type the calibration value and save, the device will add the calibration value to raw value. Besides numerical calibration, ToolBox provides more calibration methods for CO2: Manual Calibration: Put the device in an open outdoor environment more than 10 minutes and click this button to calibrate the CO2 value.
4.5.3 Threshold Settings AM100 series will upload the current data instantly after the threshold is triggered. AM107 will also show alarms of CO2 and TVOC on the screen. Go to “Device Settings->Basic” of ToolBox software or “Device->Setting->Threshold Settings” of ToolBox App to enable the threshold settings and input the threshold. 4.6 Maintenance 4.6.1 Upgrade ToolBox Software: 1. Download firmware from www.milesight-iot.com to your PC. 2.
ToolBox App: 1. Download firmware from www.milesight-iot.com to your smartphone. 2. Open ToolBox App and click “Browse” to import firmware and upgrade the device. Note: 1) Operation on ToolBox is not supported during the upgrade. 2) Only Android version ToolBox supports the upgrade feature. 4.6.2 Backup AM100 devices support configuration backup for easy and quick device configuration in bulk. Backup is allowed only for devices with the same model and LoRa frequency band.
Via ToolBox App Step 1: Go to “Template” page on the App and save current settings as a template. You can also edit the template file. Step 2: Select one template file which saved in the smartphone and click “Write”, then attach to another device to write configuration. Note: Slide the template item left to edit or delete the template. Click the template to edit the configurations. 4.6.
Via Hardware: Hold on power button more than 10s. Via ToolBox Software: Go to “Maintenance->Backup and Reset” to click “Reset”. Via ToolBox App: Go to “Device->Maintenance” to click “Reset”, then attach smart phone with NFC area to device to complete reset. 5. Installation 1. Attach the mounting sticker to the wall. 2. Drill two mounting holes are according to the sticker’s mark (around 88mm). Note: The connecting line of two holes must be a horizontal line. 3.
Note: In order to ensure the best detection and LoRaWAN® communication effect, it is recommended to install AM100 series as follows: There should not be any isolates or barriers in PIR and light detection range. Do not mount the device where the temperature is below/above operating range and temperature varies greatly. Stay far away from any heat source or cold source like oven, refrigerator. Do not mount the device close to where airflow varies greatly like windows, vent, fan and air conditioner.
2. Go to “My Devices” page and click “+New Devices”. Fill in the SN of device and select associated gateway. 3. After the device is online in Milesight IoT Cloud, you can check the data via webpage or mobile App and create dashboard for it. 7. Device Payload All data are based on following format(HEX): Channel1 Type1 Data1 Channel2 Type2 Data2 Channel 3 ... 1 Byte 1 Byte N Bytes 1 Byte 1 Byte M Bytes 1 Byte ...
For decoder examples please find files on https://github.com/Milesight-IoT/SensorDecoders. 7.1 Basic Information AM100 series sensors report basic information of sensor everytime joining the network. Channel ff Type Description 01(Protocol Version) 01=>V1 08 (Device SN) 12 digits 09 (Hardware Version) 01 40 => V1.4 0a (Software Version) 01 14 => V1.
Channel Type Description 01 75(Battery Level) UINT8, Unit: % 03 67 (Temperature) INT16, Unit: °C, Resolution: 0.1 °C 04 68(Humidity) UINT8, Unit: %, Resolution: 0.5 % 05 6a(Activity Level) UINT16 06 65(Illumination) Byte 1-2: Illumination, Unit: lux Byte 3-4: Visible + Infrared Byte 5-6: Infrared 07 7d (CO2) UINT16, Unit: ppm 08 7d (TVOC) UINT16, Unit: ppb 09 73 (Barometric Pressure) UINT16, Unit: hPa, Resolution: 0.
7.3 Downlink Commands AM100 series sensors support downlink commands to configure the device.The application port is 85 by default.
2. Set AU915 or US915 channel mask as 8-15. ff0501ff00 ff05020000 ff05030000 ff05040000 ff05050000 Channel Type Value ff 05(Set Channel Mask) 01: Channel index 0-15, ff00=>8-15 is enabled 02-05: Channel index 16-79, 0000=>all disabled 3. Reboot the device. ff10ff Channel Type Value ff 10 (Reboot) ff (Reserved) 4. Disable temperature and TVOC sensor collection.
heart rate and slight nausea may also be present. 5000ppm Workplace exposure limit (as 8-hour TWA) in most jurisdictions. >40000ppm Exposure may lead to serious oxygen deprivation resulting in permanent brain damage, coma, even death.