By attaching it to objects, temperature and humidity data can be wirelessly transmitted.
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TWELITE ARIA
Wireless tag with magnetic, temperature, and humidity sensors
1 - TWELITE ARIA (BLUE / RED)
Model MW-(B/R)-ARIA-0
TWELITE ARIA (BLUE / RED) is a wireless tag module equipped with a temperature/humidity sensor and a Hall sensor.
1.1 - TWELITE ARIA (BLUE / RED) Datasheet
Latest
TWELITE ARIA is a wireless tag that integrates the TWELITE wireless microcontroller, a temperature/humidity sensor, magnetic sensor, coin cell battery holder, and antenna into a single package. It can wirelessly transmit temperature, humidity, and door open/close status.
A dedicated ARIA application (firmware) is pre-installed. It starts operating immediately when a coin cell (CR2032) is inserted. With low power consumption, it can operate continuously for years.
It is ideal for those who have ideas for using wireless tags but are not confident in hardware or software development, or who have limited development resources.
TWELITE ARIA is a compact wireless tag with excellent transmission range and long battery life.
Specifications
Model Numbers
The model numbers for TWELITE ARIA are as follows.
| Common Name | Product Code | Remarks |
|---|---|---|
| TWELITE ARIA (BLUE) | MW-B-ARIA-0 | Standard Output |
| TWELITE ARIA (RED) | MW-R-ARIA-0 | High Output |
Product codes are subject to change. For the latest product codes, please refer to our official website.
Wireless and MCU Section
For specifications of the wireless and MCU section, please refer to the TWELITE datasheet.
TWELITE ARIA includes the following TWELITE modules:
| Model | Embedded TWELITE |
|---|---|
| MW-B-ARIA-0 | TWE-L-WX |
| MW-R-ARIA-0 | MW-R-WX |
Antenna
A reverse-F type antenna is adopted.
| Item | Specification |
|---|---|
| Antenna Type | MW-A-P1934 (Datasheet) |
| Gain (typical, omni) | 1.8[dBi] (without case) / -0.46[dBi] (with case) |
| Polarization | Linear polarization |
Vertical Radiation Pattern
Vertical Directionality
Horizontal Radiation Pattern
Horizontal Directionality
Certifications
| MW-B-ARIA-0 | MW-R-ARIA-0 | |
|---|---|---|
| Certification Type | TWE-001 Lite | TWELITE RED |
| MIC Certification No. | 007-AB0031 | 007-AF0062 |
| FCC ID | 2AINN-L1 | - |
| IC ID | 21544-L1 | - |
| Remarks | RoHS Compliant | RoHS Compliant |
Only MW-B-ARIA-0 is certified for overseas use.
Depending on the country of use, it may be required to label the TWELITE module or product with FCC ID or IC ID. If you suspect this applies to your use case, please contact us.
Built-in Sensors
- Temperature and Humidity Sensor: Sensirion SHT40
- Magnetic Sensor:
- Initial version: Texas Instruments DRV5032FD
- Units shipped from April 2024: Diodes Incorporated AH1390-HK4-7
- Watchdog Timer: Texas Instruments TPL5010
- LED: OSRAM Opto Semiconductors LB Q39E-L2OO-35-1
Sensors used may be changed without notice.
For details about each sensor, please refer to the respective datasheets.
Component Names
Appearance may vary depending on the lot. The figure above shows the initial lot.
1. TWELITE
This is the core wireless microcontroller module.
2. LED
Functions as a lamp to indicate status, etc.
3. 7P Interface
Interface used for configuring and writing the application.
This is the connector for TWELITE R2/R3. Be careful with the orientation. Connecting it in reverse while powered may cause damage.
Below is the correspondence table of signal pins.
| Name | Signal Name | Description |
|---|---|---|
| GND | GND | Ground (negative power line) |
| TXD | DIO6 | Serial line (connect to RX on PC side) |
| PRG | SPIMISO | Connect to GND to reset; when open or connected to VCC, enters programming mode |
| RXD | DIO7 | Serial line (connect to TX on PC side) |
| RST | RESETN | Connect to GND to reset |
| VCC | VCC | Positive power supply |
| SET | - | Extended control signal |
4. Temperature and Humidity Sensor
This is the temperature and humidity sensor.
5. I2C Expansion Port (Initial Lot Only)
Terminal for connecting I2C sensors. Only available on initial lots.
6. Magnetic Sensor
Sensor that detects proximity of a magnet. It is not a geomagnetic sensor.
7. Battery Holder
Coin cell holder for CR2032.
8. PCB Antenna
A PCB antenna formed by circuit patterns on the board.
Mechanical Drawings
Main Unit
Outline Drawing of Main Unit
Case
Outline Drawing of Case
Circuit Diagram
Circuit Diagram
Characteristics
This section describes characteristics specific to TWELITE ARIA and excerpts from component datasheets.
For any unlisted items, please refer to the respective datasheets.
Values are based on semiconductor datasheets.
TWELITE
For details, refer to the TWELITE datasheet.
Absolute Maximum Ratings
| Min | Max | ||
|---|---|---|---|
| Power Supply (VCC) | -0.3 | 3.6 | V |
| Analog IO (VREF/ADC) | -0.3 | VCC+0.3 | V |
| Digital IO | -0.3 | VCC+0.3 | V |
Recommended Operating Conditions
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Supply Voltage | 2.0 | 3.0 | 3.6 | V | |
| Start-up Voltage | 2.05 | V | |||
| Operating Temperature | No condensation | -20 | 75 | °C | |
| Operating Humidity | No condensation | 85 | %RH |
Current Consumption
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Sleep (RAM OFF, no timer) | 0.1 | µA | |||
| Sleep (RAM ON, with timer) | 1.5 | µA | |||
| Tx (CPU doze) | MW-B-ARIA-0 | 15.3 | mA | ||
| MW-R-ARIA-0 | 23.3 | mA | |||
| Rx (CPU doze) | MW-B-ARIA-0 | 17.0 | mA | ||
| MW-R-ARIA-0 | 14.0 | mA |
I/O Characteristics
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| DIO Internal Pull-up | 40 | 50 | 60 | kΩ | |
| DIO High Input | VCC×0.7 | VCC | V | ||
| DIO Low Input | -0.3 | VCC×0.27 | V | ||
| DIO Input Hysteresis | 200 | 310 | 400 | mV | |
| DIO High Output | VCC×0.8 | VCC | V | ||
| DIO Low Output | 0 | 0.4 | V | ||
| DIO Sink/Source Current | VCC 2.7–3.6V | 4 | mA | ||
| VCC 2.2–2.7V | 3 | mA | |||
| VCC 2.0–2.2V | 2.5 | mA |
Temperature and Humidity Sensor
For details, refer to the SHT40 product information.
The temperature and humidity sensor has been verified to be within ±1°C of the calibration value at room temperature before shipment. However, discrepancies may occur due to storage/usage conditions or aging. If more accurate readings are required, please perform calibration in your intended environment and apply corrections.
The temperature and humidity range shown in the table below indicates the sensor’s capability. TWELITE ARIA itself is designed to operate from -30 to 85°C and up to 85% relative humidity.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Current Consumption | Idle, 25°C | 0.1 | 1.0 | µA | |
| During measurement | 350 | 500 | µA | ||
| Measurement Range | Temperature | -40 | 125 | °C | |
| Humidity | 0 | 100 | %RH | ||
| Resolution | Temperature | 0.01 | °C | ||
| Humidity | 0.01 | %RH |
Magnetic Sensor
Initial Version
For details, refer to the DRV5032FD product page.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Current Consumption | VCC=3V | 1.6 | 3.5 | µA | |
| Sampling Frequency | 20 | Hz | |||
| Magnetic Threshold | When approaching | ±1.5 | ±3 | ±4.8 | mT |
| When releasing | ±0.5 | ±1.5 | ±3 | mT |
Units Shipped from April 2024
For details, refer to the AH1390-HK4-7 product page.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Current Consumption | VCC=3.6V | 2.2 | 13 | µA | |
| Sampling Period | 30 | 45 | 80 | ms | |
| Magnetic Threshold | S-pole approaching | 6 | 17 | 25 | Gauss |
| N-pole approaching | -25 | -17 | -6 | Gauss | |
| S-pole releasing | 2 | 11 | 20 | Gauss | |
| N-pole releasing | -20 | -11 | -2 | Gauss |
Watchdog Timer
For details, refer to the TPL5010 product page.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Current Consumption | 35 | 50 | nA | ||
| Pulse Interval | 60 | 90 | 120 | sec |
LED
For details, refer to the LB Q39E-L2OO-35-1 product page.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Emission Wavelength | If=5mA | 470 | nm | ||
| Luminous Intensity | If=5mA | 45 | mcd | ||
| Limiting Resistor | 220 | Ω |
Precautions
Inserting the Coin Cell
Insert the CR2032 coin cell with the positive side facing the positive side of the holder. If the LED on the TWELITE ARIA blinks three times, it is functioning properly.
Battery Insertion Orientation
Ensure correct battery orientation. Inserting it backwards may cause overheating and damage.
Due to its structure, the battery holder of TWELITE ARIA is prone to detachment at the soldered area. Please follow the precautions below:
- When removing the coin cell, it is recommended to gently press the battery holder from above to avoid stressing the soldered section.
- When operating TWELITE ARIA, use a dedicated case to hold down the battery holder from above.
Waterproof Performance
The TWELITE ARIA case is not waterproof.
Disposal
Dispose of this device in accordance with your local municipality’s ordinances and regulations. Please consult your local authorities for details.
General Notes
When using our products, be sure to evaluate and verify them under the actual conditions of your intended use.
For applications requiring high reliability or involving human safety, please contact your distributor in advance.
Revision History
| Version | Date | Description |
|---|---|---|
| 1.2.1 | 2024/5/7 | Added Component Names |
| 1.2.0 | 2024/2/27 | Added information about the new magnetic sensor |
| 1.1.1 | 2024/2/27 | Migrated to new website, minor corrections |
| 1.1.0 | 2020/12/10 | Added antenna radiation pattern details |
| 1.0.0 | 2020/12/3 | Initial version |
1.2 - TWELITE ARIA (BLUE / RED) Datasheet
v1.0.1
TWELITE ARIA is a wireless tag that integrates the wireless microcontroller TWELITE, a temperature/humidity sensor, magnetic sensor, coin cell battery holder, and antenna into a single package. It can wirelessly transmit temperature, humidity, and door open/close status.
A dedicated ARIA application (firmware) is pre-installed, so it starts operating as soon as a coin cell (CR2032) is inserted. It features low power consumption and can operate continuously for years.
It is ideal for those who have ideas for using wireless tags but are not confident in hardware or software development, or who have limited development resources.
TWELITE ARIA offers excellent wireless range, long battery life, and a compact form factor.
Specifications
製品型番
The model numbers for TWELITE ARIA are as follows.
| Common Name | Product Code | Remarks |
|---|---|---|
| TWELITE ARIA (BLUE) | MW-B-ARIA-0 | Standard Power |
| TWELITE ARIA (RED) | MW-R-ARIA-0 | High Power |
Product codes are subject to change. For the latest product codes, please refer to our official website.
Wireless and MCU Section
For specifications of the wireless and microcontroller sections, please refer to the TWELITE datasheet.
TWELITE ARIA includes the following TWELITE modules:
| Model | Included TWELITE |
|---|---|
| MW-B-ARIA-0 | TWE-L-WX |
| MW-R-ARIA-0 | MW-R-WX |
Antenna
The inverted-F antenna is adopted.
| Item | Specification |
|---|---|
| Antenna Type | MW-A-P1934 (Datasheet) |
| Gain (Typical, Omni) | 1.8[dBi] (without case) / -0.46[dBi] (with case) |
| Polarization | Linear Polarization |
Vertical Radiation Pattern
垂直方向の指向性
Horizontal Radiation Pattern
水平方向の指向性
Certifications
| Item | MW-B-ARIA-0 | MW-R-ARIA-0 |
|---|---|---|
| Certification Type | TWE-001 Lite | TWELITE RED |
| Japan MIC Certification No. | 007-AB0031 | 007-AF0062 |
| FCC ID | 2AINN-L1 | - |
| IC ID | 21544-L1 | - |
| Remarks | RoHS Compliant | RoHS Compliant |
Only MW-B-ARIA-0 is certified for overseas use.
Depending on the country of use, it may be required to label the TWELITE module or product with FCC ID or IC ID. If you suspect this applies to your use case, please contact us.
Built-in Sensors
- Temperature/Humidity Sensor: Sensirion SHT40
- Magnetic Sensor: Texas Instruments DRV5032FD
- Watchdog Timer: Texas Instruments TPL5010
- LED: OSRAM Opto Semiconductors LB Q39E-L2OO-35-1
The sensors used are subject to change without notice.
For details on each sensor, please refer to their respective datasheets.
Mechanical Drawings
Main Unit
Outline Drawing of Main Unit
Case
Outline Drawing of Case
Circuit Diagram
Circuit Diagram
Characteristics
This section lists characteristics specific to TWELITE ARIA, as well as references from each component’s datasheet. For items not listed here, please consult the respective datasheets.
Values are based on the semiconductor datasheets.
TWELITE
For details, refer to the TWELITE datasheet.
Absolute Maximum Ratings
| Min | Max | ||
|---|---|---|---|
| Power Supply (VCC) | -0.3 | 3.6 | V |
| Analog I/O (VREF/ADC) | -0.3 | VCC+0.3 | V |
| Digital I/O | -0.3 | VCC+0.3 | V |
Recommended Operating Conditions
| Condition | Min | Typ | Max | ||
|---|---|---|---|---|---|
| Supply Voltage | 2.0 | 3.0 | 3.6 | V | |
| Start-up Voltage | 2.05 | V | |||
| Operating Temperature | No condensation | -20 | 75 | °C | |
| Operating Humidity | No condensation | 85 | %RH |
Current Consumption
| Condition | Min | Typ | Max | ||
|---|---|---|---|---|---|
| Sleep (Without Timer) | 0.1 | uA | |||
| Sleep (With Timer) | 1.5 | uA | |||
| Tx (CPU doze) | MW-B-ARIA-0 | 15.3 | mA | ||
| MW-R-ARIA-0 | 23.3 | mA | |||
| Rx (CPU doze) | MW-B-ARIA-0 | 17.0 | mA | ||
| MW-R-ARIA-0 | 14.0 | mA |
I/O Characteristics
| Condition | Min | Typ | Max | ||
|---|---|---|---|---|---|
| DIO Internal Pull-up | 40 | 50 | 60 | kΩ | |
| DIO Hi Input | VCCx0.7 | VCC | V | ||
| DIO Lo Input | -0.3 | VCCx0.27 | V | ||
| DIO Input Hysteresis | 200 | 310 | 400 | mV | |
| DIO Hi Output | VCCx0.8 | VCC | V | ||
| DIO Lo Input | 0 | 0.4 | V | ||
| Load/Sink Current | VCC 2.7~3.6V | 4 | mA | ||
| VCC 2.2~2.7V | 3 | mA | |||
| VCC 2.0~2.2V | 2.5 | mA |
Temperature and Humidity Sensor
For more information, see the SHT40 product page.
The temperature and humidity sensor is verified to be within ±1°C of the calibration value performed at room temperature prior to shipment. However, storage conditions, usage environment, and aging may cause deviation from actual values. If accurate readings are required, please perform calibration in your intended environment and apply correction to the measurements.
The temperature and humidity ranges shown in the table below are the sensor’s own limits. Note that TWELITE ARIA is rated for an operating temperature range of -30 to 85°C and humidity up to 85%.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Current Consumption | Idle state, 25°C | 0.1 | 1.0 | µA | |
| Measurement | 350 | 500 | µA | ||
| Measurement Range | Temperature | -40 | 125 | °C | |
| Humidity | 0 | 100 | %RH | ||
| Resolution | Temperature | 0.01 | °C | ||
| Humidity | 0.01 | %RH |
Magnetic Sensor
For more information, see the DRV5032FD product page.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Current Consumption | VCC = 3V | 1.6 | 3.5 | µA | |
| Sampling Frequency | 20 | Hz | |||
| Magnetic Threshold | Approaching | ±1.5 | ±3.0 | ±4.8 | mT |
| Receding | ±0.5 | ±1.5 | ±3.0 | mT |
Watchdog Timer
For more information, see the TPL5010 product page.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Current Consumption | 35 | 50 | nA | ||
| Pulse Interval | 60 | 90 | 120 | sec |
LED
For more information, see the LB Q39E-L2OO-35-1 product page.
| Condition | Min | Typ | Max | Unit | |
|---|---|---|---|---|---|
| Emission Wavelength | If = 5mA | 470 | nm | ||
| Luminous Intensity | Vf = 5mA | 45 | mcd | ||
| Limiting Resistor | 220 | Ω |
Precautions
Inserting the Coin Cell
Insert the CR2032 coin cell with the positive side facing the positive side of the holder. If the LED on the TWELITE ARIA blinks three times, it is operating correctly.
Battery Insertion Orientation
Be sure to insert the battery in the correct orientation. Inserting it in reverse may cause overheating and damage.
Also, due to the structure of the TWELITE ARIA’s battery holder, the soldered joints may come loose. Please observe the following precautions:
- When removing the coin cell, it is recommended to gently press down on the battery holder from above with your finger to avoid stressing the solder joints.
- When using TWELITE ARIA, it is recommended to operate it while pressing the battery holder down with a dedicated case.
Disposal
When disposing of this device, please follow the ordinances and regulations of your local municipality. For details, consult your local government.
General Notes
When using our products, be sure to evaluate and verify them under the actual conditions of your usage environment.
For applications requiring high reliability or involving human safety, please consult your distributor in advance.
Revision History
| Version | Date | Details |
|---|---|---|
| 1.1.1 | 2024/2/27 | Migrated to new website, minor corrections |
| 1.1.0 | 2020/12/10 | Added information on antenna radiation pattern |
| 1.0.0 | 2020/12/3 | Initial release |