The KET-THL-200.W combines a light sensor and a digital sensor for temperature and relative humidity in a compact size device, creating a comprehensive environmental monitoring.
The high sensitivity of the amplified radio module allows to reach distances of over 600 m in free air.
KET-THL-200.W comes with an internal memory, which allows you to store over 60,000 information, in case of malfunction of wireless network, retransmitting the data automatically as soon as possible.
The LinkQuality feature indicates the actual quality of radio reception to allow rapid positioning of the device.
When a signal arrives, the Diversity system selects the antenna with the highest gain thus increasing the radio sensitivity.
The battery life is greater than four years with ordinary alkaline batteries.
The case is white in colour
Protection Range | IP30 (IP54 version on request) |
Operative Temperature | -20 ÷ +60 °C |
Storage Temperature | -20 ÷ +80 °C |
Relative Humidity | MAX 80% not condensing |
Dimensions | 115 x 70 x 24 mm (W x H x D) |
Mounting | Wall mounting with supplied supports |
Material | ABS, self extinguishing: UL 94 V-O |
Supply Voltage | 1.5 V |
Battery Type | 2 AA |
Approximate Battery Life | > 4 years |
Memory Type | Internal Flash |
Data Storage Capacity | Retention of more than 60,000 data |
Supported Protocols | X-Monitor Protocol (X-MP) / IEEE 802.15.4 / ZigBee™ Pro 2.0 |
Radio Frequency | 2.4 GHz ISM Band |
Output Power | +3 ÷ +20 dBm |
Sensitivity | -101 dBm |
Antenna Type | 1 internal |
Max Distance (Free Air) | Over 600 m |
Radio Signal Indicator | Integrated (LinkQuality) |
Output Power Adjustment | From local keyboard and remotely |
Firmware Upgrade | Via radio |
Measure Range | -40 ÷ +123.8 °C |
Precision | ±0.4 ÷ 25 °C |
Repeatability | ±0.1 °C |
Resolution | ±0.01 °C |
Measure Range | 0 ÷ 100%RH |
Precision | ±3%RH from 20 to 80%RH |
Repeatability | ±0.1%RH |
Resolution | ±0.03%RH |
Hysteresis | ±1 %RH |
Long Period Stability | <0.5 %RH/year |
Measure Range | 10 ÷ 1000 Lux |
Response Curve | Similar to that of the human eye |