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| Price | Negotiable |
| MOQ | 1 Piece |
| Delivery Time | Negotiable |
| Brand | SensorMicro |
| Place of Origin | Wuhan, Hubei Province, China |
| Certification | ISO9001:2015; RoHS; Reach |
| Model Number | TIMO112 |
| Payment Terms | T/T |
| Place of Origin | Wuhan, Hubei Province, China | Spectral Range | 8~14μm |
| Model Number | TIMO112 | Temperature Measurement Range | -20℃~+550℃ |
| Size (mm, without FPC) | 12.6mm×12.6mm×8.8mm | Certification | ISO9001:2015; RoHS; Reach |
| Brand Name | SensorMicro | Payment Terms | T/T |
| Pixel Pitch | 12μm | Price | Negotiable |
| Minimum Order Quantity | 1 Piece | Weight (g) | 1.8g |
| Resolution | 120x90 |
TIMO112 infrared thermal module integrates 120x90/12μm wafer level package (WLP) infrared detector and is optimized for applications requiring minimal size, weight, power, and cost (SWaP-C). Its ultra-compact structure enables easy integration into various smart devices, thermal imagers, or mobile terminals with strict requirements on cost, size, and weight.
Compared with traditional temperature measuring tools, the TIMO112 IR sensor module offers greater sensitivity than common thermopile arrays. Utilizing wafer level packaging technology, this thermal camera module provides exceptional value for infrared imaging applications with stringent cost, size, and weight requirements.
| Model | TIMO112 |
|---|---|
| Resolution | 120×90 |
| Pixel Size | 12μm |
| Spectral Response | 8~14μm |
| Focus Mode | Focus Free |
| Lens (HFOV/FL) | 50°/1.6mm |
| Weight | 1.8g |
| Size (without FPC) | 12.6mm×12.6mm×8.8mm |
| Number of PINs | 40PIN |
| Output Data | 14bit Raw |
| Frame Rate | 25Hz |
| Temperature Measurement Range | -20℃~+550℃ (-20℃~+150℃ | +100℃~550℃) |
| Temperature Measurement Accuracy | Greater of ±2℃ / ±2% |
| Operating Temperature | -20℃~+60℃ |
| Humidity | 5%~85% |
| Storage Temperature | -45℃~+85℃ |
| Certification | RoHS 2.0 / Reach |
The TIMO112 thermal camera module is widely used in thermography, intelligent hardware, smart building, smart home, AIoT, and various other industrial applications.
In nature, all objects with temperatures above absolute zero (-273℃) radiate infrared rays. By measuring the infrared radiation temperature difference between targets and their background using an infrared camera detector, different infrared images (thermal images) can be obtained.
Infrared radiation emitted by targets enters the thermal detector's sensing range. The infrared detector converts radiation signals of varying intensity into corresponding electrical signals, which are then amplified and processed to form infrared images visible to the naked eye.
Uncooled infrared focal plane detectors operate at room temperature without requiring Integrated Dewar Cooler Assembly (IDCA) devices. They offer advantages including fast startup, low power consumption, small size, light weight, long lifespan, and low cost. While sensitivity may not match cooled detectors, their cost-effectiveness makes them ideal for broader applications.
